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__TOC__
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=[[smart shade method |Smart shade methods]]=
in [[smart shade method |this page]] we review methods for this project<br /><br />


=Literature Review=


See also : [[Smart solar shades literature review]]


==1."[http://www.sciencedirect.com/science/article/pii/S0016328702000083 Photovoltaics — a path to sustainable futures]" ==
<ol>
<li>{{Cite journal
'''By  Joshua M Pearce'''<br /><br />
| doi = 10.1016/S0016-3287(02)00008-3
'''Review''':As both population and energy use per capita increase, modern society is approaching physical limits to its continued fossil fuel consumption. The immediate limits are set by the planet’s ability to adapt to a changing atmospheric chemical composition, not the availability of resources. In order for a future society to be sustainable while operating at or above our current standard of living a shift away from carbon based energy sources must occur. An overview of the current state of active solar (photovoltaic, PV) energy technology is provided here to outline a partial solution for the environmental problems caused by accelerating global energy expenditure. The technical, social, and economic benefits and limitations of PV technologies to provide electricity in both off-grid and on-grid applications is critically analyzed in the context of this shift in energy sources. It is shown that PV electrical production is a technologically feasible, economically viable, environmentally benign, sustainable, and socially equitable solution to society’s future energy requirements.
| issn = 0016-3287
| volume = 34
| issue = 7
| pages = 663-674
| last = Joshua M
| first = Pearce
| title = Photovoltaics — a path to sustainable futures
| journal = Futures
| date = 2002-09
}}
<br>
<br>
<br>
'''Abstract:''' As both population and energy use per capita increase, modern society is approaching physical limits to its continued fossil fuel consumption. The immediate limits are set by the planet’s ability to adapt to a changing atmospheric chemical composition, not the availability of resources. In order for a future society to be sustainable while operating at or above our current standard of living a shift away from carbon based energy sources must occur. An overview of the current state of active solar (photovoltaic, PV) energy technology is provided here to outline a partial solution for the environmental problems caused by accelerating global energy expenditure. The technical, social, and economic benefits and limitations of PV technologies to provide electricity in both off-grid and on-grid applications is critically analyzed in the context of this shift in energy sources. It is shown that PV electrical production is a technologically feasible, economically viable, environmentally benign, sustainable, and socially equitable solution to society’s future energy requirements.
<br>
<br>
<br>
'''Key Features''':
*Introduction to photovoltaics
[http://mtu.academia.edu/JoshuaPearce/Papers/1540219/Photovoltaics_-_a_path_to_sustainable_futures open access]
<br>


----


==2."[http://www.sciencedirect.com/science/article/pii/S0038092X11003847/pdfft?md5=862c6c731f56e74bd59b2933e210860f&pid=1-s2.0-S0038092X11003847-main.pdf Multiple-input Maximum Power Point Tracking algorithm for solar panels with reduced sensing circuitry for portable applications ]" ==  
<br>
''' By F. Boico, B. Lehman ''' <br /><br />
<li>{{Cite journal
'''Review''':A method to track the maximum power of multiple-input, portable, photovoltaic systems is proposed. The method shares a single
| doi = 10.1109/TPEL.2008.2009056
current sensor by interleaving Perturb and Observe operations. The system has reduced size and cost, making it attractive for compact
| issn = 0885-8993
portable solar panels and solar battery chargers, such as for cell phones, laptops, and other portable electronics with rechargeable batteries.
| volume = 24
A flexible total system architecture design is proposed and tested.
| issue = 4
| pages = 952-962
| last = Kimball
| first = J.W.
| coauthors = Kuhn, B.T.; Balog, R.S.
| title = A System Design Approach for Unattended Solar Energy Harvesting Supply
| journal = Power Electronics, IEEE Transactions on
| date = 2009-04
}}
<br>
<br>
<br>
'''Abstract:''' Remote devices, such as sensors and communications devices, require continuously available power. In many applications, conventional approaches are too expensive, too large, or unreliable. For short-term needs, primary batteries may be used. However, they do not scale up well for long-term installations. Instead, energy harvesting methods must be used. Here, a system design approach is introduced that results in a highly reliable, highly available energy harvesting device for remote applications. First, a simulation method that uses climate data and target availability produces Pareto curves for energy storage and generation. This step determines the energy storage requirement in watt-hours and the energy generation requirement in watts. Cost, size, reliability, and longevity requirements are considered to choose particular storage and generation technologies, and then to specify particular components. The overall energy processing system is designed for modularity, fault tolerance, and energy flow control capability. Maximum power point tracking is used to optimize solar panel performance. The result is a highly reliable, highly available power source. Several prototypes have been constructed and tested. Experimental results are shown for one device that uses multicrystalline silicon solar cells and lithium-iron-phosphate batteries to achieve 100% availability. Future designers can use the same approach to design systems for a wide range of power requirements and installation locations.
<br>
<br>
'''Key Features:'''
* MPPT information
----


<br>
<li>{{Cite journal
| doi = 10.1109/TIE.2009.2020703
| issn = 0278-0046
| volume = 56
| issue = 11
| pages = 4502-4509
| last = Nasiri
| first = A.
| coauthors = Zabalawi, S.A.; Mandic, G.
| title = Indoor Power Harvesting Using Photovoltaic Cells for Low-Power Applications
| journal = Industrial Electronics, IEEE Transactions on
| date = 2009-11
}}
<br>
<br>
<br>
'''Abstract:''' Utilization of low-power indoor devices such as remote sensors, supervisory and alarm systems, distributed controls, and data transfer system is on steady rise. Due to remote and distributed nature of these systems, it is attractive to avoid using electrical wiring to supply power to them. Primary batteries have been used for this application for many years, but they require regular maintenance at usually hard to access places. This paper provides a complete analysis of a photovoltaic (PV) harvesting system for indoor low-power applications. The characteristics of a target load, PV cell, and power conditioning circuit are discussed. Different choices of energy storage are also explained. Implementation and test results of the system are presented, which highlights the practical issues and limitations of the system.
<br>
<br>
'''Key Features:'''
* Battery connection
* Other energy storage possibilities
----


==3."[http://www.sciencedirect.com/science/article/pii/S0360132313002060/pdfft?md5=892a6704ced02d2a5c9108da9850c85f&pid=1-s2.0-S0360132313002060-main.pdf Tree canopy shade impacts on solar irradiance received by building walls and their surface temperature ]" ==
<br>
''' By  Rowan Berry a, Stephen J. Livesley, Lu Ayeb''' <br /><br />
<li>{{Cite journal
'''Review''':Shading coefficients are used to predict the seasonal and diurnal benefit of architectural shading devices.
| volume = 9
It is more difficult to model the impact of tree shade on building thermal performance, and data is rare
| issue = 2
and varies greatly with species and season. We established a range of tree shade amounts and shade
| pages = 81-86
qualities from which to develop simple, robust models that predict external wall surface temperatures.
| last = Stephenson
We measured percentage shade cover, solar irradiance and external surface temperature on north and
| first = D.G.
west sun-bearing walls of three identical buildings in spring and summer 2010/11. One building was
| title = Equations for solar heat gain through windows
shaded by tall Angophora trees, another by smaller Fraxinus trees and one was unshaded.
| journal = Solar Energy
Tree shade reduced wall surface temperatures by up to 9 C and external air temperatures by up to
| accessdate = 2012-02-10
1 C. The smaller trees did little to reduce external wall surface temperatures, and moving the tall trees
| date = 1964
further away from the building wall eliminated their cooling benefits. Wall surface temperatures were
| url = http://services.lib.mtu.edu:2116/science/article/pii/0038092X65902070
best predicted by shade cover and solar irradiance, and was most poorly predicted by shading coefficients,
}}
that varied greatly through the day and the season, as tree height and leaf area index increased.
<br>
Trees can reduce external solar irradiance loads when they are close enough and tall enough to shade
<br>
the majority of the wall. To simulate the thermal performance benefits that trees provide, it is necessary
'''Abstract:'''
to account for seasonal, growth and phenological changes in tree shade amount and quality.


An analysis of solar-radiation records obtained at Scarborough, Ontario, indicates that the insolation in Canada can be significantly greater than the values given by Moon's1 standard solar-radiation curves. It is possible to represent the solar data by a single analytical expression involving an atmospheric extinction coefficient and an apparent value of the solar constant. This expression allows the calculation of insolation on any surface and the determination of the time and date when the maximum insolation can occur for any surface. Simple expressions relate the time, date, latitude, building orientation, and the type of window glass and shading with the solar heat gain through windows. These can be used to program any digital computer to compute design values of the instantaneous heat gain through the windows of a building.
<br>
'''Key Features''':


*Calculates insolation empirically (20 stations in Scarborough, Ontario)
*Similar Latitude (Scarborough: 43.78º, Houghton: 47.12º)
*Variables:  time, date, latitude, building orientation, type of glass, and shading
*Equations for Direct Normal Insolation @ ground level (DNI)...
*Isolation Charts


==4."[http://www.sciencedirect.com/science/article/pii/S0927024804003174/pdfft?md5=4cc72159a8d355f9865d05282a42d5ce&pid=1-s2.0-S0927024804003174-main.pdf Design of DSC panel with efficiency more than 6%]" ==
----
''' By Songyuan Dai, Kongjia Wang, Jian Weng, Yifeng Sui,
Yang Huang, Shangfeng Xiao, Shuanghong Chen, Linhua Hu,
Fantai Kong, Xu Pan, Chengwu Shi, Li Guo ''' <br /><br />
'''Review''':Dye sensitized solar cells (DSCs), as a new innovative technology, were developed very
quickly in the past decade since Prof. M. Gra¨ tzel (EPFL) made the breakthrough in 1991
(Nature 353 (1991) 737). While photoelectric conversion efficiency of 11.04% was achieved
last year in EPFL (J. Photocem. Photobiol. A: Chem. 164 (2004) 3), 8.2% was achieved with a
size of 2.36 cm2 in 2001 by the ECN group (Sol. Energy Mater. Sol. Cells 84 (2004) 125), which
is a very exciting result for large scale DSCs. As potential low cost solar cells, DSC module
and the panel’s efficiency and stability are still critical problems to the way of marketing. We
show our research in the test and design of modules and panels in the past few years at our
institute. We have achieved photoelectric conversion efficiency around 6% with 15X20 cm2
module, and our future primary 500W DSC power station with the same performance
40X60 cm2 panel is under way.


==5."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6073396 Maximum power point tracking without current sensor for photovoltaic module integrated converter using Zigbee wireless network ]"==  
<br>
''' By Sol Moon, Seong-Jin Kim, Jeong-Won Seo, Joung-Hu Park ⇑, Changkun Park, Chan-Su Chung ''' <br /><br />
<li>{{Cite journal
'''Review''':In this paper, a simple maximum power point tracking method for series-connected DC–DC converter
| doi = 10.1016/j.solener.2003.12.007
module of photovoltaic power conditioning systems is proposed. This approach enables maximum power
| issn = 0038092X
point tracking control with the converter’s output voltage information instead of calculating solar array
| volume = 76
power, which significantly simplifies the sensor network by removing any current sensor. Furthermore,
| issue = 5
there is no multiplication process of power calculation for perturbation-and-observation algorithm to
| pages = 523-544
track the maximum power point because the power calculation is replaced by simple output voltage
| last = Galasiu
sensing. This simple tracker realization can reduce the cost and size, and can be utilized with a low performance/
| first = Anca D
low cost controller. For the implementation of the proposed control strategy, Zigbee (Xbee-pro)
| coauthors = Morad R Atif, Robert A MacDonald
wireless communications and DSP’s Series Communications Interface are utilized. Then, a couple of series-
| title = Impact of window blinds on daylight-linked dimming and automatic on/off lighting controls
connected hardware prototype of photovoltaic modules was built and tested for the performance
| journal = Solar Energy
evaluation.
| accessdate = 2012-02-10
| date = 2004-01
| url = http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?action=shwart&index=an&req=5753984&lang=en
}}
<br>
<br>
'''Key Features''':  


*Photo controlled lighting systems (variable lighting based off of PV sensing)
*Possibly useful for future work section
*lighting control systems found to be responsible for 50-60% reduction in energy consumption
*Compares dimming systems and on/off systems
*investigates numerous blinds configurations


==6."[http://www.sciencedirect.com/science/article/pii/S0960148100000598/pdfft?md5=601a6663ae569c83fd67e25c3b42c6fb&pid=1-s2.0-S0960148100000598-main.pdf Titania solar cells: new photovoltaic technology ]" ==
----
''' By George Phani*, Gavin Tulloch, David Vittorio, Igor Skryabin ''' <br /><br />
'''Review''':Titania solar cells are a new type of photovoltaic device invented by Professor Michael
GraÈ tzel at Ecole Polytechnique Federale de Lausanne (Switzerland). Titania solar cells
convert sunlight directly into electricity through a process similar to photosynthesis. It has
performance advantages over other solar cells, which include the ability to perform well in
low light and shade, and to perform consistently well over a wide range of temperatures.
Titania solar cells can be fabricated to be either transparent or opaque in appearance. The
simple materials, construction technique and processing equipment make Titania modules
attractive for a€ordable power generation. Applications of such a module include many
consumer and professional products, including vertically mounted solar tiles used as
integrated building materials and, in future, used as power generating windows. 7 2000


<br>
<li>{{Cite journal
| doi = 10.1177/0013916591234004
| volume = 23
| issue = 4
| pages = 474 -493
| last = Boubekri
| first = Mohamed
| coauthors = Robert B. Hull, Lester L. Boyer
| title = Impact of Window Size and Sunlight Penetration on Office Workers' Mood and Satisfaction
| journal = Environment and Behavior
| accessdate = 2012-02-10
| date = 1991-07-01
| url = http://eab.sagepub.com/content/23/4/474.abstract
}}
<br>


<br>
'''Abstract:'''


Sunlighting or direct-gain passive solar strategies let sunlight penetrate the living space. In environments where the well-being of the building occupant is a salient concern to the designer, this intrusion of sunlight ought to be controlled so that it does not impede the performance of the occupant. This study investigates the impact of window size and different amounts of sunlight penetration on occupant emotional response and degree of satisfaction. Unlike previous sunlight requirement studies, sunlight penetration is measured not in terms of duration, but rather in terms of size of sunlit areas, and therefore as a visual stimulus. The study was performed in an office room of a typical size. It was found that window size did not significantly affect the occupant emotional state or the degree of satisfaction. Sunlight penetration significantly affected the feeling of relaxation when the observer was sitting sideways to the window and the relationship had an inverted U-shape. The study stresses the validity of this novel way of assessing sunlight penetration in terms of size of the sun patches inside the room and its importance as a significant environmental attribute and design parameter that ought to be accounted for during the design of windows in sunlighting or direct-gain passive solar strategies.


==7."[http://www.sciencedirect.com/science/article/pii/S0927024810007117/pdfft?md5=eb70bcfd991d7fee695075a4e2f3d1eb&pid=1-s2.0-S0927024810007117-main.pdf Concepts of inorganic solid-state nanostructured solar cells ]" ==
<br>
''' By Thomas Dittrich n, AbdelhakBelaidi 1, AhmedEnnaoui ''' <br /><br />
'''Key Features''':
'''Review''':The development of inorganic solid-state nanostructured solar cells over the last years has been reviewed with respect to concepts and materials. Major attention has been paid to solar cells with extremely thin absorber, solar cells with ultra-thin nano-composite absorber and solar cells with quantum dot absorber layers. The focus has been set to structured transparent electron conductors and absorber materials prepared by mainly low-temperature and wet chemical deposition methods. The great potential of inorganic solid-state nanostructured solar cells is discussed.


*Possibly useful for general discussion (Effects on users) and important information for controls, QC, reception, and design
*Study investigates the impact of window size as well as assorted amounts of sunlight penetration's effect on occupant (user) emotional response and satisfaction
*Interesting algebraic approach to determine mood
*Trends for mood based on area of floor covered in sun
<br>


----


<li>{{Cite journal
| doi = 10.1016/S0378-7788(98)00035-8
| issn = 0378-7788
| volume = 29
| issue = 1
| pages = 47-63
| last = Lee
| first = E.S.
| coauthors = D.L. DiBartolomeo, S.E. Selkowitz
| title = Thermal and daylighting performance of an automated venetian blind and lighting system in a full-scale private office
| journal = Energy and Buildings
| date = 1998-12
}}
<br>
<br>
'''Key Features''':


==8."[http://www.sciencedirect.com/science/article/pii/S0927024811001899/pdfft?md5=170a59d5df79d1443ea8239d62323697&pid=1-s2.0-S0927024811001899-main.pdf Photovoltaic electrochromic device for solar cell module and self-powered smart glass applications ]" ==
*Study utilized automated Venetian blinds synchronized with a dimmable electric lighting system.
''' By Lee-May Huang a,n, Chih-WeiHub, Han-ChangLiu a, Chih-YuHsu c, Chun-HengChen a, Kuo-ChuanHo ''' <br /><br />
*Report is very well written and may provide good introduction information
'''Review''':An innovative concept of solution type photovoltaic electrochromic (PV-EC) device has been developed. The device includes a semi-transparent silicon thin-film solar cell (Si-TFSC) substrate, an electro- chromic solution, and a transparent non-conductive substrate, wherein the electrochromic solution is located between the transparent non-conductive substrate and the Si-TFSC substrate. The solution type PV-EC device has at least the following advantages: (1) the electrodes in the PV-EC device are planarly distributed in the whole semi-transparent Si-TFSC substrate to create a uniform electric field, which makes large area PV-EC module application feasible; (2) since the PV-EC device can be driven with low voltage and low current, the demand for photopotential and photocurrent produced by the Si-TFSCs is lowered and thus the thickness of an intrinsic layer in each of the Si-TFSCs can be thinned, which increases the transmittance of the device, and (3) the electrical power generated by the PV-EC module can be controlled by an additional output switch layout coupled with the Si-TFSC. When illuminated by sunlight, a portion of electronic current produced by a Si-TFSC is converted into ionic current to cause color changing of the PV-EC device, while the monolithically integrated Si-TFSC module generates electricity to a connected load. In view of photoelectric conversion and optical modulation properties, the PV-EC device can both function as solar cell module and as self-powered smart glass, which has great advantages in green energy application.
*Contains room blueprints, list of monitored data...
*Paper could be extremely useful for a basis for writing report


<br>


----


==9."[http://www.sciencedirect.com/science/article/pii/S0960148111004629/pdfft?md5=4a382e7856103f894f5e0671613d11b9&pid=1-s2.0-S0960148111004629-main.pdf Design and fabrication of diffusive solar cell window ]" ==  
<li>{{Cite journal
''' By Ruei-Tang Chen, Joseph Lik Hang Chau*, Gan-Lin Hwang ''' <br /><br />
| doi = 10.1016/j.enbuild.2007.04.006
'''Review''':A diffusive solar cell window was designed and fabricated with uniformly distributed nanocomposite
| issn = 0378-7788
particles in a light diffusive plate that was sandwiched between two glass layers. The entire composite
| volume = 40
construction transfers light radiation to solar cells at the edge of the windows. It is based on a new
| issue = 4
combination of existing technologies because of it uses mature, mass-produced components - solar cells - as
| pages = 514-523
well as nanocomposite particles that are embedded inside the light-guide plate. They are integrated using an
| last = Roisin
inexpensive and widely used method for making building windows. The result is an inexpensive, strong,
| first = B.
stable, viewquality-preserving solar energy-harvesting windowthat has no close competition. The diffusive
| coauthors = M. Bodart, A. Deneyer, P. D. Herdt
solar cell window does not suffer from aging, and products that are made using diffusive solar cell window
| title = Lighting energy savings in offices using different control systems and their real consumption
technology will be new entries to the solar power generation window market.
| journal = Energy and Buildings
| date = 2008
}}
<br>
<br>
'''Key Features''':  


*Simulations based off of DAYSIM
*Estimates energy savings due to smart dimming of lights
*Savings found to be between 45-61%
*Possibly useful for future work and background information
<br>


----


==10."[http://www.sciencedirect.com/science/article/pii/S0960148113006952/pdfft?md5=f04761ad64232293ac38acfe378e330b&pid=1-s2.0-S0960148113006952-main.pdf Modeling and maximum power point tracking (MPPT) method for PV array under partial shade conditions ]" ==  
<li>{{Cite journal
''' By Jun Qi, Youbing Zhang, Yi Chen ''' <br /><br />
| doi = 10.1016/j.solener.2004.04.003
'''Review''':Influenced by partial shade, PV module aging or fault, there are multiple peaks on PV array’s output
| issn = 0038-092X
powerevoltage (PeV) characteristic curve. Conventional maximum power point tracking (MPPT)
| volume = 77
methods are effective for single peak PeV characteristic under uniform solar irradiation, but they may fail
| issue = 1
in global MPP tracking under multi-peak PeV characteristics. Existing methods in literature for this
| pages = 15-28
problem are still unsatisfactory in terms of effectiveness, complexity and speed. In this paper, we first
| last = Christoph F.
analyze the mathematical model of PV array that is suitable for simulation of complex partial shade
| first = Reinhart
situation. Then an adaptive MPPT (AMPPT) method is proposed, which can find real global maximum
| title = Lightswitch-2002: a model for manual and automated control of electric lighting and blinds
power point (MPP) for different partial shade conditions. When output characteristic of PV array varies,
| journal = Solar Energy
AMPPT will adjust tracking strategies to search for global peak area (GPA). Then it is easy for conventional
| date = 2004
MPPT to track the global MPP in GPA. Simulation and experimental results verify that the proposed
}}
AMPPT method is able to find real global MPP accurately, quickly and smoothly for complex multi-peak P
<br>
eV characteristics. Comparison analysis results demonstrate that AMPPT is more effective for most shade
<br>
types.
'''Key Features''':  


*Proposes a simulation algorithm that predicts the switching patterns of lightswitches
*References several papers on blind use that may be useful


<br>


----


==11."[http://www.sciencedirect.com/science/article/pii/S1010603004001091/pdfft?md5=057516a76f378fa784c82f82404097bb&pid=1-s2.0-S1010603004001091-main.pdf Light and energy—dye solar cells for the 21st century ]" ==  
<li>{{Cite journal
''' By Gavin E. Tulloch  ''' <br /><br />
| doi = 10.1177/1420326X9400300307
'''Review''':Dye solar cells (DSC) are the first commercially available third generation solar cell technology. DSC have been subject of increasing
| volume = 3
laboratory research since first reported by Grätzel in 1991 [Nature 353 (1991) 737]. Much of that work has been involved with laboratory
| issue = 3
scale cells of less than 1 cm2. The knowledge resources required to undertake research in DSC are much broader than those necessary for
| pages = 135 -144
traditional solar cell technologies such as silicon. These elements are discussed and related to the operation of the DSC, from which the
| last = Newsham
relative advantages of DSC are gleaned.
| first = G.r.
The experience gained from laboratory work has formed the basis for market expectations concerning performance and stability of DSC
| title = Manual Control of Window Blinds and Electric Lighting: Implications for Comfort and Energy Consumption
in commercial applications. However, it has been found that there is a new set of variables to be addressed when taking the technology
| journal = Indoor and Built Environment
from the laboratory cell level to the module and product level. This paper describes the background cell technology and the module designs
| accessdate = 2012-02-10
considered for the first production DSC modules and explains the reasons for selection of the preferred design for outdoor applications. A
| date = 1994-05-01
number of alternative product designs that are expected to be commercially viable in the next several years are discussed. In conclusion
| url = http://ibe.sagepub.com/content/3/3/135.abstract
some tandem designs demonstrate the potential of DSC for integrated products to serve the energy market.
}}
<br>


<br>
'''Abstract:'''


Algorithms to describe the manual control of window blinds and electric light ing, in response to comfort stimuli, were incorporated into a building thermal model. By comparison with fixed control schedules, this paper examines the impact of manual control on model predictions of thermal comfort and build ing energy consumption. For a typical, south-facing office in Toronto, the ther mal comfort of an occupant close to the window was substantially improved by the provision of window blinds. Compared to an office with no blinds, mean PPD (predicted percentage of occupants dissatisfied with the thermal environment) was lowered from 22 to 13%, and overheated hours were reduced by over 200 per year. However, when the lighting was also manually controlled, the blinds imposed an energy penalty. Though reduced solar gain lowered cooling energy by 7%, heating energy increased by 17%, and reduced daylight increased lighting energy by 6 6 %. The implications of these results on the modelling of occupied buildings are discussed.


==12."[http://www.sciencedirect.com/science/article/pii/S1010603004001248/pdfft?md5=0e1fa5495be9ad066ac6cdd1fd14def8&pid=1-s2.0-S1010603004001248-main.pdf 100 mm × 100 mm large-sized dye sensitized solar cells ]" ==
<br>
''' By Kenichi Okada, Hiroshi Matsui, Takuya Kawashima, Tetsuya Ezure, Nobuo Tanabe ''' <br /><br />
'''Key Features''':
'''Review''':In this study, up sizing technology of dye sensitized solar cells (DSC) was developed. Conversion efficiency of large cells was drastically
decreased if it was fabricated by ordinary materials and processes of mini size cells, due to its high internal resistance. We investigated
a method to reduce sheet resistant of transparent conductive substrates. It was found that nickel was appropriate for current correcting
lines of DSCs because of its lifetime in a redox electrolyte, and low dark current density to the electrolyte. High conductive transparent
substrates were fabricated with nickel grids formed by an electroplating process and fluorine doped SnO2/ITO double layered transparent
conductive oxides. These substrates achieved low sheet resistance 0.28 and 66% light transmittance, and 4.3% conversion efficiency
in the total area, 5.1% in the active area was obtained on a 100mm × 100mm size large cell.


*Paper examines impact of manual control of window blinds and lighting for a typical south-facing office room in Toronto, ON
*Stresses user comfort over thermal efficiency


<br>


----


==13."[http://www.sciencedirect.com/science/article/pii/S1364032112005242/pdfft?md5=eea670d45143bdd6f3303ebceb44bc46&pid=1-s2.0-S1364032112005242-main.pdf A current and future study on non-isolated DC–DC converters for photovoltaic applications ]"==  
<li>{{Cite journal
''' By M.H. Taghvaee a,n, M.A.M.Radzi a, S.M.Moosavain b, HashimHizam a, M.HamiruceMarhaban ''' <br /><br />
| doi = 10.1191/1365782803li064oa
'''Review''':Photovoltaic (PV) is a fast growing segment among renewable energy (RE) systems, whose develop- ment is owed to depleting fossil fuel and climate-changing environmental pollution. PV power output capacity, however, is still low and the associated costs still high, so efforts continue to develop PV converter and its controller, aiming for higher power-extracting efficiency and cost effectiveness. Different algorithms have been proposed for Maximum Power Point Tracking (MPPT). Since the choice of right converter for different application has an important influence in the optimum performance of the photovoltaic system, this paper reviews the state-of-the-art in research works on non-isolated DC–DC buck, boost, buck–boost, Cu´ k and SEPIC converters and their characteristics, to find a solution best suiting an application with Maximum Power Point Tracking. Review shows that there is a limitation in the system’s performance according to the type of converter used. In can be concluded that the best selection of DC–DC converter which is really suitable and applicable in the PV system is the buck–boost DC–DC converter since it is capable of achieving optimal operation regardless of the load value with negotiable performance efficiency and price issue
| issn = 14771535, 00000000
| volume = 35
| issue = 3
| pages = 243-260
| last = Reinhart
| first = Cf
| coauthors = K Voss
| title = Monitoring manual control of electric lighting and blinds
| journal = Lighting Research and Technology
| accessdate = 2012-02-10
| date = 2003-09-01
| url = http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?action=shwart&index=an&req=5756023&lang=en
}}
<br>
<br>
'''Key Features''':  


*Builds off previous research paper
*Probability of light switching based on illuminance
<br>


----


<li>{{Cite journal
| doi = 10.1016/j.solener.2005.05.004
| issn = 0038-092X
| volume = 80
| issue = 5
| pages = 482-491
| last = Charron
| first = Raemi
| coauthors = Andreas K. Athienitis
| title = Optimization of the performance of double-facades with integrated photovoltaic panels and motorized blinds
| journal = Solar Energy
| date = 2006-05
}}
<br>
<br>
'''Key Features''':


==14."[http://www.sciencedirect.com/science/article/pii/S1364032110004016/pdfft?md5=e356accffbb4f3f8406962e93a59710b&pid=1-s2.0-S1364032110004016-main.pdf A review of solar photovoltaic technologies ]" ==
*System uses a double-facade system for energy capture
''' By Bhubaneswari Paridaa, S. Iniyanb, Ranko Goicc ''' <br /><br />
<br>
'''Review''':Global environmental concerns and the escalating demand for energy, coupled with steady progress in
renewable energy technologies, are opening up new opportunities for utilization of renewable energy
resources. Solar energy is the most abundant, inexhaustible and clean of all the renewable energy
resources till date. The power from sun intercepted by the earth is about 1.8×1011 MW, which is many
times larger than the present rate of all the energy consumption. Photovoltaic technology is one of the
finest ways to harness the solar power. This paper reviews the photovoltaic technology, its power generating
capability, the different existing light absorbing materials used, its environmental aspect coupled
with a variety of its applications. The different existing performance and reliability evaluation models,
sizing and control, grid connection and distribution have also been discussed.


----


<li>{{Cite journal
| doi = 10.1016/j.enbuild.2005.10.002
| issn = 0378-7788
| volume = 38
| issue = 6
| pages = 648-660
| last = Tilmann E.
| first = Kuhn
| title = Solar control: A general evaluation method for facades with venetian blinds or other solar control systems
| journal = Energy and Buildings
| date = 2006-06
}}
<br>
<br>
'''Key Features''':


==15."[http://www.sciencedirect.com/science/article/pii/S1386947702003612/pdfft?md5=72cd848b687ea99ebfa99d3ce483f974&pid=1-s2.0-S1386947702003612-main.pdf Third generation photovoltaics: solar cells for 2020 and beyond ]" ==
*More-so a study of building design
''' By Martin A. Green∗ ''' <br /><br />
*Equation dense, may still be useful for energy calculations
'''Review''':Many workingin the )eld of photovoltaics believe that ‘)rst generation’ silicon wafer-based solar cells sooner or later will
<br>
be replaced by a ‘second generation’ of lower cost thin-)lm technology, probably also involving a di.erent semiconductor.
Historically, CdS, a-Si, CuInSe2, CdTe and, more recently, thin-)lm Si have been regarded as key thin-)lm candidates.
Since any mature solar cell technology is likely to evolve to the stage where costs are dominated by those of the constituent
materials, be it silicon wafers or glass sheet, it is argued that photovoltaics will evolve, in its most mature form, to a ‘third
generation’ of high-e4ciency thin-)lm technology. By high e4ciency, what is meant is energy conversion values double or
triple the 15–20% range presently targeted. Tandem cells provide the best-known example of such high-e4ciency approaches,
where e4ciency can be increased merely by adding more cells of di.erent band gap to a stack. However, a range of other
better-integrated approaches are possible that o.er similar e4ciency to an in)nite stack of such tandem cells.


----


<li>{{Cite journal
| doi = 10.1191/1365782802li026oa
| volume = 34
| issue = 1
| pages = 11 -25
| last = Roche
| first = L
| title = Summertime performance of an automated lighting and blinds control system
| journal = Lighting Research and Technology
| accessdate = 2012-02-10
| date = 2002-03-01
| url = http://lrt.sagepub.com/content/34/1/11.abstract
}}
<br>


<br>
'''Abstract:'''


==16."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=1190778  HIGH VOLTAGE SILICON VMJ SOLAR CELLS FOR UP TO 1000 SUNS INTENSITIES]" ==
An innovative automated blind and lighting control system was developed to eliminate direct solar penetration and keep working plane illuminances within an optimal range, while making maximum use of daylight, and minimizing blind movement. Data collected from a controlled experiment indicate that the system eliminated direct solar glare and kept the working plane illuminance within the target range, while providing only 30% more electric lighting than a theoretical system with no blinds and perfect knowledge of the working plane illuminance. The system needed to provide 60% less electric lighting than a similar system with switchable rather than dimmable luminaires. Total blind movement varied from less than 1 min to over 6 min in one day depending on the weather, with an average of 190 s. Similar integrated systems have the potential to save a large fraction of the electricity used for lighting, while providing an amenable visual environment.
''' By Bemard L. Sater and Neil D. Sater ''' <br /><br />
'''Review''':High voltage silicon vertical multi-junction (VMJ) solar cells
are ideally suited for providing efficient operation at solar
intensities exceeding 1000 suns AM1.5. This paper
discusses the unique features and advantages of the VMJ
cell. The authors believe the high output power
performance capability and manufacturing simplicity of
VMJ cells will enable more cost-effective photovoltaic
concentrator system designs. Preliminary test data is
shown for a 0.78 cm2 VMJ cell with 40 series connected
junctions producing 31.8 watts at 25.5 volts at near 2500
suns AM1.5 intensity (40.4 watts per cmz output at 211
watts per cmz input with an estimated efficiency near
20%)


<br>
'''Key Features''':


*Automated blind and lighting control system
*Shown to provide 60% less electric lighting
*Higher importance on staying within an illumination band than thermal
<br>


==17."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5739826 Photovoltaic Module Shading: Smart Grid Impacts ]" ==
----
''' By  Peter Mark Jansson, Senior Member, Kevin Whitten, Member, John L. Schmalzel, Fellow''' <br /><br />
'''Review''':In the design of a solar photovoltaic system, one
criterion that continues to receive low priority is the provision of
minimum inter row spacing for photovoltaic modules.
Consumers and installers alike strive to maximize area usage for
systems such that they achieve the highest amount of annual
energy output. This, in turn, leads to module rows being designed
very close to each other; with array tilt lowered in an attempt to
reduce inter row shading. This design practice fails to take into
consideration many effects that close row spacing can have on
system output. When designing a photovoltaic array to optimize
its performance as a power generator and its contribution to the
electric grid during peak demand periods – shading concerns
become a key consideration. This paper describes a process
developed at Rowan University’s Center for Sustainable Design
to test the impact that inter row shading can have on power
output and performance across the day. A test rig and protocol
were created which tested module’s output given various depths
of shading from one row of modules upon another. The exclusion
of bypass diodes in the system was also tested to view the most
extreme possible cases of power loss induced by shading. The
results of this experimentation showed that even very small
amounts of shading upon solar photovoltaic modules can lead to
significant loss in power generation. As more PV systems are
installed on the utility system their availability during peak times
becomes an ever increasing requirement for Smart Grid success.
This paper also explores the ramifications that proper inter row
spacing design guidelines could have on reinforcing some of the
fundamental principles of Smart Grid.


<li>{{Cite journal
| doi = 10.1016/j.solener.2006.06.015
| issn = 0038-092X
| volume = 81
| issue = 3
| pages = 369 - 382
| last = Tzempelikos
| first = Athanassios
| coauthors = Andreas K. Athienitis
| title = The impact of shading design and control on building cooling and lighting demand
| journal = Solar Energy
| date = 2007
}}
<br>
<br>
'''Key Features''':


*Study done in Montreal, Quebec... daylight availability ratio tables
*Another good option to base writing off of
<br>


----


==18."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4802770 Improved Energy Capture in Series String Photovoltaics via Smart Distributed Power Electronics ]" ==  
<li>{{Cite journal
''' By Leonor Linares, Student Member, IEEE, Robert W. Erickson, Fellow, IEEE, Sara MacAlpine, and
| doi = 10.1016/0360-1323(87)90043-6
Michael Brandemuehl ''' <br /><br />
| issn = 0360-1323
'''Review''':This paper proposes an improved module integrated
| volume = 22
converter to increase energy capture in the photovoltaic (PV)
| issue = 1
series string. Prototypes for self-powered, high efficiency dc-dc
| pages = 67-75
converters that operate with autonomous control for tracking the
| last = M.
maximum power of solar panels locally and on a fine scale are
| first = Zaheer-Uddin
simulated, built and tested. The resulting module is a low-cost,
| title = The influence of automated window shutters on the design and performance of a passive solar house
reliable smart PV panel that operates independently of the
| journal = Building and Environment
geometry and complexity of the surrounding system.
| date = 1987
The controller maximizes energy capture by selection of one of
}}
three possible modes: buck, boost and pass-through.
<br>
Autonomous controllers achieve noninteracting maximum power
<br>
point tracking and a constant string voltage.
'''Key Features''':  
The proposed module-integrated converters are verified in
simulation. Experimental results show that the converter
prototype achieves efficiencies of over 95% for most of its
operating range. A 3-module PV series string was tested under
mismatched solar irradiation conditions and increases of up to
38% power capture were measured.


<br>


----


<li>{{Cite book
| publisher = Chelsea Green Publishing
| isbn = 9781933392035
| last = Kachadorian
| first = James
| title = The passive solar house
| date = 2006-07-31
}}
<br>
<br>
'''Key Features''':


==19."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=1338094 Application of Adaptive Algorithm of Solar cell battery charger  ]" ==
*Book about general passive house information (Do-It-Yourself type book)
''' By Cong-Ling Hou, Jie Wu, Miao Zhang , Jin-Ming Yang and Jin-Peng Li ''' <br /><br />
*Chapter about solar design calculations
'''Review''':This paper presents the adaptive algorithm to
<br>
resolve the problem in the maximum power point tracking
(MPPT) of solar cell battery charger and applies it in the
design for MPPT system. Results of the research show that
the adaptive algorithm has not only accelerated the
calculating speed and strengthen the searching
performances, but also has the high tracking precision.


----


<li>{{Cite journal
| doi = 10.1109/JSEN.2008.922692
| issn = 1530-437X
| volume = 8
| issue = 6
| pages = 678-681
| last = Li
| first = Yanqiu
| coauthors = Hongyun Yu, Bo Su, Yonghong Shang
| title = Hybrid Micropower Source for Wireless Sensor Network
| journal = IEEE Sensors Journal
| accessdate = 2012-02-07
| date = 2008-06
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4529197&tag=1
}}
<br>
<br>
'''Key Features''':


*Utilizes a hybrid energy system (Li-ion batteries and ultracapacitors)
*Entire paper on power source
*Little design information
<br>


==20."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=1574918 A Study of the Remaining Battery Power Indication Circuit for Independent Solar Cell Control Systems ]" ==
----
''' By S. Usudal, T. Sunagawal, K. Miyoshi2 and J. Lei3
IIndustrial Systems Engineering, Osaka Prefectural College of Technology, Osaka, Japan
2Tsukasa Electric Industry Co.,Ltd, Osaka, Japan ''' <br /><br />
'''Review''':An independent solar cell control system operates
without supply from an external commercial power
source. The system usually consists of solar cells, a storage
battery, a DC load and a control circuit. For systems of this
kind, it is very important to equip them with a recharge and
discharge function that can work efficiently in all seasons
and a function with which to tell the battery operation status.
This paper is to report on our study of battery recharge and
discharge characteristics for designing a circuit that indicates
remaining power in the solar-cell battery. The study
also includes the developing of a method to design the said
circuit, as well as primary performance and field tests on a
trial product of the circuit we designed using that method.


<li>{{Cite journal
| doi = 10.1109/TPEL.2008.2009056
| issn = 0885-8993
| volume = 24
| issue = 4
| pages = 952-962
| last = Kimball
| first = Jonathan W.
| coauthors = Brian T. Kuhn, Robert S. Balog
| title = A System Design Approach for Unattended Solar Energy Harvesting Supply
| journal = IEEE Transactions on Power Electronics
| accessdate = 2012-02-07
| date = 2009-04
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4812334
}}
<br>
<br>
'''Abstract:'''Remote devices, such as sensors and communications devices, require continuously available power. In many applications, conventional approaches are too expensive, too large, or unreliable. For short-term needs, primary batteries may be used. However, they do not scale up well for long-term installations. Instead, energy harvesting methods must be used. Here, a system design approach is introduced that results in a highly reliable, highly available energy harvesting device for remote applications. First, a simulation method that uses climate data and target availability produces Pareto curves for energy storage and generation. This step determines the energy storage requirement in watt-hours and the energy generation requirement in watts. Cost, size, reliability, and longevity requirements are considered to choose particular storage and generation technologies, and then to specify particular components. The overall energy processing system is designed for modularity, fault tolerance, and energy flow control capability. Maximum power point tracking is used to optimize solar panel performance. The result is a highly reliable, highly available power source. Several prototypes have been constructed and tested. Experimental results are shown for one device that uses multicrystalline silicon solar cells and lithium-iron-phosphate batteries to achieve 100% availability. Future designers can use the same approach to design systems for a wide range of power requirements and installation locations.
<br>
'''Key Features''':


*Good Design flow diagrams
*Good information on energy storage options
*Well written, a good basis for energy information
<br>


==21."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5751225 Solar Cell as a Capacitive Temperature Sensor ]" ==
----
''' By H. ANANTHA KRISHNA
N. K. MISRA
ISRO Satellite Centre
M. S. SURESH
BNM Institute of Technology ''' <br /><br />
'''Review''':Spacecrafts in geostationary Earth orbit and low Earth polar
orbit experience temperatures in the range of ¡180±C to 80±C
[1, 2] depending on the orbit. Solar cells are mounted on light
weight aluminum honeycomb panels which are deployed and Sun
pointed in on-orbit operation. Solar panels charge batteries and
supply power to the satellite during sunlit period and batteries
supply power during eclipse period. The open circuit voltage
(Voc) of a silicon solar cell varies by about ¡2:5 mV=±C [3]
and temperature can bring about a dramatic change in the
solar cell characteristic, particularly with reference to operating
voltage. PRT mounted on the rare of the solar panel measure
the temperature of the solar panel. This introduces errors due
to temperature gradients between solar cell blanket and solar
panel and slow transient response of PRTs. A method of using
solar cell capacitance to measure the temperature of solar cell
blanket is proposed. This removes error due to location and
transient response of PRT. Solar cell as a temperature sensor for
measurement of temperature is demonstrated.


<li>{{Cite conference
| publisher = IEEE
| doi = 10.1109/UPEC.2006.367719
| isbn = 978-186135-342-9
| pages = 79-83
| last = Glavin
| first = M.
| coauthors = W.G. Hurley
| title = Battery Management System for Solar Energy Applications
| accessdate = 2012-02-08
| date = 2006-09
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4218648
}}
<br>
<br>
'''Abstract:'''Generally in photovoltaic applications the storage battery has the highest life time cost in the system; it has a profound affect on the reliability and performance of the system. Currently the most commonly used storage technology for photovoltaic applications is the lead acid battery. The advantages of the lead acid battery are its low cost and great availability. The problem is that photovoltaic panels are not an ideal source for charging batteries. With the lead acid battery the charging regime may have a significant impact on its service life. The battery management system described in this paper aims to optimize the use of the battery, to prolong the life of the battery, making the overall system more reliable and cost effective. Maximum power point tracking will also be incorporated into the battery management system, to move the solar array operating voltage close to the maximum power point under varying atmospheric conditions, in order to draw the maximum power from the array. This paper will describe different battery technologies that are currently used with photovoltaic systems along with some of the charging techniques that are available
<br>
'''Key Features''':


==22."[http://www.sciencedirect.com/science/article/pii/S0038092X04002415/pdfft?md5=334d50805aead5aa354432c3ee4c0dc2&pid=1-s2.0-S0038092X04002415-main.pdf Status of thin film solar cells in research, production and the market ]" ==
*Mentions a few different storage technologies (mostly nickel metal and ultracaps)
''' By Arnulf Ja¨ger-Waldau ''' <br /><br />
*Some simple background on MPPTs
'''Review''':Photovoltaics is one of the fastest growing industries at present. Over the last five years, the production of photovoltaic
*All around not a very detailed paper
solar cells has steadily increased at an annual average of 40%, driven not only by the progress in materials and processing technology, but by market introduction programmes in many countries around the world. This growth is
<br>
mainly being attained by an increase in manufacturing capacities based on the technology of crystalline, single junction
devices. Consistent with the time needed for any major change in energy infrastructure, another 20–30 years of sustained
and aggressive growth will be required for photovoltaics to substitute a significant share of conventional energy
sources. The question is whether a switch will be possible with the current technologies alone or whether this growth will
only be possible with the continuous introduction of new technologies. It leads us to the search for new developments
with respect to material use and consumption, device design and production technologies as well as new concepts to
increase overall efficiency. This paper analyses the current status of thin film solar cells and their outlook for future
developments.


==23."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4529197 Hybrid Micropower Source for Wireless Sensor Network]" == 
----


'''By  Yanqiu Li, Hongyun Yu, Bo Su, and Yonghong Shang'''<br /><br />
<li>{{Cite journal
'''Review''':Wireless sensor networks have become a very significant
| doi = 10.1109/TCSI.2009.2015690
enabling technology in many applications and the use of
| issn = 1549-8328, 1558-0806
environmental energy is a feasible source for low-power wireless
| volume = 56
sensor networks. The challenges of developing a power supply including
| issue = 11
generation or conversion, storage, and power management
| pages = 2519-2528
are manifold to extend the lifetime of a wireless sensor network.
| last = Brunelli
The objective of this research is to develop an intelligent hybrid
| first = D.
power system to realize a self-sustaining wireless sensor node. The
| coauthors = C. Moser, L. Thiele, L. Benini
photovoltaic and thermoelectric generators are adopted as energy
| title = Design of a Solar-Harvesting Circuit for Batteryless Embedded Systems
converters. The lithium ion battery and ultracapacitor are used
| journal = IEEE Transactions on Circuits and Systems I: Regular Papers
as reservoirs. An intelligent power management system has been
| accessdate = 2012-02-08
developed to control the power distribution. The design data and
| date = 2009-11
experimental results show that the hybrid micropower source can
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4785219
extend the lifetime of a sensor network.
}}
<br>
Abstact:The limited battery lifetime of modern embedded systems and mobile devices necessitates frequent battery recharging or replacement. Solar energy and small-size photovoltaic (PV) systems are attractive solutions to increase the autonomy of embedded and personal devices attempting to achieve perpetual operation. We present a battery less solar-harvesting circuit that is tailored to the needs of low-power applications. The harvester performs maximum-power-point tracking of solar energy collection under nonstationary light conditions, with high efficiency and low energy cost exploiting miniaturized PV modules. We characterize the performance of the circuit by means of simulation and extensive testing under various charging and discharging conditions. Much attention has been given to identify the power losses of the different circuit components. Results show that our system can achieve low power consumption with increased efficiency and cheap implementation. We discuss how the scavenger improves upon state-of-the-art technology with a measured power consumption of less than 1 mW. We obtain increments of global efficiency up to 80%, diverging from ideality by less than 10%. Moreover, we analyze the behavior of super capacitors. We find that the voltage across the supercapacitor may be an unreliable indicator for the stored energy under some circumstances, and this should be taken into account when energy management policies are used.
<br>
'''Key Features''':


*Uses an ultracapacitor
*Section specifically about ultracapacitor analysis and problems
*Section specifically about System problems (MPPT)
<br>


==24."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4218648 Battery Management System for Solar Energy Applications ]" == 
----


'''By  Glavin, M. ; Nat. Univ. of Ireland, Galway ; Hurley, W.G.''' <br /><br />
<li>{{Cite conference
'''Review''':Generally in photovoltaic applications the storage battery has the highest life time cost in the system; it has a profound affect on the reliability and performance of the system. Currently the most commonly used storage technology for photovoltaic applications is the lead acid battery. The advantages of the lead acid battery are its low cost and great availability. The problem is that photovoltaic panels are not an ideal source for charging batteries. With the lead acid battery the charging regime may have a significant impact on its service life. The battery management system described in this paper aims to optimize the use of the battery, to prolong the life of the battery, making the overall system more reliable and cost effective. Maximum power point tracking will also be incorporated into the battery management system, to move the solar array operating voltage close to the maximum power point under varying atmospheric conditions, in order to draw the maximum power from the array. This paper will describe different battery technologies that are currently used with photovoltaic systems along with some of the charging techniques that are available
| publisher = IEEE
| doi = 10.1109/EPEPEMC.2008.4635510
| isbn = 978-1-4244-1741-4
| pages = 1688-1695
| last = Glavin
| first = M.E.
| coauthors = Paul K.W. Chan, S. Armstrong, W.G. Hurley
| title = A stand-alone photovoltaic supercapacitor battery hybrid energy storage system
| accessdate = 2012-02-08
| date = 2008-09
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4635510
}}
<br>
<br>
'''Abstract:'''Most of the stand-alone photovoltaic (PV) systems require an energy storage buffer to supply continuous energy to the load when there is inadequate solar irradiation. Typically, Valve Regulated Lead Acid (VRLA) batteries are utilized for this application. However, supplying a large burst of current, such as motor startup, from the battery degrades battery plates, resulting in destruction of the battery. An alterative way of supplying large bursts of current is to combine VRLA batteries and supercapacitors to form a hybrid storage system, where the battery can supply continuous energy and the supercapacitor can supply the instant power to the load. In this paper, the role of the supercapacitor in a PV energy control unit (ECU) is investigated by using Matlab/Simulink models. The ECU monitors and optimizes the power flow from the PV to the battery-supercapacitor hybrid and the load. Three different load conditions are studied, including a peak current load, pulsating current load and a constant current load. The simulation results show that the hybrid storage system can achieve higher specific power than the battery storage system.
<br>
'''Key Features''':


*Utilizes an ultracapacitor/battery hybrid system
*Contains matlab model results for PV system, battery, and ultracapacitor
*Purely theoretical
<br>


----


<li>{{Cite conference
| publisher = IEEE
| doi = 10.1109/ECCE.2010.5618014
| isbn = 978-1-4244-5286-6
| pages = 336-341
| last = Liu
| first = Xiong
| coauthors = Peng Wang, Poh Chiang Loh, Feng Gao, Fook Hoong Choo
| title = Control of hybrid battery/ultra-capacitor energy storage for stand-alone photovoltaic system
| accessdate = 2012-02-08
| date = 2010-09
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=5618014
}}
<br>
<br>
'''Abstract:'''Battery life is an important criterion in a stand-alone photovoltaic system operation due to intermittent characteristic of solar irradiation and demand. This paper presents a stand-alone photovoltaic system with Ni-MH battery and ultra-capacitor serving as its energy storage elements. A control strategy is proposed in this paper to reduce charging and discharging cycles and avoid deep discharges of battery. The battery converter is controlled in current mode to track a charging/discharging reference current which is given by energy management system, whereas the ultra-capacitor converter is controlled to corporate solar irradiation fluctuations, load spikes and variations to maintain a stable dc-link voltage. Isolated PV system with the proposed control schemes is created using MATLAB SIMULINK. An optimum performance is achieved to serve as both high power and high energy sources due to complementary characteristic of battery and ultra-capacitor.
<br>
'''Key Features''':


*Good DC/DC Converter schematic and calculations and results
*Detailed information for power electronics design
<br>


==25."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4785219 Design of a Solar-Harvesting Circuit for Batteryless Embedded Systems ]" ==
----
''' By  Brunelli, D. ; Dept. of Electron., Comput. Sci. & Syst. (DEIS), Univ. of Bologna, Bologna, Italy ; Moser, C. ; Thiele, L. ; Benini, L'''<br /><br />
'''Review''':The limited battery lifetime of modern embedded systems and mobile devices necessitates frequent battery recharging or replacement. Solar energy and small-size photovoltaic (PV) systems are attractive solutions to increase the autonomy of embedded and personal devices attempting to achieve perpetual operation. We present a battery less solar-harvesting circuit that is tailored to the needs of low-power applications. The harvester performs maximum-power-point tracking of solar energy collection under nonstationary light conditions, with high efficiency and low energy cost exploiting miniaturized PV modules. We characterize the performance of the circuit by means of simulation and extensive testing under various charging and discharging conditions. Much attention has been given to identify the power losses of the different circuit components. Results show that our system can achieve low power consumption with increased efficiency and cheap implementation. We discuss how the scavenger improves upon state-of-the-art technology with a measured power consumption of less than 1 mW. We obtain increments of global efficiency up to 80%, diverging from ideality by less than 10%. Moreover, we analyze the behavior of super capacitors. We find that the voltage across the supercapacitor may be an unreliable indicator for the stored energy under some circumstances, and this should be taken into account when energy management policies are used.


<li>{{Cite web
| publisher = Maxwell Technologies
| title = Maxwell Technologies - Products - Ultracapacitors - K2 Series
| accessdate = 2012-02-10
| url = http://www.maxwell.com/products/ultracapacitors/product.aspx?pid=K2-SERIES
}}
<br>
Overview:Maxwell Technologies’ K2 series of ultracapacitor cells provide extended power availability, allowing critical information and functions to remain available during dips, sags, and outages in the main power source. In addition, it can relieve batteries of burst power functions, thereby reducing costs and maximizing space and energy efficiency. The ultracapacitor features a cylindrical design and an electrostatic storage capability that can cycle a million charges and discharges without performance degradation. They are available in quick and easy to implement threaded terminals or in compact, weldable terminals.
<br>
'''Key Features''':
*Data sheet for specified ultracapacitors
<br>


----


==26."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4635510 A stand-alone photovoltaic supercapacitor battery hybrid energy storage system]" =
<li>{{Cite conference
'''By  Glavin, M.E. ; Power Electron. Res. Centre, Nat. Univ. of Ireland, Galway ; Chan, P.K.W. ; Armstrong, S. ; Hurley, W.G.''' <br /><br />
| publisher = E.T.S.I.I. Valladolid University
'''Review''':Most of the stand-alone photovoltaic (PV) systems require an energy storage buffer to supply continuous energy to the load when there is inadequate solar irradiation. Typically, Valve Regulated Lead Acid (VRLA) batteries are utilized for this application. However, supplying a large burst of current, such as motor startup, from the battery degrades battery plates, resulting in destruction of the battery. An alterative way of supplying large bursts of current is to combine VRLA batteries and supercapacitors to form a hybrid storage system, where the battery can supply continuous energy and the supercapacitor can supply the instant power to the load. In this paper, the role of the supercapacitor in a PV energy control unit (ECU) is investigated by using Matlab/Simulink models. The ECU monitors and optimizes the power flow from the PV to the battery-supercapacitor hybrid and the load. Three different load conditions are studied, including a peak current load, pulsating current load and a constant current load. The simulation results show that the hybrid storage system can achieve higher specific power than the battery storage system.
| last = Vasquez
| first = Jose
| coauthors = Fernando Rodrigo, Jose Ruiz, Santiago Matilla
| title = Using Ultracapacitors in Photovoltaic Systems. A technical proposal
| accessdate = 2012-02-10
| url = http://www.icrepq.com/icrepq06/273_dominguez.pdf
}}
<br>
<br>
'''Abstract:'''In this paper we expose a new strategy to deliver the
power of a Photovoltaic (or any other energy source
of small power) System attached to the main. The
object of the implementation of a battery of
ultracapacitors in the photovoltaic system is to
convert a variable power delivery to constant power.
This will improve the energy efficiency by two ways.
One is to take advantage of the time in which the
system does not work because the power flow is too
low (irradiation). Another advantage is that the output
power is lower than input power.
<br>
'''Key Features''':


*Not dated
*Not published
*Equation dense
*May be able to use conclusion for background information
<br>


----


<li>{{Cite book
| publisher = Chelsea Green Publishing
| isbn = 9781931498128
| last = Chiras
| first = Daniel D.
| title = The solar house: passive heating and cooling
| date = 2002
}}
<br>
<br>
'''Key Features''':


==27."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5618014 Photovoltaics — Control of hybrid battery/ultra-capacitor energy storage for stand-alone photovoltaic system]" ==
*Another book about general passive house information
*More in depth approach
*Section about best places in US for passive heating/cooling


'''By  Xiong Liu ; Div. of Power Eng., Nanyang Technol. Univ., Singapore, Singapore ; Peng Wang ; Poh Chiang Loh ; Feng Gao ''' <br /><br />
<br>
'''Review''':Battery life is an important criterion in a stand-alone photovoltaic system operation due to intermittent characteristic of solar irradiation and demand. This paper presents a stand-alone photovoltaic system with Ni-MH battery and ultra-capacitor serving as its energy storage elements. A control strategy is proposed in this paper to reduce charging and discharging cycles and avoid deep discharges of battery. The battery converter is controlled in current mode to track a charging/discharging reference current which is given by energy management system, whereas the ultra-capacitor converter is controlled to corporate solar irradiation fluctuations, load spikes and variations to maintain a stable dc-link voltage. Isolated PV system with the proposed control schemes is created using MATLAB SIMULINK. An optimum performance is achieved to serve as both high power and high energy sources due to complementary characteristic of battery and ultra-capacitor.


----


<br>
<li>{{Cite journal
| doi = 10.1109/63.65005
| issn = 08858993
| volume = 6
| issue = 1
| pages = 73-82
| last = Enslin
| first = J.H.R.
| coauthors = D.B. Snyman
| title = Combined low-cost, high-efficient inverter, peak power tracker and regulator for PV applications
| journal = IEEE Transactions on Power Electronics
| accessdate = 2012-02-10
| date = 1991-01
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=65005&tag=1
}}
<br>
<br>
'''Abstract:'''A novel compound power converter that serves as a DC-to-AC inverter, maximum power point tracker (MPPT), and battery charger for stand-alone photovoltaic (PV) power systems is introduced. A theoretical analysis of the proposed converter is performed, and the results are compared with experimental results obtained from a 1.5 kW prototype. The overall cost of PV systems can thus be reduced by using load management control and efficiency-optimization techniques. Power flow through the converter is controlled by means of a combination of duty cycle and output frequency control. With load management, large domestic loads, such as single phase induction motors for water pumping, hold-over refrigerators, and freezers, can be driven by day at a much higher energy efficiency. This is due to the high efficiency of the inverter with high insolation, and because the inverter uses the energy directly from the solar array. The battery loss component is thus reduced.
<br>
'''Key Features''':


==28."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=65005 Combined low-cost, high-efficient inverter, peak power tracker and regulator for PV applications ]" ==
*Emphasises low cost
''' By  Enslin, J.H.R. ; Dept. of Electr. Eng., Pretoria Univ., South Africa ; Snyman, D.B.''' <br /><br />
*MPPT only
'''Review''':A novel compound power converter that serves as a DC-to-AC inverter, maximum power point tracker (MPPT), and battery charger for stand-alone photovoltaic (PV) power systems is introduced. A theoretical analysis of the proposed converter is performed, and the results are compared with experimental results obtained from a 1.5 kW prototype. The overall cost of PV systems can thus be reduced by using load management control and efficiency-optimization techniques. Power flow through the converter is controlled by means of a combination of duty cycle and output frequency control. With load management, large domestic loads, such as single phase induction motors for water pumping, hold-over refrigerators, and freezers, can be driven by day at a much higher energy efficiency. This is due to the high efficiency of the inverter with high insolation, and because the inverter uses the energy directly from the solar array. The battery loss component is thus reduced
*Schematics
*AC application - may not be useful
<br>


----


<li>{{Cite journal
| doi = 10.1109/60.282492
| issn = 08858969
| volume = 9
| issue = 1
| pages = 192-198
| last = Alghuwainem
| first = S.M.
| title = Matching of a DC motor to a photovoltaic generator using a step-up converter with a current-locked loop
| journal = IEEE Transactions on Energy Conversion
| accessdate = 2012-02-10
| date = 1994-03
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=282492
}}
<br>
<br>
'''Abstract:'''A photovoltaic (PV) generator is a nonlinear device having insolation-dependent volt-ampere characteristics. Because of its relatively high cost, the system designer is interested in optimum matching of the motor and its mechanical load to the PV generator so that maximum power is obtained during the entire operating period. However, since the maximum-power point varies with solar insolation, it is difficult to achieve an optimum matching that is valid for all insolation levels. In this paper it is shown that for maximum power, the generator current must be directly proportional to insolation. This remarkable property is utilized to achieve insolation-independent optimum matching. A shunt DC motor driving a centrifugal water pump is supplied from a PV generator via a step-up converter whose duty ratio is controlled using a current-locked feedback loop.
<br>
'''Key Features''':


==29."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=282492 Matching of a DC motor to a photovoltaic generator using a step-up converter with a current-locked loop ]" ==
*Applications load is a DC motor
''' By  Alghuwainem, S.M. ; Dept. of Electr. Eng., King Saud Univ., Riyadh, Saudi Arabia ''' <br /><br />
*Much higher power application
'''Review''':A photovoltaic (PV) generator is a nonlinear device having insolation-dependent volt-ampere characteristics. Because of its relatively high cost, the system designer is interested in optimum matching of the motor and its mechanical load to the PV generator so that maximum power is obtained during the entire operating period. However, since the maximum-power point varies with solar insolation, it is difficult to achieve an optimum matching that is valid for all insolation levels. In this paper it is shown that for maximum power, the generator current must be directly proportional to insolation. This remarkable property is utilized to achieve insolation-independent optimum matching. A shunt DC motor driving a centrifugal water pump is supplied from a PV generator via a step-up converter whose duty ratio is controlled using a current-locked feedback loop
<br>


----


<li>{{Cite journal
| doi = 10.1109/TPEL.2007.892346
| issn = 0885-8993
| volume = 22
| issue = 2
| pages = 698-700
| last = Pandey
| first = Ashish
| coauthors = Nivedita Dasgupta, Ashok K. Mukerjee
| title = A Simple Single-Sensor MPPT Solution
| journal = IEEE Transactions on Power Electronics
| accessdate = 2012-02-10
| date = 2007-03
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4118324
}}
<br>
<br>
'''Abstract:'''Maximum power point trackers (MPPTs) are used to ensure optimal utilization of solar cells. The implementation essentially involves sensing input current and voltage. An MPPT algorithm uses this information to maximize power drawn from the solar cells. Understandably, such realization is costly. Current state of the art allows replacing one of the sensors by complicated computations. In the present work, an empirical observation is used to develop a strategy, which employs a single voltage sensor and carries out simple computations for a buck converter-based MPPT.
<br>
'''Key Features''':


==30."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4118324 A Simple Single-Sensor MPPT Solution ]" ==
*Introduces a method for simple MPPT algorithms
''' By  Pandey, A. ; Rocsys Technol., Hyderabad ; Dasgupta, N. ; Mukerjee, A.K.''' <br /><br />
*Regarded as costly
'''Review''':Maximum power point trackers (MPPTs) are used to ensure optimal utilization of solar cells. The implementation essentially involves sensing input current and voltage. An MPPT algorithm uses this information to maximize power drawn from the solar cells. Understandably, such realization is costly. Current state of the art allows replacing one of the sensors by complicated computations. In the present work, an empirical observation is used to develop a strategy, which employs a single voltage sensor and carries out simple computations for a buck converter-based MPPT
*Analysis is very simple
<br>


----


==31."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=149286 Maximum power point tracking: a cost saving necessity in solar energy systems ]" ==  
<li>{{Cite conference
''' By  Enslin, J.H.R. ; Dept. of Electr. Eng., Pretoria Univ., South Africa ''' <br /><br />
| publisher = IEEE
'''Review''':It is argued that a well-engineered renewable remote energy system utilizing the principal of maximum power point tracking (MPPT) can be cost effective, has a high reliability, and can improve the quality of life in remote areas. A highly efficient power electronic converter for converting the output voltage of a solar panel or wind generator to the required DC battery bus voltage has been realized. The converter is controlled to track the maximum power point of the nput source under varying input and output parameters. MPPT for relatively small systems is achieved by maximization of the output current in a battery charging regulator, using an optimized hill-climbing, inexpensive microprocessor-based algorithm. Through field measurements it is shown that a minimum input source saving of 15% on 3-5 kWh/day systems can easily be achieved
| doi = 10.1109/IECON.1990.149286
| isbn = 0-87942-600-4
| pages = 1073-1077
| last = Enslin
| first = J.H.R.
| title = Maximum power point tracking: a cost saving necessity in solar energy systems
| accessdate = 2012-02-10
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=149286
}}
<br>
<br>
'''Key Features''':  


*Possible usage for background in paper
*MPPT algorithm explained
<br>


==32."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4207429 Comparison of Photovoltaic Array Maximum Power Point Tracking Techniques ]" ==
----
''' By  Esram, T. ; Illinois Univ., Urbana, IL ; Chapman, P.L.''' <br /><br />
'''Review''':The many different techniques for maximum power point tracking of photovoltaic (PV) arrays are discussed. The techniques are taken from the literature dating back to the earliest methods. It is shown that at least 19 distinct methods have been introduced in the literature, with many variations on implementation. This paper should serve as a convenient reference for future work in PV power generation.


<li>{{Cite journal
| doi = 10.1109/TEC.2006.874230
| issn = 0885-8969
| volume = 22
| issue = 2
| pages = 439-449
| last = Esram
| first = Trishan
| coauthors = Patrick L. Chapman
| title = Comparison of Photovoltaic Array Maximum Power Point Tracking Techniques
| journal = IEEE Transactions on Energy Conversion
| accessdate = 2012-02-10
| date = 2007-06
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4207429
}}
<br>
<br>
'''Abstract:'''It is argued that a well-engineered renewable remote energy system utilizing the principal of maximum power point tracking (MPPT) can be cost effective, has a high reliability, and can improve the quality of life in remote areas. A highly efficient power electronic converter for converting the output voltage of a solar panel or wind generator to the required DC battery bus voltage has been realized. The converter is controlled to track the maximum power point of the nput source under varying input and output parameters. MPPT for relatively small systems is achieved by maximization of the output current in a battery charging regulator, using an optimized hill-climbing, inexpensive microprocessor-based algorithm. Through field measurements it is shown that a minimum input source saving of 15% on 3-5 kWh/day systems can easily be achieved
<br>
'''Key Features''':


==33."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=649937 Integrated photovoltaic maximum power point tracking converter  ]" ==
*Well cited paper
''' By  Enslin, J.H.R. ; Dept. of Electr. & Electron. Eng., Stellenbosch Univ., South Africa ; Wolf, M.S. ; Snyman, D.B. ; Swiegers, W.''' <br /><br />
*Definitive paper for MPPT
'''Review''':A low-power low-cost highly efficient maximum power point tracker (MPPT) to be integrated into a photovoltaic (PV) panel is proposed. This can result in a 25% energy enhancement compared to a standard photovoltaic panel, while performing functions like battery voltage regulation and matching of the PV array with the load. Instead of using an externally connected MPPT, it is proposed to use an integrated MPPT converter as part of the PV panel. It is proposed that this integrated MPPT uses a simple controller in order to be cost effective. Furthermore, the power converter has to be very efficient, in order to transfer more energy to the load than a directly-coupled system. This is achieved by using a simple soft-switched topology. A much higher conversion efficiency at lower cost will then result, making the MPPT an affordable solution for small PV energy systems
*Well defined problem statement
<br>


----


==34."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=707796 A fuzzy logic based photovoltaic peak power tracking control  ]" ==  
<li>{{Cite journal
''' By  Simoes, M.G. ; PMC/Mechatronics, Sao Paulo Univ., Brazil ; Franceschetti, N.N. ; Friedhofer, M.''' <br /><br />
| volume = 21
'''Review''':This paper describes the analysis, modeling and implementation of a fuzzy based photovoltaic peak power tracking system. The maximum power of a photovoltaic system changes with temperature, solar intensity and load. An analytical model is built for the solar cell on the basis of the manufacturer characteristics. The solar panel is integrated with the converter model and a fuzzy algorithm is developed so as to perform an on-line search procedure to track the maximum power continuously. The system is implemented by an inexpensive RISC microcontroller. Experimental results have shown excellent performance, robustness with parameter variation, modularity for parallel operation at higher power, and ready to retrofit existing installations
| issue = 1
| pages = 49-56
| last = Walker
| first = Geoff
| title = Evaluating MPPT converter topologies using a MATLAB PV model
| journal = Journal of Electrical Electronics Engineering
| date = 2001
}}
<br>
<br>
'''Key Features''':  


*Theoretical approach
*Includes model code
*Presents MPPT equations
<br>


==35."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5725334 An efficient method of MPPT tracking system of a solar powered Uninterruptible Power Supply application  ]" ==
----
''' By  Thulasiyammal, C. ; Dept. of ICE, AVC Coll. of Eng., Mayiladuthurai, India ; Sutha, S.''' <br /><br />
'''Review''':The study deals with an innovative system achieving an alternative source of energy supply from photovoltaic energy system which operates in case of utility power failure and provides continuity of supply even in medical appliances or industrial applications. It is also designed to reduce usage of utility supply which is generated from coals, nuclear having more carbons as outlets, lagging of sources and providing impure power to consumers. But the solar power is a pure and precious resource and no more impure outlets other disadvantages as like high initial cost. But the economical status may be improved in future but we may not have resource to generate power sometimes. So cost criteria can be meeting out in future to generate power from solar energy. The proposed PV system is composed of conventional novel single axis tracking system and PV system with DC-DC boost converter and PWM voltage source inverter. Here the tracking system is designed to get always 12 V dc output. This voltage is taken as input to the proposed method to maximize the output.


<li>{{Cite journal
| doi = 10.1109/41.649937
| issn = 02780046
| volume = 44
| issue = 6
| pages = 769-773
| last = Enslin
| first = J.H.R.
| coauthors = M.S. Wolf, D.B. Snyman, W. Swiegers
| title = Integrated photovoltaic maximum power point tracking converter
| journal = IEEE Transactions on Industrial Electronics
| accessdate = 2012-02-10
| date = 1997-12
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=649937
}}
<br>
<br>
'''Abstract:'''A low-power low-cost highly efficient maximum power point tracker (MPPT) to be integrated into a photovoltaic (PV) panel is proposed. This can result in a 25% energy enhancement compared to a standard photovoltaic panel, while performing functions like battery voltage regulation and matching of the PV array with the load. Instead of using an externally connected MPPT, it is proposed to use an integrated MPPT converter as part of the PV panel. It is proposed that this integrated MPPT uses a simple controller in order to be cost effective. Furthermore, the power converter has to be very efficient, in order to transfer more energy to the load than a directly-coupled system. This is achieved by using a simple soft-switched topology. A much higher conversion efficiency at lower cost will then result, making the MPPT an affordable solution for small PV energy systems.
<br>
'''Key Features''':


==36."[http://dl.acm.org/ft_gateway.cfm?id=1147764&ftid=370257&dwn=1&CFID=286603648&CFTOKEN=48950420 Design Considerations for Solar Energy Harvesting Wireless Embedded Systems ]" ==
*MPPT schematics and results
''' By  Vijay Raghunathan, Aman Kansal, Jason Hsu, Jonathan Friedman, and Mani Srivastava''' <br /><br />
<br>
'''Review''':Sustainable operation of battery powered wireless embedded systems (such as sensor nodes) is a key challenge, and considerable research effort has been devoted to energy optimization of such systems. Environmental energy harvesting, in particular solar based, has emerged as a viable technique to supplement battery supplies. However, designing an efficient solar harvesting system to realize the potential benefits of energy harvesting requires an in-depth understanding of several factors. For example, solar energy supply is highly time varying and may not always be sufficient to power the embedded system. Harvesting components, such as solar panels, and energy storage elements, such as batteries or ultracapacitors, have different voltage-current characteristics, which must be matched to each other as well as the energy requirements of the system to maximize harvesting efficiency. Further, battery non-idealities, such as self-discharge and round trip efficiency, directly affect energy usage and storage decisions. The ability of the system to modulate its power consumption by selectively deactivating its sub-components also impacts the overall power management architecture. This paper describes key issues and tradeoffs which arise in the design of solar energy harvesting, wireless embedded systems and presents the design, implementation, and performance evaluation of Heliomote, our prototype that addresses several of these issues. Experimental results demonstrate that Heliomote, which behaves as a plug-in to the Berkeley/Crossbow motes and autonomously manages energy harvesting and storage, enables near-perpetual, harvesting aware operation of the sensor node.


----


==37."[http://www.mdpi.com/1424-8220/6/9/1102/pdf Self-Powered Wireless Sensor Networks for Remote Patient Monitoring in Hospitals ]" ==  
<li>{{Cite conference
''' By  Abhiman Hande , Todd Polk, William Walker and Dinesh Bhatia''' <br /><br />
| publisher = IEEE
'''Review''': Patient vital sign monitoring within hospitals requires the use of non-invasivesensors that are hardwired to bedside monitors. This set-up is cumbersome, forcing thepatient to be confined to his hospital bed thereby not allowing him to move around freelywithin the hospital premises. This paper addresses the use of wireless sensor networks formonitoring patient vital sign data in a hospital setting. Crossbow MICAz motes have beenused to design a robust mesh network that routes patient data to a remote base station withinthe hospital premises. A hospital care giver can have access to this data at any point in timeand doesn’t have to be physically present in the patient’s room to review the readings. Thenetwork infrastructure nodes are self-powered and draw energy from overhead 34Wfluorescent lights via solar panels. The sensor nodes can be interfaced to a variety of vitalsign sensors such as electrocardiograms (ECGs), pulse-oximeters and blood pressure (BP)sensors. In order to verify a completely functioning system, a commercial BP/heart-ratemonitor (BPM) was interfaced to a wireless sensor node. The sensor node controls the BPMto initiate a reading, then collects the data and forwards it to the base station. An attractivegraphical user interface (GUI) was designed to store and display patient data on the basestation PC. The set-up was found to be extremely robust with low power consumption.
| doi = 10.1109/ISIE.1998.707796
| isbn = 0-7803-4756-0
| volume = 1
| pages = 300-305
| last = Simoes
| first = M.G.
| coauthors = N.N. Franceschetti, M. Friedhofer
| title = A fuzzy logic based photovoltaic peak power tracking control
| accessdate = 2012-02-10
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=707796
}}
<br>
<br>
'''Abstract:'''This paper describes the analysis, modeling and implementation of a fuzzy based photovoltaic peak power tracking system. The maximum power of a photovoltaic system changes with temperature, solar intensity and load. An analytical model is built for the solar cell on the basis of the manufacturer characteristics. The solar panel is integrated with the converter model and a fuzzy algorithm is developed so as to perform an on-line search procedure to track the maximum power continuously. The system is implemented by an inexpensive RISC microcontroller. Experimental results have shown excellent performance, robustness with parameter variation, modularity for parallel operation at higher power, and ready to retrofit existing installations.
<br>
'''Key Features''':


==38."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5231747 Solar Energy Harvesting for Wireless Sensor Networks ]" ==
*Well documented algorithm (Fuzzy logic)
''' By  Bhuvaneswari, P.T.V. ; MITWSN Lab., Anna Univ., Chennai, India ; Balakumar, R. ; Vaidehi, V. ; Balamuralidhar, P.''' <br /><br />
<br>
'''Review''':The commercially available sensor nodes are battery-driven devices. A number of nodes together constitute a network. As days proceed, the batteries used in the nodes lose their charge and subsequently get isolated from the network. Many energy harvesting schemes have been proposed to alleviate this problem. In this paper, a solar energy based energy harvesting scheme is proposed. This scheme works on the principle of photo-voltaic effect. A recharging circuitry is also designed, that recharges the batteries of the nodes when the charge drops below a threshold level. This leads to strengthening the lifetime of the nodes as well as the network. Compatibility and low power design are the two major salient features of the designed circuitry. The performance of the circuit is also tested with the MICAz hardware.


----


==39."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=4271835 Everlast: Long-life, Supercapacitor-operated Wireless Sensor Node  ]" ==  
<li>{{Cite conference
''' By  Simjee, F. ; Center for Embedded Comput. Syst., California Univ., Irvine, CA ; Chou, P.H.''' <br /><br />
| publisher = IEEE
'''Review''':This paper describes a supercapacitor-operated, solar-powered wireless sensor node called Everlast. Unlike traditional wireless sensors that store energy in batteries, Everlast's use of supercapacitors enables the system to operate for an estimated lifetime of 20 years without any maintenance. The novelty of this system lies in the feedforward, PFM (pulse frequency modulated) converter and open-circuit solar voltage method for maximum power point tracking, enabling the solar cell to efficiently charge the supercapacitor and power the node. Experimental results show that Everlast can achieve low power consumption, long operational lifetime, and high transmission rates, something that traditional sensor nodes cannot achieve simultaneously and must trade-off
| doi = 10.1109/ICEES.2011.5725334
| isbn = 978-1-4244-9732-4
| pages = 233-236
| last = Thulasiyammal
| first = C.
| coauthors = S. Sutha
| title = An efficient method of MPPT tracking system of a solar powered Uninterruptible Power Supply application
| accessdate = 2012-02-10
| date = 2011-01
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=5725334&tag=1
}}
<br>
<br>
'''Abstract:'''The study deals with an innovative system achieving an alternative source of energy supply from photovoltaic energy system which operates in case of utility power failure and provides continuity of supply even in medical appliances or industrial applications. It is also designed to reduce usage of utility supply which is generated from coals, nuclear having more carbons as outlets, lagging of sources and providing impure power to consumers. But the solar power is a pure and precious resource and no more impure outlets other disadvantages as like high initial cost. But the economical status may be improved in future but we may not have resource to generate power sometimes. So cost criteria can be meeting out in future to generate power from solar energy. The proposed PV system is composed of conventional novel single axis tracking system and PV system with DC-DC boost converter and PWM voltage source inverter. Here the tracking system is designed to get always 12 V dc output. This voltage is taken as input to the proposed method to maximize the output.
<br>
'''Key Features''':


==40."[http://www.sciencedirect.com/science/article/pii/S0141933107000415/pdfft?md5=e8f106e10478b6d36e2d1b6b3c2242f9&pid=1-s2.0-S0141933107000415-main.pdf  Indoor solar energy harvesting for sensor network router nodes  ]" ==
*12v output
''' By Abhiman Hande,Todd Polk,William Walker,Dinesh Bhatia ''' <br /><br />
*lacking methodology
'''Review''':A unique method has been developed to scavenge energy from monocrystaline solar cells to power wireless router nodes used in indoor applications. The system’s energy harvesting module consists of solar cells connected in series-parallel combination to scavenge energy from 34W fluorescent lights. A set of ultracapacitors were used as the energy storage device. Two router nodes were used as a router pair at each route point to minimize power consumption. Test results show that the harvesting circuit which acted as a plug-in to the router nodes manages energy harvesting and storage, and enables near-perpetual, harvesting aware operation of the router node.
<br>


----


==41."[http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=483472  200 W low cost module integrated utility interface for modular photovoltaic energy systems  ]" ==
<li>{{Cite conference
''' By Andersen, M. ; MA Consult, Aalborg, Denmark ; Alvsten, B. ''' <br /><br />
| publisher = IEEE
'''Review''':This paper describes the design of a utility interface for a 200 W solar cell array. The interface comprises high frequency soft switching PWM power conversion, analog and logic control and protection circuits and an analog maximum power point tracker (MPPT). All circuits are implemented with standard components (no microcontroller) and thus facilitates integration into ASIC components at a later development stage. The design emphasis is on module integration, low cost production and compliance with standards on utility interfacing. The special requirements of utility interfacing and solar cell array utilization are described and the design of the components of the utility interface is described. The theory and design are verified with the implemented laboratory prototype, which shows excellent performance and verifies the operation of the interface
| doi = 10.1109/EPC.2007.4520376
| isbn = 978-1-4244-1444-4, 978-1-4244-1445-1
| pages = 461-466
| last = Sharaf
| first = A.M.
| coauthors = E. Elbakush, I. H. Altas
| title = Novel Control Strategies For Photovoltaic Powered PMDC Motor Drives
| accessdate = 2012-02-10
| date = 2007-10
| url = http://services.lib.mtu.edu:2107/search/srchabstract.jsp?tp=&arnumber=4520376&openedRefinements%3D*%26filter%3DAND%28NOT%284283010803%29%29%26searchField%3DSearch+All%26queryText%3Dphotovoltaic+motor+control
}}
<br>
<br>
'''Key Features''':  


*PID controller for PV powered PMDC drives
*Well documented simulation
*Lacking on the PV side
<br>


==42."[http://www.sciencedirect.com/science/article/pii/0927024896000633/pdf?md5=b3801c5962cd7437c448a924a0a71af0&pid=1-s2.0-0927024896000633-main.pdf Low cost photovoltaic modules based on dye sensitized nanocrystalline titanium dioxide and carbon powder ]" ==
----
''' By Andreas Kay, Michael Graitzel ''' <br /><br />
'''Review''':A new type of photovoltaic module based on monolithically series connected dye sensitized photoelectrochemical cells is described. Each solar cell element consists of three porous layers on
a transparent conducting substrate, namely a photoelectrode of dye sensitized nanocrystalline TiO 2
(anatase), a spacer of electrically insulating, light reflecting particles of TiO 2 (rutile), and a
counterelectrode of graphite powder and carbon black. The pores of these layers are filled with a
redox electrolyte containing iodide for hole transport between photo- and counterelectrode. The
monolithic series connection on the transparent conducting substrate, e.g., SnO 2 coated glass, is
achieved by simple overlap of each carbon counterelectrode with the back contact of the adjacent
photoelectrode. Such modules may be produced in a continuous non-vacuum process by simple
printing techniques. In this paper we present the first results on energy conversion efficiency and
long term stability obtained with this new type of solar cell.


<br>
<li>{{Cite web
| title = Arduino motor/stepper/servo control - How to use
| accessdate = 2012-02-10
| url = http://learn.adafruit.com/adafruit-motor-shield
}}
<br>
<br>
'''Key Features''': 
*Reference/requirements for small motor control using arduino microcontroller boards
*May be useful resource for blind/shade actuation
<br>


==43."[http://dx.doi.org/10.1109%2FTPEL.2008.2009056 A System Design Approach for Unattended Solar Energy Harvesting Supply  ]"==
----
'''By  Kimball, J.W.; Kuhn, B.T.; Balog, R.S  '''<br /><br />
'''Review''':Remote devices, such as sensors and communications devices, require continuously available power. In many applications, conventional approaches are too expensive, too large, or unreliable. For short-term needs, primary batteries may be used. However, they do not scale up well for long-term installations. Instead, energy harvesting methods must be used. Here, a system design approach is introduced that results in a highly reliable, highly available energy harvesting device for remote applications. First, a simulation method that uses climate data and target availability produces Pareto curves for energy storage and generation. This step determines the energy storage requirement in watt-hours and the energy generation requirement in watts. Cost, size, reliability, and longevity requirements are considered to choose particular storage and generation technologies, and then to specify particular components. The overall energy processing system is designed for modularity, fault tolerance, and energy flow control capability. Maximum power point tracking is used to optimize solar panel performance. The result is a highly reliable, highly available power source. Several prototypes have been constructed and tested. Experimental results are shown for one device that uses multicrystalline silicon solar cells and lithium-iron-phosphate batteries to achieve 100% availability. Future designers can use the same approach to design systems for a wide range of power requirements and installation locations.


==44."[http://dx.doi.org/10.1109%2FTIE.2009.2020703  Indoor Power Harvesting Using Photovoltaic Cells for Low-Power Applications]"==
<li>{{Cite web
'''By Nasiri, A.; Zabalawi, S.A.; Mandic '''<br /><br />
| title = Arduino playground - InterfacingWithHardware
'''Review''':Utilization of low-power indoor devices such as remote sensors, supervisory and alarm systems, distributed controls, and data transfer system is on steady rise. Due to remote and distributed nature of these systems, it is attractive to avoid using electrical wiring to supply power to them. Primary batteries have been used for this application for many years, but they require regular maintenance at usually hard to access places. This paper provides a complete analysis of a photovoltaic (PV) harvesting system for indoor low-power applications. The characteristics of a target load, PV cell, and power conditioning circuit are discussed. Different choices of energy storage are also explained. Implementation and test results of the system are presented, which highlights the practical issues and limitations of the system.
| accessdate = 2012-02-10
| url = http://arduino.cc/playground/Main/InterfacingWithHardware
}}
<br>
<br>
'''Key Features''':
*Resource for interfacing arduino microcontrollers with many types of hardware
*Interfacing with temperature sensors potentially useful
<br>


----


==45."[http://dx.doi.org/10.1109%2FEPEPEMC.2008.4635510 A stand-alone photovoltaic supercapacitor battery hybrid energy storage system ]"==
<li>{{Cite web
'''By Glavin, M.E; Hurley, W.G.; Chan, P.K.W.; Armstrong, S '''<br /><br />
| title = Arduino playground - PIDLibrary
'''Review''':Most of the stand-alone photovoltaic (PV) systems require an energy storage buffer to supply continuous energy to the load when there is inadequate solar irradiation. Typically, Valve Regulated Lead Acid (VRLA) batteries are utilized for this application. However, supplying a large burst of current, such as motor startup, from the battery degrades battery plates, resulting in destruction of the battery. An alterative way of supplying large bursts of current is to combine VRLA batteries and supercapacitors to form a hybrid storage system, where the battery can supply continuous energy and the supercapacitor can supply the instant power to the load. In this paper, the role of the supercapacitor in a PV energy control unit (ECU) is investigated by using Matlab/Simulink models. The ECU monitors and optimizes the power flow from the PV to the battery-supercapacitor hybrid and the load. Three different load conditions are studied, including a peak current load, pulsating current load and a constant current load. The simulation results show that the hybrid storage system can achieve higher specific power than the battery storage system.
| accessdate = 2012-02-10
| url = http://arduino.cc/playground/Code/PIDLibrary
}}
<br>
<br>
'''Key Features''':
*Useful for PID control on arduino
*contains libraries for PID functions
<br>


==46."[http://dx.doi.org/10.1109%2FECCE.2010.5618014 Control of hybrid battery/ultra-capacitor energy storage for stand-alone photovoltaic system ]"==
----
'''By Liu, Xiong; Wang, Peng; Loh, Poh Chiang; Gao,Feng; Choo, Fook Hoong '''<br /><br />
'''Review''':Battery life is an important criterion in a stand-alone photovoltaic system operation due to intermittent characteristic of solar irradiation and demand. This paper presents a stand-alone photovoltaic system with Ni-MH battery and ultra-capacitor serving as its energy storage elements. A control strategy is proposed in this paper to reduce charging and discharging cycles and avoid deep discharges of battery. The battery converter is controlled in current mode to track a charging/discharging reference current which is given by energy management system, whereas the ultra-capacitor converter is controlled to corporate solar irradiation fluctuations, load spikes and variations to maintain a stable dc-link voltage. Isolated PV system with the proposed control schemes is created using MATLAB SIMULINK. An optimum performance is achieved to serve as both high power and high energy sources due to complementary characteristic of battery and ultra-capacitor.


<br>
<li>{{Cite web
| last = Popat
| first = Pradeep
| title = Patent US5760558 - Solar-powered, wireless, retrofittable, automatic controller for venetian blinds and similar window converings
| accessdate = 2012-02-08
| url = http://www.google.com/patents/US5760558
}}
<br>
<br>
'''Abstract:'''A system for automatic operation of venetian blinds and similar window coverings. A preferred embodiment, system 30, can be retrofitted to any conventional venetian blind without tools, removal of the blind, or installation of wiring (FIG. 10A). System 30 is attached to a blind 15 by a bracket 80, which engages a headrail 16 of blind 15, and is secured by a thumbscrew 84 (FIG. 4C). System 30 includes a gearmotor 85 which drives a coupling tube 91; coupling tube 91 is attached to a tilt-adjustment shaft 18 of blind 15 (FIG. 3A). The mechanical coupling between gearmotor 85 and coupling tube 91 includes a flexible coupling and an extensible coupling, which enable gearmotor 85 to rotate shaft 18 over a wide range of sizes and configurations of blind 15 (FIGS. 5A and 5B). System 30 also includes a photovoltaic source 31 mounted on a flexible member 99. Member 99 provides electrical connections to source 31, and supports it in an advantageous position to receive solar radiation (FIGS. 8B and 8C), regardless of the size and mounting arrangement of blind 15. System 30 also includes four momentary-contact electrical switches 38 to 41 and an actuating body 94, to which a tilt-control wand 19 of blind 15 can be attached. Together, actuating body 94 and switches 38 to 41 enable system 30 to be conveniently controlled by rotary and axial movements of wand 19 (FIG. 10A).
<br>
'''Key Features''':


==47."[http://learn.adafruit.com/adafruit-motor-shield  How to use motor/stepper/servo control ]"==
*Patent
<br /><br />
*Good resource for control logic
'''Review''':Arduino is a great starting point for electronics, and with a motor shield it can also be a nice tidy platform for robotics and mechatronics. Here is a design for a full-featured motor shield that will be able to power many simple to medium-complexity projects.
*Retrofittable
<br>


----


==48."[http://playground.arduino.cc/Code/PIDLibrary Arduino playground - PIDLibrary ]"==
<li>{{Cite web
<br /><br />
| last = Corazzini
'''Review''':A PID controller calculates an 'error' value as the difference between a measured Input and a desired setpoint. The controller attempts to minimize the error by adjusting an Output
| first = Warren
| title = Patent US5413161 - Solar powered window shade
| accessdate = 2012-02-08
| url = http://www.google.com/patents/US5413161
}}
<br>
<br>
'''Abstract:'''
A solar powered window shade is provided which consists of a venetian blind mounted within an interior of a frame of a window in a wall of a building. An apparatus is carried by the venetian blind, for converting solar radiation of sunlight into electrical energy. A mechanism is carried by the venetian blind for utilizing the electrical energy to open and close the venetian blind. At sunrise and all through the day, the venetian blind will remain opened to allow sunlight to enter through the window, to help heat up the building. At sunset and all through the night, the venetian blind will remain closed to produce a thermal barrier, to help retain the heat within the building.


<br>
'''Key Features''':


==49."[http://eab.sagepub.com/content/23/4/474.full.pdf+html Impact of Window Size and Sunlight Penetration on Office Workers' Mood and Satisfaction ]"==
*Patent
'''By  Boubekri, Mohamed; Robert B. Hull, Lester L. Boyer'''<br /><br />
*Short
'''Review''':Sunlighting or direct-gain passive solar strategies let sunlight penetrate the living space. In environments where the well-being of the building occupant is a salient concern to the designer, this intrusion of sunlight ought to be controlled so that it does not impede the performance of the occupant. This study investigates the impact of window size and different amounts of sunlight penetration on occupant emotional response and degree of satisfaction. Unlike previous sunlight requirement studies, sunlight penetration is measured not in terms of duration, but rather in terms of size of sunlit areas, and therefore as a visual stimulus. The study was performed in an office room of a typical size. It was found that window size did not significantly affect the occupant emotional state or the degree of satisfaction. Sunlight penetration significantly affected the feeling of relaxation when the observer was sitting sideways to the window and the relationship had an inverted U-shape. The study stresses the validity of this novel way of assessing sunlight penetration in terms of size of the sun patches inside the room and its importance as a significant environmental attribute and design parameter that ought to be accounted for during the design of windows in sunlighting or direct-gain passive solar strategies.
<br>


----


==50."[http://ibe.sagepub.com/content/3/3/135.full.pdf+html  Manual Control of Window Blinds and Electric Lighting: Implications for Comfort and Energy Consumption]"==
<li>{{Cite web
'''By Newsham, G.r. '''<br /><br />
| last = Knowles
'''Review''':Algorithms to describe the manual control of window blinds and electric light ing, in response to comfort stimuli, were incorporated into a building thermal model. By comparison with fixed control schedules, this paper examines the impact of manual control on model predictions of thermal comfort and build ing energy consumption. For a typical, south-facing office in Toronto, the ther mal comfort of an occupant close to the window was substantially improved by the provision of window blinds. Compared to an office with no blinds, mean PPD (predicted percentage of occupants dissatisfied with the thermal environment) was lowered from 22 to 13%, and overheated hours were reduced by over 200 per year. However, when the lighting was also manually controlled, the blinds imposed an energy penalty. Though reduced solar gain lowered cooling energy by 7%, heating energy increased by 17%, and reduced daylight increased lighting energy by 6 6 %. The implications of these results on the modelling of occupied buildings are discussed.
| first = Byron
| title = Motorized window shade
| accessdate = 2012-02-10
| date = 2008-07-02
| url = http://www.freepatentsonline.com/EP1939389.html
}}
<br>
<br>
'''Key Features''':
 
*Patent
<br>
 
----
 
<li>{{Cite web
| title = Automatic Window Blinds Controller (PICAXE)
| accessdate = 2012-02-10
| url = http://www.instructables.com/id/Build-A-Motorized-Window-Blinds-Controller-For-Les/
}}
<br>
<br>
'''Key Features''':  
*Not published
*DIY approach to an automated window blind
*Uses a PIC microcontroller
<br>
 
----
 
<li>{{Cite journal
| doi = 10.1016/0038-092X(94)90076-E
| issn = 0038-092X
| volume = 52
| issue = 1
| pages = 3-7
| last = E.
| first = Bilgen
| title = Experimental study of thermal performance of automated venetian blind window systems
| journal = Solar Energy
| date = 1994-01
}}
<br>
<br>
'''Key Features''':
 
*No MTU Access
<br>
 
----
 
<br>
<li>{{Cite journal
| last = Raghunathan
| first = Vijay
| coauthors = Kansal Aman, Jason Hsu, Jonathan Friedman, Mani Srivastava
| title = Design considerations for solar energy harvesting wireless embedded systems
| series = Proceedings of the 4th international symposium on Information processing in sensor networks
| accessdate = 2012-02-07
| url = http://services.lib.mtu.edu:3919/citation.cfm?id=1147764
}}
<br>
<br>
'''Abstract:'''Sustainable operation of battery powered wireless embedded systems (such as sensor nodes) is a key challenge, and considerable research effort has been devoted to energy optimization of such systems. Environmental energy harvesting, in particular solar based, has emerged as a viable technique to supplement battery supplies. However, designing an efficient solar harvesting system to realize the potential benefits of energy harvesting requires an in-depth understanding of several factors. For example, solar energy supply is highly time varying and may not always be sufficient to power the embedded system. Harvesting components, such as solar panels, and energy storage elements, such as batteries or ultracapacitors, have different voltage-current characteristics, which must be matched to each other as well as the energy requirements of the system to maximize harvesting efficiency. Further, battery non-idealities, such as self-discharge and round trip efficiency, directly affect energy usage and storage decisions. The ability of the system to modulate its power consumption by selectively deactivating its sub-components also impacts the overall power management architecture. This paper describes key issues and tradeoffs which arise in the design of solar energy harvesting, wireless embedded systems and presents the design, implementation, and performance evaluation of Heliomote, our prototype that addresses several of these issues. Experimental results demonstrate that Heliomote, which behaves as a plug-in to the Berkeley/Crossbow motes and autonomously manages energy harvesting and storage, enables near-perpetual, harvesting aware operation of the sensor node.
<br>
'''Key Features''':
 
*interesting power densities of alternative energies table
*MPPT background
*Solar harvesting design section
*Lacking schematics/diagrams
*Applicable design considerations to smart shades project
<br>
 
----
 
<li>{{Cite journal
| doi = 10.3390/s6091102
| issn = 1424-8220
| volume = 6
| issue = 9
| pages = 1102-1117
| last = Hande
| first = Abhiman
| coauthors = Todd Polk, William Walker, Dinesh Bhatia
| title = Self-Powered Wireless Sensor Networks for Remote Patient Monitoring in Hospitals
| journal = Sensors
| accessdate = 2012-02-08
| date = 2006-09-22
| url = http://www.mdpi.com/1424-8220/6/9/1102
}}
<br>
<br>
'''Abstract:''' Patient vital sign monitoring within hospitals requires the use of non-invasivesensors that are hardwired to bedside monitors. This set-up is cumbersome, forcing thepatient to be confined to his hospital bed thereby not allowing him to move around freelywithin the hospital premises. This paper addresses the use of wireless sensor networks formonitoring patient vital sign data in a hospital setting. Crossbow MICAz motes have beenused to design a robust mesh network that routes patient data to a remote base station withinthe hospital premises. A hospital care giver can have access to this data at any point in timeand doesn’t have to be physically present in the patient’s room to review the readings. Thenetwork infrastructure nodes are self-powered and draw energy from overhead 34Wfluorescent lights via solar panels. The sensor nodes can be interfaced to a variety of vitalsign sensors such as electrocardiograms (ECGs), pulse-oximeters and blood pressure (BP)sensors. In order to verify a completely functioning system, a commercial BP/heart-ratemonitor (BPM) was interfaced to a wireless sensor node. The sensor node controls the BPMto initiate a reading, then collects the data and forwards it to the base station. An attractivegraphical user interface (GUI) was designed to store and display patient data on the basestation PC. The set-up was found to be extremely robust with low power consumption.
<br>
'''Key Features''':
 
*Mostly implementation and lacking design
<br>
 
----
 
<li>{{Cite conference
| publisher = IEEE
| doi = 10.1109/CICSYN.2009.91
| isbn = 978-0-7695-3743-6
| pages = 57-61
| last = Bhuvaneswari
| first = P.T.V.
| coauthors = R. Balakumar, V. Vaidehi, P. Balamuralidhar
| title = Solar Energy Harvesting for Wireless Sensor Networks
| accessdate = 2012-02-08
| date = 2009-07
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=5231747
}}
<br>
<br>
'''Abstract:'''The commercially available sensor nodes are battery-driven devices. A number of nodes together constitute a network. As days proceed, the batteries used in the nodes lose their charge and subsequently get isolated from the network. Many energy harvesting schemes have been proposed to alleviate this problem. In this paper, a solar energy based energy harvesting scheme is proposed. This scheme works on the principle of photo-voltaic effect. A recharging circuitry is also designed, that recharges the batteries of the nodes when the charge drops below a threshold level. This leads to strengthening the lifetime of the nodes as well as the network. Compatibility and low power design are the two major salient features of the designed circuitry. The performance of the circuit is also tested with the MICAz hardware.
<br>
'''Key Features''':
 
*Builds off previous work
*Circuit schematic included
*Utilizes battery
<br>
 
----
 
<li>{{Cite conference
| publisher = IEEE
| doi = 10.1109/LPE.2006.4271835
| isbn = 1-59593-462-6
| pages = 197-202
| last = Simjee
| first = Farhan
| coauthors = Pai H. Chou
| title = Everlast: Long-life, Supercapacitor-operated Wireless Sensor Node
| accessdate = 2012-02-08
| date = 2006-10
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4271835
}}
<br>
<br>
'''Abstract:'''This paper describes a supercapacitor-operated, solar-powered wireless sensor node called Everlast. Unlike traditional wireless sensors that store energy in batteries, Everlast's use of supercapacitors enables the system to operate for an estimated lifetime of 20 years without any maintenance. The novelty of this system lies in the feedforward, PFM (pulse frequency modulated) converter and open-circuit solar voltage method for maximum power point tracking, enabling the solar cell to efficiently charge the supercapacitor and power the node. Experimental results show that Everlast can achieve low power consumption, long operational lifetime, and high transmission rates, something that traditional sensor nodes cannot achieve simultaneously and must trade-off.
<br>
'''Key Features''':
 
*Operates on supercapacitor
*Equations and diagrams
<br>
 
----
 
<li>{{Cite journal
| doi = 10.1016/j.micpro.2007.02.006
| issn = 0141-9331
| volume = 31
| issue = 6
| pages = 420-432
| last = Hande
| first = Abhiman
| coauthors = Todd Polk, William Walker, Dinesh Bhatia
| title = Indoor solar energy harvesting for sensor network router nodes
| journal = Microprocessors and Microsystems
| date = 2007-09-01
}}
<br>
<br>
'''Key Features''':
 
*Similar to hospital paper, although better design
*Limited application to smart shades
<br>
 
----
 
<li>{{Cite journal
| doi = 10.1109/TIE.2009.2020703
| issn = 0278-0046
| volume = 56
| issue = 11
| pages = 4502-4509
| last = Nasiri
| first = A.
| coauthors = S.A. Zabalawi, G. Mandic
| title = Indoor Power Harvesting Using Photovoltaic Cells for Low-Power Applications
| journal = IEEE Transactions on Industrial Electronics
| accessdate = 2012-02-10
| date = 2009-11
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=4838877&tag=1
}}
<br>
<br>
'''Abstract:'''Utilization of low-power indoor devices such as remote sensors, supervisory and alarm systems, distributed controls, and data transfer system is on steady rise. Due to remote and distributed nature of these systems, it is attractive to avoid using electrical wiring to supply power to them. Primary batteries have been used for this application for many years, but they require regular maintenance at usually hard to access places. This paper provides a complete analysis of a photovoltaic (PV) harvesting system for indoor low-power applications. The characteristics of a target load, PV cell, and power conditioning circuit are discussed. Different choices of energy storage are also explained. Implementation and test results of the system are presented, which highlights the practical issues and limitations of the system.
<br>
'''Key Features''':
 
<br>
 
----
 
<li>{{Cite conference
| publisher = Catholic University College Sint Lieven
| last = Thienpondt
| first = Jorge
| coauthors = Sven Leyre, Jean-Pierre Goemaere, Lieven Strycker
| title = Energy Harvesting for Home Automation Applications
| accessdate = 2012-02-10
| url = http://www.els.usv.ro/pagini/past_editions/ELS%202009/C2.09_THIENPONDT%20Jorge.pdf
}}
<br>
<br>
'''Key Features''':
 
<br>
 
----
 
<li>{{Cite conference
| publisher = IEEE
| doi = 10.1109/IECON.1995.483472
| isbn = 0-7803-3026-9
| volume = 1
| pages = 572-577
| last = Andersen
| first = M.
| coauthors = B. Alvsten
| title = 200 W low cost module integrated utility interface for modular photovoltaic energy systems
| accessdate = 2012-02-10
| url = http://services.lib.mtu.edu:2107/xpls/abs_all.jsp?arnumber=483472
}}
<br>
<br>
'''Abstract:'''This paper describes the design of a utility interface for a 200 W solar cell array. The interface comprises high frequency soft switching PWM power conversion, analog and logic control and protection circuits and an analog maximum power point tracker (MPPT). All circuits are implemented with standard components (no microcontroller) and thus facilitates integration into ASIC components at a later development stage. The design emphasis is on module integration, low cost production and compliance with standards on utility interfacing. The special requirements of utility interfacing and solar cell array utilization are described and the design of the components of the utility interface is described. The theory and design are verified with the implemented laboratory prototype, which shows excellent performance and verifies the operation of the interface
<br>
'''Key Features''':
 
*MPPT design
<br>
</ol>

Revision as of 06:09, 20 February 2014

Smart shade methods

in this page we review methods for this project

Literature Review

See also : Smart solar shades literature review

  1. Joshua M, Pearce (2002-09). "Photovoltaics — a path to sustainable futures". Futures 34 (7): 663-674. doi:10.1016/S0016-3287(02)00008-3. ISSN 0016-3287.


    Abstract: As both population and energy use per capita increase, modern society is approaching physical limits to its continued fossil fuel consumption. The immediate limits are set by the planet’s ability to adapt to a changing atmospheric chemical composition, not the availability of resources. In order for a future society to be sustainable while operating at or above our current standard of living a shift away from carbon based energy sources must occur. An overview of the current state of active solar (photovoltaic, PV) energy technology is provided here to outline a partial solution for the environmental problems caused by accelerating global energy expenditure. The technical, social, and economic benefits and limitations of PV technologies to provide electricity in both off-grid and on-grid applications is critically analyzed in the context of this shift in energy sources. It is shown that PV electrical production is a technologically feasible, economically viable, environmentally benign, sustainable, and socially equitable solution to society’s future energy requirements.


    Key Features:
    • Introduction to photovoltaics
    open access


  2. Kimball, J.W.; Kuhn, B.T.; Balog, R.S. (2009-04). "A System Design Approach for Unattended Solar Energy Harvesting Supply". Power Electronics, IEEE Transactions on 24 (4): 952-962. doi:10.1109/TPEL.2008.2009056. ISSN 0885-8993.


    Abstract: Remote devices, such as sensors and communications devices, require continuously available power. In many applications, conventional approaches are too expensive, too large, or unreliable. For short-term needs, primary batteries may be used. However, they do not scale up well for long-term installations. Instead, energy harvesting methods must be used. Here, a system design approach is introduced that results in a highly reliable, highly available energy harvesting device for remote applications. First, a simulation method that uses climate data and target availability produces Pareto curves for energy storage and generation. This step determines the energy storage requirement in watt-hours and the energy generation requirement in watts. Cost, size, reliability, and longevity requirements are considered to choose particular storage and generation technologies, and then to specify particular components. The overall energy processing system is designed for modularity, fault tolerance, and energy flow control capability. Maximum power point tracking is used to optimize solar panel performance. The result is a highly reliable, highly available power source. Several prototypes have been constructed and tested. Experimental results are shown for one device that uses multicrystalline silicon solar cells and lithium-iron-phosphate batteries to achieve 100% availability. Future designers can use the same approach to design systems for a wide range of power requirements and installation locations.

    Key Features:
    • MPPT information


  3. Nasiri, A.; Zabalawi, S.A.; Mandic, G. (2009-11). "Indoor Power Harvesting Using Photovoltaic Cells for Low-Power Applications". Industrial Electronics, IEEE Transactions on 56 (11): 4502-4509. doi:10.1109/TIE.2009.2020703. ISSN 0278-0046.


    Abstract: Utilization of low-power indoor devices such as remote sensors, supervisory and alarm systems, distributed controls, and data transfer system is on steady rise. Due to remote and distributed nature of these systems, it is attractive to avoid using electrical wiring to supply power to them. Primary batteries have been used for this application for many years, but they require regular maintenance at usually hard to access places. This paper provides a complete analysis of a photovoltaic (PV) harvesting system for indoor low-power applications. The characteristics of a target load, PV cell, and power conditioning circuit are discussed. Different choices of energy storage are also explained. Implementation and test results of the system are presented, which highlights the practical issues and limitations of the system.

    Key Features:
    • Battery connection
    • Other energy storage possibilities


  4. Stephenson, D.G. (1964). "Equations for solar heat gain through windows". Solar Energy 9 (2): 81-86. Retrieved 2012-02-10.

    Abstract: An analysis of solar-radiation records obtained at Scarborough, Ontario, indicates that the insolation in Canada can be significantly greater than the values given by Moon's1 standard solar-radiation curves. It is possible to represent the solar data by a single analytical expression involving an atmospheric extinction coefficient and an apparent value of the solar constant. This expression allows the calculation of insolation on any surface and the determination of the time and date when the maximum insolation can occur for any surface. Simple expressions relate the time, date, latitude, building orientation, and the type of window glass and shading with the solar heat gain through windows. These can be used to program any digital computer to compute design values of the instantaneous heat gain through the windows of a building.
    Key Features:
    • Calculates insolation empirically (20 stations in Scarborough, Ontario)
    • Similar Latitude (Scarborough: 43.78º, Houghton: 47.12º)
    • Variables: time, date, latitude, building orientation, type of glass, and shading
    • Equations for Direct Normal Insolation @ ground level (DNI)...
    • Isolation Charts


  5. Galasiu, Anca D; Morad R Atif, Robert A MacDonald (2004-01). "Impact of window blinds on daylight-linked dimming and automatic on/off lighting controls". Solar Energy 76 (5): 523-544. doi:10.1016/j.solener.2003.12.007. ISSN 0038092X. Retrieved 2012-02-10.

    Key Features:
    • Photo controlled lighting systems (variable lighting based off of PV sensing)
    • Possibly useful for future work section
    • lighting control systems found to be responsible for 50-60% reduction in energy consumption
    • Compares dimming systems and on/off systems
    • investigates numerous blinds configurations


  6. Boubekri, Mohamed; Robert B. Hull, Lester L. Boyer (1991-07-01). "Impact of Window Size and Sunlight Penetration on Office Workers' Mood and Satisfaction". Environment and Behavior 23 (4): 474 -493. doi:10.1177/0013916591234004. Retrieved 2012-02-10.

    Abstract: Sunlighting or direct-gain passive solar strategies let sunlight penetrate the living space. In environments where the well-being of the building occupant is a salient concern to the designer, this intrusion of sunlight ought to be controlled so that it does not impede the performance of the occupant. This study investigates the impact of window size and different amounts of sunlight penetration on occupant emotional response and degree of satisfaction. Unlike previous sunlight requirement studies, sunlight penetration is measured not in terms of duration, but rather in terms of size of sunlit areas, and therefore as a visual stimulus. The study was performed in an office room of a typical size. It was found that window size did not significantly affect the occupant emotional state or the degree of satisfaction. Sunlight penetration significantly affected the feeling of relaxation when the observer was sitting sideways to the window and the relationship had an inverted U-shape. The study stresses the validity of this novel way of assessing sunlight penetration in terms of size of the sun patches inside the room and its importance as a significant environmental attribute and design parameter that ought to be accounted for during the design of windows in sunlighting or direct-gain passive solar strategies.
    Key Features:
    • Possibly useful for general discussion (Effects on users) and important information for controls, QC, reception, and design
    • Study investigates the impact of window size as well as assorted amounts of sunlight penetration's effect on occupant (user) emotional response and satisfaction
    • Interesting algebraic approach to determine mood
    • Trends for mood based on area of floor covered in sun


  7. Lee, E.S.; D.L. DiBartolomeo, S.E. Selkowitz (1998-12). "Thermal and daylighting performance of an automated venetian blind and lighting system in a full-scale private office". Energy and Buildings 29 (1): 47-63. doi:10.1016/S0378-7788(98)00035-8. ISSN 0378-7788.

    Key Features:
    • Study utilized automated Venetian blinds synchronized with a dimmable electric lighting system.
    • Report is very well written and may provide good introduction information
    • Contains room blueprints, list of monitored data...
    • Paper could be extremely useful for a basis for writing report


  8. Roisin, B.; M. Bodart, A. Deneyer, P. D. Herdt (2008). "Lighting energy savings in offices using different control systems and their real consumption". Energy and Buildings 40 (4): 514-523. doi:10.1016/j.enbuild.2007.04.006. ISSN 0378-7788.

    Key Features:
    • Simulations based off of DAYSIM
    • Estimates energy savings due to smart dimming of lights
    • Savings found to be between 45-61%
    • Possibly useful for future work and background information


  9. Christoph F., Reinhart (2004). "Lightswitch-2002: a model for manual and automated control of electric lighting and blinds". Solar Energy 77 (1): 15-28. doi:10.1016/j.solener.2004.04.003. ISSN 0038-092X.

    Key Features:
    • Proposes a simulation algorithm that predicts the switching patterns of lightswitches
    • References several papers on blind use that may be useful


  10. Newsham, G.r. (1994-05-01). "Manual Control of Window Blinds and Electric Lighting: Implications for Comfort and Energy Consumption". Indoor and Built Environment 3 (3): 135 -144. doi:10.1177/1420326X9400300307. Retrieved 2012-02-10.

    Abstract: Algorithms to describe the manual control of window blinds and electric light ing, in response to comfort stimuli, were incorporated into a building thermal model. By comparison with fixed control schedules, this paper examines the impact of manual control on model predictions of thermal comfort and build ing energy consumption. For a typical, south-facing office in Toronto, the ther mal comfort of an occupant close to the window was substantially improved by the provision of window blinds. Compared to an office with no blinds, mean PPD (predicted percentage of occupants dissatisfied with the thermal environment) was lowered from 22 to 13%, and overheated hours were reduced by over 200 per year. However, when the lighting was also manually controlled, the blinds imposed an energy penalty. Though reduced solar gain lowered cooling energy by 7%, heating energy increased by 17%, and reduced daylight increased lighting energy by 6 6 %. The implications of these results on the modelling of occupied buildings are discussed.
    Key Features:
    • Paper examines impact of manual control of window blinds and lighting for a typical south-facing office room in Toronto, ON
    • Stresses user comfort over thermal efficiency


  11. Reinhart, Cf; K Voss (2003-09-01). "Monitoring manual control of electric lighting and blinds". Lighting Research and Technology 35 (3): 243-260. doi:10.1191/1365782803li064oa. ISSN 00000000 14771535, 00000000. Retrieved 2012-02-10.

    Key Features:
    • Builds off previous research paper
    • Probability of light switching based on illuminance


  12. Charron, Raemi; Andreas K. Athienitis (2006-05). "Optimization of the performance of double-facades with integrated photovoltaic panels and motorized blinds". Solar Energy 80 (5): 482-491. doi:10.1016/j.solener.2005.05.004. ISSN 0038-092X.

    Key Features:
    • System uses a double-facade system for energy capture


  13. Tilmann E., Kuhn (2006-06). "Solar control: A general evaluation method for facades with venetian blinds or other solar control systems". Energy and Buildings 38 (6): 648-660. doi:10.1016/j.enbuild.2005.10.002. ISSN 0378-7788.

    Key Features:
    • More-so a study of building design
    • Equation dense, may still be useful for energy calculations


  14. Roche, L (2002-03-01). "Summertime performance of an automated lighting and blinds control system". Lighting Research and Technology 34 (1): 11 -25. doi:10.1191/1365782802li026oa. Retrieved 2012-02-10.

    Abstract: An innovative automated blind and lighting control system was developed to eliminate direct solar penetration and keep working plane illuminances within an optimal range, while making maximum use of daylight, and minimizing blind movement. Data collected from a controlled experiment indicate that the system eliminated direct solar glare and kept the working plane illuminance within the target range, while providing only 30% more electric lighting than a theoretical system with no blinds and perfect knowledge of the working plane illuminance. The system needed to provide 60% less electric lighting than a similar system with switchable rather than dimmable luminaires. Total blind movement varied from less than 1 min to over 6 min in one day depending on the weather, with an average of 190 s. Similar integrated systems have the potential to save a large fraction of the electricity used for lighting, while providing an amenable visual environment.
    Key Features:
    • Automated blind and lighting control system
    • Shown to provide 60% less electric lighting
    • Higher importance on staying within an illumination band than thermal


  15. Tzempelikos, Athanassios; Andreas K. Athienitis (2007). "The impact of shading design and control on building cooling and lighting demand". Solar Energy 81 (3): 369 - 382. doi:10.1016/j.solener.2006.06.015. ISSN 0038-092X.

    Key Features:
    • Study done in Montreal, Quebec... daylight availability ratio tables
    • Another good option to base writing off of


  16. M., Zaheer-Uddin (1987). "The influence of automated window shutters on the design and performance of a passive solar house". Building and Environment 22 (1): 67-75. doi:10.1016/0360-1323(87)90043-6. ISSN 0360-1323.

    Key Features:

  17. Kachadorian, James (2006-07-31). The passive solar house. Chelsea Green Publishing. ISBN 9781933392035.

    Key Features:
    • Book about general passive house information (Do-It-Yourself type book)
    • Chapter about solar design calculations


  18. Li, Yanqiu; Hongyun Yu, Bo Su, Yonghong Shang (2008-06). "Hybrid Micropower Source for Wireless Sensor Network". IEEE Sensors Journal 8 (6): 678-681. doi:10.1109/JSEN.2008.922692. ISSN 1530-437X. Retrieved 2012-02-07.

    Key Features:
    • Utilizes a hybrid energy system (Li-ion batteries and ultracapacitors)
    • Entire paper on power source
    • Little design information


  19. Kimball, Jonathan W.; Brian T. Kuhn, Robert S. Balog (2009-04). "A System Design Approach for Unattended Solar Energy Harvesting Supply". IEEE Transactions on Power Electronics 24 (4): 952-962. doi:10.1109/TPEL.2008.2009056. ISSN 0885-8993. Retrieved 2012-02-07.

    Abstract:Remote devices, such as sensors and communications devices, require continuously available power. In many applications, conventional approaches are too expensive, too large, or unreliable. For short-term needs, primary batteries may be used. However, they do not scale up well for long-term installations. Instead, energy harvesting methods must be used. Here, a system design approach is introduced that results in a highly reliable, highly available energy harvesting device for remote applications. First, a simulation method that uses climate data and target availability produces Pareto curves for energy storage and generation. This step determines the energy storage requirement in watt-hours and the energy generation requirement in watts. Cost, size, reliability, and longevity requirements are considered to choose particular storage and generation technologies, and then to specify particular components. The overall energy processing system is designed for modularity, fault tolerance, and energy flow control capability. Maximum power point tracking is used to optimize solar panel performance. The result is a highly reliable, highly available power source. Several prototypes have been constructed and tested. Experimental results are shown for one device that uses multicrystalline silicon solar cells and lithium-iron-phosphate batteries to achieve 100% availability. Future designers can use the same approach to design systems for a wide range of power requirements and installation locations.
    Key Features:
    • Good Design flow diagrams
    • Good information on energy storage options
    • Well written, a good basis for energy information


  20. Glavin, M.; W.G. Hurley (2006-09). "Battery Management System for Solar Energy Applications". IEEE. pp. 79-83. doi:10.1109/UPEC.2006.367719. ISBN 978-186135-342-9. Retrieved 2012-02-08.

    Abstract:Generally in photovoltaic applications the storage battery has the highest life time cost in the system; it has a profound affect on the reliability and performance of the system. Currently the most commonly used storage technology for photovoltaic applications is the lead acid battery. The advantages of the lead acid battery are its low cost and great availability. The problem is that photovoltaic panels are not an ideal source for charging batteries. With the lead acid battery the charging regime may have a significant impact on its service life. The battery management system described in this paper aims to optimize the use of the battery, to prolong the life of the battery, making the overall system more reliable and cost effective. Maximum power point tracking will also be incorporated into the battery management system, to move the solar array operating voltage close to the maximum power point under varying atmospheric conditions, in order to draw the maximum power from the array. This paper will describe different battery technologies that are currently used with photovoltaic systems along with some of the charging techniques that are available
    Key Features:
    • Mentions a few different storage technologies (mostly nickel metal and ultracaps)
    • Some simple background on MPPTs
    • All around not a very detailed paper


  21. Brunelli, D.; C. Moser, L. Thiele, L. Benini (2009-11). "Design of a Solar-Harvesting Circuit for Batteryless Embedded Systems". IEEE Transactions on Circuits and Systems I: Regular Papers 56 (11): 2519-2528. doi:10.1109/TCSI.2009.2015690. ISSN 1558-0806 1549-8328, 1558-0806. Retrieved 2012-02-08.
    Abstact:The limited battery lifetime of modern embedded systems and mobile devices necessitates frequent battery recharging or replacement. Solar energy and small-size photovoltaic (PV) systems are attractive solutions to increase the autonomy of embedded and personal devices attempting to achieve perpetual operation. We present a battery less solar-harvesting circuit that is tailored to the needs of low-power applications. The harvester performs maximum-power-point tracking of solar energy collection under nonstationary light conditions, with high efficiency and low energy cost exploiting miniaturized PV modules. We characterize the performance of the circuit by means of simulation and extensive testing under various charging and discharging conditions. Much attention has been given to identify the power losses of the different circuit components. Results show that our system can achieve low power consumption with increased efficiency and cheap implementation. We discuss how the scavenger improves upon state-of-the-art technology with a measured power consumption of less than 1 mW. We obtain increments of global efficiency up to 80%, diverging from ideality by less than 10%. Moreover, we analyze the behavior of super capacitors. We find that the voltage across the supercapacitor may be an unreliable indicator for the stored energy under some circumstances, and this should be taken into account when energy management policies are used.
    Key Features:
    • Uses an ultracapacitor
    • Section specifically about ultracapacitor analysis and problems
    • Section specifically about System problems (MPPT)


  22. Glavin, M.E.; Paul K.W. Chan, S. Armstrong, W.G. Hurley (2008-09). "A stand-alone photovoltaic supercapacitor battery hybrid energy storage system". IEEE. pp. 1688-1695. doi:10.1109/EPEPEMC.2008.4635510. ISBN 978-1-4244-1741-4. Retrieved 2012-02-08.

    Abstract:Most of the stand-alone photovoltaic (PV) systems require an energy storage buffer to supply continuous energy to the load when there is inadequate solar irradiation. Typically, Valve Regulated Lead Acid (VRLA) batteries are utilized for this application. However, supplying a large burst of current, such as motor startup, from the battery degrades battery plates, resulting in destruction of the battery. An alterative way of supplying large bursts of current is to combine VRLA batteries and supercapacitors to form a hybrid storage system, where the battery can supply continuous energy and the supercapacitor can supply the instant power to the load. In this paper, the role of the supercapacitor in a PV energy control unit (ECU) is investigated by using Matlab/Simulink models. The ECU monitors and optimizes the power flow from the PV to the battery-supercapacitor hybrid and the load. Three different load conditions are studied, including a peak current load, pulsating current load and a constant current load. The simulation results show that the hybrid storage system can achieve higher specific power than the battery storage system.
    Key Features:
    • Utilizes an ultracapacitor/battery hybrid system
    • Contains matlab model results for PV system, battery, and ultracapacitor
    • Purely theoretical


  23. Liu, Xiong; Peng Wang, Poh Chiang Loh, Feng Gao, Fook Hoong Choo (2010-09). "Control of hybrid battery/ultra-capacitor energy storage for stand-alone photovoltaic system". IEEE. pp. 336-341. doi:10.1109/ECCE.2010.5618014. ISBN 978-1-4244-5286-6. Retrieved 2012-02-08.

    Abstract:Battery life is an important criterion in a stand-alone photovoltaic system operation due to intermittent characteristic of solar irradiation and demand. This paper presents a stand-alone photovoltaic system with Ni-MH battery and ultra-capacitor serving as its energy storage elements. A control strategy is proposed in this paper to reduce charging and discharging cycles and avoid deep discharges of battery. The battery converter is controlled in current mode to track a charging/discharging reference current which is given by energy management system, whereas the ultra-capacitor converter is controlled to corporate solar irradiation fluctuations, load spikes and variations to maintain a stable dc-link voltage. Isolated PV system with the proposed control schemes is created using MATLAB SIMULINK. An optimum performance is achieved to serve as both high power and high energy sources due to complementary characteristic of battery and ultra-capacitor.
    Key Features:
    • Good DC/DC Converter schematic and calculations and results
    • Detailed information for power electronics design


  24. "Maxwell Technologies - Products - Ultracapacitors - K2 Series". Maxwell Technologies. Retrieved 2012-02-10.
    Overview:Maxwell Technologies’ K2 series of ultracapacitor cells provide extended power availability, allowing critical information and functions to remain available during dips, sags, and outages in the main power source. In addition, it can relieve batteries of burst power functions, thereby reducing costs and maximizing space and energy efficiency. The ultracapacitor features a cylindrical design and an electrostatic storage capability that can cycle a million charges and discharges without performance degradation. They are available in quick and easy to implement threaded terminals or in compact, weldable terminals.
    Key Features:
    • Data sheet for specified ultracapacitors


  25. Vasquez, Jose; Fernando Rodrigo, Jose Ruiz, Santiago Matilla. "Using Ultracapacitors in Photovoltaic Systems. A technical proposal". E.T.S.I.I. Valladolid University. Retrieved 2012-02-10.

    Abstract:In this paper we expose a new strategy to deliver the power of a Photovoltaic (or any other energy source of small power) System attached to the main. The object of the implementation of a battery of ultracapacitors in the photovoltaic system is to convert a variable power delivery to constant power. This will improve the energy efficiency by two ways. One is to take advantage of the time in which the system does not work because the power flow is too low (irradiation). Another advantage is that the output power is lower than input power.
    Key Features:
    • Not dated
    • Not published
    • Equation dense
    • May be able to use conclusion for background information


  26. Chiras, Daniel D. (2002). The solar house: passive heating and cooling. Chelsea Green Publishing. ISBN 9781931498128.

    Key Features:
    • Another book about general passive house information
    • More in depth approach
    • Section about best places in US for passive heating/cooling



  27. Enslin, J.H.R.; D.B. Snyman (1991-01). "Combined low-cost, high-efficient inverter, peak power tracker and regulator for PV applications". IEEE Transactions on Power Electronics 6 (1): 73-82. doi:10.1109/63.65005. ISSN 08858993. Retrieved 2012-02-10.

    Abstract:A novel compound power converter that serves as a DC-to-AC inverter, maximum power point tracker (MPPT), and battery charger for stand-alone photovoltaic (PV) power systems is introduced. A theoretical analysis of the proposed converter is performed, and the results are compared with experimental results obtained from a 1.5 kW prototype. The overall cost of PV systems can thus be reduced by using load management control and efficiency-optimization techniques. Power flow through the converter is controlled by means of a combination of duty cycle and output frequency control. With load management, large domestic loads, such as single phase induction motors for water pumping, hold-over refrigerators, and freezers, can be driven by day at a much higher energy efficiency. This is due to the high efficiency of the inverter with high insolation, and because the inverter uses the energy directly from the solar array. The battery loss component is thus reduced.
    Key Features:
    • Emphasises low cost
    • MPPT only
    • Schematics
    • AC application - may not be useful


  28. Alghuwainem, S.M. (1994-03). "Matching of a DC motor to a photovoltaic generator using a step-up converter with a current-locked loop". IEEE Transactions on Energy Conversion 9 (1): 192-198. doi:10.1109/60.282492. ISSN 08858969. Retrieved 2012-02-10.

    Abstract:A photovoltaic (PV) generator is a nonlinear device having insolation-dependent volt-ampere characteristics. Because of its relatively high cost, the system designer is interested in optimum matching of the motor and its mechanical load to the PV generator so that maximum power is obtained during the entire operating period. However, since the maximum-power point varies with solar insolation, it is difficult to achieve an optimum matching that is valid for all insolation levels. In this paper it is shown that for maximum power, the generator current must be directly proportional to insolation. This remarkable property is utilized to achieve insolation-independent optimum matching. A shunt DC motor driving a centrifugal water pump is supplied from a PV generator via a step-up converter whose duty ratio is controlled using a current-locked feedback loop.
    Key Features:
    • Applications load is a DC motor
    • Much higher power application


  29. Pandey, Ashish; Nivedita Dasgupta, Ashok K. Mukerjee (2007-03). "A Simple Single-Sensor MPPT Solution". IEEE Transactions on Power Electronics 22 (2): 698-700. doi:10.1109/TPEL.2007.892346. ISSN 0885-8993. Retrieved 2012-02-10.

    Abstract:Maximum power point trackers (MPPTs) are used to ensure optimal utilization of solar cells. The implementation essentially involves sensing input current and voltage. An MPPT algorithm uses this information to maximize power drawn from the solar cells. Understandably, such realization is costly. Current state of the art allows replacing one of the sensors by complicated computations. In the present work, an empirical observation is used to develop a strategy, which employs a single voltage sensor and carries out simple computations for a buck converter-based MPPT.
    Key Features:
    • Introduces a method for simple MPPT algorithms
    • Regarded as costly
    • Analysis is very simple


  30. Enslin, J.H.R.. "Maximum power point tracking: a cost saving necessity in solar energy systems". IEEE. pp. 1073-1077. doi:10.1109/IECON.1990.149286. ISBN 0-87942-600-4. Retrieved 2012-02-10.

    Key Features:
    • Possible usage for background in paper
    • MPPT algorithm explained


  31. Esram, Trishan; Patrick L. Chapman (2007-06). "Comparison of Photovoltaic Array Maximum Power Point Tracking Techniques". IEEE Transactions on Energy Conversion 22 (2): 439-449. doi:10.1109/TEC.2006.874230. ISSN 0885-8969. Retrieved 2012-02-10.

    Abstract:It is argued that a well-engineered renewable remote energy system utilizing the principal of maximum power point tracking (MPPT) can be cost effective, has a high reliability, and can improve the quality of life in remote areas. A highly efficient power electronic converter for converting the output voltage of a solar panel or wind generator to the required DC battery bus voltage has been realized. The converter is controlled to track the maximum power point of the nput source under varying input and output parameters. MPPT for relatively small systems is achieved by maximization of the output current in a battery charging regulator, using an optimized hill-climbing, inexpensive microprocessor-based algorithm. Through field measurements it is shown that a minimum input source saving of 15% on 3-5 kWh/day systems can easily be achieved
    Key Features:
    • Well cited paper
    • Definitive paper for MPPT
    • Well defined problem statement


  32. Walker, Geoff (2001). "Evaluating MPPT converter topologies using a MATLAB PV model". Journal of Electrical Electronics Engineering 21 (1): 49-56.

    Key Features:
    • Theoretical approach
    • Includes model code
    • Presents MPPT equations


  33. Enslin, J.H.R.; M.S. Wolf, D.B. Snyman, W. Swiegers (1997-12). "Integrated photovoltaic maximum power point tracking converter". IEEE Transactions on Industrial Electronics 44 (6): 769-773. doi:10.1109/41.649937. ISSN 02780046. Retrieved 2012-02-10.

    Abstract:A low-power low-cost highly efficient maximum power point tracker (MPPT) to be integrated into a photovoltaic (PV) panel is proposed. This can result in a 25% energy enhancement compared to a standard photovoltaic panel, while performing functions like battery voltage regulation and matching of the PV array with the load. Instead of using an externally connected MPPT, it is proposed to use an integrated MPPT converter as part of the PV panel. It is proposed that this integrated MPPT uses a simple controller in order to be cost effective. Furthermore, the power converter has to be very efficient, in order to transfer more energy to the load than a directly-coupled system. This is achieved by using a simple soft-switched topology. A much higher conversion efficiency at lower cost will then result, making the MPPT an affordable solution for small PV energy systems.
    Key Features:
    • MPPT schematics and results


  34. Simoes, M.G.; N.N. Franceschetti, M. Friedhofer. "A fuzzy logic based photovoltaic peak power tracking control". 1. IEEE. pp. 300-305. doi:10.1109/ISIE.1998.707796. ISBN 0-7803-4756-0. Retrieved 2012-02-10.

    Abstract:This paper describes the analysis, modeling and implementation of a fuzzy based photovoltaic peak power tracking system. The maximum power of a photovoltaic system changes with temperature, solar intensity and load. An analytical model is built for the solar cell on the basis of the manufacturer characteristics. The solar panel is integrated with the converter model and a fuzzy algorithm is developed so as to perform an on-line search procedure to track the maximum power continuously. The system is implemented by an inexpensive RISC microcontroller. Experimental results have shown excellent performance, robustness with parameter variation, modularity for parallel operation at higher power, and ready to retrofit existing installations.
    Key Features:
    • Well documented algorithm (Fuzzy logic)


  35. Thulasiyammal, C.; S. Sutha (2011-01). "An efficient method of MPPT tracking system of a solar powered Uninterruptible Power Supply application". IEEE. pp. 233-236. doi:10.1109/ICEES.2011.5725334. ISBN 978-1-4244-9732-4. Retrieved 2012-02-10.

    Abstract:The study deals with an innovative system achieving an alternative source of energy supply from photovoltaic energy system which operates in case of utility power failure and provides continuity of supply even in medical appliances or industrial applications. It is also designed to reduce usage of utility supply which is generated from coals, nuclear having more carbons as outlets, lagging of sources and providing impure power to consumers. But the solar power is a pure and precious resource and no more impure outlets other disadvantages as like high initial cost. But the economical status may be improved in future but we may not have resource to generate power sometimes. So cost criteria can be meeting out in future to generate power from solar energy. The proposed PV system is composed of conventional novel single axis tracking system and PV system with DC-DC boost converter and PWM voltage source inverter. Here the tracking system is designed to get always 12 V dc output. This voltage is taken as input to the proposed method to maximize the output.
    Key Features:
    • 12v output
    • lacking methodology


  36. Sharaf, A.M.; E. Elbakush, I. H. Altas (2007-10). "Novel Control Strategies For Photovoltaic Powered PMDC Motor Drives". IEEE. pp. 461-466. doi:10.1109/EPC.2007.4520376. ISBN 978-1-4244-1444-4, 978-1-4244-1445-1. Retrieved 2012-02-10.

    Key Features:
    • PID controller for PV powered PMDC drives
    • Well documented simulation
    • Lacking on the PV side



  37. "Arduino motor/stepper/servo control - How to use". Retrieved 2012-02-10.

    Key Features:
    • Reference/requirements for small motor control using arduino microcontroller boards
    • May be useful resource for blind/shade actuation


  38. "Arduino playground - InterfacingWithHardware". Retrieved 2012-02-10.

    Key Features:
    • Resource for interfacing arduino microcontrollers with many types of hardware
    • Interfacing with temperature sensors potentially useful


  39. "Arduino playground - PIDLibrary". Retrieved 2012-02-10.

    Key Features:
    • Useful for PID control on arduino
    • contains libraries for PID functions



  40. Popat, Pradeep. "Patent US5760558 - Solar-powered, wireless, retrofittable, automatic controller for venetian blinds and similar window converings". Retrieved 2012-02-08.

    Abstract:A system for automatic operation of venetian blinds and similar window coverings. A preferred embodiment, system 30, can be retrofitted to any conventional venetian blind without tools, removal of the blind, or installation of wiring (FIG. 10A). System 30 is attached to a blind 15 by a bracket 80, which engages a headrail 16 of blind 15, and is secured by a thumbscrew 84 (FIG. 4C). System 30 includes a gearmotor 85 which drives a coupling tube 91; coupling tube 91 is attached to a tilt-adjustment shaft 18 of blind 15 (FIG. 3A). The mechanical coupling between gearmotor 85 and coupling tube 91 includes a flexible coupling and an extensible coupling, which enable gearmotor 85 to rotate shaft 18 over a wide range of sizes and configurations of blind 15 (FIGS. 5A and 5B). System 30 also includes a photovoltaic source 31 mounted on a flexible member 99. Member 99 provides electrical connections to source 31, and supports it in an advantageous position to receive solar radiation (FIGS. 8B and 8C), regardless of the size and mounting arrangement of blind 15. System 30 also includes four momentary-contact electrical switches 38 to 41 and an actuating body 94, to which a tilt-control wand 19 of blind 15 can be attached. Together, actuating body 94 and switches 38 to 41 enable system 30 to be conveniently controlled by rotary and axial movements of wand 19 (FIG. 10A).
    Key Features:
    • Patent
    • Good resource for control logic
    • Retrofittable


  41. Corazzini, Warren. "Patent US5413161 - Solar powered window shade". Retrieved 2012-02-08.

    Abstract: A solar powered window shade is provided which consists of a venetian blind mounted within an interior of a frame of a window in a wall of a building. An apparatus is carried by the venetian blind, for converting solar radiation of sunlight into electrical energy. A mechanism is carried by the venetian blind for utilizing the electrical energy to open and close the venetian blind. At sunrise and all through the day, the venetian blind will remain opened to allow sunlight to enter through the window, to help heat up the building. At sunset and all through the night, the venetian blind will remain closed to produce a thermal barrier, to help retain the heat within the building.
    Key Features:
    • Patent
    • Short


  42. Knowles, Byron (2008-07-02). "Motorized window shade". Retrieved 2012-02-10.

    Key Features:
    • Patent


  43. "Automatic Window Blinds Controller (PICAXE)". Retrieved 2012-02-10.

    Key Features:
    • Not published
    • DIY approach to an automated window blind
    • Uses a PIC microcontroller


  44. E., Bilgen (1994-01). "Experimental study of thermal performance of automated venetian blind window systems". Solar Energy 52 (1): 3-7. doi:10.1016/0038-092X(94)90076-E. ISSN 0038-092X.

    Key Features:
    • No MTU Access



  45. Raghunathan, Vijay; Kansal Aman, Jason Hsu, Jonathan Friedman, Mani Srivastava. Design considerations for solar energy harvesting wireless embedded systems. Proceedings of the 4th international symposium on Information processing in sensor networks. Retrieved 2012-02-07.

    Abstract:Sustainable operation of battery powered wireless embedded systems (such as sensor nodes) is a key challenge, and considerable research effort has been devoted to energy optimization of such systems. Environmental energy harvesting, in particular solar based, has emerged as a viable technique to supplement battery supplies. However, designing an efficient solar harvesting system to realize the potential benefits of energy harvesting requires an in-depth understanding of several factors. For example, solar energy supply is highly time varying and may not always be sufficient to power the embedded system. Harvesting components, such as solar panels, and energy storage elements, such as batteries or ultracapacitors, have different voltage-current characteristics, which must be matched to each other as well as the energy requirements of the system to maximize harvesting efficiency. Further, battery non-idealities, such as self-discharge and round trip efficiency, directly affect energy usage and storage decisions. The ability of the system to modulate its power consumption by selectively deactivating its sub-components also impacts the overall power management architecture. This paper describes key issues and tradeoffs which arise in the design of solar energy harvesting, wireless embedded systems and presents the design, implementation, and performance evaluation of Heliomote, our prototype that addresses several of these issues. Experimental results demonstrate that Heliomote, which behaves as a plug-in to the Berkeley/Crossbow motes and autonomously manages energy harvesting and storage, enables near-perpetual, harvesting aware operation of the sensor node.
    Key Features:
    • interesting power densities of alternative energies table
    • MPPT background
    • Solar harvesting design section
    • Lacking schematics/diagrams
    • Applicable design considerations to smart shades project


  46. Hande, Abhiman; Todd Polk, William Walker, Dinesh Bhatia (2006-09-22). "Self-Powered Wireless Sensor Networks for Remote Patient Monitoring in Hospitals". Sensors 6 (9): 1102-1117. doi:10.3390/s6091102. ISSN 1424-8220. Retrieved 2012-02-08.

    Abstract: Patient vital sign monitoring within hospitals requires the use of non-invasivesensors that are hardwired to bedside monitors. This set-up is cumbersome, forcing thepatient to be confined to his hospital bed thereby not allowing him to move around freelywithin the hospital premises. This paper addresses the use of wireless sensor networks formonitoring patient vital sign data in a hospital setting. Crossbow MICAz motes have beenused to design a robust mesh network that routes patient data to a remote base station withinthe hospital premises. A hospital care giver can have access to this data at any point in timeand doesn’t have to be physically present in the patient’s room to review the readings. Thenetwork infrastructure nodes are self-powered and draw energy from overhead 34Wfluorescent lights via solar panels. The sensor nodes can be interfaced to a variety of vitalsign sensors such as electrocardiograms (ECGs), pulse-oximeters and blood pressure (BP)sensors. In order to verify a completely functioning system, a commercial BP/heart-ratemonitor (BPM) was interfaced to a wireless sensor node. The sensor node controls the BPMto initiate a reading, then collects the data and forwards it to the base station. An attractivegraphical user interface (GUI) was designed to store and display patient data on the basestation PC. The set-up was found to be extremely robust with low power consumption.
    Key Features:
    • Mostly implementation and lacking design


  47. Bhuvaneswari, P.T.V.; R. Balakumar, V. Vaidehi, P. Balamuralidhar (2009-07). "Solar Energy Harvesting for Wireless Sensor Networks". IEEE. pp. 57-61. doi:10.1109/CICSYN.2009.91. ISBN 978-0-7695-3743-6. Retrieved 2012-02-08.

    Abstract:The commercially available sensor nodes are battery-driven devices. A number of nodes together constitute a network. As days proceed, the batteries used in the nodes lose their charge and subsequently get isolated from the network. Many energy harvesting schemes have been proposed to alleviate this problem. In this paper, a solar energy based energy harvesting scheme is proposed. This scheme works on the principle of photo-voltaic effect. A recharging circuitry is also designed, that recharges the batteries of the nodes when the charge drops below a threshold level. This leads to strengthening the lifetime of the nodes as well as the network. Compatibility and low power design are the two major salient features of the designed circuitry. The performance of the circuit is also tested with the MICAz hardware.
    Key Features:
    • Builds off previous work
    • Circuit schematic included
    • Utilizes battery


  48. Simjee, Farhan; Pai H. Chou (2006-10). "Everlast: Long-life, Supercapacitor-operated Wireless Sensor Node". IEEE. pp. 197-202. doi:10.1109/LPE.2006.4271835. ISBN 1-59593-462-6. Retrieved 2012-02-08.

    Abstract:This paper describes a supercapacitor-operated, solar-powered wireless sensor node called Everlast. Unlike traditional wireless sensors that store energy in batteries, Everlast's use of supercapacitors enables the system to operate for an estimated lifetime of 20 years without any maintenance. The novelty of this system lies in the feedforward, PFM (pulse frequency modulated) converter and open-circuit solar voltage method for maximum power point tracking, enabling the solar cell to efficiently charge the supercapacitor and power the node. Experimental results show that Everlast can achieve low power consumption, long operational lifetime, and high transmission rates, something that traditional sensor nodes cannot achieve simultaneously and must trade-off.
    Key Features:
    • Operates on supercapacitor
    • Equations and diagrams


  49. Hande, Abhiman; Todd Polk, William Walker, Dinesh Bhatia (2007-09-01). "Indoor solar energy harvesting for sensor network router nodes". Microprocessors and Microsystems 31 (6): 420-432. doi:10.1016/j.micpro.2007.02.006. ISSN 0141-9331.

    Key Features:
    • Similar to hospital paper, although better design
    • Limited application to smart shades


  50. Nasiri, A.; S.A. Zabalawi, G. Mandic (2009-11). "Indoor Power Harvesting Using Photovoltaic Cells for Low-Power Applications". IEEE Transactions on Industrial Electronics 56 (11): 4502-4509. doi:10.1109/TIE.2009.2020703. ISSN 0278-0046. Retrieved 2012-02-10.

    Abstract:Utilization of low-power indoor devices such as remote sensors, supervisory and alarm systems, distributed controls, and data transfer system is on steady rise. Due to remote and distributed nature of these systems, it is attractive to avoid using electrical wiring to supply power to them. Primary batteries have been used for this application for many years, but they require regular maintenance at usually hard to access places. This paper provides a complete analysis of a photovoltaic (PV) harvesting system for indoor low-power applications. The characteristics of a target load, PV cell, and power conditioning circuit are discussed. Different choices of energy storage are also explained. Implementation and test results of the system are presented, which highlights the practical issues and limitations of the system.
    Key Features:

  51. Thienpondt, Jorge; Sven Leyre, Jean-Pierre Goemaere, Lieven Strycker. "Energy Harvesting for Home Automation Applications". Catholic University College Sint Lieven. Retrieved 2012-02-10.

    Key Features:

  52. Andersen, M.; B. Alvsten. "200 W low cost module integrated utility interface for modular photovoltaic energy systems". 1. IEEE. pp. 572-577. doi:10.1109/IECON.1995.483472. ISBN 0-7803-3026-9. Retrieved 2012-02-10.

    Abstract:This paper describes the design of a utility interface for a 200 W solar cell array. The interface comprises high frequency soft switching PWM power conversion, analog and logic control and protection circuits and an analog maximum power point tracker (MPPT). All circuits are implemented with standard components (no microcontroller) and thus facilitates integration into ASIC components at a later development stage. The design emphasis is on module integration, low cost production and compliance with standards on utility interfacing. The special requirements of utility interfacing and solar cell array utilization are described and the design of the components of the utility interface is described. The theory and design are verified with the implemented laboratory prototype, which shows excellent performance and verifies the operation of the interface
    Key Features:
    • MPPT design

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