Modeling of Solar Radiation Using Silicon Solar Module |
Kim, Joon-Yong
(Dept. of Biosystems Engineering, Seoul National University)
Yang, Seung-Hwan (Center for Safety Measurement, Korea Research Institute of Standards and Science) Lee, Chun-Gu (Dept. of Biosystems Engineering, Seoul National University) Kim, Young-Joo (Environmentally Materials & Components Center, Korea Institute of Industrial Technology) Kim, Hak-Jin (Dept. of Biosystems Engineering, Seoul National University) Cho, Seong-In (Dept. of Biosystems Engineering, Seoul National University) Rhee, Joong-Yong (Dept. of Biosystems Engineering, Seoul National University) |
1 | Kim, Y., R. G. Evans and W. M. Iversen. 2008. Remote sensing and control of an irrigation system using a distributed wireless sensor network. IEEE Transactions on Instrumentation and Measurement 57(7):1379-1387. DOI |
2 | King, D. L. 1997. Photovoltaic module and array performance characterization methods for all system operating conditions. AIP Conference Proceedings 394(1):347-368. |
3 | King, D. L., W. E. Boyson and J. A. Kratochvil. 2003. Photovoltaic array performance model. Albuquerque, NM: Sandia National Labotories. |
4 | King, D. L. and D. R. Myers. 1997. Silicon-photodiode pyranometers: operational characteristics, historical experiences, and new calibration procedures. Photovoltaic Specialists Conference. Piscataway, NJ: IEEE. |
5 | Kim, T. S. and I. J. Jang. 2007. Development of a Remote Controlled Weeder Driven by Solar Battery Power. Journal of Biosystems Engineering 32(2):91-96. DOI |
6 | Klaring, H. P., C. Hauschild, A. Heibner and B. Bar-Yosef. 2007. Model-based control of concentration in greenhouses at ambient levels increases cucumber yield. Agricultural and Forest Meteorology 143(3-4): 208-216. DOI |
7 | Nam, S. W., W. M. Seo, Y. C. Yoon, S. K. Lee, I. B. Lee, H. W. Lee and B. K. Cho. 2008. Bio-environment control engineering, pp. 72-77. Daegu, Korea: Cheongsol Publication (In Korean). |
8 | Marshall, B. and R. Thompson. 1987. A Model of the Influence of Air Temperature and Solar Radiation on the Time to Maturity of Calabrese Brassica oleracea var italica. Annals of Botany 60(5):513-519. DOI |
9 | Pan, Z., M. Segal, R. W. Arritt and E. S. Takle. 2004. On the potential change in solar radiation over the US due to increases of atmospheric greenhouse gases. Renewable Energy 29(11):1923-1928. DOI |
10 | Parretta, A., A. Sarno and L. R. M. Vicari. 1998. Effects of solar irradiation conditions on the outdoor performance of photovoltaic modules. Optics Communications 153 (1-3):153-163. DOI |
11 | Casadesus, J., M. Mata, J. Marsal and J. Girona. 2011. Automated irrigation of apple trees based on measurements of light interception by the canopy. Biosystems Engineering 108(3):220-226. DOI |
12 | Kerr, J. P., G. W. Thurtell and C. B. Tanner. 1967. Integrating pyranometer for climatological observer stations and mesoscale networks. Journal of Applied Meteorology 688-694. |
13 | El-Shobokshy, M. S. and F. M. Hussein. 1993. Effect of dust with different physical properties on the performance of photovoltaic cells. Solar Energy 51(6):505-511. DOI |
14 | Gul, M. S., T. Muneer and H. D. Kambezidis. 1998. Models for obtaining solar radiation from other meteorological data. Solar Energy 64(1-3):99-108. DOI |
15 | Kasten, F. and G. Czeplak. 1980. Solar and terrestrial radiation dependent on the amount and type of cloud. Solar Energy 24(2):177-189. DOI |
16 | Sun, Y., L. Li, P. Schulze Lammers, Q. Zeng, J. Lin and H. Schumann. 2009. A solar-powered wireless cell for dynamically monitoring soil water content. Computers and Electronics in Agriculture 69(1):19-23. DOI |
17 | Roh, M. Y. and Y. B. Lee. 1996. Control of Amount and Frequency of Irrigation according to Integrated Solar Radiation in Cucumber Substrate Culture. Acta Horticulture 440:332-337. |
18 | Schabenberger, O. 2002. SAS Library - Nonlinear Regression in SAS. UCLA: Academic Technology Services, Statistical Consulting Group. |
19 | Seshu, D. V. and F. B. Cady. 1983. Response of Rice to Solar Radiation and Temperature Estimated from International Yield Trials1. Crop Science 24(4):649-654. |
20 | Whillier, A. 1964. Simple, accurate, cheap integrating instrument for measuring solar radiation. Solar Energy 8(4):134-136. DOI |
21 | Willits, D. H., T. K. Karnoski and W. F. McClure. 1980. A microprocessor-based control system for greenhouse research: Part I hardware. Transactions of the ASABE 23(3):688-0692. DOI |
22 | Yoo, H.-C., K.-H. Lee and S.-H. Park. 2008. Analysis of Data and Calculation of Global Solar Radiation based on Cloud Data for Major Cities in Korea. Journal of the Korean Solar Energy Society 28(4):17-24 (In Korean). |
23 | Yuehua, H., W. Lei and Z. Jie. 2010. Research of fuzzy control system about greenhouse supplement light lamps based on single-chip microcomputer. Intelligent Control and Automation (WCICA) 8th World Congress. |