References
- Campbell G. S., and J. M., Norman, 1998. An introduction to environmental biophysics. Springer, New York, USA
- Goldberg D. G., B. Korb, and K. Deb, 1989. Messy genetic algorithms: motivation, analysis, and first results. Complex System, 4: 415-444.
- Holland J. H., 1975. Adaptation in natural and artificial systems. Ph. D. diss., Ann Arbor, MI, USA.: The University of Michigan.
- Kreith F.,and J. F. Kreider, 1978. Principles of solar engineering. McGraw-Hill, New York, NY.
- Korner O., and G. Van Straten, 2008. Decision support for dynamic greenhouse climate control strategies. Computer and Electromics in Agriculture, 60: 18-30. https://doi.org/10.1016/j.compag.2007.05.005
- Langhans R. W., 1990. Greenhouse management. Halcyon press Ltd. pp. 33-45, Houston,USA.
- Parry J. T., and C. M. Gold, 1972. Solar-altitude nomogram. Photogrammetric Engineering 38: 891-899.
- Seginer I. G. Shina, L. D., Albright, and L., S., Mash, 1991. Optimal temperature setpoints for greenhouse lettuce. Journal of Agricultural Engineering Research 49: 209-226. https://doi.org/10.1016/0021-8634(91)80040-L
- Sigrimis N. A. Anastasiou, and N. Rerras, 2000, Energy saving in greenhouses using temperature integration: a simulation survey. Computers and Electronics in Agriculture, 26: 321-341. https://doi.org/10.1016/S0168-1699(00)00083-1
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