References
- Bakker, J. C., G. P. A. Bot, H. Challa and N. J. van de Braak. 1995. Greenhouse Climate Control - An integrated approach. Wageningen, The Netherlands: Wageningen Academic Publishers.
- Chaudhary, D. D., S. P. Nayse and L. M. Waghmare. 2011. Application of wireless sensor networks for greenhouse parameter control in precision agriculture. International Journal of Wireless & Mobile Networks 3(1):140-149. https://doi.org/10.5121/ijwmn.2011.3113
- Duarte-Galvan, C., I. Torres-Pacheco, R. G. Guevara-Gonzalez, R. J. Romero-Troncoso, L. M. Contreras-Medina, M. A. Rios-Alcaraz and J. R. Millan-Almaraz. 2012. Review. Advantages and disadvantages of control theories applied in greenhouse climate control systems. Spanish Journal of Agricultural Research 10(4): 926-938. https://doi.org/10.5424/sjar/2012104-487-11
- Hong, S.-G., Y.-S. Chang, J.-H. Yun, S.-H. Kim and K.-I. Lee. 1998. Standardization of machinery and equipments for greenhouse. In: Proceedings of the Korean Society for Bio-Environment Control Conference, pp. 68-76. (In Korean)
- Hoshi, T., Y. Hayashi and K. Shintani. 2008. A communica -tion protocol for collaboration among the measurement and control nodes in a decentralized autonomous environment control system of greenhouses. In: World conference on agricultural information and IT, pp. 127-134.
- Hoshi, T., R. Ohata, K. Watanabe and R. Osuka. 2011. A gadget-based information management system for environmental measurement and control in greenhouses. In: SICE Annual Conference, pp. 2801-2805.
- Hwang, J.-H., H.-S. Jeong and H. Yeo. 2013. Trend and prospect of technology convergence of agriculture and food with IT. Information and Communications Magazine 30(10): 53-60.
- Ibayashi, H., Y. Kaneda, J. Imahara, N. Oishi, M. Kuroda and H. Mineno. 2016. A reliable wireless control system for tomato hydroponics. Sensors 16(5): 644. https://doi.org/10.3390/s16050644
- Ibayashi, H., Y. Kaneda, Y. Suzuki and H. Mineno. 2014. Highly reliable wireless environmental control system for home gardening. In: 2014 IEEE 3rd Global Conference on Consumer Electronics, pp. 725-726.
- Jeun, J. G., G. W. Kim and B. G. Oh. 1999. Study on the standardization of environment control system for greenhouse. In: Conference of the Korean Society for Bio-Environment Control, pp. 67-70. (In Korean)
- Jung, D. -H., H. -J. Kim, S. H. Park and J. Y. Kim. 2017a. Recurrent neural network models for prediction of the inside temperature and humidity in Greenhouse. In: Proceedings of the KSAM & UMRC 2017 Spring Conference, pp. 135.
- Jung, D. -H., H. -J. Kim, J. Y. Kim and S. H. Park. 2017b. Design optimization of proportional plus derivative band parameters used in greenhouse ventilation by surface response method. In: Proceedings of the KSAM & ARC 2017 Autumn Conference, pp. 177.
- Kim, J. Y., C. G. Lee, S. H. Baek and J. -Y. Rhee. 2015. Open farm information system data-exchange platform for interaction with agricultural information systems. Agricultural Engineering International: CIGR Journal 17(2): 296-309.
- Kim, J., C. Lee, T. -H. Kwon, G. Park and J. -Y. Rhee. 2013. Development of an agricultural data middleware to integrate multiple sensor networks for a farm environment monitoring system. Journal of Biosystems Engineering 38(1): 25-32. https://doi.org/10.5307/JBE.2013.38.1.025
- Kruize, J. W., J. Wolfert, H. Scholten, C. N. Verdouw, A. Kassahun and A. J. M. Beulens. 2016. A reference architecture for farm Software ecosystems. Computers and Electronics in Agriculture 125: 12-28. https://doi.org/10.1016/j.compag.2016.04.011
- Nash, E., P. Korduan and R. Bill. 2009. Applications of open geospatial web services in precision agriculture: a review. Precision Agriculture 10(6): 546-560. https://doi.org/10.1007/s11119-009-9134-0
- Park, D. -H. and J. -W. Park. 2011. Wireless sensor network-based greenhouse environment monitoring and automatic control system for dew condensation prevention. Sensors 11(4): 3640-3651. https://doi.org/10.3390/s110403640
- Pesonen, L. A., F. K. -W. Teye, A. K. Ronkainen, M. O. Koistinen, J. J. Kaivosoja, P. F. Suomi and R. O. Linkolehto. 2014. Cropinfra - An Internet-based service infrastructure to support crop production in future farms. Biosystems Engineering 120:92-101. https://doi.org/10.1016/j.biosystemseng.2013.09.005
- Sorensen, C. G., L. Pesonen, S. Fountas, P. Suomi, D. Bochtis, P. Bildsoe and S. M. Pedersen. 2010. A user-centric approach for information modelling in arable farming. Computers and Electronics in Agriculture 73(1): 44-55. https://doi.org/10.1016/j.compag.2010.04.003
- Steinberger, G., M. Rothmund and H. Auernhammer. 2009. Mobile farm equipment as a data source in an agricultural service architecture. Computers and Electronics in Agriculture 65(2): 238-246. https://doi.org/10.1016/j.compag.2008.10.005
- TTAK.KO-06.0288-Part3, 2012. Greenhouse control system - Part 3: Interface between greenhouse control gateway and greenhouse operating system. Rep. Korea: Telecommunications Technology Association (In Korean, with English abstract).
- TTAK.KO-06.0288-Part4, 2013. Greenhouse control system - Part 4: Interface standard between greenhouse operating system and integrated greenhouse management system. Rep. Korea: Telecommunications Technology Association (In Korean, with English abstract).
- TTAK.KO-06.0288-Part1/R1, 2015. Greenhouse control system - Part 1: Interface between sensor nodes and greenhouse control gateway. Rep. Korea: Telecommunications Technology Association (In Korean, with English abstract).
- TTAK.KO-06.0288-Part2/R1, 2015. Greenhouse control system - Part 2: Interface between actuator nodes and greenhouse control gateway. Rep. Korea: Telecommunications Technology Association (In Korean, with English abstract).
- TTAK.KO-10.0843, 2015. Protected horticulture : Metadata for the diagnosis of plant growth. Rep. Korea: Telecommunications Technology Association (In Korean, with English abstract).
- TTAK.KO-10.0934, 2016. Interfaces between functional entities for smart greenhouse. Rep. Korea: Telecommunications Technology Association (In Korean, with English abstract).
- TTAK.KO- 10.0943, 2016. Communication protocol between greenhouse control gateway and sensor-actuator integrated nodes for smartfarm application. Rep. Korea: Telecommunications Technology Association (In Korean, with English abstract).
- UECS Consortium. 2012. Ubiquitous Environmental Control System (UECS), Basic communication protocol book. UFCS-CMM Standardization Committee.
- Van Straten, G. and E. J. van Henten. 2010. Optimal greenhouse cultivation control: Survey and perspectives. IFAC Proceedings Volumes 43(26): 18-33.