Abstract

In the present work, a distributed network-based remote indoor temperature control and energy conservation system is proposed. The system provides such functions as remote data transfer and remote control, as well as a distributed information sharing and communication platform. Meanwhile, the system integrates an intelligent control system and a database management system, on which the data obtained from the Internet are first assessed by the expert panel and then processed by the intelligent control system. In this way, real-time intelligent control is achieved to allow the user to control the indoor temperature and production conditions of the greenhouse through the network. During the design of the system, a wireless monitoring system is developed as per the specific location and geographic conditions for remote surveillance. The field test shows that compared with the control plot, the experiment plot reduced the gas consumption by 2802.4 m<sup>3</sup>, reduced energy consumption by 24935.0 kW·h. The work is expected to provide a solution for development of remote indoor temperature control and energy conservation systems in real-world scenarios.

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