Investigation on the Interference Degree of Photovoltaic Access to the Communication Environment in the Platform Area Based on the Complex Low-voltage Platform Area Simulation Platform

Abstract

In recent years, rapid social developments have steadily increased the demand for various kinds of energy required for production, and the problems of energy shortage and environmental pollution are also becoming increasingly serious. Therefore, ‘green’ development and the protection of the earth’s ecological environment are urgent issues that must be addressed by today’s societies. Solar photovoltaic (PV) power generation has attracted people’s attention because it can effectively reduce the consumption of natural resources. Also, nowadays, people’s communication demands are greater. However, the communication environment in the low-voltage platform area is often affected by various interferences. Therefore, in this current study,
a simulation platform is proposed based on complex low-voltage platform area. On this platform, the impact of PV access on the interference degree of the communication environment in the platform area was discussed, and relevant comparative experiments and questionnaires were designed. The experimental results showed that in the traditional platform area communication environment, the result of 17 times was better call quality, and the result of 31 times was average call quality. The number of poor call quality was the highest, at 52; the communication rate affected by interference was unstable and fluctuated between 20b/s-60b/s. The lowest value obtained by the experiment was 20.41b/s, and the highest value was 59.5b/s; in
the communication environment of the PV access platform area, the call quality was good for 77 times, and the call quality was average for 15 times. Only eight calls had poor quality. The communication rate was stable at between 80b/s and 90b/s and a high communication rate was maintained. Experimental results indicated that PV access could effectively optimize the call quality of the communication environment in the platform area, and improve the communication rate so as to enhance the impact of interference on the communication environment in the platform area. The aim of this current study was to effectively promote the application of PV access in the communication environment of the platform area by examining the impact of PV access on the interference degree of the communication environment of the platform area under different interferences in the complex
low-voltage platform area simulation platform, thus providing a means of improving the interference degree of the communication environment of the platform area and contributing to the smooth communication of the platform area.

Keywords: complex low-voltage platform area, communication interference, photovoltaic access, communication environment

Cite As

J. Feng, F. Zhao, Z. Ma, Z. Ju, "Investigation on the Interference Degree of Photovoltaic
Access to the Communication Environment in the Platform Area Based on the Complex
Low-voltage Platform Area Simulation Platform", Engineering Intelligent Systems, vol. 30
no. 4, pp. 339-348, 2024.