Ecological Environment Monitoring System Based on AIoT Technology
Keywords:
AIoT, Mangrove ecological environment monitoring, IoT cloud platformAbstract
This project aims to establish a Zhanjiang mangrove ecological environment monitoring cluster system based on artificial intelligence IoT technology through the ESP32-E master control and all-in-one air quality sensor, all-in-one soil sensor, composite water quality temperature and PH sensor, water quality TDS sensor for data collection and analysis, using NB-IoT wireless communication module for multi-point data transmission, Ali Cloud IoT platform for data summarization and real-time visualization display, to build a complete Zhanjiang mangrove ecological environment monitoring system, to provide quantitative data basis for Zhanjiang mangrove ecological environment protection, to provide scientific references for the relevant departments, which is conducive to the improvement of Zhanjiang mangrove ecological environment management level.
References
Ratasuk R, Vejlgaard B, Mangalvedhe N, et al., 2016, NB-IoT System for M2M Communication. In: 2016 IEEE Wireless Communications and Networking Conference. IEEE, Doha: 428–432.
Oh S-M, Shin J, 2017, An Efficient Small Data Transmission Scheme in the 3GPP NB-IoT System. IEEE Communications Letters, 21(3): 660–663.
Sinha R S, Wei Y Q, Hwang S-H, 2017, A Survey on LPWA Technology: LoRa and NB-IoT. ICT Express, 3(1): 14–21.
Zhu S, Deng M, Feng J, 2016, Research on Remote Monitoring System of Farmland Ecological Environment Based on Mobile Internet Technology. Agricultural Mechanization Research, 38(11): 224–228.
Wang Y, Zhuang D, Xu X, et al., 2011, Overall Design and Key Technologies of Remote Sensing Monitoring System for Macroscopic Ecological Environment. Journal of Geo-Information Science, 13(5): 672–678.
Zhou M, Huang Z, 2010, Design of Ecological Environment Monitoring System Based on GPRS Technology. Computer Measurement and Control, 18(5): 987–989 + 997.
Liu Z, Wen L, Lu W, et al., 2009, Orchard Ecological Environment Monitoring System Based on Virtual Instrument Technology. Agricultural Mechanization Research, 31(7): 156–158.
Peng Y, He D, 2009, Orchard Ecological Environment Monitoring System Based on Zigbee Technology. Agricultural Mechanization Research, 31(4): 164–167.
Peng Y, 2009, Research on Key Technologies of Orchard Ecological Environment WSN Monitoring System, thesis, Northwest A&F University.
Yuan Y, 2006, Research on Orchard Ecological Environment Monitoring System Based on Virtual Instrument Technology, thesis, Anhui Agricultural University.
Yin Q, Xu W, 2001, Establishment of Ecological Environment Dynamic Monitoring System in Sanjiangyuan Area by “3S” Technology. Plateau Earthquake, 2001(3): 57–61.
Hu Y, 2019, Study on Automatic Monitoring System of Sediment Environmental Pollution Based on Ecological Environment Protection. Energy and Environmental Protection, 45(8): 67–72 + 79.
Xie S, 2022, Strive to be an Expert in Ecological Environment Monitoring System. China Environmental Monitoring, 2022(9): 70–71.
Guo Q, 2022, Application Research of Ecological Environment Monitoring System in Large Water Area Based on Wireless Sensor Network. Journal of Chengdu University of Technology, 25(2): 24–27.
Chen J, 2022, Design of Internet of Things Monitoring System Under Ecological Environment of Fishery, thesis, Zhejiang Ocean University.
