In order to comprehensively promote mangrove restoration, this paper developed a set of “open space” integrated mangrove
intelligent monitoring platform based on the Internet of Things, in order to solve the problems of traditional mangrove monitoring
technology, such as simple means and small scale. The platform built LoRa Mesh AD hoc network and NB-IoT Internet of things to collect
and transmit mangrove wetland environmental data, developed the upper computer website and the lower computer control system for real_x005ftime monitoring of environmental sensor data, and carried out imaging hyperspectral load with UAV to collect mangrove plant species
and distribution and perform spectral analysis. It aims to use information technology to help the construction of ecological civilization,
and contribute to fully supporting Zhanjiang to build a “mangrove city”. The test results show that the data transmission is normal, the
hyperspectral image picture is clear, the PC analysis is complete, the abnormal environmental data alarm is accurate and rapid, and the
control system responds in time.

Internet of Things; Mangrove; Hyperspectral; Data acquisition; Intelligent monitoring system platform

[1] Yihong Shao,Xin Zhan,Yin Lin. Building a “Mangrove City” promotes the transformation of ecological advantages into development advantages [N].

Nanfang Daily.2023-01-23.

[2] Ruili Li,Fang Yang,Hui Wang, etal. [J]. Journal of Peking University (Natural Science),2022,58(5):916-928.

[3] Cairong Zhong, Cheng Cheng,Luzhen Chen, etal. Construction of mangrove wetland monitoring system and monitoring methods in Hainan Province [J].

Wetland Science, 2019,19(5):646-650.

[4] Manmi Zhou,Zhongmao Jiang,Qianli Yang. Monitoring analysis of mangrove soil and water quality in Cuiheng National Wetland Park, Zhongshan [J].

Forestry Science and Technology Communication,2022(10):33-36.

[5] Zaiming Zhou,Benqing Chen,Ran Xu, etal. [J] Mangrove population identifi cation based on UAV hyperspectral features: A case study of Zhangjiangkou

Mangrove National Nature Reserve [J]. Acta Oceanologica Sinica, 21,43(9):137-145.

[6] Xin Wen,Mingming Jia,Xiaoyan Li, etal. Recognition of mangrove canopy community based on unmanned aerial vehicle visible light image [J]. Journal

of Forestry and Environment,20,40(5):486-496.

[7] Tao Ding,Chao Liu,Ye Deng, etal. Application of DJI M300 RTK UAV in rural cadastral survey [J]. Journal of Anhui University of Science and

Technology,2021,35(3):23-29.