Ecological restoration process of watershed land space with intelligent IoT technology

Watershed ecological protection and restoration is the key link to restore the ecological service function of damaged watersheds and promote the harmonious coexistence between humans and nature. In practice, it is difficult to balance the interests of different parties in the process of watershed ecological protection and restoration in terms of water resource utilization, water environment protection, and biodiversity conservation, which makes it difficult to achieve the watershed ecological protection goals. Therefore, this study takes the Jianghuai watershed area as the research object and explores the core points of the ecological restoration of land space in the relevant experimental area in the form of algorithmic optimization frequency. The experimental data of the algorithm model show that the land types in the Jianghuai watershed are mainly woodlands and watersheds, with relatively uneven spatial distribution; a total of 85 ecological corridors were identified that showed a pattern of more in the middle and less around; and a total of 267 radiation channels were identified that showed irregular tree distribution. The empirical results show that the model has a fitting accuracy of 89%.