Abstract
As the main feature of land use planning, land use allocation (LUA) optimization is an important means of creating a balance between the land-use supply and demand in a region and promoting the sustainable utilization of land resources. In essence, LUA optimization is a multi-objective optimization problem under the land use supply and demand constraints in a region. In order to obtain a better sustainable multi-objective LUA optimization solution, the present study proposes a LUA model based on the multi-objective artificial immune optimization algorithm (MOAIM-LUA model). The main achievements of the present study are as follows: (a) the land-use supply and demand factors are analyzed and the constraint conditions of LUA optimization problems are constructed based on the analysis framework of the balance between the land use supply and demand; (b) the optimization objectives of LUA optimization problems are defined and modeled using ecosystem service value theory and land rent and price theory; and (c) a multi-objective optimization algorithm is designed for solving multi-objective LUA optimization problems based on the novel immune clonal algorithm (NICA). On the basis of the aforementioned achievements, MOAIM-LUA was applied to a real case study of land-use planning in Anlu County, China. Compared to the current land use situation in Anlu County, optimized LUA solutions offer improvements in the social and ecological objective areas. Compared to the existing models, such as the non-dominated sorting genetic algorithm-II, experimental results demonstrate that the model designed in the present study can obtain better non-dominated solution sets and is superior in terms of algorithm stability.
Highlights
Due to an immense population, rapid urbanization and industrialization, land resources in China have been facing unprecedented pressure in the past 20 years, highlighted by the rapid loss of quality agricultural land and excessive sprawl of urban boundaries [1]
Based on the aforementioned data, the basic data needed for the operation of the MOAIM-land use allocation (LUA) are pre-processed, including the following actions: (1) Prediction of the social and economic development situation in the target year (i.e., 2030)
The MOAIM-LUA proposed in the present study is developed using the C# language in Aitso [55]
Summary
Due to an immense population, rapid urbanization and industrialization, land resources in China have been facing unprecedented pressure in the past 20 years, highlighted by the rapid loss of quality agricultural land and excessive sprawl of urban boundaries [1]. Under these circumstances, the “resource conservation and environmentally friendly” development concept, whose core aim is to “reasonably use land resources, improve land resource use efficiency, and realize the harmonious development of humans and nature,” has become the consensus in land management in China. LUA optimization aims to balance the land use supply and demand based on the future dynamic demands from different land use stakeholders in the region and optimize the allocated quantity of limited land resources for different uses [2].
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