Research on optimal Forest Protection algorithm based on simulated annealing algorithm
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DOI: 10.23977/csic2022.025
Corresponding Author
Dongyu Liu
ABSTRACT
The situation of global greenhouse gas emissions is becoming more and more serious. This paper aims to design a forest management plan that can effectively fix carbon and achieve economic benefits. According to the practical application background and specific management requirements of carbon sequestration in the forest ecosystem, a mathematical model of optimal management scheme of forest ecosystem was established to balance the benefits of environmental protection and economic development. The optimal forest ecosystem management scheme is determined comprehensively by using a simulated annealing algorithm, taking into account many factors, including tree age, tree species, terrain distribution, and tree lifespan, to find a balance between the value of cutting forest products and the value of allowing forests to continue to grow and carbon sequestration as living trees, including the design of forest management strategies, including appropriate logging.
KEYWORDS
Biosphere, Carbon Sequestration, Forest Manager, Forest Products, Greenhouse Gases, Harvesting (trees), Forest Management, dynamic programming