Research on the symbiosis of traditional and new energy vehicles manufacturing industries——Based on the symbiotic game model

Proceedings of the 2023 6th International Conference on Software Engineering and Information Management Pub Date : 2023-01-31 DOI:10.1145/3584871.3584909

Xiaoying Cui, Hai Shen, Xiaogang Zhao, Jiawei Liu

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Abstract

Abstract: Using the symbiotic evolution theory to construct a game model between new energy vehicles and traditional vehicles, for the decision-making of automakers and the establishment of government subsidy mechanisms. Introduce the Lotka-Volterra equation in the symbiosis theory into the game model, analyze the interaction of relevant factors, build a symbiotic evolutionary game model between new energy vehicles and traditional vehicles, and analyze the stability points of the model and the stability of each stable point. Then analyze different numerical simulation of different variables to predict decision-making results. Simulation experiments show that, for new energy decisions under limited market capacity, this method effectively provides support for manufacturers' production decisions and government subsidies. The game model based on symbiotic evolution theory has good applicability, and provides an effective way for manufacturers and governments to make reasonable and scientific decisions on new energy vehicle projects.

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传统与新能源汽车制造业的共生研究——基于共生博弈模型

摘要:运用共生进化理论构建新能源汽车与传统汽车的博弈模型，为汽车制造商的决策和政府补贴机制的建立提供理论依据。将共生理论中的Lotka-Volterra方程引入到博弈模型中，分析相关因素的相互作用，构建新能源汽车与传统汽车的共生进化博弈模型，并分析模型的稳定点及各稳定点的稳定性。然后对不同变量进行不同数值模拟分析，预测决策结果。仿真实验表明，对于有限市场容量下的新能源决策，该方法能够有效地为制造商的生产决策和政府补贴提供支持。基于共生进化理论的博弈模型具有良好的适用性，为厂商和政府对新能源汽车项目进行合理、科学的决策提供了有效途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2023 6th International Conference on Software Engineering and Information Management

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