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Energy awareness prediction model based on multi-agent decision-making modeling in green supply chain marketing strategy

algorithms-and-analysis-of-algorithms
artificial-intelligence
data-mining-and-machine-learning
data-science
natural-language-and-speech

Abstract

In the context of the "dual carbon" strategy and sustainable development, green supply chain marketing strategy has become an important means to guide enterprises and consumers to form awareness of energy conservation and emission reduction. This paper proposes a BiLSTM prediction model structure that integrates evidence theory and K-means clustering to address the complex and dynamic modeling of energy awareness in multi-agent participation, and constructs an energy awareness prediction model for green supply chains. Firstly, utilizing evidence theory to fuse multi-source information enhances the ability to handle data uncertainty and decision robustness. Subsequently, the K-means algorithm was used to cluster the historical behavior data of different entities in the supply chain and identify typical energy behavior patterns. Finally, based on the clustering results, a BiLSTM prediction model is constructed to explore temporal behavior characteristics and predict and analyze the energy awareness evolution trends of different entities under green marketing strategy intervention. The experimental results show that compared with models such as CNN BiLSTM, the method proposed in this paper has reduced RMSE and MAE, while the upper limit of relative error does not exceed 8%.
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