Peak carbon emission prediction of tourist attractions based on fuzzy support vector machine Online publication date: Fri, 08-Nov-2024
by Xiumei Feng
International Journal of Environment and Pollution (IJEP), Vol. 74, No. 1/2/3/4, 2024
Abstract: In order to address the issues of low stability, low sensitivity, and low accuracy in traditional peak carbon emission prediction methods, a peak carbon emission prediction of tourist attractions based on fuzzy support vector machine is proposed. Tourist attraction carbon emission data is collected, and various factors such as average emission, total emission, and growth rate are obtained through statistical analysis. By combining Pearson correlation coefficient and information gain, the interrelationships between various factors are determined, clarifying the key influencing factors of tourist attraction carbon emissions. Key influencing factors are taken as input vectors, and carbon emission peaks are taken as output vectors to construct an optimised fuzzy support vector machine. The experimental results demonstrate that this method has high stability, sensitivity, and accuracy, enabling precise prediction of tourist attraction carbon emission peaks. This study is of great significance for promoting environmental protection, optimising resource utilisation, and guiding policy formulation.
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