基于模糊理论与决策树的室内热光综合作用评价模型的设计与思考
Design and thinking of indoor thermo-optical synthetic evaluation model based on fuzzy theory and decision tree
摘要:
随着科学技术的飞速发展,人们对建筑室内物理环境质量的要求日渐提高。尽管国内外相关学者对建筑室内声、光、热等物理因素已经有了较深程度的研究,但真正意义上针对室内空间物理因素综合作用效果的研究却十分有限。基于模糊数学与决策树理论,利用实验数据,对室内空间中不同热光参数组合下的人体反应情况进行了研究,提出了建筑室内热光综合作用的理论模型。
Abstract:
With the rapid development of science and technology, people’s demands for the quality of building indoor physical environment are increasing day by day. Although relevant scholars at home and abroad have made deep researches on physical factors such as architectural indoor acoustics, optics, and thermals, the research on the combined effects of physical factors in indoor spaces in the true sense is very limited. Based on fuzzy mathematics and decision tree theory, using experimental data, studies the human body response under different combinations of thermo-optical parameters in indoor spaces, and proposes a theoretical model of the integrated effects of building indoor thermo-optical effects.
Keywords:thermo-opticalcomprehensiveeffect,fuzzymathematics,decisiontree,evaluationmodel,humanbodyresponse