Abstract
Abstract In order to improve the efficiency and accuracy of thermal and moisture comfort prediction of underwear, a new prediction model is designed by using principal component analysis method to reduce the dimension of related variables and eliminate the multi-collinearity relationship between variables, and then inputting the converted variables into genetic algorithm (GA) and BP neural network. In order to avoid the problems of slow convergence speed and easy falling into local minimum of Back Propagation (BP) neural network, this paper adopted GA to optimize the weights and thresholds of BP neural network, and utilized MATLAB software to program, and established the prediction models of BP neural network and GA–BP neural network. To verify the superiority of the model, the predicted result of GA–BP, PCA–BP and BP are compared with GA–BP neural network. The results show that PCA could improve the accuracy and adaptability of GA–BP neural network for thermal and moisture comfort prediction. PCA–GA–BP model is obviously superior to GA–BP, PCA–BP, BP, SVM and K-means prediction models, which could accurately predict thermal and moisture comfort of underwear. The model has better accuracy prediction and simpler structure.
Highlights
Thermal and moisture comfort has always been a research hot spot in the field of clothing, and thermal and wet is a key factor that cannot be ignored for human body function or health
In order to improve the efficiency and accuracy of thermal and moisture comfort prediction of underwear, a new prediction model is designed by using principal component analysis method to reduce the dimension of related variables and eliminate the multi-collinearity relationship between variables, and inputting the converted variables into genetic algorithm (GA) and Back Propagation (BP) neural network
In order to avoid the problems of slow convergence speed and easy falling into local minimum of Back Propagation (BP) neural network, this paper adopted GA to optimize the weights and thresholds of BP neural network, and utilized MATLAB software to program, and established the prediction models of BP neural network and Genetic Algorithm–Back Propagation (GA–BP) neural network
Summary
Thermal and moisture comfort has always been a research hot spot in the field of clothing, and thermal and wet is a key factor that cannot be ignored for human body function or health. This paper summarizes the research on thermal and moisture comfort of clothing, it is found that most of their studies use sweat thermal manikin, which cannot truly reflect thermal comfort, especially for the comfort study of underwear, which is only limited to the experimental of fabric or only underwear, and did not consider thermal and moisture in wearing state. Genetic Algorithm (GA) has strong global search capability [9, 10], Back Propagation (BP) neural networks have strong non-linear fuzzy approximation ability [11,12,13], the combination of GA and BP is used to evaluate thermal and moisture comfort, and the results are more scientific and credible
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