With the rapid development of Internet e-commerce, the online transaction volume of clothing has increased day by day, and the importance of clothing images in transactions has also increased. However, there are many clothing categories and different classification standards. It is difficult for consumers and e-commerce merchants to unify the description of clothing categories, which can easily lead to a poor clothing shopping experience. Neural network has an excellent list in the field of computer vision, which can effectively classify clothing. The purpose of this article is to study the algorithm analysis of clothing classification based on neural network. Starting from the neural network, this paper proposes a clothing image classification algorithm based on a multi-task convolutional neural network (Convolutional Neural Network, CNN). Through hierarchical classification data combined with multi-task technology, the basic structure of the network model is not changed. The accuracy of clothing image classification improves the network’s ability to express refined clothing categories. This paper proposes a clothing classification algorithm based on the feature fusion of Hu invariant matrix and CNN network. The feature fusion of the features extracted by the convolutional neural network is initially explored, the information gain of the feature is calculated, and the shape feature is used to eliminate the feature with less information gain. This paper also designs a clothing classification system based on neural network to realize the recognition, detection and classification of clothing images. The experimental results show that the clothing classification accuracy rates under the four combined tasks are 93.54%, 89.26%, 92.14%, 95.66%, and 93.54%, respectively. It can be seen that the model based on convolutional neural network can further improve the accuracy of clothing classification.

Deep Learning; Neural Network; Clothing Classification; Target Detection

Liu K , Luo D , Hu M , et al. The clothing image classification algorithm based on the improved Xception model. International Journal of Computational Science and Engineering, 2020, 23(3):214.

Noh S K . Recycled Clothing Classification System Using Intelligent IoT and Deep Learning with AlexNet. Computational Intelligence and Neuroscience, 2021, 2021(4):1-8.

Thewsuwan S , Horio K . Texture-Based Features for Clothing Classification via Graph-Based Representation. Journal of Signal Processing, 2018, 22(6):299-305.

Ergashxodjaeva, SJ, Krivyakin, et al. Evaluation of Textile and Clothing Industry Clustering Capabilities inUzbekistan: Based on Model of M.Porter. International Journal of Economics & Management Sciences, 2018, 7(1):1-7.

Wu M , Liu L , Fu X , et al. Fine-Grained Clothing Image Classification by Style Feature Description. Jisuanji Fuzhu Sheji Yu Tuxingxue Xuebao/Journal of Computer-Aided Design and Computer Graphics, 2019, 31(5):780.

Jayasinghe U, Harwin W S, Hwang F. Comparing Clothing-Mounted Sensors with Wearable Sensors for Movement Analysis and Activity Classification. Sensors, 2019, 20(1):82.

Ding X , Zou C , Chen J , et al. Extraction and classification of She nationality clothing via visual features. Textile Research Journal, 2016, 86(12):225-231.

Wong A S W , Li Y , Yeung P K W , et al. Neural Network Predictions of Human Psychological Perceptions of Clothing Sensory Comfort. Textile Research Journal, 2016, 73(1):31-37.

Dabrowska A K . Artificial neural networks for prediction of local thermal insulation of clothing protecting against cold. International Journal of Clothing Science and Technology, 2018, 30(1):82-100.

Dabrowska, Anna, Katarzyna. Artificial neural networks for prediction of local thermal insulation of clothing protecting against cold. International Journal of Clothing Science and Technology, 2018, 30(1):82-100.

Chen W , Li X , Chen X , et al. Research on influence mechanism of running clothing fatigue based on BP neural network. Journal of Intelligent and Fuzzy Systems, 2020, 40(8):1-11.

Cao J , Cui H , Hao S , et al. Big Data: A Parallel Particle Swarm Optimization-Back-Propagation Neural Network Algorithm Based on MapReduce. Plos One, 2016, 11(6):e0157551.