A Deep Learning-Based Person Search System for Real-World Camera Images
Abstract
A person search system was developed to identify the query person from images captured by cameras at four scenes in the study. This study analyzed three network architectures called Model Basic, Model One, and Model Two. To verify the validity of the model design, the models in the public data set and in the recorded system data set were compared to determine whether the results of the proposed model exhibited consistent performance between the camera images from the public data set and the recorded, unprocessed system data set. The detected pedestrian images then underwent distance matching relative to query person images by using the online instance matching (OIM) loss function. Based on Model Basic, Model One and Model Two were designed to further improve accuracy by incorporating different convolutional neural networks. In CUHK-SYSU data set, the testing results of Model Basic, Model One and Model Two achieved the accuracies of 72.38%, 75.96% and 75.32%, respectively. The testing results of Model Basic, Model One, and Model Two with the system data set achieved accuracies of 63.745%, 68.80%, and 69.33%, respectively.
Keywords
Deep learning, Object detection, OIM loss function, Person search, ResNet50
Citation Format:
Chih-Ta Yen, Guan-Yu Chen, "A Deep Learning-Based Person Search System for Real-World Camera Images ," Journal of Internet Technology, vol. 23, no. 4 , pp. 839-851, Jul. 2022.
Chih-Ta Yen, Guan-Yu Chen, "A Deep Learning-Based Person Search System for Real-World Camera Images ," Journal of Internet Technology, vol. 23, no. 4 , pp. 839-851, Jul. 2022.
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