TY - GEN
T1 - An Improved SlowFast Model for Violence Detection
AU - Huang, Qinxue
AU - Zhang, Chaolong
AU - Xu, Yuanping
AU - Wang, Weiye
AU - Xu, Zhijie
AU - Guo, Benjun
AU - Jin, Jin
AU - Kong, Chao
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - As social safety concerns become increasingly prominent, the importance of violence detection has become increasingly significant. Accurately identifying violent behavior helps facilitate timely interventions, reducing harm and losses, thereby enhancing public safety. To minimize the interference from irrelevant actions (e.g., those from spectators and uninvolved individuals) during violence detection, this study proposes an improved SlowFast method that enhances the robustness of the model by modifying the network structure of the Slow Pathway and lateral connections. In the Slow Pathway, the original residual block is replaced with an SE-Res residual block, which strengthens the weighting of channel importance, making the model more stable in complex scenarios. The lateral connections are improved by integrating a 3D-Convolutional Block Attention Module(3DCBAM), enhancing feature fusion and increasing the model's sensitivity to key features across different temporal scales. Furthermore, to address the class imbalance issue within the dataset, the Focal Loss function has been modified, effectively improving the performance of each class. The improved model demonstrates excellent performance in violence detection tasks, achieving an accuracy of 96.67%, which is a 1.12% improvement over the classical model.
AB - As social safety concerns become increasingly prominent, the importance of violence detection has become increasingly significant. Accurately identifying violent behavior helps facilitate timely interventions, reducing harm and losses, thereby enhancing public safety. To minimize the interference from irrelevant actions (e.g., those from spectators and uninvolved individuals) during violence detection, this study proposes an improved SlowFast method that enhances the robustness of the model by modifying the network structure of the Slow Pathway and lateral connections. In the Slow Pathway, the original residual block is replaced with an SE-Res residual block, which strengthens the weighting of channel importance, making the model more stable in complex scenarios. The lateral connections are improved by integrating a 3D-Convolutional Block Attention Module(3DCBAM), enhancing feature fusion and increasing the model's sensitivity to key features across different temporal scales. Furthermore, to address the class imbalance issue within the dataset, the Focal Loss function has been modified, effectively improving the performance of each class. The improved model demonstrates excellent performance in violence detection tasks, achieving an accuracy of 96.67%, which is a 1.12% improvement over the classical model.
KW - Action Recognition
KW - Feature Fusion
KW - ResNet
KW - SlowFast
KW - Violence Detection
UR - http://www.scopus.com/inward/record.url?scp=105002213483&partnerID=8YFLogxK
U2 - 10.1109/AIIM64537.2024.10934254
DO - 10.1109/AIIM64537.2024.10934254
M3 - Conference Proceeding
AN - SCOPUS:105002213483
T3 - 2024 4th International Symposium on Artificial Intelligence and Intelligent Manufacturing, AIIM 2024
SP - 283
EP - 287
BT - 2024 4th International Symposium on Artificial Intelligence and Intelligent Manufacturing, AIIM 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 4th International Symposium on Artificial Intelligence and Intelligent Manufacturing, AIIM 2024
Y2 - 20 December 2024 through 22 December 2024
ER -
