Remote Sensing Imagery Object Detection Model Compression via Tucker Decomposition

Remote Sensing Imagery Object Detection Model Compression via Tucker Decomposition

Blog Article

Although convolutional neural networks (CNNs) have made significant progress, their deployment onboard is still challenging because of their complexity and high processing cost.Tensors provide a natural Gift Card and compact representation of CNN weights via suitable low-rank approximations.A novel decomposed module called DecomResnet based on Tucker decomposition was proposed to deploy a CNN object detection model on a satellite.We proposed a remote sensing image object detection model compression framework based on low-rank decomposition which consisted of four steps, namely (1) model initialization, (2) initial training, (3) decomposition of the trained model and reconstruction of the decomposed model, and (4) fine-tuning.

To validate the performance of the decomposed model in our real mission, we constructed a dataset containing only two classes of objects based on the DOTA and HRSC2016.The proposed method was comprehensively evaluated on the NWPU VHR-10 dataset and the CAST-RS2 dataset created in this work.The experimental results demonstrated that the proposed method, which was based on Resnet-50, could achieve up to 4.44 times the compression ratio and 5.

71 times the speedup ratio with merely a 1.9% decrease in the mAP (mean average precision) of the Fridge Control Panel CAST-RS2 dataset and a 5.3% decrease the mAP of the NWPU VHR-10 dataset.