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 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 FRESH MINT FOAMING HAND SOAP 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 Dryer Vent Grille 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 CAST-RS2 dataset and a 5.
3% decrease the mAP of the NWPU VHR-10 dataset.