Abstract
Synthetic aperture radar (SAR) satellites produce large quantities of remote sensing images that are unaffected by weather conditions and, therefore, widely used in marine surveillance. However, because of the hysteresis of satellite-ground communication and the massive quantity of remote sensing images, rapid analysis is not possible and real-time information for emergency situations is restricted. To solve this problem, this paper proposes an on-board ship detection scheme that is based on the traditional constant false alarm rate (CFAR) method and lightweight deep learning. This scheme can be used by the SAR satellite on-board computing platform to achieve near real-time image processing and data transmission. First, we use CFAR to conduct the initial ship detection and then apply the You Only Look Once version 4 (YOLOv4) method to obtain more accurate final results. We built a ground verification system to assess the feasibility of our scheme. With the help of the embedded Graphic Processing Unit (GPU) with high integration, our method achieved 85.9% precision for the experimental data, and the experimental results showed that the processing time was nearly half that required by traditional methods.
Highlights
IntroductionSynthetic aperture radar (SAR) satellites work in all weather conditions thanks to active data collection
Unlike optical satellites, synthetic aperture radar (SAR) satellites work in all weather conditions thanks to active data collection
This is why this paper proposed an on-board ship detection scheme based on the constant false alarm rate (CFAR) algorithm and deep learning
Summary
Synthetic aperture radar (SAR) satellites work in all weather conditions thanks to active data collection. They are widely used in marine monitoring and are the main remote sensing means for large-scale maritime ship target detection. It is necessary to migrate the processing and information extraction algorithms from the ground to the on-board computing platform in order to make full use of the limited transmission bandwidth and satellite transmission time to shorten the time delay in information acquisition This migration would reduce the load on the satellite-ground data transmission system [4,5,6]
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