Design and on-orbit validation for the first dedicated moving target detection satellite in the world
With the rapid development of satellite technology,the demand on remote sensing applications has shifted from traditional static observation to dynamic monitoring.Current remote sensing satellites supporting moving target detection face challenges,such as the difficulties in extracting slow-moving targets,the limited observation coverage,and the difficulties of transmission and processing of large volumes of data.This paper proposes innovative approaches in camera imaging modes,data processing methods,and hardware architecture.(1)The design of a remote sensing camera with the dual-line array push-broom imaging mode is proposed,which allows for the acquisition of same-spectral dual-strip data with controllable time differences in a single imaging session;this breakthrough overcomes the challenge of observing large-scale moving targets under non-agile satellite conditions and provides a means to obtain"instantaneous change"information in the context of dynamic remote sensing.(2)The supporting onboard intelligent processing unit is developed independently,which is equipped with efficient onboard processing algorithms;through the design of high-performance parallel computing hardware-accelerated architecture,the hardware carrier of real-time remote sensing service in the dynamic remote sensing system is formed.The prototype based on the technology has been successfully launched aboard the MN200Sar-1 optical remote sensing satellite,positioning it as the first dedicated moving target detection satellite in the world.The on-orbit verification results show that the satellite is capable of detecting a wide range of moving targets within its sweeping field of view.It exhibits excellent detection performance for high-speed trains,vehicles,ships and other objects in motion.And the on-board processing unit meets the requirements for on-board processing applications in terms of time efficiency,energy utilization,and processing effectiveness.The related technologies and achievements hold significant theoretical and practical implications for various application domains,including intelligent transportation,disaster prevention and mitigation,and national security.
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