The invention discloses a high-precision large-breadth all-time remote sensing camera and a remote sensing satellite. The remote sensing camera comprises a double-Gaussian optical system and a constructed imaging space telecentric optical system, and sequentially comprises a front lens group, an aperture diaphragm and a rear lens group which are coaxially arranged from front to back according to an optical path; and the large-area-array imaging detector is used for receiving the light beams subjected to light path processing by the double-Gaussian optical system. The camera makes up the defects of an existing noctilucent remote sensing system, the envelope size of the system can be controlled to be about one time of focal length while large breadth and high resolution are achieved, the camera can be carried on a micro-nano satellite for application, and low cost is achieved. The remote sensing camera can be suitable for a full-color spectrum section. The ground imaging resolution is 21 meters, so that more precise analysis can be provided for practical application, and sufficient data can be acquired by a satellite through one-time top crossing due to the large breadth of 107 km. The design of large relative aperture and the combination of the high-sensitivity large-area array imaging detector enable the system to have a high signal-to-noise ratio.
本申请公开了高精度大幅宽全天时遥感相机及遥感卫星。该遥感相机包括双高斯光学系统,被构造成像方远心光学系统,按照光路由先至后依次包括同轴设置的前镜组、孔径光阑和后镜组;大面阵成像探测器,用以接收由经过双高斯光学系统进行光路处理的光束。本相机弥补了现有夜光遥感系统的不足,在实现大幅宽和高分辨率的同时,系统包络尺寸可控制在1倍焦距左右,可搭载于微纳卫星进行应用,实现低成本。本遥感相机能适用谱段为全色谱段。21米的地面成像分辨率,使其可以为实际应用提供更为精细地分析,107km的大幅宽使卫星一次过顶就可采集充足的数据。大相对孔径的设计和高灵敏度大面阵成像探测器的结合使系统具有较高的信噪比。
High-precision large-breadth all-time remote sensing camera and remote sensing satellite
高精度大幅宽全天时遥感相机及遥感卫星
2023-08-08
Patent
Electronic Resource
Chinese
Main load-bearing structure of large-breadth high-resolution optical remote sensing satellite
European Patent Office | 2024
|Single-satellite high-precision collaborative remote sensing method
European Patent Office | 2023
|High-Precision Attitude Control of Remote Sensing Satellite
British Library Conference Proceedings | 2004
|NTRS | 2020
|