Design of a relative motion simulation equipment with two independent and controllable azimuth axes

Shaofei Wang; Shiyong Guo; Peng Zhang; Longjia Qiu

doi:10.1117/12.2580042

5 November 2020 Design of a relative motion simulation equipment with two independent and controllable azimuth axes

Shaofei Wang, Shiyong Guo, Peng Zhang, Longjia Qiu

Proceedings Volume 11567, AOPC 2020: Optical Sensing and Imaging Technology; 1156731 (2020) https://doi.org/10.1117/12.2580042
Event: Applied Optics and Photonics China (AOPC 2020), 2020, Beijing, China

Abstract

The recognition and tracking ability[1-4] of detection equipment in the process of relative movement with the observed target is always one of the key research contents and important research directions of photoelectric detection technology. Aiming at the relative angular position between the target and the detection equipment, this paper designs a kind of relative motion simulation equipment which can independently control the bearing two axes. The motion range of the platform carrying the measured equipment can reach ± 120° , the positioning accuracy is better than 10 ″ , the maximum angular velocity and angular acceleration can reach 60°/ s and 40°/s2 respectively. The target motion range can reach ± 150° , the positioning accuracy is better than 10 ″ , and the maximum angular velocity and angle acceleration can reach 60°/s and 60°/s2 respectively.

Citation Download Citation

Shaofei Wang, Shiyong Guo, Peng Zhang, and Longjia Qiu "Design of a relative motion simulation equipment with two independent and controllable azimuth axes", Proc. SPIE 11567, AOPC 2020: Optical Sensing and Imaging Technology, 1156731 (5 November 2020); https://doi.org/10.1117/12.2580042

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