静电陀螺监控器在航天测量船列装是该设备在国内首次被应用于大型水面舰艇。在此之前其设计方案以及启动策略全部针对于水下舰艇,对于航天测量船而言没有任何经验可以借鉴。因此,探索静电陀螺监控器在海上动态条件下的高精度启动技术成为了当前该设备在航天测量船应用中的主要问题。针对该问题,通过分析静电陀螺监控器启动的关键过程,结合设备工作原理,重点对海上动态条件下静电陀螺监控器的启动技术和相关参数进行了研究,实现了静电陀螺监控器在海上动态条件下的高精度启动。该技术目前已经成熟并且成功应用于测量船测控任务。 The electrostatic gyro monitor installed on the spacecraft was the first time the device was applied to large surface ships in China. Prior to its design and start-up strategy are all aimed at underwater warship, the spaceship has nothing to learn from experience. Therefore, exploring the high-precision start-up technology of the electrostatic gyro monitor under the dynamic conditions at sea has become the main problem of the current application of the device in the spacecraft survey. In view of this problem, by analyzing the key process of electrostatic gyro monitor start-up, combined with the working principle of the device, focusing on the dynamic conditions at sea under the electrostatic gyro monitor start-up techniques and related parameters were studied to achieve the electrostatic gyro monitor at sea dynamic conditions Under the high-precision start. The technology is currently mature and successfully applied to the measurement and control tasks of the ship.