由于深海未知环境和机器人本身的复杂性,采矿机器人的精确控制是一项艰巨的课题研究。
Accurate control of the robot is a hard task because of complex unknown environment in deep seabed and robot's own characteristics.
让人沉痛的是,第二个机器人带出了采集到的采矿头盔的照片,那些矿灯,仍旧明晃晃地亮着。
Poignantly, the second returned with photographs of a mining helmet, its light still glowing.
移动机器人是深海采矿系统中最为关键的子系统之一。
Mobile robot is one of the most central subsystems of deep sea mining system.
帝国到达比图后,开设了自己的采矿基地,让机器人暴君大希普掌管。
The Empire arrived and installed its own mining operation, overseen by the droid tyrant, the Great Heep.
一旦这种高灵敏度机器人对一片潜在矿区的地质数据分析完毕,就会开始进行预爆破工作,以便为采矿队开辟道路。
Once the nimble droid studied the geological data of a prospective mine site, it would begin preliminary blasting in preparation for larger mining teams.
移动机器人系统在宇宙探测、工厂自动化、采矿、排险、军事、服务等方面有着广泛的应用前景。
Mobile robot has vast application prospects in areas including space exploring, factory automation, mining, eliminating dangerous situation, military and service.
深海作业技术的研究具有重要的战略意义,采矿移动机器人的控制质量直接影响到深海计划的实施。
The research on deep seabed mining technology has important stratagem significance. Deep seabed moving mining robot influences the implementation of national ocean plan greatly.
深海作业技术的研究具有重要的战略意义,采矿移动机器人的控制质量直接影响到深海计划的实施。
The research on deep seabed mining technology has important stratagem significance. Deep seabed moving mining robot influences the implementation of national ocean plan greatly.
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