实现了用直流力矩电机在反作用飞轮控制方式下对气球吊篮的方位控制。
DC torque motor under the reaction flywheel control mode was used in nacelle azimuth control in this paper.
实现了用直流力矩电机在反作用飞轮控制方式下对气球吊篮的方位控制。
Reaction wheel is one of the main disturbance sources that affect the precision of attitude control system of spacecraft.
实现了用直流力矩电机在反作用飞轮控制方式下对气球吊篮的方位控制。
The results of simulation show that the gondola control system achieves the desired results.
气球吊篮姿态控制系统是吊篮在空中保持姿态稳定、进行姿态调整的关键部件。
The stratospheric nacelle attitude control system is the key technology in keeping position stabilization and posture adjustment.
提出了用直流力矩电动机在反作用飞轮控制方式下对气球吊篮的方位控制,从理论上研究了气球吊篮方位控制系统。
The nacelle azimuth control of DC torque motor under the reaction flywheel control mode is presented, and the nacelle azimuth control system is investigated in theory.
该系统实现了气球吊篮方位的动态控制,提升了反作用飞轮控制方式的控制特性和系统的控制品质,提高了系统的精度和可靠性。
A dynamic nacelle azimuth control is realized. Its control performance and quality are enhanced under the reaction flywheel control. High precision and reliability was obtained.
到现在为止,所有的研究是操纵吊篮,而不是操纵气球。
Till now, all efforts have been devoted to directing the car rather than the balloon.
气球装满氢气,可以飞行较长距离,但是,在下面吊篮里的人却无法操纵气球,只能任风带气球到哪儿他们就到哪儿。
Balloons filled with this gas were able to travel long distances. But the men in the baskets underneath could not steer them. They went where the wind took them.
气球装满氢气,可以飞行较长距离,但是,在下面吊篮里的人却无法操纵气球,只能任风带气球到哪儿他们就到哪儿。
Balloons filled with this gas were able to travel long distances. But the men in the baskets underneath could not steer them. They went where the wind took them.
应用推荐