Abstract
With the construction of a large number of power plants along the river and the coast, more and more power plants have adopted open water intake in the circulating water pool of the power plant and the number of underwater operations is increasing. In the detection of complex underwater environments, underwater robots have been widely used as a kind of underwater intelligent equipment. However, the current underwater robots generally have problems such as weak endurance, low intelligence, poor detection ability, and large environmental disturbance. The underwater robot designed in this paper is able to accomplish various rotational and flat movement works in the water and also can realize the monitoring of the water environment. In this paper, the underwater dynamic performance of the underwater robot is studied, the coordinate system and motion equation are established, the hydrodynamic analysis is carried out, and the dynamic characteristics of the underwater robot are tested. The experimental results show that the underwater robot has achieved good results in underwater motion control and its dynamic performance, showing the advantages of good robustness and accuracy, high control accuracy, and good dynamic characteristics.
Highlights
Underwater Robot System DesignE underwater robot system designed in this paper can be divided into three major components: the control system, the observation system, and the carrier system
Underwater robots have become an indispensable tool for human exploration and development of the ocean and are widely used in ocean development, underwater exploration, underwater operations, underwater rescue, and other fields [9,10,11]
An underwater inspection robot for a circulating pool is developed to monitor the underwater environment in real time and maintain and repair the underwater equipment of the circulating pool. e underwater movement and operation of the underwater robot are based on the underwater dynamics model of the underwater robot
Summary
E underwater robot system designed in this paper can be divided into three major components: the control system, the observation system, and the carrier system. E carrier system includes the shape structure of the underwater robot, the sealed cabin, the floating body, the propeller, the steering gear, and other hardware equipment [22,23,24]. The sealed cabin is used to store the electronic components of the underwater robot, including the main control board, sensors, and other electrical components. By controlling the speed and steering of the motor, the propeller realizes the rotation and translation of the fuselage, and the steering gear is mainly used for the attitude adjustment of the underwater robot.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
