Simulation evaluation of underwater robot structure and control system based on ADAMS

IF 1.1 Q3 COMPUTER SCIENCE, THEORY & METHODS Open Computer Science Pub Date : 2023-01-01 DOI:10.1515/comp-2022-0269
Donglin Tang, Long Li
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Abstract

Abstract The twenty-first century is the century of marine resources. The ocean is a treasure of biological resources, energy, water resources and mineral resources, and it would gradually become the “second space” of mankind. In the next few years, it would be more and more relevant to human life. Many scholars have realized the importance of the ocean and began to vigorously develop and use the ocean. Underwater robot is a means for human beings to explore and develop the ocean, and it would be widely used in this field. The development and promotion of underwater vehicles are of great significance to resource development, economic development, and national security. With the increasing shortage of land resources, the development and utilization of marine resources have received increasing attention. The direct exploitation of marine resources by humans would have adverse effects, so the underwater robot technology has developed rapidly in recent years. However, at present, most underwater robots are driven by electric turbines. The underwater working environment requires that the underwater motor has good sealing performance, so its structure is complex and expensive, and it is rarely used in ordinary underwater operations. In recent years, intelligent robots have been used more and more, but because of the complexity and uncertainty of the underwater working environment, there are many uncertain factors. Therefore, it is very meaningful to carry out stability control for it. The research results showed that the displacement, stability, and other corresponding test curves of each component can be obtained by establishing a simple model with software and through ADAMS (Automatic Dynamic Analysis of Mechanical Systems) simulation analysis. This can simulate the movement of real objects in the real environment and find the existing problems, so as to provide a reference for the actual underwater robot design. In this way, the development cycle and production costs can be reduced. This article analyzed the structure and control system of the underwater vehicle based on ADAMS simulation. The results showed that the dynamic stability of the underwater vehicle based on ADAMS simulation analysis was improved by 4.67% compared with the underwater vehicle before optimization.
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基于ADAMS的水下机器人结构与控制系统仿真评估
摘要二十一世纪是海洋资源的世纪。海洋是生物资源、能源、水资源和矿产资源的宝库,它将逐渐成为人类的“第二空间”。在接下来的几年里,它将越来越与人类生活相关。许多学者已经意识到海洋的重要性,并开始大力开发和利用海洋。水下机器人是人类探索和开发海洋的一种手段,将在这一领域得到广泛应用。水下航行器的开发和推广对资源开发、经济发展和国家安全具有重要意义。随着陆地资源日益短缺,海洋资源的开发利用越来越受到重视。人类直接开采海洋资源会产生不利影响,因此水下机器人技术近年来发展迅速。然而,目前,大多数水下机器人都是由电动涡轮机驱动的。水下工作环境要求水下电机具有良好的密封性能,因此其结构复杂、价格昂贵,在普通水下作业中很少使用。近年来,智能机器人的应用越来越多,但由于水下工作环境的复杂性和不确定性,存在许多不确定因素。研究结果表明,利用软件建立简单的模型,并通过ADAMS(Automatic Dynamic Analysis of Mechanical Systems)仿真分析,可以得到各部件的位移、稳定性等相应的试验曲线。这样可以模拟真实物体在真实环境中的运动,发现存在的问题,为实际的水下机器人设计提供参考。通过这种方式,可以减少开发周期和生产成本。本文基于ADAMS仿真,对水下机器人的结构和控制系统进行了分析。结果表明,基于ADAMS仿真分析的水下机器人动力学稳定性比优化前提高了4.67%。
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来源期刊
Open Computer Science
Open Computer Science COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
4.00
自引率
0.00%
发文量
24
审稿时长
25 weeks
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