Construction of Mechanical Control System Based on Artificial Intelligence Technology

Abstract

Since the concept of "artificial intelligence" was put forward in 1956, it has been very successful both in application and promotion, and gradually changed its name to engineering technology. So far, it has been used for automatic translation, remote control, robot design and manufacturing, language and image analysis, genetic programming, automated factories, automated programming, aviation and aerospace applications, a large amount of information processing, information storage. The management and execution of complex or large-scale tasks that the human body can complete has great research value for artificial intelligence in these areas. The purpose of this article is to study the construction of a mechanical control system based on artificial intelligence technology. In this document, the motion and rotation equation models of the robotic arm are defined. According to the case in the report, calculate the maximum torque that each arm joint can bear, and use the calculated specific data parameters in the experiment and compare it in the literature. The experimental results are compared with the experimental results of this article. Through the research of the engine control system, based on a large amount of research and practice, this paper examines the threats and loopholes of the system in detail, and designs a system based on WINdow7. This paper uses the data obtained in the actual evaluation and practice of the system and the calculation results of the actual operation method to verify the rationality, feasibility and value of the artificial intelligence-based mechanical operating system. Experimental research shows that based on the artificial intelligence technology proposed in this paper, the specific rotation value of each joint is determined to be as high as 300 degrees through actual observation and practice. The data and the related formulas are calculated, and the results obtained are more reliable and true. It proved the feasibility and value of the mechanical control system specified in this article.