基于光电传感器的近距离检测与控制系统及其在搬运机器人目标检测中的应用

IF 0.6 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Nanoelectronics and Optoelectronics Pub Date : 2023-08-01 DOI:10.1166/jno.2023.3467
Yaping Lu
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引用次数: 0

摘要

光电传感器是一种广泛应用于工业自动化过程的电子器件。该设备使用光来检测物体是否存在。光电传感器检测控制系统是光电传感器的核心部分。该系统包括传感器处理芯片、控制电路、检测光学结构和自动教学控制算法。本课题设计了自动教学系统的核心控制芯片和近距离光电传感器控制电路的核心部分。围绕该芯片设计了模块化电路。传感器的光学结构采用位置敏感传感器(PSD)光电附件和三角测量法进行设计。同时,采用核心电路控制芯片(CSP)完成近距离光电传感器的基本功能。其中,光学结构设计用于采集和处理被检测物体的光信号。在此基础上,通过PSD采集光信号后进行I/V转换,然后进行信号处理。采用模糊PID控制模型解决了控制对象不能准确建立数学模型的问题。将所设计的光电传感器应用于搬运机器人,建立了搬运机器人的D-H数学模型。利用MatLab提供的Robotics工具箱对机器人的运动进行仿真,利用传感器检测机器人抓取的目标。实验结果表明,传感器将被抓取物体的坐标信息上传到软件界面,搬运机器人可以借助光电传感器准确抓取物体,并根据不同被抓取物体的外观颜色将其放置在相应的位置。
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Short Distance Detection and Control System Based on Photoelectric Sensor and Its Application in Target Detection of Handling Robot
The photoelectric sensor is an electronic device that is widely used in industrial automation processes. The device uses light to detect whether an object exists. The photoelectric sensor detection control system is the core part of the photoelectric sensor. The system includes sensor processing chip, control circuit, detection optical structure and automatic teaching control algorithm. In this research, the core control chip of the automatic teaching system and the core part of the control circuit of the short-distance photoelectric sensor are set up. The modular circuit around the above chip is designed. The optical structure of the sensor is designed by Position sensitive sensor (PSD) photoelectric accessories and triangulation method. Meanwhile, the core circuit control chip (CSP) is applied to complete the basic functions of the short-distance photoelectric sensor. Among them, the optical structure is designed to collect and process the optical signal of the detected object. Based on this, the I/V conversion is needed after collecting the optical signal by PSD, and then the signal processing is carried out. The fuzzy PID control model is used to solve the problem that the control object cannot accurately establish the mathematical model. The designed photoelectric sensor is used for the handling robot, and the D-H mathematical model of the handling robot is established. The Robotics toolbox provided by MatLab is used to simulate the movement of the robot, and the sensor is used to detect the target of the robot grabbing. The experimental results show that the sensor uploads the coordinate information of the object to be grabbed to the software interface, and the handling robot can accurately grab the object with the help of the photoelectric sensor, and place it in the corresponding position according to the appearance color of different objects to be grabbed.
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来源期刊
Journal of Nanoelectronics and Optoelectronics
Journal of Nanoelectronics and Optoelectronics 工程技术-工程:电子与电气
自引率
16.70%
发文量
48
审稿时长
12.5 months
期刊最新文献
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