In the field of industrial manufacturing, visual positioning technology plays a vital role. Traditional positioning methods often rely on physical contact or specific sensors, but these methods have limitations in terms of accuracy, speed, and flexibility. The visual positioning technology can achieve non-contact and high-precision positioning of the target object through image processing and computer vision algorithms.
First of all, visual positioning technology has a wide range of applications in product inspection. On the production line, through the installation of cameras and corresponding visual processing systems, real-time detection of product appearance, size, position and other information can be realized. This not only improves the efficiency and accuracy of detection, but also reduces the labor intensity and error rate of manual detection.
Secondly, visual positioning technology also plays an important role in assembly and positioning tasks. On an automated assembly line, robots need to place parts exactly where they are. Through visual positioning technology, the robot can obtain precise position and attitude information of parts, so as to achieve precise assembly. This not only improves the accuracy and efficiency of assembly, but also reduces rework and repair costs due to assembly errors.