Pose Estimation of a Cobot Implemented on a Small AI-Powered Computing System and a Stereo Camera for Precision Evaluation.

IF 3.4 3区医学 Q1 ENGINEERING, MULTIDISCIPLINARY Biomimetics Pub Date : 2024-10-09 DOI:10.3390/biomimetics9100610

Marco-Antonio Cabrera-Rufino, Juan-Manuel Ramos-Arreguín, Marco-Antonio Aceves-Fernandez, Efren Gorrostieta-Hurtado, Jesus-Carlos Pedraza-Ortega, Juvenal Rodríguez-Resendiz

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Abstract

The precision of robotic manipulators in the industrial or medical field is very important, especially when it comes to repetitive or exhaustive tasks. Geometric deformations are the most common in this field. For this reason, new robotic vision techniques have been proposed, including 3D methods that made it possible to determine the geometric distances between the parts of a robotic manipulator. The aim of this work is to measure the angular position of a robotic arm with six degrees of freedom. For this purpose, a stereo camera and a convolutional neural network algorithm are used to reduce the degradation of precision caused by geometric errors. This method is not intended to replace encoders, but to enhance accuracy by compensating for degradation through an intelligent visual measurement system. The camera is tested and the accuracy is about one millimeter. The implementation of this method leads to better results than traditional and simple neural network methods.

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通过小型人工智能计算系统和立体相机实现的机器人姿态估计，以进行精度评估。

在工业或医疗领域，机器人机械手的精度非常重要，尤其是在执行重复或繁重的任务时。几何变形是这一领域最常见的问题。因此，人们提出了新的机器人视觉技术，包括三维方法，从而可以确定机器人机械手部件之间的几何距离。这项工作的目的是测量具有六个自由度的机械臂的角度位置。为此，我们使用了立体摄像机和卷积神经网络算法，以减少几何误差造成的精度下降。这种方法的目的不是取代编码器，而是通过智能视觉测量系统对精度下降进行补偿，从而提高精度。经测试，相机的精度约为一毫米。与传统和简单的神经网络方法相比，这种方法的实施能带来更好的结果。

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