Development of a CNN-based Cross Point Detection Algorithm for an Air Duct Cleaning Robot

The Korea Academia-Industrial cooperation Society Pub Date : 2020-01-01 DOI:10.5762/KAIS.2020.21.8.1

Sarang Yi, Eunsol Noh, Seokmoo Hong

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引用次数: 1

Abstract

Air ducts installed for ventilation inside buildings accumulate contaminants during their service life. Robots are installed to clean the air duct at low cost, but they are still not fully automated and depend on manpower. In this study, an intersection detection algorithm for autonomous driving was applied to an air duct cleaning robot. Autonomous driving of the robot was achieved by calculating the distance and angle between the extracted point and the center point through the intersection detection algorithm from the camera image mounted on the robot. The training data consisted of CAD images of the duct interior as well as the cross-point coordinates and angles between the two boundary lines. The deep learning-based CNN model was applied as a detection algorithm. For training, the cross-point coordinates were obtained from CAD images. The accuracy was determined based on the differences in the actual and predicted areas and distances. A cleaning robot prototype was designed, consisting of a frame, a Raspberry Pi computer, a control unit and a drive unit. The algorithm was validated by video imagery of the robot in operation. The algorithm can be applied to vehicles operating in similar environments.

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基于cnn的风道清扫机器人交叉点检测算法研究

建筑物内安装的通风管道在其使用寿命期间会积聚污染物。安装机器人来清洁风管的成本较低，但它们仍然不是完全自动化的，依赖于人力。本研究将自动驾驶的交叉口检测算法应用于风管清扫机器人。从安装在机器人上的摄像机图像中，通过交叉口检测算法计算提取点与中心点之间的距离和角度，实现机器人的自动驾驶。训练数据包括管道内部的CAD图像以及两条边界线之间的交叉点坐标和角度。采用基于深度学习的CNN模型作为检测算法。训练时，从CAD图像中获取交叉点坐标。准确度是根据实际和预测的面积和距离的差异来确定的。设计了一个清洁机器人原型，由框架、树莓派计算机、控制单元和驱动单元组成。通过机器人运行过程中的视频图像对算法进行了验证。该算法可应用于类似环境下的车辆。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Korea Academia-Industrial cooperation Society

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