AI-Enabled Robotic NDE for Structural Damage Assessment and Repair

IF 0.5 4区材料科学 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Materials Evaluation Pub Date : 2021-07-01 DOI:10.32548/2021.ME-04214

Xiaodong Shi, Anthony Olvera, C. Hamilton, Er-zhuo Gao, Jiaoyang Li, Lucas Utke, A. Petruska, Zheng Yu, L. Udpa, Y. Deng, Hao Zhang

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引用次数: 0

Abstract

The aim of this paper is to develop the concept and a prototype of an intelligent mobile robotic platform that is integrated with nondestructive evaluation (NDE) capabilities for autonomous live inspection and repair. In many industrial environments, such as the application of power plant boiler inspection, human inspectors often have to perform hazardous and challenging tasks. There is a significant chance of injury, considering the confined spaces and limited visibility of the inspection environment and hazards such as pressurization and improper water levels. In order to provide a solution to eliminate these dangers, the concept of a new robotic system was developed and prototyped that is capable of autonomously sweeping the region to be inspected. The robot design contains systematic integration of components from robotics, NDE, and artificial intelligence (AI). A magnetic track system is used to navigate over the vertical steel structures required for examination. While moving across the inspection area, the robot uses an NDE sensor to acquire data for inspection and repair. This paper presents a design of a portable NDE scanning system based on eddy current array probes, which can be customized and installed on various mobile robot platforms. Machine learning methods are applied for semantic segmentation that will simultaneously localize and recognize defects without the need of human intervention. Experiments were conducted that show the NDE and repair capabilities of the system. Improvements in human safety and structural damage prevention, as well as lowering the overall costs of maintenance, are possible through the implementation of this robotic NDE system.

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用于结构损伤评估和修复的人工智能机器人无损检测

本文的目的是开发一个智能移动机器人平台的概念和原型，该平台集成了无损评估(NDE)能力，用于自主现场检测和维修。在许多工业环境中，如电厂锅炉检测的应用，人类检查员经常要执行危险和具有挑战性的任务。考虑到密闭空间和检测环境的能见度有限，以及压力和不适当的水位等危险，受伤的可能性很大。为了提供消除这些危险的解决方案，开发了一种新型机器人系统的概念，并制作了原型，该系统能够自动清扫待检查区域。机器人的设计包含了机器人技术、NDE和人工智能(AI)组件的系统集成。磁性轨道系统用于在需要检测的垂直钢结构上导航。在穿过检测区域时，机器人使用无损检测传感器获取数据进行检测和修复。本文设计了一种基于涡流阵列探头的便携式无损检测系统，该系统可定制并安装在各种移动机器人平台上。将机器学习方法应用于语义分割，可以在不需要人工干预的情况下同时定位和识别缺陷。实验结果表明，该系统具有良好的无损检测和修复能力。通过实施这种机器人NDE系统，可以提高人类安全和防止结构损坏，并降低维护的总体成本。

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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来源期刊

Materials Evaluation 工程技术-材料科学：表征与测试

CiteScore

0.90

自引率

16.70%

发文量

审稿时长

6-12 weeks

期刊介绍： Materials Evaluation publishes articles, news and features intended to increase the NDT practitioner’s knowledge of the science and technology involved in the field, bringing informative articles to the NDT public while highlighting the ongoing efforts of ASNT to fulfill its mission. M.E. is a peer-reviewed journal, relying on technicians and researchers to help grow and educate its members by providing relevant, cutting-edge and exclusive content containing technical details and discussions. The only periodical of its kind, M.E. is circulated to members and nonmember paid subscribers. The magazine is truly international in scope, with readers in over 90 nations. The journal’s history and archive reaches back to the earliest formative days of the Society.