A Modular Smart Vision System for Industrial Inspection and Control of Conformity

IF 0.8 Q4 ENGINEERING, MANUFACTURING
Marwan El Helou, Khaled Benfriha, A. Al-Ahmari, Peter Wardle, Esma Talhi, Stéphane Loubère, Chawki El Zant, Quentin Charrier
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引用次数: 1

Abstract

In manufacturing systems, there are several essential tasks to perform before and after the production process. In traditional systems, these tasks were done manually, which can lead to more resource consumption and the risk of human error; however, advanced manufacturing systems and Industry 4.0 tend toward a more autonomous manner. To ensure the compliance of the machining process and the safety of the personnel as well as the machines at the shop floor, the inspection of the overall factory prior to any machining process and the control of conformity of the manufactured parts are necessary in order to know the status of the manufacturing line. This paper proposes a novel modular smart vision system for machine inspection and conformity control of machined parts. Our system uses smart vision technologies embedded in industrial robots and enhanced with image processing and analysis capabilities. The solution also integrates a user interface for human–machine interactions that has been developed with a modular approach, and is designed, launched, and controlled by the manufacturing execution system, allowing agile and customized configuration. By this new approach, the robot inspects all the machines in the factory to check the status before launching the production plan. After the machining process, the system interprets the in situ dimensional analysis for the machined parts and makes decisions about whether the parts are acceptable or require additional machining.
工业检验与符合性控制的模块化智能视觉系统
在制造系统中,在生产过程前后有几个基本任务要执行。在传统系统中,这些任务是手动完成的,这可能会导致更多的资源消耗和人为错误的风险;然而,先进的制造系统和工业4.0倾向于更自主的方式。为了确保加工过程的合规性以及车间人员和机器的安全,在任何加工过程之前对整个工厂进行检查和制造零件的符合性控制是必要的,以便了解生产线的状态。提出了一种新型的模块化智能视觉系统,用于机械检测和加工零件的一致性控制。我们的系统使用嵌入在工业机器人中的智能视觉技术,并增强了图像处理和分析能力。该解决方案还集成了一个用于人机交互的用户界面,该界面是用模块化方法开发的,由制造执行系统设计、启动和控制,允许灵活和定制配置。通过这种新方法,机器人在启动生产计划之前检查工厂内所有机器的状态。在加工过程后,系统对加工零件的原位尺寸分析进行解释,并决定零件是否可接受或需要额外的加工。
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来源期刊
Smart and Sustainable Manufacturing Systems
Smart and Sustainable Manufacturing Systems ENGINEERING, MANUFACTURING-
CiteScore
2.50
自引率
0.00%
发文量
17
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