Vision-guided robotic system for aero-engine inspection and dynamic balancing
Mohamed A. Ramadan, Abdelrahman Youssef, Abdulla Ayyad, Laith AbuAssi, Oussama Abdul Hay, Mohammed Salah, Brain Moyo, Yahya Zweiri, Yusra Abdulrahman
- 发表年份
- 2024
- 引用次数
- 11
- 访问权限
- 开放获取
摘要
The fourth industrial revolution witnessed significant advancements in automating numerous aircraft inspection tasks. Still, certain critical procedures continue to rely on manual execution, including the aero-engine blade weighing process. This task is of paramount importance for blade mass inspection and engine dynamic balancing. Yet, automation of aero-engine blade weighing remains a challenge due to the intricate geometry of engine blades, and the stringent requirements on precision. To address this gap, this paper introduces, for the first time, a vision-guided robotic system for autonomous aero-engine blade weighing. The proposed system presents a novel end-effector design incorporating a high-precision load cell for accurate and rapid weighing coupled with an imaging sensor for autonomous robotic perception capabilities. The system is tested in industrial settings, and the results show a high weighing precision and accuracy of 0.0404 g and of 0.0252 g, respectively. Our system offers the advantage of seamless integration into existing industrial setups without the need for facility reconfiguration. Video Link.
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