On the role of Artificial Intelligence methods in modern force-controlled manufacturing robotic tasks
It addresses the problem of improving robotic precision and efficiency in manufacturing for Industry 4.0, but is incremental as it reviews existing methods and identifies challenges.
This position paper explores the integration of AI into force-controlled robotic tasks in manufacturing, such as deburring and assembly, to enhance quality and innovation, concluding with future research directions including common performance metrics and validation.
This position paper explores the integration of Artificial Intelligence (AI) into force-controlled robotic tasks within the scope of advanced manufacturing, a cornerstone of Industry 4.0. AI's role in enhancing robotic manipulators - key drivers in the Fourth Industrial Revolution - is rapidly leading to significant innovations in smart manufacturing. The objective of this article is to frame these innovations in practical force-controlled applications - e.g. deburring, polishing, and assembly tasks like peg-in-hole (PiH) - highlighting their necessity for maintaining high-quality production standards. By reporting on recent AI-based methodologies, this article contrasts them and identifies current challenges to be addressed in future research. The analysis concludes with a perspective on future research directions, emphasizing the need for common performance metrics to validate AI techniques, integration of various enhancements for performance optimization, and the importance of validating them in relevant scenarios. These future directions aim to provide consistency with already adopted approaches, so as to be compatible with manufacturing standards, increasing the relevance of AI-driven methods in both academic and industrial contexts.