Litcius/Paper detail

Towards Autonomous Robotic Assembly: Using Combined Visual and Tactile Sensing for Adaptive Task Execution

Korbinian Nottensteiner, Arne Sachtler, Alin Albu‐Schäffer

2021Journal of Intelligent & Robotic Systems34 citationsDOIOpen Access PDF

Abstract

Abstract Robotic assembly tasks are typically implemented in static settings in which parts are kept at fixed locations by making use of part holders. Very few works deal with the problem of moving parts in industrial assembly applications. However, having autonomous robots that are able to execute assembly tasks in dynamic environments could lead to more flexible facilities with reduced implementation efforts for individual products. In this paper, we present a general approach towards autonomous robotic assembly that combines visual and intrinsic tactile sensing to continuously track parts within a single Bayesian framework. Based on this, it is possible to implement object-centric assembly skills that are guided by the estimated poses of the parts, including cases where occlusions block the vision system. In particular, we investigate the application of this approach for peg-in-hole assembly. A tilt-and-align strategy is implemented using a Cartesian impedance controller, and combined with an adaptive path executor. Experimental results with multiple part combinations are provided and analyzed in detail.

Topics & Concepts

ExecutorComputer scienceBlock (permutation group theory)Task (project management)RobotArtificial intelligenceControl engineeringCartesian coordinate systemComputer visionEngineeringSystems engineeringPolitical scienceMathematicsLawGeometryRobot Manipulation and LearningTactile and Sensory InteractionsSoft Robotics and Applications