Arguz, Serdar HakanErtugrul, SenizAltun, Kerem2023-06-162023-06-162022978-1-6654-9607-02576-3555https://doi.org/10.1109/CODIT55151.2022.9804111https://hdl.handle.net/20.500.14365/19348th International Conference on Control, Decision and Information Technologies (CoDIT) -- MAY 17-20, 2022 -- Istanbul, TURKEYIndustrial robots are traditionally programmed by hard-coding the desired motion into them. That approach, however, costs significant time and effort and shows little to no promise in transferring human skills to robots. Programming by demonstration (PbD) is an alternative approach that allows robots to learn tasks from demonstrations. Because of its several advantages over the traditional method, PbD is particularly suited for tasks encountered in assembly operations, the most typical of which is the peg-in-hole task. A successful PbD implementation for a peg-in-hole task requires that the peg should still be inserted into the hole even under situations that are not encountered during the demonstrations. Previous research in the field shows that the success rate of a peg-in-hole task under such cases varies greatly. In this study, we use a UR5 manipulator to experimentally investigate how the success rate of a peg-in-hole task changes with respect to the novelty of the task, quantified in terms of the distance of the hole to its original position. It is found that the success ratio decreases as the novelty of the task increases. To increase the performance, the use of strategies that alter the robot's motion dynamically in the run time is suggested for future work.eninfo:eu-repo/semantics/openAccessConference Object10.1109/CODIT55151.2022.98041112-s2.0-85134312166