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Robotics Ph.D. Speaking Qualifier

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Speaker
MUHAMMAD SUHAIL SALEEM
Ph.D. Student
Robotics Institute
Carnegie Mellon University

When
-

Where
Virtual Presentation - ET

Description
In this work we tackle the path planning problem for a 21-dimensional snake robot-like, navigating a cluttered gas turbine for the purposes of inspection. Heuristic search-based approaches are effective planning strategies for common manipulation domains. However, their performance on high-dimensional systems is heavily reliant on the effectiveness of the action space and the heuristics chosen. The complex nature of our system, reachability constraints, and highly cluttered turbine environment renders naive choices of action spaces and heuristics ineffective. To this extent we have developed i) a methodology for dynamically generating actions based on online optimization that help the robot navigate narrow spaces, ii) a technique for lazily generating these computationally expensive optimization actions to effectively utilize resources, and iii) heuristics that reason about the homotopy classes induced by the blades of the turbine in the robot workspace and a Multi-Heuristic framework which guides the search along the relevant classes. The impact of our contributions is presented through an experimental study in simulation, where the 21 DOF manipulator navigates towards regions of inspection within a turbine. Committee: Prof. Maxim Likhachev (Chair) Prof. Hartmut Geyer Prof. Michael Kaess Dhruv Mauria Saxena Zoom Participation. See announcement.