3:30 pm to 4:30 pm
Gates Hillman Center 6115
Date: Thursday, July 30, 2026
Time: 3:30 PM – 4:30 PM
Location / ZOOM Link: (GHC 6115 / https://cmu.zoom.us/j/96096959582 )
Abstract:
Many problems in robotics require reasoning over a mix of continuous dynamics and discrete events, such as making and breaking contact in manipulation and locomotion. These problems are locally well modeled by quadratic programs with complementarity constraints (QPCCs). While very expressive, QPCCs are non-convex problems, and few solvers exist for computing fast, local solutions for use in planning pipelines. In this work, we develop an open-source solver, Marble, designed to solve QPCCs using an on-manifold complementarity relaxation and homotopy technique. The resulting solver avoids many of the classical issues with complementarity constraints and exhibits competitive speed and robustness across QPCC benchmarks and robotics-specific examples compared to existing baselines.
Committee:
Zac Manchester (advisor)
Rajan Gill
Arun Bishop
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MICAH REICH
MSR Student, Robotics Institute – CMU
