MSR Thesis Defense
MSR Student
Robotics Institute,
Carnegie Mellon University

Online-Adaptive Self-Supervised Learning with Visual Foundation Models for Autonomous Off-Road Driving

3305 Newell-Simon Hall

Abstract: Autonomous robot navigation in off-road environments currently presents a number of challenges. The lack of structure makes it difficult to handcraft geometry-based heuristics that are robust to the diverse set of scenarios the robot might encounter. Many of the learned methods that work well in urban scenarios require massive amounts of hand-labeled data, but [...]

MSR Thesis Defense
PhD Student
Robotics Institute,
Carnegie Mellon University

VoxDet: Voxel Learning for Novel Instance Detection

NSH 3305

Abstract: Detecting unseen instances based on multi-view templates is a challenging problem due to its open-world nature. Traditional methodologies, which primarily rely on 2D representations and matching techniques, are often inadequate in handling pose variations and occlusions. To solve this, we introduce VoxDet, a pioneer 3D geometry-aware framework that fully utilizes the strong 3D voxel [...]

MSR Thesis Defense
PhD Student
Robotics Institute,
Carnegie Mellon University

Voxel Learning for Novel Instance Detection

Newell-Simon Hall 3305

Abstract: Detecting unseen instances based on multi-view templates is a challenging problem due to its open-world nature. Traditional methodologies, which primarily rely on 2D representations and matching techniques, are often inadequate in handling pose variations and occlusions. To solve this, we introduce VoxDet, a pioneer 3D geometry-aware framework that fully utilizes the strong 3D voxel [...]

MSR Thesis Defense
MSR Student / Teaching Assistant
Robotics Institute,
Carnegie Mellon University

Efficient Quadruped Mobility: Harnessing a Generalist Policy for Streamlined Planning

GHC 4405

Abstract: Navigating quadruped robots through complex, unstructured environments over long horizons remains a significant challenge in robotics. Traditional planning methods offer guarantees such as optimality and long-horizon reasoning, while learning-based methods, particularly those involving deep reinforcement learning (DRL), provide robustness and generalization. In this thesis, we present S3D-OWNS (Skilled 3D-Optimal Waypoint Navigation System), a novel [...]