MSR Thesis Defense
PhD Student
Robotics Institute,
Carnegie Mellon University

[MSR Thesis Talk] SplaTAM: Splat, Track & Map 3D Gaussians for Dense RGB-D SLAM

3305 Newell-Simon Hall

Abstract: Dense simultaneous localization and mapping (SLAM) is crucial for numerous robotic and augmented reality applications. However, current methods are often hampered by the non-volumetric or implicit way they represent a scene. This talk introduces SplaTAM, an approach that leverages explicit volumetric representations, i.e., 3D Gaussians, to enable high-fidelity reconstruction from a single unposed RGB-D [...]

MSR Thesis Defense
PhD Student
Robotics Institute,
Carnegie Mellon University

Human Perception of Robot Failure and Explanation During a Pick-and-Place Task

GHC 4405

Abstract: In recent years, researchers have extensively used non-verbal gestures, such as head and arm movements, to express the robot's intentions and capabilities to humans. Inspired by past research, we investigated how different explanation modalities can aid human understanding and perception of how robots communicate failures and provide explanations during block pick-and-place tasks. Through an in-person [...]

MSR Thesis Defense
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning Distributional Models for Relative Placement

GHC 6121

Abstract: Relative placement tasks are an important category of tasks in which one object needs to be placed in a desired pose relative to another object.  Previous work has shown success in learning relative placement tasks from just a small number of demonstrations, when using relational reasoning networks with geometric inductive biases. However, such methods fail [...]

MSR Thesis Defense
MSR Student
Robotics Institute,
Carnegie Mellon University

Transfer Learning via Temporal Contrastive Learning Inbox

GHC 4405

Abstract: This thesis introduces a novel transfer learning framework for deep reinforcement learning. The approach automatically combines goal-conditioned policies with temporal contrastive learning to discover meaningful sub-goals. The approach involves pre-training a goal-conditioned agent, finetuning it on the target domain, and using contrastive learning to construct a planning graph that guides the agent via sub-goals. Experiments [...]

MSR Thesis Defense
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards Equitable Representation in Text-to-Image Generation

Gates Hillman Center 4405

Abstract: Accurate representation in media is known to improve the well-being of the people who consume it. There is a growing concern about the increasing use of generative AI in media as the generative image models trained on large web-crawled datasets such as LAION are known to produce images with harmful stereotypes and misrepresentations of various groups, [...]

MSR Thesis Defense
MSR Student
Robotics Institute,
Carnegie Mellon University

3D Inference from Unposed Sparse View Images

Gates Hillman Center 4405

Abstract: We propose UpFusion, a system that can perform novel view synthesis and infer 3D representations for generic objects given a sparse set of reference images without corresponding pose information. Current sparse-view 3D inference methods typically rely on camera poses to geometrically aggregate information from input views, but are not robust in-the-wild when such information [...]

MSR Thesis Defense
Research Associate II
Robotics Institute,
Carnegie Mellon University

Tightly Coupled LIDAR-Inertial Odometry

Gates Hillman Center 4405

Abstract: In the age of self-driving, LIDAR and IMU represent two of the most ubiqui- tous sensors in use. Kalman Filtering and loosely coupled approaches dominate industry techniques, while current research trends towards a more tightly coupled formulation involving a joint optimization of IMU and LIDAR measurements. After two years of experience working with and [...]

MSR Thesis Defense
MSR Student
Robotics Institute,
Carnegie Mellon University

In Pursuit of Open-World Mobile Manipulation

3305 Newell-Simon Hall

Abstract: Deploying robots in open-ended unstructured environments such as homes has been a long-standing research problem. However, robots are often studied only in closed-off lab settings, and prior mobile manipulation work is restricted to pick-move-place, which is arguably just the tip of the iceberg in this area. In this thesis, we introduce the Open-World Mobile [...]

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

Geometric Heuristics Enhance POCUS AI for Pneumothorax

GHC 4405

Abstract: The interpretation of Point-of-care ultrasound (POCUS) images poses a challenge due to the scarcity of high-quality labelled data for training AI models in the medical domain. To address this limitation, novel methodologies were developed to train POCUS AI models using limited data, integrating geometric heuristics derived from expert clinicians. Focused on diagnosing pneumothorax, heuristics [...]

MSR Thesis Defense
MSR Student
Robotics Institute,
Carnegie Mellon University

Optimal Control and Robot Learning on Agile Safety-Critical Systems

GHC 6501

Abstract: We present a pipeline of optimal control methods for learning an optimal control policy and locally accurate dynamics models for agile and safety-critical robots using autonomous racing as an application example. We introduce Spline-Opt, a fast offline/online optimization and planning method that can produce a reasonably good initial optimal trajectory given very little dynamics [...]