PhD Thesis Defense
Xinjilefu
Carnegie Mellon University

State Estimation for Humanoid Robots

Event Location: GHC 6501Abstract: This thesis focuses on dynamic model based state estimation for hydraulic humanoid robots. The goal is to produce state estimates that are robust and achieve good performance when combined with the controller. Three issues are addressed in this thesis. How to use force sensor and IMU information in state estimation? How [...]

PhD Thesis Defense
Varun Ramakrishna
Carnegie Mellon University

Pose Machines: Estimating Articulated Pose from Images and Video

Event Location: NSH 1305Abstract: The articulated motion of humans is varied and complex. We use the range of motion of our articulated structure for functional tasks such as transport, manipulation, communication, and self-expression. We use our limbs to gesture and signal intent. It is therefore crucial for an autonomous system operating and interacting in human [...]

PhD Thesis Defense
Xuehan Xiong
Carnegie Mellon University

Supervised Descent Method

Event Location: GHC 8102Abstract: In this dissertation, we focus on solving NLS problems using a supervised approach. In particular, we developed a Supervised Descent Method (SDM), performed thorough theoretical analysis, and demonstrated its effectiveness on optimizing analytic functions, and four other real-world applications: Inverse Kinematics, Rigid Tracking, Face Alignment (frontal and multi-view), and 3D Object [...]

PhD Thesis Defense
Mark Desnoyer
Carnegie Mellon University

Visual Utility – A Framework for Focusing Computer Vision Algorithms

Event Location: NSH 3305Abstract: The real world is a rich environment, fraught with complexity. To be robust in this complex environment, computer Vision algorithms that operate in Unstructured Environments (VUE) tend to use large amounts of data or complex modeling. Unfortunately, these algorithms also require significant computational resources. In this thesis, we examine a visual [...]

PhD Thesis Defense
Nathan A. Wood
Carnegie Mellon University

Organ-Mounted Robots for Minimally Invasive Beating-Heart Surgery

Event Location: NSH 1507Abstract: In the push to improve patient outcomes in cardiac interventions, minimally invasive beating-heart surgery is a major field of surgical research. However, interventions on a soft tissue organ under continuous motion through remote incisions pose a significant challenge. Endoscopic approaches eliminate the associated morbidity of median sternotomy, but they require either [...]

PhD Thesis Defense
Glenn Wagner
Carnegie Mellon University

Subdimensional Expansion: A Framework for Computationally Tractable Multirobot Path Planning

Event Location: NSH 1507Abstract: Planning optimal paths for large numbers of robots is computationally expensive. In this thesis, we present a new framework for multirobot path planning called subdimensional expansion, which initially plans for each robot individually, and then coordinates motion among the robots as needed. More specifically, subdimensional expansion initially creates a one-dimensional search [...]

PhD Thesis Defense
Alexander Schepelmann
Carnegie Mellon University

Evaluation of Decentralized Reactive Swing-Leg Controllers on Powered Robotic Legs

Event Location: NSH 3305Abstract: We present work to transfer decentralized neuromuscular control strategies of human locomotion to powered segmented robotic legs. State-of-the-art robotic locomotion control approaches, like centralized planning and tracking in fully robotic systems and predefined motion pattern replay in prosthetic systems, do not enable the dynamism and reactiveness of able-bodied humans. Animals largely [...]

PhD Thesis Defense
Siyuan Feng
Carnegie Mellon University

Online Hierarchical Optimization for Humanoid Control

Event Location: NSH 3305Abstract: This thesis presents an online approach for controlling humanoid robots using hierarchical optimization. While our primary focus is to develop a fast and robust walking controller that is able to follow desired foot steps, full body manipulation capability is also achieved. The proposed hierarchical system consists of three levels: a high [...]

PhD Thesis Defense
Heather L. Jones
Carnegie Mellon University

Using Planned View Trajectories to Build Good Models of Planetary Features under Transient Illumination

Event Location: GHC 2109Abstract: This research addresses the modeling of substantially 3D planetary terrain features, such as skylights, canyons, craters, rocks, and mesas, by a surface robot. The sun lights planetary features with transient, directional illumination. For concave features like skylight pits, craters, and canyons, this can lead to dark shadows. For all terrain features, [...]

PhD Thesis Defense
Matthew Klingensmith
Carnegie Mellon University

Tracking and Calibrating Articulated Robots using SLAM Techniques

Event Location: NSH 1305Abstract: Robots still struggle with everyday manipulation tasks. An overriding problem with robotic manipulation is uncertainty in the robot's state and calibration parameters. Small amounts of uncertainty can lead to complete task failure. This thesis explores ways of tracking and calibrating noisy robot arms using computer vision, with an aim toward making [...]