A common and challenging problem in robotics and video games is how to synthesize movements using optimal control of physically simulated environments. Thanks to the deep learning techniques, the performance of movement optimization has experienced major growth in the past decade. However, the methods still suffer from high sample complexity and require extensive reference datasets. These are among the main reasons why these methods are not yet common in real-life applications such as robotics and games. In this dissertation, methods and algorithms are developed for analyzing and solving movement optimization problems. The developed approaches do not require any reference datasets and are applicable to different characters (e.g., humanoids...
Robots hold the promise of becoming useful helpers for many dangerous, laborious, or unpleasant task...
While physics-based models for passive phenomena such as cloth and fluids have been widely adopted i...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...
Publisher Copyright: CCBYWe propose a novel method for exploring the dynamics of physically based an...
A large body of animation research focuses on optimization of movement control, either as action seq...
In this research, an optimization methodology was introduced for improving bipedal robot locomotion ...
There exist several approaches to robot locomotion, ranging from more traditional hand-designed traj...
Human intelligence has appealed to the robotics community for a long time; specifically, a person\u2...
Legged robots promise a clear advantage in unstructured and challenging terrain, scenarios such as d...
Multi-Task prioritized controllers generate complex behaviors for humanoids that concurrently satisf...
This thesis introduces locomotion synthesis methods for humanoid characters. Motion synthesis is an ...
Optimization is an appealing way to compute the motion of an animated character because it allows th...
Master of ScienceDepartment of Computer ScienceWilliam H. HsuDetermining efficient gaits and walk-cy...
In physics-based character animation, motions are realized through control of simulated characters a...
Thesis (Ph.D.)--University of Washington, 2015In order to create useful physical robots, tell narrat...
Robots hold the promise of becoming useful helpers for many dangerous, laborious, or unpleasant task...
While physics-based models for passive phenomena such as cloth and fluids have been widely adopted i...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...
Publisher Copyright: CCBYWe propose a novel method for exploring the dynamics of physically based an...
A large body of animation research focuses on optimization of movement control, either as action seq...
In this research, an optimization methodology was introduced for improving bipedal robot locomotion ...
There exist several approaches to robot locomotion, ranging from more traditional hand-designed traj...
Human intelligence has appealed to the robotics community for a long time; specifically, a person\u2...
Legged robots promise a clear advantage in unstructured and challenging terrain, scenarios such as d...
Multi-Task prioritized controllers generate complex behaviors for humanoids that concurrently satisf...
This thesis introduces locomotion synthesis methods for humanoid characters. Motion synthesis is an ...
Optimization is an appealing way to compute the motion of an animated character because it allows th...
Master of ScienceDepartment of Computer ScienceWilliam H. HsuDetermining efficient gaits and walk-cy...
In physics-based character animation, motions are realized through control of simulated characters a...
Thesis (Ph.D.)--University of Washington, 2015In order to create useful physical robots, tell narrat...
Robots hold the promise of becoming useful helpers for many dangerous, laborious, or unpleasant task...
While physics-based models for passive phenomena such as cloth and fluids have been widely adopted i...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...