Modern systems, such as robots or virtual agents, need to be able to plan their actions in increasingly more complex and larger state-spaces, incorporating many degrees of freedom. However, these high-dimensional planning problems often have low-dimensional representations that describe the problem well throughout most of the state-space. For example, planning for manipulation can be represented by planning a trajectory for the end-effector combined with an inverse kinematics solver through obstacle-free areas of the environment, while planning in the full joint space of the arm is only necessary in cluttered areas. Based on this observation, we have developed the framework for Planning with Adaptive Dimensionality, which makes effective us...
A multi-pass distributed localized search technique to solve the problem of path planning of hyper-r...
Motion planning is a fundamental problem in robotics, which involves finding a path for an autonomou...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Modern systems, such as robots or virtual agents, need to be able to plan their actions in increasin...
Modern systems, such as robots or virtual agents, need to be able to plan their actions in increasin...
Path planning is often a high-dimensional computationally-expensive planning problem as it requires ...
Path planning quickly becomes computationally hard as the dimensionality of the state-space increase...
Path planning quickly becomes computationally hard as the dimensionality of the state-space increase...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
Robotic motion planning requires configuration space exploration. In high-dimensional configuration ...
Unlike traditional manipulator robots which tend to have small numbers of degree of freedom (DOF), t...
Planning motion is an essential component for any autonomous robotic system. An intelligent agent mu...
Haschke R. Hybrid Planning: Task-Space Control and Sampling-Based Planning. In: Workshop on Robot M...
In this thesis we introduce the notion of incremental problems in geometric robot motion planning, a...
Electronic version of an article published as International Journal of Humanoid Robotics, Vol. 2, No...
A multi-pass distributed localized search technique to solve the problem of path planning of hyper-r...
Motion planning is a fundamental problem in robotics, which involves finding a path for an autonomou...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Modern systems, such as robots or virtual agents, need to be able to plan their actions in increasin...
Modern systems, such as robots or virtual agents, need to be able to plan their actions in increasin...
Path planning is often a high-dimensional computationally-expensive planning problem as it requires ...
Path planning quickly becomes computationally hard as the dimensionality of the state-space increase...
Path planning quickly becomes computationally hard as the dimensionality of the state-space increase...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
Robotic motion planning requires configuration space exploration. In high-dimensional configuration ...
Unlike traditional manipulator robots which tend to have small numbers of degree of freedom (DOF), t...
Planning motion is an essential component for any autonomous robotic system. An intelligent agent mu...
Haschke R. Hybrid Planning: Task-Space Control and Sampling-Based Planning. In: Workshop on Robot M...
In this thesis we introduce the notion of incremental problems in geometric robot motion planning, a...
Electronic version of an article published as International Journal of Humanoid Robotics, Vol. 2, No...
A multi-pass distributed localized search technique to solve the problem of path planning of hyper-r...
Motion planning is a fundamental problem in robotics, which involves finding a path for an autonomou...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...