Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science, 2016.This electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.Cataloged from student-submitted PDF version of thesis.Includes bibliographical references (pages 125-136).We consider the problem of generating motion plans for a robot that are guaranteed to succeed despite uncertainty in the environment, parametric model uncertainty, and disturbances. Furthermore, we consider scenarios where these plans must be generated in real-time, because constraints such as obstacles in the environment may not be known until they are perceived (with a nois...
In this thesis we consider the problem of generating motion plans for a nonlinear dynamical system t...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
This paper presents a strategy for planning robot motions in dynamic, uncertain environments (DUEs)....
Abstract In this paper we consider the problem of generating motion plans for a nonlinear dynamical ...
We present a framework for online generation of robust motion plans for robotic systems with nonline...
Safe autonomous operation of dynamical systems has become one of the most important research problem...
Many existing path planning methods do not adequately account for uncertainty. Without uncertainty t...
Autonomous aerial robots are expected to revolutionize many industries, such as construction, transp...
Robots are increasingly expected to go beyond controlled environments in laboratories and factories,...
This thesis is concerned with trajectory generation for robots in dynamic environments with relative...
The real world is dynamic. Over the previous decades, we have seen phenomenal advances across the f...
Widespread deployment of robots in offices, hospitals, and homes is a highly anticipated breakthroug...
In this thesis we consider the problem of generating motion plans for a nonlinear dynamical system t...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
AbstractIn robotics uncertainty exists at both planning and execution time. Effective planning must ...
In this thesis we consider the problem of generating motion plans for a nonlinear dynamical system t...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
This paper presents a strategy for planning robot motions in dynamic, uncertain environments (DUEs)....
Abstract In this paper we consider the problem of generating motion plans for a nonlinear dynamical ...
We present a framework for online generation of robust motion plans for robotic systems with nonline...
Safe autonomous operation of dynamical systems has become one of the most important research problem...
Many existing path planning methods do not adequately account for uncertainty. Without uncertainty t...
Autonomous aerial robots are expected to revolutionize many industries, such as construction, transp...
Robots are increasingly expected to go beyond controlled environments in laboratories and factories,...
This thesis is concerned with trajectory generation for robots in dynamic environments with relative...
The real world is dynamic. Over the previous decades, we have seen phenomenal advances across the f...
Widespread deployment of robots in offices, hospitals, and homes is a highly anticipated breakthroug...
In this thesis we consider the problem of generating motion plans for a nonlinear dynamical system t...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
AbstractIn robotics uncertainty exists at both planning and execution time. Effective planning must ...
In this thesis we consider the problem of generating motion plans for a nonlinear dynamical system t...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
This paper presents a strategy for planning robot motions in dynamic, uncertain environments (DUEs)....