Linear Temporal Logic (LTL), as one of the temporal logic, can generate a fully automated correct-by-design controller synthesis approach for single or multiple autonomous vehicles, under much more complex missions than the traditional point-to-point navigation.In this master thesis, a framework which combines model- checking-based robot motion planning with action planning is proposed based on LTL for-mulas. The specifications implicitly require both sequential regions for multi-agent to visit and the desired actions to perform at these regions while avoid-ing collision with each other and fixed obstacles. The high level motion and task planning and low level navigation function based collision avoidance controller are verified by nontrivi...
Autonomous robots have the potential to accomplisha wide variety of assignments. For this to work in...
Abstract — This paper addresses the challenge of creating correct-by-construction controllers for ro...
A significant challenge of autonomous robotics in transportation, exploration, and search-and-rescue...
Linear Temporal Logic (LTL), as one of the temporal logic, can generate a fully automated correct-by...
<p>The video illustrates simulation and experimental results of a team of unmanned aerial vehicles e...
In this paper, we describe the Linear Temporal Logic-based reactive motion planning. We address the ...
This paper describes a holistic method for automatically synthesizing controllers for a team of robo...
Temporal-logic-based motion planning (TMP) provides a fully automated correct-by-design controller s...
This report introduces a new algorithm to incorporate robot temporal goal specifications in real-tim...
We present a compositional motion planning framework for multi-robot systems based on an encoding to...
Abstract — We present a compositional motion planning framework for multi-robot systems based on an ...
Abstract — We focus on autonomous robot action planning problem from Linear Temporal Logic (LTL) spe...
This article investigates the online motion coordination problem for a group of mobile robots moving...
In this paper we propose a methodology for automatically synthesizing motion task controllers based ...
We present an efficient algorithm for multi-robot motion planning from linear temporal logic (LTL) s...
Autonomous robots have the potential to accomplisha wide variety of assignments. For this to work in...
Abstract — This paper addresses the challenge of creating correct-by-construction controllers for ro...
A significant challenge of autonomous robotics in transportation, exploration, and search-and-rescue...
Linear Temporal Logic (LTL), as one of the temporal logic, can generate a fully automated correct-by...
<p>The video illustrates simulation and experimental results of a team of unmanned aerial vehicles e...
In this paper, we describe the Linear Temporal Logic-based reactive motion planning. We address the ...
This paper describes a holistic method for automatically synthesizing controllers for a team of robo...
Temporal-logic-based motion planning (TMP) provides a fully automated correct-by-design controller s...
This report introduces a new algorithm to incorporate robot temporal goal specifications in real-tim...
We present a compositional motion planning framework for multi-robot systems based on an encoding to...
Abstract — We present a compositional motion planning framework for multi-robot systems based on an ...
Abstract — We focus on autonomous robot action planning problem from Linear Temporal Logic (LTL) spe...
This article investigates the online motion coordination problem for a group of mobile robots moving...
In this paper we propose a methodology for automatically synthesizing motion task controllers based ...
We present an efficient algorithm for multi-robot motion planning from linear temporal logic (LTL) s...
Autonomous robots have the potential to accomplisha wide variety of assignments. For this to work in...
Abstract — This paper addresses the challenge of creating correct-by-construction controllers for ro...
A significant challenge of autonomous robotics in transportation, exploration, and search-and-rescue...