International audienceIn this paper, we address the temporal logic motion planning problem for mobile robots that are modeled by second order dynamics. Temporal logic specifications can capture the usual control specifications such as reachability and invariance as well as more complex specifications like sequencing and obstacle avoidance. Our approach consists of three basic steps. First, we design a control law that enables the dynamic model to track a simpler kinematic model with a globally bounded error. Second, we built a robust temporal logic specification that takes into account the tracking errors of the first step. Finally, we solve the new robust temporal logic path planning problem for the kinematic model using automata theory an...
Abstract In this paper we present a method for automatic planning of optimal paths for a group of ro...
Abstract — We present a mathematical programming-based method for optimal control of discrete-time d...
This paper dscribes how interacting timed automata can be used to model, analyze, and verify motion ...
In this paper, we consider the problem of robot motion planning in order to satisfy formulas express...
In this paper, we describe the Linear Temporal Logic-based reactive motion planning. We address the ...
In this paper, a critical review on temporal logic motion planning is presented. The review paper ai...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
In this thesis, we consider the problem of motion planning for robots with hybrid locomotion dynamic...
Thesis (Ph.D.)--Boston UniversityTemporal logics, such as Linear Temporal Logic (LTL) and Computatio...
Control of complex systems satisfying rich temporal specification has become an increasingly importa...
This thesis focuses on temporal logic-based motion planning for autonomous ve- hicles. Specically pl...
Abstract-In this paper we present a method for automatically planning robust optimal paths for a gro...
Temporal-logic-based motion planning (TMP) provides a fully automated correct-by-design controller s...
Abstract — In this paper we propose a generic framework for real-time motion planning based on model...
In this paper we present a method for automatic planning of optimal paths for a group of robots that...
Abstract In this paper we present a method for automatic planning of optimal paths for a group of ro...
Abstract — We present a mathematical programming-based method for optimal control of discrete-time d...
This paper dscribes how interacting timed automata can be used to model, analyze, and verify motion ...
In this paper, we consider the problem of robot motion planning in order to satisfy formulas express...
In this paper, we describe the Linear Temporal Logic-based reactive motion planning. We address the ...
In this paper, a critical review on temporal logic motion planning is presented. The review paper ai...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
In this thesis, we consider the problem of motion planning for robots with hybrid locomotion dynamic...
Thesis (Ph.D.)--Boston UniversityTemporal logics, such as Linear Temporal Logic (LTL) and Computatio...
Control of complex systems satisfying rich temporal specification has become an increasingly importa...
This thesis focuses on temporal logic-based motion planning for autonomous ve- hicles. Specically pl...
Abstract-In this paper we present a method for automatically planning robust optimal paths for a gro...
Temporal-logic-based motion planning (TMP) provides a fully automated correct-by-design controller s...
Abstract — In this paper we propose a generic framework for real-time motion planning based on model...
In this paper we present a method for automatic planning of optimal paths for a group of robots that...
Abstract In this paper we present a method for automatic planning of optimal paths for a group of ro...
Abstract — We present a mathematical programming-based method for optimal control of discrete-time d...
This paper dscribes how interacting timed automata can be used to model, analyze, and verify motion ...