We consider the problem of synthesizing robot controllers to realize a task that unpredictably changes with time. Tasks are formally expressed in the GR(1) fragment of temporal logic, in which some of the variables are set by an adversary. The task changes by the addition or removal of goals, which occurs online (i.e., at run-time). We present an algorithm for mending control strategies to realize tasks after the addition of goals, while avoiding global re-synthesis of the strategy. Experiments are presented for a planar surveillance task in which new regions of interest are incrementally added. Run-times are empirically shown to be favorable compared to re-synthesizing from scratch. We also present an algorithm for mending contro...
The use of formal methods for synthesis has recently enabled the automated construction of verifiabl...
Heightened demand for alternatives to human exposure to strenuous and repetitive labour, as well as...
We present a new framework for reactive synthesis that considers the dynamics of the robot when synt...
We consider the problem of synthesizing robot controllers to realize a task that unpredictably chang...
Thesis (Ph.D.)--Boston UniversityIn traditional motion planning, the problem is simply specified as ...
For the synthesis of correct-by-construction control policies from temporal logic specifications the...
In this work we propose a patching algorithm to incrementally modify controllers, synthesized to sat...
Temporal logics have proven effective for correct-by-construction synthesis of controllers for a wid...
Temporal logic based synthesis approaches are often used to find trajectories that are correct-by-co...
Modern robots are increasingly expected to function in uncertain and dynamically challenging environ...
This paper considers the problem of synthesizing correct-by-construction robotic controllers in envi...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
We present a method for mending strategies for GR(1) specifications. Given the addition or removal ...
Temporal logic task planning for robotic systemssuffers from state explosion when specifications inv...
Motivated by robotic motion planning, we develop a framework for control policy synthesis for both n...
The use of formal methods for synthesis has recently enabled the automated construction of verifiabl...
Heightened demand for alternatives to human exposure to strenuous and repetitive labour, as well as...
We present a new framework for reactive synthesis that considers the dynamics of the robot when synt...
We consider the problem of synthesizing robot controllers to realize a task that unpredictably chang...
Thesis (Ph.D.)--Boston UniversityIn traditional motion planning, the problem is simply specified as ...
For the synthesis of correct-by-construction control policies from temporal logic specifications the...
In this work we propose a patching algorithm to incrementally modify controllers, synthesized to sat...
Temporal logics have proven effective for correct-by-construction synthesis of controllers for a wid...
Temporal logic based synthesis approaches are often used to find trajectories that are correct-by-co...
Modern robots are increasingly expected to function in uncertain and dynamically challenging environ...
This paper considers the problem of synthesizing correct-by-construction robotic controllers in envi...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
We present a method for mending strategies for GR(1) specifications. Given the addition or removal ...
Temporal logic task planning for robotic systemssuffers from state explosion when specifications inv...
Motivated by robotic motion planning, we develop a framework for control policy synthesis for both n...
The use of formal methods for synthesis has recently enabled the automated construction of verifiabl...
Heightened demand for alternatives to human exposure to strenuous and repetitive labour, as well as...
We present a new framework for reactive synthesis that considers the dynamics of the robot when synt...