We present a methodology for the generation of mobile robot controllers which offer probabilistic time-bounded guarantees on successful task completion, whilst also trying to satisfy soft goals. The approach is based on a stochastic model of the robot’s environment and action execution times, a set of soft goals, and a formal task specification in co-safe linear temporal logic, which are analysed using multi-objective model checking techniques for Markov decision processes. For efficiency, we propose a novel two-step approach. First, we explore policies on the Pareto front for minimising expected task execution time whilst optimising the achievement of soft goals. Then, we use this to prune a model with more detailed timing information, yie...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
Decision-making for autonomous systems acting in real world domains are complex and difficult to for...
Abstract — We address the problem of controlling a noisy differential drive mobile robot such that t...
We present a methodology for the generation of mobile robot controllers which offer probabilistic ti...
We present a framework for mobile service robot task planning and execution, based on the use of pro...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Formal methods based on the Markov decision process formalism, such as probabilistic computation tre...
Abstract — We present a method to generate a robot control strategy that maximizes the probability t...
We propose novel techniques for task allocation and planning in multi-robot systems operating in unc...
Abstract. This work presents a planning framework that allows a robot with stochastic action uncerta...
Robots are becoming more of a part of our daily lives. They have become an extension of some our hum...
Thesis (Ph.D.)--Boston UniversityTemporal logics, such as Linear Temporal Logic (LTL) and Computatio...
We consider partially observable Markov decision processes (POMDPs), that are a standard framework f...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
Decision-making for autonomous systems acting in real world domains are complex and difficult to for...
Abstract — We address the problem of controlling a noisy differential drive mobile robot such that t...
We present a methodology for the generation of mobile robot controllers which offer probabilistic ti...
We present a framework for mobile service robot task planning and execution, based on the use of pro...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Formal methods based on the Markov decision process formalism, such as probabilistic computation tre...
Abstract — We present a method to generate a robot control strategy that maximizes the probability t...
We propose novel techniques for task allocation and planning in multi-robot systems operating in unc...
Abstract. This work presents a planning framework that allows a robot with stochastic action uncerta...
Robots are becoming more of a part of our daily lives. They have become an extension of some our hum...
Thesis (Ph.D.)--Boston UniversityTemporal logics, such as Linear Temporal Logic (LTL) and Computatio...
We consider partially observable Markov decision processes (POMDPs), that are a standard framework f...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
Decision-making for autonomous systems acting in real world domains are complex and difficult to for...
Abstract — We address the problem of controlling a noisy differential drive mobile robot such that t...