Title :
Adaptive Symbolic Control for Finite-State Transition Systems With Grammatical Inference
Author :
Jie Fu ; Tanner, Herbert G. ; Heinz, Jeffrey ; Chandlee, Jane
Author_Institution :
Mech. Eng. Dept., Univ. of Delaware, Newark, DE, USA
Abstract :
This note presents an approach that integrates elements from grammatical inference and game theory to address the problem of supervising finite-state transition systems operating in adversarial, partially known, rule-governed environments. The combined formulation produces controllers which guarantee that a transition system satisfies a task specification in the form of a logical formula, if and only 1) the true model of the environment is in the class of models inferable from positive data presentation (observations), 2) a characteristic sample of the environment´s behavior is observed, and 3) the task specification is satisfiable given the capabilities described by the abstractions of the system and its environment.
Keywords :
adaptive control; game theory; task analysis; adaptive symbolic control; environment behavior; finite state transition systems; game theory; grammatical inference; logical formula; positive data presentation; rule-governed environments; task specification; true model; Automata; Context; Doped fiber amplifiers; Game theory; Games; Grammar; Labeling; Algorithmic game theory; grammatical inference; hybrid systems; symbolic control;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2272885
