Title :
Testing from a nondeterministic finite state machine using adaptive state counting
Author_Institution :
Dept. of Inf. Syst. & Comput., Brunel Univ., Uxbridge, UK
Abstract :
The problem of generating a checking experiment from a nondeterministic finite state machine has been represented in terms of state counting. However, test techniques that use state counting traditionally produce preset test suites. We extend the notion of state counting in order to allow the input/output sequences observed in testing to be utilized: Adaptive state counting is introduced. The main benefit of the proposed approach is that it may result in a reduction in the size of the test suite used. An additional benefit is that, where a failure is observed, it is possible to terminate test generation at this point.
Keywords :
finite state machines; formal specification; program debugging; program verification; adaptive state counting; nondeterministic finite state machine; preset test suites; program debugging; program verification; software engineering; test generation termination; Automata; Communication system control; Control systems; Iterative algorithms; Protocols; Software debugging; Software testing; System testing; 65; Index Terms- Software engineering; adaptive testing; nondeterministic finite state machine; software/program verification; state counting.; testing and debugging;
Journal_Title :
Computers, IEEE Transactions on
