Automatic generation of tests for timing constraints from requirements

Author

Clarke, Duncan ; Lee, Insup

Author_Institution

Dept. of Comput. Sci., Kentucky Univ., Lexington, KY, USA

fYear

1997

fDate

5-7 Feb 1997

Firstpage

199

Lastpage

206

Abstract

The authors present a framework for testing timing constraints of real-time systems. The tests are automatically derived from specifications of minimum and maximum allowable delays between input/output events in the execution of a system. The test derivation scheme uses a graphical specification formalism for timing constraints, and the real-time process algebra Algebra of Communicating Shared Resources (ACSR) for representing tests and process models. The use of ACSR to describe test sequences has two main advantages. First, tests can be applied to an ACSR model of the software system within the ACSR semantic framework for model validation purposes. Second, ACSR has concise notation and a precise semantics that will facilitate the translation of real-time tests into a software test language for software validation purposes

Keywords

delays; formal specification; process algebra; program testing; program verification; real-time systems; timing; Algebra of Communicating Shared Resources; automatic test generation; graphical specification formalism; input/output events; maximum allowable delays; minimum allowable delays; notation; real-time systems; real-time test translation; requirements; semantics; software system; software test language; timing constraint testing; validation; Algebra; Automatic testing; Character generation; Delay; Explosions; Real time systems; Software testing; State-space methods; System testing; Timing;

fLanguage

English

Publisher

ieee

Conference_Titel

Object-Oriented Real-Time Dependable Systems, 1997. Proceedings., Third International Workshop on

Conference_Location

Newport Beach, CA

Print_ISBN

0-8186-8046-6

Type

conf

DOI

10.1109/WORDS.1997.609955

Filename

609955