Generating optimal distinguishing sequences with a model checker

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Generating optimal distinguishing sequences with a model checker

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International Conference on Software Engineering archive
Proceedings of the 1st international workshop on Advances in model-based testing table of contents

St. Louis, Missouri

SESSION: Advances in Model-Based Testing (A-MOST 2005) table of contents

Pages: 1 - 7

Year of Publication: 2005

ISBN:1-59593-115-5

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Authors

Christopher Robinson-Mallett	University of Potsdam, Germany
Peter Liggesmeyer	University of Kaiserslautern, Germany
Tilo Mücke	University of Brunswick, Germany
Ursula Goltz	University of Brunswick, Germany

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 9, Downloads (12 Months): 42, Citation Count: 2

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ABSTRACT

This paper presents an approach for the automatic generation of shortest Distinguishing Sequences (DS) with the Uppaal model checker. The presented method is applicable to a large number of extended finite state machines and it will find an optimal result, if a DS sequence exists for the considered automaton. Our approach is situated in an integrated testing environment that is used to generate checking sequences. The generation method is based on a DS model, which is derived from the same test model that is used for generating test cover sets. The problem of generating DS is reduced to the definition of a DS model and for this reason the complexity of our approach depends mainly on the used model checking algorithm. This means, that the presented method is automatically improved, when the model checking algorithm is improved. This includes the generation of optimal DS depending on the ability of the model checker to produce optimal results.

REFERENCES

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CITED BY 2

	Christopher Robinson-Mallett , Robert M. Hierons , Peter Liggesmeyer, Achieving communication coverage in testing, ACM SIGSOFT Software Engineering Notes, v.31 n.6, November 2006
	Christopher Robinson-Mallett , Robert M. Hierons , Jesse Poore , Peter Liggesmeyer, Using communication coverage criteria and partial model generation to assist software integration testing, Software Quality Control, v.16 n.2, p.185-211, June 2008