A major challenge in testing software product lines is efficiency. In particular, testing a product line should take less effort than testing each and every product individually. We address this issue in the context of input-output conformance testing, which is a formal theory of model-based testing. We extend the notion of conformance testing on input-output featured transition systems with the novel concept of spinal test suites. We show how this concept dispenses with retesting the common behavior among different, but similar, products of a software product line
ABSTRACT Software product line modeling has received a great deal of attention for its potential in ...
To test a Software Product Line (SPL), the test artifacts and the techniques must be extended to sup...
Conformance testing is a formal and structured approach to verifying system correctness. We propose ...
A major challenge in testing software product lines is efficiency. In particular, testing a product ...
We extend the theory of input-output conformance (IOCO) testing to accommodate behavioral models of ...
AbstractWe extend the theory of input–output conformance (IOCO) testing to accommodate behavioral mo...
We extend the theory of input-output conformance testing to the setting of software product lines. I...
Software quality has become an increasingly important concern in software development, as a conseque...
Software product line (SPL) engineering has become common practice for mass production and customiza...
Software product line (SPL) engineering has become common practice for mass production and customiza...
We present an adaptation of input/output conformance (ioco) testing principles to families of simila...
AbstractIn order to provide a rigorous foundation for Software Product Lines (SPLs), several fundame...
In order to provide a rigorous foundation for Software Product Lines (SPLs), several fundamental app...
In order to provide a rigorous foundation for Software Product Lines (SPLs), several fundamental app...
Conformance testing is a formal and structured approach to verifying system correctness. We propose ...
ABSTRACT Software product line modeling has received a great deal of attention for its potential in ...
To test a Software Product Line (SPL), the test artifacts and the techniques must be extended to sup...
Conformance testing is a formal and structured approach to verifying system correctness. We propose ...
A major challenge in testing software product lines is efficiency. In particular, testing a product ...
We extend the theory of input-output conformance (IOCO) testing to accommodate behavioral models of ...
AbstractWe extend the theory of input–output conformance (IOCO) testing to accommodate behavioral mo...
We extend the theory of input-output conformance testing to the setting of software product lines. I...
Software quality has become an increasingly important concern in software development, as a conseque...
Software product line (SPL) engineering has become common practice for mass production and customiza...
Software product line (SPL) engineering has become common practice for mass production and customiza...
We present an adaptation of input/output conformance (ioco) testing principles to families of simila...
AbstractIn order to provide a rigorous foundation for Software Product Lines (SPLs), several fundame...
In order to provide a rigorous foundation for Software Product Lines (SPLs), several fundamental app...
In order to provide a rigorous foundation for Software Product Lines (SPLs), several fundamental app...
Conformance testing is a formal and structured approach to verifying system correctness. We propose ...
ABSTRACT Software product line modeling has received a great deal of attention for its potential in ...
To test a Software Product Line (SPL), the test artifacts and the techniques must be extended to sup...
Conformance testing is a formal and structured approach to verifying system correctness. We propose ...