International audienceThe problem of generating tests detecting all logical and timing faults which can occur in real-time systems is challenging; this is because the number of (timing) faults is potentially too big or infinite. As a result, it might be time consuming to generate an important number of adequate tests. The traditional model based testing approach considers a fault domain as the universe of all machines with a given number of states and input-output alphabet while mutation based approaches define a list of mutants to kill with a test suite. In this paper, we combine the two approaches by developing a mutation testing technique for real-time systems represented with deterministic timed finite state machines with timed guards a...
Temporal correctness is crucial for real-time systems. There are few methods to test temporal correc...
ABSTRACT We present a method of generating test sequences for concurrent programs and communication ...
Abstract — In this paper, we consider a model for Dynamic Multiple Fault Diagnosis (DMFD) problem ar...
Mutation testing can effectively drive test generation to reveal faults in software systems. However...
Specification mutation involves mutating a specification, and for each mutation a test is derived th...
In contrast to untimed FSMs, two minimal initialized FSMs with timeouts can be equivalent but not is...
In the current article a novel test generation algorithm is presented for deterministic finite state...
AbstractWe present simple randomized algorithms for the fault detection problem: Given a specificati...
AbstractTemporal correctness is crucial for real-time systems. Few methods exist to test temporal co...
A new method to generate tests for deterministic implementations of deterministic finite state machi...
During test case generation from an extended finite state machine (EFSM), the counter problem is cau...
In this paper, we consider a classical problem of complete test generation for deterministic finite-...
In this paper, we propose a generalized diagnostic algorithm for the case where more than one fault ...
We present a novel approach to generate functional test sequences for synchronous sequential non-sca...
AbstractModel-based testing automatically generates test cases from a model describing the behavior ...
Temporal correctness is crucial for real-time systems. There are few methods to test temporal correc...
ABSTRACT We present a method of generating test sequences for concurrent programs and communication ...
Abstract — In this paper, we consider a model for Dynamic Multiple Fault Diagnosis (DMFD) problem ar...
Mutation testing can effectively drive test generation to reveal faults in software systems. However...
Specification mutation involves mutating a specification, and for each mutation a test is derived th...
In contrast to untimed FSMs, two minimal initialized FSMs with timeouts can be equivalent but not is...
In the current article a novel test generation algorithm is presented for deterministic finite state...
AbstractWe present simple randomized algorithms for the fault detection problem: Given a specificati...
AbstractTemporal correctness is crucial for real-time systems. Few methods exist to test temporal co...
A new method to generate tests for deterministic implementations of deterministic finite state machi...
During test case generation from an extended finite state machine (EFSM), the counter problem is cau...
In this paper, we consider a classical problem of complete test generation for deterministic finite-...
In this paper, we propose a generalized diagnostic algorithm for the case where more than one fault ...
We present a novel approach to generate functional test sequences for synchronous sequential non-sca...
AbstractModel-based testing automatically generates test cases from a model describing the behavior ...
Temporal correctness is crucial for real-time systems. There are few methods to test temporal correc...
ABSTRACT We present a method of generating test sequences for concurrent programs and communication ...
Abstract — In this paper, we consider a model for Dynamic Multiple Fault Diagnosis (DMFD) problem ar...