One important aspect of the quality assurance process of safety-critical embedded systems is verifying the appropriateness, correctness of the implementation and effectiveness of safety functions. Due to the rapid growth in complexity, manual verification activities are no longer feasible. This holds especially for testing. A popular method for testing such complex systems is model-based testing. Recent techniques for model-based testing do not sufficiently take into consideration the information derived from the safety analyses like Failure Mode and Effect Analysis and Fault Tree Analyses (FTA). In this paper, we describe an approach to use the results of FTA during the construction of test models, such that test cases can be derived, sele...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...
Most innovation in the automotive industry is driven by embedded systems. They make usage of dynamic...
AbstractIncreasing complexity of products and safety regulations combined with an increasing amount ...
One important aspect of the quality assurance process of safety-critical embedded systems is verifyi...
In manufacturing automation domain safety and availability are the most important factors to ensure ...
Abstract — In this paper we introduce the development of a framework for testing safety-critical emb...
The design of safety-critical systems have become more and more complex in recent years. As a result...
In this paper, a method is presented that allows to automatically generate test cases for risk-based...
This paper proposes an approach for testing of safety-critical systems. It is based on a behavioral ...
In safety analysis for safety-critical embedded systems, methods such as FMEA and fault trees (FT) a...
Empirical Software Engineering (SE) strives to provide empirical evidence about the pros and cons of...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
International audienceThe operation of industrial systems can involve complex procedures that must b...
International audienceAutomotive embedded systems are becoming increasingly complex. Therefore verif...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...
Most innovation in the automotive industry is driven by embedded systems. They make usage of dynamic...
AbstractIncreasing complexity of products and safety regulations combined with an increasing amount ...
One important aspect of the quality assurance process of safety-critical embedded systems is verifyi...
In manufacturing automation domain safety and availability are the most important factors to ensure ...
Abstract — In this paper we introduce the development of a framework for testing safety-critical emb...
The design of safety-critical systems have become more and more complex in recent years. As a result...
In this paper, a method is presented that allows to automatically generate test cases for risk-based...
This paper proposes an approach for testing of safety-critical systems. It is based on a behavioral ...
In safety analysis for safety-critical embedded systems, methods such as FMEA and fault trees (FT) a...
Empirical Software Engineering (SE) strives to provide empirical evidence about the pros and cons of...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
International audienceThe operation of industrial systems can involve complex procedures that must b...
International audienceAutomotive embedded systems are becoming increasingly complex. Therefore verif...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...
Most innovation in the automotive industry is driven by embedded systems. They make usage of dynamic...
AbstractIncreasing complexity of products and safety regulations combined with an increasing amount ...