Fault tree analysis is a well-known technique in reliability engineering and risk assessment, which supports decision-making processes and the management of complex systems. Traditionally, fault tree (FT) models are built manually together with domain experts, considered a time-consuming process prone to human errors. With Industry 4.0, there is an increasing availability of inspection and monitoring data, making techniques that enable knowledge extraction from large data sets relevant. Thus, our goal with this work is to propose a data-driven approach to infer efficient FT structures that achieve a complete representation of the failure mechanisms contained in the failure data set without human intervention. Our algorithm, the FT-MOEA, bas...
The technique of fault tree analysis is commonly used to assess the probability of failure of indust...
Fault tree analysis, the most widely used safety analysis technique in industry, is often applied ma...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
YesFault Tree Analysis (FTA) is a well-established and well-understood technique, widely used for d...
Fault Tree Analysis (FTA) is a tool of hazard identification techniques. As a useful method it is ap...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Industries with safety-critical systems increasingly collect data on events occurring at the level o...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
This work presents a systematic, incremental approach to identifying causes of potential failures in...
Cyber-physical systems have increasingly intricate architectures and failure modes, which is due to ...
Fault tree analysis is a probability-based technique for estimating the risk of an undesired top eve...
The design of safety-critical systems have become more and more complex in recent years. As a result...
The technique of fault tree analysis is commonly used to assess the probability of failure of indust...
Fault tree analysis, the most widely used safety analysis technique in industry, is often applied ma...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
YesFault Tree Analysis (FTA) is a well-established and well-understood technique, widely used for d...
Fault Tree Analysis (FTA) is a tool of hazard identification techniques. As a useful method it is ap...
Fault tree analysis (FTA) is a very prominent method to analyze the risks related to safety and econ...
Industries with safety-critical systems increasingly collect data on events occurring at the level o...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
This work presents a systematic, incremental approach to identifying causes of potential failures in...
Cyber-physical systems have increasingly intricate architectures and failure modes, which is due to ...
Fault tree analysis is a probability-based technique for estimating the risk of an undesired top eve...
The design of safety-critical systems have become more and more complex in recent years. As a result...
The technique of fault tree analysis is commonly used to assess the probability of failure of indust...
Fault tree analysis, the most widely used safety analysis technique in industry, is often applied ma...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...