Add to ORKGOur understanding of off-nominal behavior - failure modes and fault propagation - in complex systems is often based purely on engineering intuition; specific cases are assessed in an ad hoc fashion as a (fallible) fault management engineer sees fit. This work is an attempt to provide a more rigorous approach to this understanding and assessment by automating the creation of a fault management artifact, the Failure Modes and Effects Analysis (FMEA) through querying a representation of the system in a SysML model. This work builds off the previous development of an off-nominal behavior model for the upcoming Soil Moisture Active-Passive (SMAP) mission at the Jet Propulsion Laboratory. We further developed the previous system model to more ful...
Failure Mode and Effects Analysis is widely used in engineering hardware systems to help in understa...
Building a fault tree for a complex system can be a daunting task. The graphical nature of fault tre...
Today’s technical systems complexity is increasing in most industrial domains. In combination with t...
Specification and development of fault management functionality in systems is performed in an ad hoc...
Advances in automation have provided integration of monitoring and control functions to enhance the ...
This paper presents a method for developing a device behavior model to enhance reliability at the ea...
Failure Mode and Effects Analysis (FMEA) is a well known technique for evaluating the effects of pot...
Failure Modes and Effects Analysis (FMEA) is a widely used system and software safety analysis techn...
Advances in automation have provided integration of monitoring and control functions to enhance the ...
The concept of software failure mode and effects analysis (FMEA) has grown in attractiveness over re...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Failure Mode and Effects Analysis (FMEA) is a well-known technique for evaluating the effects of pot...
Fault Protection (FP) is a distinct and separate systems engineering sub-discipline that is concerne...
In the development of safety-critical systems, it is important to perform failure modes and effects ...
Failure Mode and Effects Analysis is widely used in engineering hardware systems to help in understa...
Building a fault tree for a complex system can be a daunting task. The graphical nature of fault tre...
Today’s technical systems complexity is increasing in most industrial domains. In combination with t...
Specification and development of fault management functionality in systems is performed in an ad hoc...
Advances in automation have provided integration of monitoring and control functions to enhance the ...
This paper presents a method for developing a device behavior model to enhance reliability at the ea...
Failure Mode and Effects Analysis (FMEA) is a well known technique for evaluating the effects of pot...
Failure Modes and Effects Analysis (FMEA) is a widely used system and software safety analysis techn...
Advances in automation have provided integration of monitoring and control functions to enhance the ...
The concept of software failure mode and effects analysis (FMEA) has grown in attractiveness over re...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Failure Mode and Effects Analysis (FMEA) is a well-known technique for evaluating the effects of pot...
Fault Protection (FP) is a distinct and separate systems engineering sub-discipline that is concerne...
In the development of safety-critical systems, it is important to perform failure modes and effects ...
Failure Mode and Effects Analysis is widely used in engineering hardware systems to help in understa...
Building a fault tree for a complex system can be a daunting task. The graphical nature of fault tre...
Today’s technical systems complexity is increasing in most industrial domains. In combination with t...