This paper presents the optimization of design and test policies of safety instrumented systems using MooN voting redundancies by a multi-objective genetic algorithm. The objectives to optimize are the Average Probability of Dangerous Failure on Demand, which represents the system safety integrity, the Spurious Trip Rate and the Lifecycle Cost. In this way safety, reliability and cost are included. This is done by using novel models of time-dependent probability of failure on demand and spurious trip rate, recently published by the authors. These models are capable of delivering the level of modeling detail required by the standard IEC 61508. Modeling includes common cause failure and diagnostic coverage. The Probability of Failure on Deman...
In the design of safety critical systems, engineers have to find trade-offs between different safety...
The well-known reliability optimization problem, the redundancy allocation problem (RAP) involves th...
Uncertainties in design variables and problem parameters are often inevitable and must be considered...
This paper presents the optimization of design and test policies of safety instrumented systems usin...
This thesis is centred on modelling and multi-objective optimization of Safety Instrumented Systems ...
[EN] This paper addresses the modeling of probability of dangerous failure on demand and spurious tr...
Achieving high reliability, particularly in safety critical systems, is an important and often manda...
This paper describes a design optimisation process applied to systems that require a high likelihood...
This paper describes a design optimization scheme for systems that require a high likelihood of func...
Safety systems are designed to prevent the occurrence of certain conditions and their future develop...
This paper is focused on the optimal design of Safety Instrumented Systems. A combinatorial optimisa...
Maximising profit is an important target for industries in a competitive world and it is possible to...
This paper investigates the efficiency of a design optimization scheme which is appropriate for syst...
Safety systems are designed to prevent the occurrence and future development of hazardous situations...
This paper examines a novel optimization technique called genetic algorithms and its application to ...
In the design of safety critical systems, engineers have to find trade-offs between different safety...
The well-known reliability optimization problem, the redundancy allocation problem (RAP) involves th...
Uncertainties in design variables and problem parameters are often inevitable and must be considered...
This paper presents the optimization of design and test policies of safety instrumented systems usin...
This thesis is centred on modelling and multi-objective optimization of Safety Instrumented Systems ...
[EN] This paper addresses the modeling of probability of dangerous failure on demand and spurious tr...
Achieving high reliability, particularly in safety critical systems, is an important and often manda...
This paper describes a design optimisation process applied to systems that require a high likelihood...
This paper describes a design optimization scheme for systems that require a high likelihood of func...
Safety systems are designed to prevent the occurrence of certain conditions and their future develop...
This paper is focused on the optimal design of Safety Instrumented Systems. A combinatorial optimisa...
Maximising profit is an important target for industries in a competitive world and it is possible to...
This paper investigates the efficiency of a design optimization scheme which is appropriate for syst...
Safety systems are designed to prevent the occurrence and future development of hazardous situations...
This paper examines a novel optimization technique called genetic algorithms and its application to ...
In the design of safety critical systems, engineers have to find trade-offs between different safety...
The well-known reliability optimization problem, the redundancy allocation problem (RAP) involves th...
Uncertainties in design variables and problem parameters are often inevitable and must be considered...