Reliability optimal design problem with interval coefficients using Hybrid Genetic Algorithms

In this paper, we first formulate a De Novo nonlinear integer programming (NIP-I(DN)) problem of system reliability with interval coefficients. It is used for estimating and designing optimal reliability of an incomplete fault detecting and switching (FDS) system. Because of this we are able to use

In previous discussions about product quality assurance, reliability has been considered a definitive value. In realistic optimal design for system reliability, however, we are required to handle interval data with specified reliability, as in the case of quality accuracy. This paper discusses an in

Traditional formulations on reliability optimization problems have assumed that the coefficients of models are known as fixed quantities and reliability design problem is treated as deterministic optimization problems. Because that the optimal design of system reliability is resolved in the same sta

In this paper, we formulate an optimal weight designproblem of a gear for a constrained bending strength of gear, tortional strength of shafts and each gear dimension as a nonlinear integer programing(NIP) problemand solve it directly by keeping the nonlinear constraint by using an improved genetic

In this paper, we formulate an optimal weight design problem of 10 bar truss for a constrained displacement and allowable stress as a statically indeterminate structure problem and solve it directly by keeping the constraint based on an improved genetic algorithm (GA). We discuss the efficiency betw