Integrated discrete and configuration optimization of trusses using genetic algorithms

## Abstract In the process of discrete‐sizing optimal design of truss structures by Genetic Algorithm (GA), analysis should be performed several times. In this article, the force method is employed for the analysis. The advantage of using this method lies in the fact that the matrices corresponding

A regional genetic algorithm (R-GA) is used for the discrete optimal design of truss structures. The chromosomes are selected from a sub-region centred on the continuous optimum. This approach replaces genetic rebirth as previously proposed by other authors, thereby signiÿcantly reducing computation

## Abstract This paper reports on state‐of‐the‐art power‐frequency‐normalized phase noise of 21 dB, obtained from a CMOS‐integrated LC oscillator with a measured phase noise of −112 dBc/Hz at 100 kHz from the 5.3‐GHz center frequency and with power consumption of 15 mW. The excellent performance of

## a b s t r a c t This study addresses the optimization of rational fraction approximations for the discretetime calculation of fractional derivatives. The article starts by analyzing the standard techniques based on Taylor series and Padé expansions. In a second phase the paper re-evaluates the p

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