Yingsong Gu scite author profile

SUMMARYThis paper presents an improved genetic algorithm (GA) to minimize weight of truss with sizing, shape and topology variables. Because of the nature of discrete and continuous variables, mixed coding schemes are proposed, including binary and float coding, integer and float coding. Surrogate function is applied to unify the constraints into single one; moreover surrogate reproduction is developed to select good individuals to mating pool on the basis of constraint and fitness values, which completely considers the character of constrained optimization. This paper proposes a new strategy of creating next population by competing between parent and offspring population based on constraint and fitness values; so that lifetime of excellent gene is prolonged. Because the initial population is created randomly and three operators of GA are also indeterminable, it is necessary to check whether the structural topology is desirable. An improved restart operator is proposed to introduce new gene and explore new space, so that the reliability of GA is enhanced. Selected examples are solved; the improved numerical results demonstrate that the enhanced GA scheme is feasible and effective.

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Nonlinear magnetic-coupled flutter-based aeroelastic energy harvester: modeling, simulation and experimental verification

Yang

et al. 2018

Smart Mater. Struct.

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Aeroelastic energy harvesting can be used to power wireless sensors embedded into bridges, ducts, high-altitude buildings, etc. One challenging issue is that the wind speed in some application environments is low, which leads to an inefficiency of aeroelastic energy harvesters. This paper presents a novel nonlinear magnetic-coupled flutter-based aeroelastic energy harvester to enhance energy harvesting at low wind speeds.The presented harvester mainly consists of a piezoelectric beam, a two-dimensional airfoil, two tip magnets and two external magnets. The function of magnets is to reduce the cut-in wind speed of the flutter-based aeroelastic energy harvester and enhance energy harvesting performance at low wind speeds. A theoretical model is deduced based on Hamilton's principle, theory of aeroelasticity, Kirchhoff's laws and experimental measurements, etc. A good agreement is found between numerical simulation and experimental results, which verifies the accuracy of the theoretical model. Stability analysis is provided to determine the characteristics of the presented harvester. More importantly, it is numerically and experimentally verified that the presented harvester has a much lower cut-in wind speed (about 1.0 m/s) and has a better energy harvesting performance at a low wind speed range from 1.0 m/s to 2.9 m/s, when compared with traditional flutter-based aeroelastic energy harvesters.

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Synthesis, characterization and magnetic properties of one-dimensional 4,4′-bipyridine-bridged manganese(II) complex: Crystal structure of [Mn(μ-4,4′-bipy)(4,4′-bipy)(NCS)2(H2O)2]n

Xie

et al. 1995

Polyhedron

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Electrophoretic assembly of nanozeolites: zeolite coated fibers and hollow zeolite fibers

Chen

Yang

et al. 2001

Chem. Commun.

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An efficient high-order algorithm for solving systems of 3-D reaction–diffusion equations

Liao

Zhu

2003

Journal of Computational and Applied Mathematics

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Yingsong Gu

Improved genetic algorithm for design optimization of truss structures with sizing, shape and topology variables

Nonlinear magnetic-coupled flutter-based aeroelastic energy harvester: modeling, simulation and experimental verification

Synthesis, characterization and magnetic properties of one-dimensional 4,4′-bipyridine-bridged manganese(II) complex: Crystal structure of [Mn(μ-4,4′-bipy)(4,4′-bipy)(NCS)2(H2O)2]n

Electrophoretic assembly of nanozeolites: zeolite coated fibers and hollow zeolite fibers

An efficient high-order algorithm for solving systems of 3-D reaction–diffusion equations

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