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A novel derivative free methodology for topology optimization based on projective transformations and Boolean operations

A novel derivative free methodology for topology optimization based on projective transformations and Boolean operations
A novel derivative free methodology for topology optimization based on projective transformations and Boolean operations

Most existing methods for topology optimization update the material distribution iteratively based on the derivative information. However, the calculation of gradient is of low accuracy and even unavailable in some cases. Therefore, it is demanding to develop derivative methodology for the topology optimization (TO). Two typical types of derivative free methodologies for the TO, the evolutionary methods and the normalized Gaussian network based methods, still suffer from issues such as checkerboard pattern and heavy dependence on the initial topology. To this end, this paper proposes a novel derivative free methodology for the TO based on the projective transformations and Boolean operations. Specifically, the proposed method selects the basic structures to constitute a new topology. Projective transformations and Boolean operations are employed to represent the evolvement and the way of combinations of the basic structures. According to the comparison of numerical results with other methodologies, the proposed methodology is capable of effectively and efficiently enhancing the parameter performance without checkerboard pattern.

Boolean operations, Derivative free, Finite element analysis, Genetic algorithms, Magnetic forces, Mathematical models, Optimization, Shape, Topology, projective transformations, topology optimization
0018-9464
1
Xia, Meng
13b1ce54-7130-47ef-a26f-4bbe54f5d845
Li, Jing
12d3e307-c01d-4e6a-aaa8-46935bb8d6cb
Li, Yongjian
c3925354-6bc9-4430-b30e-34ef1f93c804
Yang, Shiyou
aadc1ef0-daeb-4b8f-a6ec-3f7e60edc862
Sykulski, Jan
d6885caf-aaed-4d12-9ef3-46c4c3bbd7fb
Xia, Meng
13b1ce54-7130-47ef-a26f-4bbe54f5d845
Li, Jing
12d3e307-c01d-4e6a-aaa8-46935bb8d6cb
Li, Yongjian
c3925354-6bc9-4430-b30e-34ef1f93c804
Yang, Shiyou
aadc1ef0-daeb-4b8f-a6ec-3f7e60edc862
Sykulski, Jan
d6885caf-aaed-4d12-9ef3-46c4c3bbd7fb

Xia, Meng, Li, Jing, Li, Yongjian, Yang, Shiyou and Sykulski, Jan (2023) A novel derivative free methodology for topology optimization based on projective transformations and Boolean operations. IEEE Transactions on Magnetics, 59 (5), 1, [7001905]. (doi:10.1109/TMAG.2023.3243214).

Record type: Article

Abstract

Most existing methods for topology optimization update the material distribution iteratively based on the derivative information. However, the calculation of gradient is of low accuracy and even unavailable in some cases. Therefore, it is demanding to develop derivative methodology for the topology optimization (TO). Two typical types of derivative free methodologies for the TO, the evolutionary methods and the normalized Gaussian network based methods, still suffer from issues such as checkerboard pattern and heavy dependence on the initial topology. To this end, this paper proposes a novel derivative free methodology for the TO based on the projective transformations and Boolean operations. Specifically, the proposed method selects the basic structures to constitute a new topology. Projective transformations and Boolean operations are employed to represent the evolvement and the way of combinations of the basic structures. According to the comparison of numerical results with other methodologies, the proposed methodology is capable of effectively and efficiently enhancing the parameter performance without checkerboard pattern.

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Published date: 8 February 2023
Keywords: Boolean operations, Derivative free, Finite element analysis, Genetic algorithms, Magnetic forces, Mathematical models, Optimization, Shape, Topology, projective transformations, topology optimization

Identifiers

Local EPrints ID: 477700
URI: http://eprints.soton.ac.uk/id/eprint/477700
ISSN: 0018-9464
PURE UUID: 63dae9b7-45df-4845-bfc3-74946a58dade
ORCID for Jan Sykulski: ORCID iD orcid.org/0000-0001-6392-126X

Catalogue record

Date deposited: 13 Jun 2023 16:57
Last modified: 17 Mar 2024 02:33

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Contributors

Author: Meng Xia
Author: Jing Li
Author: Yongjian Li
Author: Shiyou Yang
Author: Jan Sykulski ORCID iD

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