An efficient space-division-based width optimization method for RBF network using fuzzy clustering algorithms
An efficient space-division-based width optimization method for RBF network using fuzzy clustering algorithms
The Radial Basis Function (RBF) network is one of the most widely used surrogate models in multidisciplinary design optimization. However, one of the challenges of applying the RBF network to engineering problems is how to efficiently optimize its width parameters. In this work, a novel space division–based width optimization (SDWO) method is proposed to decompose the complex multivariable width optimization into several small-scale single-variable width optimizations. The SDWO method consists of two main steps. First, a two-stage fuzzy clustering algorithm is carried out to group the samples and divide the input space into several overlapping local regions, and the overlapping degree is controlled by a dimensionless expansion factor. Second, in each local region, one small-scale local RBF network (LRBFN) is constructed by solving a single-variable optimization problem when the LRBFN is needed for prediction. All these LRBFNs are independent of each other and can be constructed in parallel. The proposed method is efficient and particularly suitable for large sample sets. Test results of four sample sets verify that the proposed SDWO method has better performance than the conventional width optimization method in terms of both training efficiency and approximation accuracy. An inter-stage structure optimization is carried out, which demonstrates the efficiency of the proposed method in practical engineering applications.
461–480
Zhang, Y.
f812509d-2a3c-41aa-8ba1-68210952d5a6
Gong, C.
4b994f32-9e48-4f1c-afe2-6bf4cb37ba77
Fang, H.
29521412-db61-4b25-8935-d794198d3686
Su, H.
0fac928f-2163-418c-86ec-e4cb1dfaa13e
Li, C.
622af04e-e762-4beb-880e-efe296445962
Da Ronch, A.
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
15 August 2019
Zhang, Y.
f812509d-2a3c-41aa-8ba1-68210952d5a6
Gong, C.
4b994f32-9e48-4f1c-afe2-6bf4cb37ba77
Fang, H.
29521412-db61-4b25-8935-d794198d3686
Su, H.
0fac928f-2163-418c-86ec-e4cb1dfaa13e
Li, C.
622af04e-e762-4beb-880e-efe296445962
Da Ronch, A.
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Zhang, Y., Gong, C., Fang, H., Su, H., Li, C. and Da Ronch, A.
(2019)
An efficient space-division-based width optimization method for RBF network using fuzzy clustering algorithms.
Structural and Multidisciplinary Optimization, 60, .
(doi:10.1007/s00158-019-02217-7).
Abstract
The Radial Basis Function (RBF) network is one of the most widely used surrogate models in multidisciplinary design optimization. However, one of the challenges of applying the RBF network to engineering problems is how to efficiently optimize its width parameters. In this work, a novel space division–based width optimization (SDWO) method is proposed to decompose the complex multivariable width optimization into several small-scale single-variable width optimizations. The SDWO method consists of two main steps. First, a two-stage fuzzy clustering algorithm is carried out to group the samples and divide the input space into several overlapping local regions, and the overlapping degree is controlled by a dimensionless expansion factor. Second, in each local region, one small-scale local RBF network (LRBFN) is constructed by solving a single-variable optimization problem when the LRBFN is needed for prediction. All these LRBFNs are independent of each other and can be constructed in parallel. The proposed method is efficient and particularly suitable for large sample sets. Test results of four sample sets verify that the proposed SDWO method has better performance than the conventional width optimization method in terms of both training efficiency and approximation accuracy. An inter-stage structure optimization is carried out, which demonstrates the efficiency of the proposed method in practical engineering applications.
Text
manuscript - SAMO - final version
- Accepted Manuscript
More information
Accepted/In Press date: 29 January 2019
e-pub ahead of print date: 20 February 2019
Published date: 15 August 2019
Identifiers
Local EPrints ID: 427936
URI: http://eprints.soton.ac.uk/id/eprint/427936
ISSN: 1615-147X
PURE UUID: 6a79c008-49ef-4c0f-9071-568313ab8726
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Date deposited: 05 Feb 2019 17:30
Last modified: 16 Mar 2024 07:32
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Contributors
Author:
Y. Zhang
Author:
C. Gong
Author:
H. Fang
Author:
H. Su
Author:
C. Li
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