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A CASE STUDY ON SUPPORT VECTOR MACHINES VERSUS ARTIFICIAL NEURAL NETWORKS

Lin, Wen-Chyi (2004) A CASE STUDY ON SUPPORT VECTOR MACHINES VERSUS ARTIFICIAL NEURAL NETWORKS. Master's Thesis, University of Pittsburgh. (Unpublished)

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Abstract

The capability of artificial neural networks for pattern recognition of real world problems is well known. In recent years, the support vector machine has been advocated for its structure risk minimization leading to tolerance margins of decision boundaries. Structures and performances of these pattern classifiers depend on the feature dimension and training data size. The objective of this research is to compare these pattern recognition systems based on a case study. The particular case considered is on classification of hypertensive and normotensive right ventricle (RV) shapes obtained from Magnetic Resonance Image (MRI) sequences. In this case, the feature dimension is reasonable, but the available training data set is small, however, the decision surface is highly nonlinear.For diagnosis of congenital heart defects, especially those associated with pressure and volume overload problems, a reliable pattern classifier for determining right ventricle function is needed. RV¡¦s global and regional surface to volume ratios are assessed from an individual¡¦s MRI heart images. These are used as features for pattern classifiers. We considered first two linear classification methods: the Fisher linear discriminant and the linear classifier trained by the Ho-Kayshap algorithm. When the data are not linearly separable, artificial neural networks with back-propagation training and radial basis function networks were then considered, providing nonlinear decision surfaces. Thirdly, a support vector machine was trained which gives tolerance margins on both sides of the decision surface. We have found in this case study that the back-propagation training of an artificial neural network depends heavily on the selection of initial weights, even though randomized. The support vector machine where radial basis function kernels are used is easily trained and provides decision tolerance margins, in spite of only small margins.


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Details

Item Type: University of Pittsburgh ETD
Status: Unpublished
Creators/Authors:
CreatorsEmailPitt UsernameORCID
Lin, Wen-Chyigalmence@seed.net.tw
ETD Committee:
TitleMemberEmail AddressPitt UsernameORCID
Committee ChairLi, Ching-Chungccl@engr.pitt.eduCCL
Committee MemberBoston, J. Robertboston@engr.pitt.eduBBN
Committee MemberChaparro, Luis Fchaparro@ee.pitt.eduLFCH
Date: 13 September 2004
Date Type: Completion
Defense Date: 21 July 2004
Approval Date: 13 September 2004
Submission Date: 23 July 2004
Access Restriction: No restriction; Release the ETD for access worldwide immediately.
Institution: University of Pittsburgh
Schools and Programs: Swanson School of Engineering > Electrical Engineering
Degree: MSEE - Master of Science in Electrical Engineering
Thesis Type: Master's Thesis
Refereed: Yes
Uncontrolled Keywords: ANN; ARTIFICIAL NEURAL NETWORKS; DATA MINING; RIGHT VENTRICLE; SUPPORT VECTOR MACHINES; SVM
Other ID: http://etd.library.pitt.edu/ETD/available/etd-07232004-115129/, etd-07232004-115129
Date Deposited: 10 Nov 2011 19:53
Last Modified: 15 Nov 2016 13:46
URI: http://d-scholarship.pitt.edu/id/eprint/8533

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