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dc.contributor.advisor Choi, Ji Woong - BAHAREH BEHBOODI - 2018-03-14T02:03:22Z - 2018-03-14T02:03:22Z - 2018 -
dc.identifier.uri en_US
dc.identifier.uri -
dc.description.abstract Studies on interactions between brain regions estimate functional connectivity which are usually based on the basis of temporal presence. Functional connectivity derived from resting-state has been attracted by several recent studies as it provides valuable insight into the intrinsic networks of the human brain. Functional near-infrared spectroscopy (fNIRS) has gained attention in resting-state functional connectivity (RSFC) patterns detection because of its advantages compared to other neuroimaging modalities. Several progressive methodologies in detecting RSFC patterns in fNIRS, such as seed-based correlation analysis, and independent component analysis (ICA), were adopted in previous studies. Despite the fact that it is not known which methodology is the most suitable in detecting RSFC patterns, seed-based correlation analysis and ICA-based analysis which are the most widely used methodologies in RSFC studies, have intrinsic disadvantages. Therefore, in this study a method based on artificial neural network(ANN) was introduced to meet the possibilities of overcoming the conventional methods challenges.

The RSFC patterns of the sensorimotor system derived from ANN were consistent with the previous findings. Moreover, the results of ANN illustrated the superior performance in the terms of specificity and sensitivity compared to both conventional approaches. The main contribution of the present thesis is to emphasize that ANN can be used as an appropriate method to estimate the temporal relation among brain networks during resting-state. ⓒ 2017 DGIST
dc.description.statementofresponsibility open -
dc.description.tableofcontents I. INTRODUCTION 1--


1. Functional Near-Infrared Spectroscopy (fNIRS) 4--

2. Discrete Wavelet Transformation as Band-pass Filter 4--

3. Seed-based Correlation Analysis using General Linear Model (GLM) 5--

4. Independent Component Analysis (ICA) 7--

5. Artificial Neural Network (ANN) 7--

6. Receiver Operating Characteristic (ROC) Curve 11--


1. Experimental Protocol 12--

2. Concentration Changes of Hemoglobin 13--

3. RSFC Estimation Using Seed-based Correlation Analysis 14--

4. RSFC Estimation Using ICA 16--

5. RSFC Estimation Using Artificial Neural Networks 17--

6. Performance Evaluation Using ROC Curve 18--


1. Seed-based Correlation RSFC Results 21--

2. ICA RSFC Results 22--

3. ANN RSFC Results 22--

4. ROC Evaluation Results 24--

V. Discussion and Conclusion 26--

References 28--

Acknowledgments 32--

Curriculum Vitae 33
dc.format.extent 33 -
dc.language eng -
dc.publisher DGIST -
dc.subject Functional near-infrared spectroscopy -
dc.subject Functional connectivity -
dc.subject Seed-based correlation -
dc.title Deep Neural Networks for Assessing Functional Connectivity: an fNIRS Study -
dc.type Thesis -
dc.identifier.doi 10.22677/thesis.200000003742 - Master -
dc.contributor.department Information and Communication Engineering -
dc.contributor.coadvisor Jeon, Hyeon Ae - 2018. 2 -
dc.publisher.location Daegu -
dc.description.database dCollection - 2018-01-05 -
dc.contributor.alternativeDepartment 대학원 정보통신융합전공 -
dc.contributor.alternativeName 버하레 -
dc.contributor.alternativeName 최지웅 -
dc.contributor.alternativeName 전현애 -
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Department of Electrical Engineering and Computer Science Theses Master


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