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Bibliographic Details
Other Authors:	Konar, Amit 1963- (Editor), Chakraborty, Aruna 1977- (Editor)
Format:	Book
Language:	English
Published:	Hoboken, New Jersey Wiley [2015]
Subjects:	Human-computer interaction Artificial intelligence Emotions / Computer simulation Pattern recognition systems Context-aware computing TECHNOLOGY & ENGINEERING / Electronics / Digital COMPUTERS / Computer Vision & Pattern Recognition Künstliche Intelligenz Mustererkennung Gefühl Aufsatzsammlung
Links:	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028451220&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Physical Description:	xxxi, 548 Seiten Illustrationen, Diagramme
ISBN:	9781118130667 9781118910603

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adam_text	CONTENTS Preface xœ Acknowledgments xxxii Contributors xxix I Introduction to Emotion Recognition 1 A mit Kona K Anishu Halden and A run a Chakmhorty I. I Basics of Pattern Recognition, î 1.2 Emotion Detection as a Pattern Recognition Problem, 2 1.3 Feature Extraction, 3 1.3.1 Facial Expression-Rased Features, 3 1.3.2 Voice Features, 7 1.3.3 EEC Features Used for Emotion Recognition, 9 t.3.4 Gesture- and Posture-Based Emotional Features, I I 1.3.5 Multimodal Features, 12 1.4 Feature Reduction Techniques, 15 1.4.1 Principal Component Analysis, 15 1.4.2 independent Component Analysis, 16 1.4.3 Evolutionary Approach to Nonlinear Feature Reduction, 16 1.5 Emotion Classification, 17 1.5.1 Neural Classifier, 17 1.5.2 Fuzzy Classifiers, 21 1.5.3 Hidden Markov Model Based Classifiers, 22 1.5.4 k-Nearest Neighbor Algorithm, 22 1.5.5 Naïve Bayes Classifier, 23 vu viii CONTENTS 1.6 Multimodal Emotion Recognition, 24 1.7 Stimulus Generation for Emotion Arousal, 24 1.8 Validation Techniques, 26 1.8.1 Performance Metrics for Emotion Classification, 27 1.9 Summary, 27 References, 28 Author Biographies, 44 2 Exploiting Dynamic Dependencies Among Action Units for Spontaneous Facial Action Recognition Van Tong and Qiang Ji 2.1 Introduction, 48 2.2 Related Work, 49 2.3 Modeling the Semantic and Dynamic Relationships Among AUs With a DBN, 50 2.3.1 A DBN for Modeling Dynamic Dependencies among AUs, 51 2.3.2 Constructing the Initial DBN, 54 2.3.3 Learning DBN Model, 55 2.3.4 AU Recognition Through DBN Inference, 59 2.4 Experimental Results, 60 2.4.1 Facial Action Unit Databases, 60 2.4.2 Evaluation on Cohn and Kanade Database, 61 2.4.3 Evaluation on Spontaneous Facial Expression Database, 62 2.5 Conclusion, 64 References, 64 Author Biographies, 66 3 Facial Expressions: A Cross-Cultural Study Chandrani Saha, Washef Ahmed, Soma Mitra, Debasis Mazumdar, and Sushmita Mitra 3.1 Introduction, 69 3.2 Extraction of Facial Regions and Ekman’s Action Units, 71 3.2.1 Computation of Optical Flow Vector Representing Muscle Movement, 72 3.2.2 Computation of Region of Interest, 73 3.2.3 Computation of Feature Vectors Within ROL 74 3.2.4 Facial Deformation and Ekman s Action Units, 75 3.3 Cultural Variation in Occurrence of Different AUs, 76 3.4 Classification Performance Considering Cultural Variability, 79 3.5 Conclusion, 84 References, 84 Author Biographies, 86 CONTENTS lx 4 A Subject-Dependent Facial Expression Recognition System 89 Chuan-Yu Chang and Yan-Chiang Huang 4.1 Introduction, 89 4.2 Proposed Method, 91 4.2.1 Face Detection, 91 4.2.2 Preprocessing, 92 4.2.3 Facial Feature Extraction, 95 4.2.4 Face Recognition, 98 4.2.5 Facial Expression Recognition, 99 4.3 Experiment Result, 103 4.3.1 Parameter Determination of the RBFNN, 105 4.3.2 Comparison of Facial Features, 107 4.3.3 Comparison of Face Recognition Using “Inner Face” and Full Face, 108 4.3.4 Comparison of Subject-Dependent and Subject-Independent Facial Expression Recognition Systems, 108 4.3.5 Comparison with Other Approaches, 109 4.4 Conclusion, 109 Acknowledgment, 110 References, 110 Author Biographies, 112 5 Facial Expression Recognition Using Independent Component Features and Hidden Markov Model 113 Md. Zia Uddin and Tae-Seong Kim 5.1 Introduction, 114 5.2 Methodology, 115 5.2.1 Expression Image Preprocessing, 115 5.2.2 Feature Extraction, 116 5.2.3 Codebook and Code Generation, 121 5.2.4 Expression Modeling and Training Using HMM, 121 5.3 Experimental Results, 123 5.4 Conclusion, 125 Acknowledgments, 125 References, 126 Author Biographies, 127 6 Feature Selection for Facial Expression Based on Rough Set Theory 129 Yang Yang and Guoyin Wang 6.1 Introduction, 129 6.2 Feature Selection for Emotion Recognition Based on Rough Set Theory, 131 6.2.1 Basic Concepts of Rough Set Theory, Í 31 X CONTENTS 6.2.2 Feature Selection Based on Rough Set and Domain-Oriented Data-Driven Data Mining Theories, 133 6.2.3 Attribute Reduction for Emotion Recognition, 136 6.3 Experiment Results and Discussion, 137 6.3.1 Experiment Condition, 137 6.3.2 Experiments for Feature Selection Method for Emotion Recognition, 139 6.3.3 Experiments for the Features Concerning Mouth for Emotion Recognition, 141 6.4 Conclusion, 143 Acknowledgments, 143 References, 143 Author Biographies, 145 7 Emotion Recognition from Facial Expressions Using Tvpe-2 Fuzzy Sets 147 Anisha Haider, Amit Konar Anma Chakra bony, and Atulya K, Nagar 7.1 Introduction, 148 7.2 Preliminaries on Type-2 Fuzzy Sets, 150 7.2.1 Type-2 Fuzzy Sets, 150 7.3 Uncertainty Management in Fuzzy-Space for Emotion Recognition, 152 7.3.1 Principles Used in the IT2FS Approach, 153 7.3.2 Principles Used in the GT2FS Approach, 155 7.3.3 Methodology, 156 7.4 Fuzzy Type-2 Membership Evaluation, 157 7.5 Experimental Details, 161 7.5.1 Feature Extraction, 161 7.5.2 Creating the Type-2 Fuzzy Face-Space, 164 7.5.3 Emotion Recognition of an Unknown Facial Expression, 165 7.6 Performance Analysis, 167 7.6.1 The McNemar’s Test, 169 7.6.2 Friedman Test, 171 7.6.3 The Confusion Matrix-Based RMS Error, 173 7.7 Conclusion, 175 References, 176 Author Biographies, 180 8 Emotion Recognition from Non-frontal Facial Images 183 Wenming Zheng, Hao Tang, and Thomas 5. Huang 8.1 introduction, 184 8.2 A Brief Review of Automatic Emotional Expression Recognition, 187 8.2.1 Framework of Automatic Facial Emotion Recognition System, 187 8.2.2 Extraction of Geometric Features, 189 8.2.3 Extraction of Appearance Features, 190 CONTENTS xi 8.3 Databases for Non-frontal Facial Emotion Recognition, 191 8.3.1 BU-3DFE Database, 192 8.3.2 BU-4DFE Database, 194 8.3.3 CMU Multi-PIE Database, 195 8.3.4 Bosphorus 3D Database, 195 8.4 Recent Advances of Emotion Recognition from Non-Frontal Facial Images, 196 8.4.1 Emotion Recognition from 3D Facial Models, 196 8.4.2 Emotion Recognition from Non-frontal 2D Facial Images, 197 8.5 Discussions and Conclusions, 205 Acknowledgments, 206 References, 206 Author Biographies, 211 9 Maximum a Posteriori Based Fusion Method for Speech Emotion Recognition 215 Ling Cen, Zhu Liang Yu, and Wee Ser 9.1 Introduction, 216 9.2 Acoustic Feature Extraction for Emotion Recognition, 219 9.3 Proposed Map-Based Fusion Method, 223 9.3.1 Base Classifiers, 224 9.3.2 MAP-Based Fusion, 225 9.3.3 Addressing Small Training Dataset Problem—Calculation o(fclcL(crl 226 9.3.4 Training and Testing Procedure, 228 9.4 Experiment, 229 9.4.1 Database, 229 9.4.2 Experiment Description, 229 9.4.3 Results and Discussion, 230 9.5 Conclusion, 232 References, 232 Author Biographies, 234 10 Emotion Recognition in Naturalistic Speech and Language—A Survey 237 Felix Wen ingen Martin Wöllmen and Björn Schuller 10.1 Introduction, 238 10.2 Tasks and Applications, 239 10.2.1 Use-Cases for Automatic Emotion Recognition from Speech and Language, 239 10.2.2 Databases, 241 10.2.3 Modeling and Annotation: Categories versus Dimensions, 242 10.2.4 Unit of Analysis, 243 CONTENTS • * XII 10.3 Implementation and Evaluation. 244 10.3.1 Feature Extraction, 245 10.3.2 Feature and Instance Selection, 247 10.3.3 Classification and Learning, 248 10.3.4 Partitioning and Evaluation, 250 10.3.5 Research Toolkits and Open-Source Software, 252 10.4 Challenges, 253 10.4.1 Non-prototypicality, Reliability, and Class Sparsity, 253 10.4.2 Generalization, 255 10.4.3 Real-Time Processing, 256 10.4.4 Acoustic Environments: Noise and Reverberation, 256 10.5 Conclusion and Outlook, 257 Acknowledgment, 259 References, 259 Author Biographies, 267 11 EEG-Based Emotion Recognition Using Advanced Signal Processing Techniques Pcmagiotis C. Petrantonakis and Leontios J. Hadjileontladis 11.1 Introduction, 270 11.2 Brain Activity and Emotions, 271 11.3 EEG-ER Systems: An Overview, 272 11.4 Emotion Elicitation, 273 11.4.1 Discrete Emotions, 273 11.4.2 Affective States, 274 11.4.3 Datasets, 274 11.5 Advanced Signal Processing in EEG-ER, 275 11.5.1 Discrete Emotions, 275 11.5.2 Affective States, 280 11.6 Concluding Remarks and Future Directions, 287 References, 289 Author Biographies, 292 12 Frequency Band Localization on Multiple Physiological Signals for Human Emotion Classification Using DWT M. Murugappan 12.1 Introduction, 296 12.2 Related Work, 297 12.3 Research Methodology, 299 12.3.1 Physiological Signals Acquisition, 299 12.3.2 Preprocessing and Normalization, 302 12.3.3 Feature Extraction, 303 12.3.4 Emotion Classification, 305 CONTENTS xili 12.4 Experimental Results and Discussions, 306 12.5 Conclusion, 310 12.6 Future Work, 310 Acknowledgments, 310 References, 310 Author Biography, 312 13 Toward Affective Brain-Computer Interface: Fundamentals and Analysis of EEG-Based Emotion Classification 315 Yuan-Pin Lin, Tzyy-Ping Jung, Yijun Wang, and Julie Onton 13.1 Introduction, 316 13.1.1 Brain-Computer Interface, 316 13.1.2 EEG Dynamics Associated with Emotion, 317 13.1.3 Current Research in EEG-Based Emotion Classification, 319 13.1.4 Addressed Issues, 322 13.2 Materials and Methods, 323 13.2.1 EEG Dataset, 323 13.2.2 EEG Feature Extraction, 323 13.2.3 EEG Feature Selection, 325 13.2.4 EEG Feature Classification, 325 13.3 Results and Discussion, 327 13.3.1 Superiority of Differential Power Asymmetry, 327 13.3.2 Gender Independence in Differential Power Asymmetry, 328 13.3.3 Channel Reduction from Differential Power Asymmetry, 330 13.3.4 Generalization of Differential Power Asymmetry, 331 13.4 Conclusion, 332 13.5 Issues and Challenges Toward ABCIs, 332 13.5.1 Directions for Improving Estimation Performance, 333 13.5.2 Online System Implementation, 334 Acknowledgments, 336 References, 336 Author Biographies, 340 14 Bodily Expression for Automatic Affect Recognition 343 Hatice Gunes, Caifeng Shan, Shizhi Chen, and YingLi Tian 14.1 Introduction, 344 14.2 Background and Related Work, 345 14.2.1 Body as an Autonomous Channel for Affect Perception and Analysis, 346 14.2.2 Body as an Additional Channel for Affect Perception and Analysis, 350 14.2.3 Bodily Expression Data and Annotation, 352 14.3 Creating a Database of Facial and Bodily Expressions: The FABO Database, 353 xiv CONTENTS 14.4 Automatic Recognition of Affect from Bodily Expressions, 356 14.4. i Body as an Autonomous Channel for Affect Analysis, 356 14.4.2 Body as an Additional Channel for Affect Analysis, 358 14.5 Automatic Recognition of Bodily Expression Temporal Dynamics, 361 14.5.1 Feature Extraction, 362 14.5.2 Feature Representation and Combination, 364 14.5.3 Experiments, 365 14.6 Discussion and Outlook, 367 14.7 Conclusions, 369 Acknowledgments, 370 References, 370 Author Biographies, 375 15 Building a Robust System for Multimodal Emotion Recognition 379 Johannes Wagner, Florian Lingenfelsen and Elisabeth André 15.1 Introduction, 380 15.2 Related Work, 381 15.3 The Calias Expressivity Corpus, 382 15.3. Ï Segmentation of Data, 383 15.3.2 Emotion Modeling, 383 15.3.3 Annotation, 384 15.4 Methodology, 386 15.4.1 Classification Model, 386 15.4.2 Feature Extraction, 387 15.4.3 Speech Features, 387 15.4.4 Facial Features, 389 15.4.5 Feature Selection, 389 15.4.6 Recognizing Missing Data, 390 15.5 Multisensor Data Fusion, 390 15.5.1 Feature-Level Fusion, 390 15.5.2 Ensemble-Based Systems and Decision-Level Fusion, 391 15.6 Experiments, 395 15.6.1 Evaluation Method, 396 15.6.2 Results, 396 15.6.3 Discussion, 397 15.6.4 Contradictory Cues, 397 15.7 Online Recognition System, 399 15.7.1 Social Signal Interpretation, 399 15.7.2 Synchronized Data Recording and Annotation, 400 15.7.3 Feature Extraction and Model Training, 401 15.7.4 Online Classification, 401 15.8 Conclusion, 403 Acknowledgment, 404 References, 404 Author Biographies, 4 i0 16 Semantic Audiovisual Data Fusion for Automatic Emotion Recognition Dragos Datcu and Leon J. M. Rothkrantz CONTENTS xv 411 16.1 Introduction, 412 16.2 Related Work, 413 16.3 Data Set Preparation, 416 16.4 Architecture, 418 16.4.1 Classification Model ,418 16.4.2 Emotion Estimation from Speech, 419 16.4.3 Video Analysis, 420 16.4.4 Fusion Model, 428 16.5 Results, 431 16.6 Conclusion, 432 References, 432 Author Biographies, 434 17 A Multilevel Fusion Approach for Audiovisual Emotion Recognition 437 Girija Chetty, Michael Wagner, and Roland Goecke 17.1 Introduction, 437 17.2 Motivation and Background, 438 17.3 Facial Expression Quantification, 440 17.4 Experiment Design, 444 17.4.1 Data Corpora, 444 17.4.2 Facial Deformation Features, 445 17.4.3 Marker-Based Audio Visual Features, 447 17.4.4 Expression Classification and Multilevel Fusion, 448 17.5 Experimental Results and Discussion, 450 17.5.1 Facial Expression Quantification, 450 17.5.2 Facial Expression Classification Using SVDF and VDF Features, 451 17.5.3 Audiovisual Fusion Experiments, 451 17.6 Conclusion, 456 References, 456 Author Biographies, 459 18 From a Discrete Perspective of Emotions to Continuous, Dynamic, and Multimodal Affect Sensing 461 Isabelle Hupont, Sergio Ballano, Eva Cerezo, and Sandra Baldassarri 18.1 Introduction, 462 18.2 A Novel Method for Discrete Emotional Classification of Facial Images, 465 18.2.1 Selection and Extraction of Facial Inputs, 465 xvf CONTENTS 18.2.2 Classifiers Selection and Combination, 467 18.2.3 Results. 468 18.3 A 2D Emotional Space for Continuous and Dynamic Facial Affect Sensing. 469 18.3.1 Facial Expressions Mapping to the Whissell Affective Space, 469 18.3.2 From Still images to Video Sequences through 2D Emotional Kinematics Modeling, 473 18.4 Expansion to Multimodal Affect Sensing, 474 18.4.1 Step 1: 2D Emotional Mapping to the Whissell Space, 477 18.4.2 Step 2: Temporal Fusion of Individual Modalities to Obtain a Continuous 2D Emotional Path, 477 18.4.3 Step 3: “Emotional Kinematics Path Filtering, 478 18.5 Building Tools That Care. 479 18.5. i T-EDUCO: A T-learning Tutoring Tool. 479 18.5.2 Multimodal Fusion Application to Instant Messaging, 482 18.6 Concluding Remarks and Future Work, 486 Acknowledgments, 488 References, 488 Author Biographies, 491 19 Audiovisual Emotion Recognition Using Semi-Coupled Hidden Markov Model with State-Based Alignment Strategy 493 Clumg-Hsien Wit, Jen-Chun IJn„ and Wen-Id Wei 19.1 Introduction, 494 19.2 Feature Extraction, 495 19.2.1 Facial Feature Extraction, 496 19.2.2 Prosodic Feature Extraction, 498 19.3 Semi-Coupled Hidden Markov Model, 500 19.3.1 Model Formulation, 500 19.3.2 State-Based Bimodal Alignment Strategy, 502 19.4 Experiments, 504 19.4.1 Data Collection, 504 19.4.2 Experimental Results, 506 19.5 Conclusion, 508 References, 509 Author Biographies, 512 20 Emotion Recognition in Car Industry 515 Christos fX Katsis, George Rigas, Yorgos Goietsis, and Dimitrios /. Fotiadis 20.1 introduction, 516 20.2 An Overview of Application for the Car Industry, 517 20.3 Modality-Based Categorization, 517 20.3.1 Video-Image-Based Emotion Recognition, 518 20.3.2 Speech Based Emotion Recognition, 518 CONTENTS xvii 20.3.3 Biosignal-Based Emotion Recognition, 519 20.3.4 Multimodal Based Emotion Recognition, 519 20.4 Emotion-Based Categorization, 520 20.4.1 Stress, 520 20.4.2 Fatigue, 521 20.4.3 Confusion and Nervousness, 522 20.4.4 Distraction, 522 20.5 Two Exemplar Cases, 523 20.5.1 AUBADE, 523 20.5.2 I-Way, 530 20.5.3 Results, 535 20.6 Open Issues and Future Steps, 536 20.7 Conclusion, 537 References, 537 Author Biographies, 543 Index 545
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genre	(DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV043026565
illustrated	Illustrated
indexdate	2024-12-20T17:25:57Z
institution	BVB
isbn	9781118130667 9781118910603
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-028451220
oclc_num	906005233
open_access_boolean
owner	DE-384 DE-11 DE-355 DE-BY-UBR
owner_facet	DE-384 DE-11 DE-355 DE-BY-UBR
physical	xxxi, 548 Seiten Illustrationen, Diagramme
publishDate	2015
publishDateSearch	2015
publishDateSort	2015
publisher	Wiley
record_format	marc
spellingShingle	Emotion recognition a pattern analysis approach Human-computer interaction Artificial intelligence Emotions / Computer simulation Pattern recognition systems Context-aware computing TECHNOLOGY & ENGINEERING / Electronics / Digital bisacsh COMPUTERS / Computer Vision & Pattern Recognition bisacsh Artificial intelligence fast Context-aware computing fast Emotions / Computer simulation fast Human-computer interaction fast Künstliche Intelligenz Mustererkennung (DE-588)4040936-3 gnd Gefühl (DE-588)4019702-5 gnd
subject_GND	(DE-588)4040936-3 (DE-588)4019702-5 (DE-588)4143413-4
title	Emotion recognition a pattern analysis approach
title_auth	Emotion recognition a pattern analysis approach
title_exact_search	Emotion recognition a pattern analysis approach
title_full	Emotion recognition a pattern analysis approach edited by Amit Konar (Artificial Intelligence Laboratory, Department of Electronics and Telecommuniation Engineering, Jadavpur University, Kolkata, India), Aruna Chakraborty (Department of Computer Science & Engineering, St. Thomas' College of Engineering & Technology, Kolkata, India)
title_fullStr	Emotion recognition a pattern analysis approach edited by Amit Konar (Artificial Intelligence Laboratory, Department of Electronics and Telecommuniation Engineering, Jadavpur University, Kolkata, India), Aruna Chakraborty (Department of Computer Science & Engineering, St. Thomas' College of Engineering & Technology, Kolkata, India)
title_full_unstemmed	Emotion recognition a pattern analysis approach edited by Amit Konar (Artificial Intelligence Laboratory, Department of Electronics and Telecommuniation Engineering, Jadavpur University, Kolkata, India), Aruna Chakraborty (Department of Computer Science & Engineering, St. Thomas' College of Engineering & Technology, Kolkata, India)
title_short	Emotion recognition
title_sort	emotion recognition a pattern analysis approach
title_sub	a pattern analysis approach
topic	Human-computer interaction Artificial intelligence Emotions / Computer simulation Pattern recognition systems Context-aware computing TECHNOLOGY & ENGINEERING / Electronics / Digital bisacsh COMPUTERS / Computer Vision & Pattern Recognition bisacsh Artificial intelligence fast Context-aware computing fast Emotions / Computer simulation fast Human-computer interaction fast Künstliche Intelligenz Mustererkennung (DE-588)4040936-3 gnd Gefühl (DE-588)4019702-5 gnd
topic_facet	Human-computer interaction Artificial intelligence Emotions / Computer simulation Pattern recognition systems Context-aware computing TECHNOLOGY & ENGINEERING / Electronics / Digital COMPUTERS / Computer Vision & Pattern Recognition Künstliche Intelligenz Mustererkennung Gefühl Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028451220&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT konaramit emotionrecognitionapatternanalysisapproach AT chakrabortyaruna emotionrecognitionapatternanalysisapproach

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