Computational Intelligence: principles, techniques and applications ; with 13 tables
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2005
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIII, 708 S. Ill., graph. Darst. CD-ROM (12 cm) |
| ISBN: | 3540208984 |
Internformat
MARC
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| 245 | 1 | 0 | |a Computational Intelligence |b principles, techniques and applications ; with 13 tables |c Amit Konar |
| 246 | 1 | 3 | |a Computational Intellingence |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2005 | |
| 300 | |a XXIII, 708 S. |b Ill., graph. Darst. |e CD-ROM (12 cm) | ||
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Datensatz im Suchindex
| _version_ | 1804133243267579904 |
|---|---|
| adam_text | Contents
Chapter 1: An Introduction to Computational Intelligence
1.1 Artificial Intelligence a Brief Review 1
1.2 Pitfalls of the Traditional AI 3
1.3 Computational Intelligence an Emergence of a New Computational
Paradigm 4
1.4 Computational Intelligence a Formal Definition 7
1.5 Soft Computing Definitions 8
1.6 Fundamental Elements of Soft Computing 9
1.6.1 The Logic of Fuzzy Sets 9
1.6.2 Computational Models of Neural Nets 10
1.6.3 Genetic Algorithms 17
1.6.4 Belief Networks 20
1.7 Computational Learning Theory 23
1.8 Synergism in Soft Computing 25
1.8.1 Neuro Fuzzy Synergism 26
1.8.2 Neuro GA Synergism 26
1.8.3 Fuzzy GA Synergism 26
1.8.4 Neuro Belief Network Synergism 26
1.8.5 GA Belief Network Synergism 27
1.8.6 Neuro Fuzzy GA Synergism 27
1.9 Conclusions 27
Exercise 27
References 29
Chapter 2: Fuzzy Sets and Relations
2.1 Conventional Sets 37
2.2 Fuzzy Sets 38
2.3 Membership Functions 40
2.4 Continuous and Discrete Membership Functions 42
2.5 Typical Membership Functions 43
2.5.1 The y Function 43
2.5.2 The s Function 44
2.5.3 The L Function 45
2.5.4 The Triangular Membership Function 46
2.5.5 The Il Function 47
2.5.6 The Gaussian Membership Function 47
2.6 Operations on Fuzzy Sets 48
2.6.1 Fuzzy T Norm 48
2.6.2 Fuzzy S Norm 49
2.6.3 Fuzzy Complement 50
2.7 Basic Concepts Associated with Fuzzy Sets 50
2.8 Extension Principle of Fuzzy Sets 52
2.9 Fuzzy Relations 54
2.10 Projection of Fuzzy Relations 56
2.11 Cylindrical Extension of Fuzzy Relations 57
2.12 Fuzzy Max Min and Max Product Composition Operation 58
2.13 Fuzzy Linguistic Hedges 60
2.14 Summary 62
Exercise 63
References 66
Chapter 3: Fuzzy Logic and Approximate Reasoning
3.1 Production Systems 67
3.2 Conflict Resolution in Production Systems 69
3.3 Drawbacks of Traditional Production Systems 69
3.4 Fuzzy Implication Rules 70
3.5 Fuzzy Implication Relations 71
3.6 Fuzzy Logic 73
3.6.1 Typical Propositional Inference Rules 73
3.6.2 Fuzzy Extension of the Inference Rules 74
3.7 The Composition Rule of Inference 75
3.7.1 Computing Fuzzy Inferences in GMP 75
3.7.2 Computing Fuzzy Inferences Using GMT 78
3.7.3 Computing Fuzzy Inferences Using GHS 79
3.8 Approximate Reasoning with Multiple Antecedent Clauses 80
3.9 Approximate Reasoning with Multiple Rules 83
3.10 Scope of Parallelism in Approximate Reasoning Using
Mamdani Implication Function 86
3.11 Realization of Fuzzy Inference Engine on VLSI Architecture 87
3.12 Approximate Reasoning with Multiple Rules Each with
Multiple Antecedent Clauses 89
3.13 Fuzzy Abductive Reasoning 90
3.14 Conclusions 93
Exercise 93
References 95
Chapter 4: Fuzzy Logic in Process Control
4.1 Process Control 97
4.2 Advantages of Fuzzy Control 99
4.3 Typical Fuzzy Control Systems 99
4.4 Architecture of Typical Fuzzy control Systems 101
4.5 Reasoning in Mamdani Type Fuzzy Control Systems 101
4.6 Reasoning in T S Fuzzy Control Systems 106
4.7 Stability Analysis of Dynamic Systems Using
Lyapunov Energy Functions 109
4.8 Stability Analysis of T S Fuzzy Systems 110
4.9 Application in Power Control of a Nuclear Reactor 114
i
4.10 Defuzzification Techniques 119
4.11 Conclusions 120
Exercise 120
References 122
Chapter 5: Fuzzy Pattern Recognition
5.1 Introduction 125
5.2 The Fuzzy C Means Clustering Algorithm 127
5.3 Image Segmentation Using Fuzzy C Means
Clustering Algorithm 132
5.4 Conclusions 136
Exercise 136
References 137
Chapter 6: Fuzzy Databases and Possibilistic Reasoning
6.1 Introduction to Relational Database Systems 139
6.1.1 The Relational Model 140
6.2 Issues in Relational database Design 143
6.2.1 Lossless Join Decomposition 143
6.2.2 Functional Dependency Preservation 144
6.3 Possibility Distribution and Fuzzy Sets 146
6.4 Fuzziness in Relational Models 147
6.4.1 Type 1 Fuzzy Relational Data Model 147
6.4.2 Type 2 Fuzzy Relational Data Model 149
6.5 Fuzzy Relational Operators 152
6.5.1 Projection of Fuzzy Relations 152
6.5.2 Cylindrical Extension of Fuzzy Relations 153
6.5.3 Natural Join of Fuzzy Relations 154
6.5.4 Lossy Fuzzy Joins 155
6.6 Fuzzy Integrity Constraints 155
6.6.1 Conjunction of Fuzzy Propositions 156
6.6.2 The Modifier Rule 157
6.6.3 Possibility Distribution for Conditional
Fuzzy Propositions 158
6.7 Fuzzy Functional Dependency 158
6.7.1 Equality as a Fuzzy Relation 158
6.7.2 Representing Functional Dependency Using
Equality Relation 160
6.8 Fuzzy Lossless Join 161
6.9 Design of Fuzzy Relational Databases 162
6.10 Conclusions 162
Exercise 163
References 165
Chapter 7: Introduction to Machine Learning Using
Neural Nets
7.1 Biological Neural Networks 167
7.2 Artificial Neural Networks 169
7.3 Principles of Learning in a Neural Net 170
7.4 Stability and Convergence 179
7.5 Three Important Theorems for Stability Analysis of
Neural Dynamics 180
7.6 Conclusions 193
Exercise 184
References 194
Chapter 8: Supervised Neural Learning Algorithms
8.1 Introduction 197
8.2 McCulloch Pitts Model 198
8.3 The Perceptron Learning Model 201
8.3.1 Linear Classification by Perceptrons 203
8.3.2 Multilayered Perceptron Classifier 207
8.4 Widrow Hoff s ADALINE Model 209
8.5 The Back propagation Learning Algorithm 217
8.6 The Radial Basis Function Neural Net 223
8.7 Modular Neural Nets 225
8.8 Conclusions 230
Exercise 230
References 233
Chapter 9: Unsupervised Neural Learning Algorithms
9.1 Introduction 237
9.2 Recurrent Neural Nets 238
9.2.1 Discrete Hopfield Network 239
9.2.2 Continuous Hopfield Neural Net 241
9.2.3 A Near Equilibrium Consideration for Classification by
Continuous Hopfield Nets 245
9.2.4 Optimization Using Hopfield (Continuous) Neural Nets 246
9.2.5 Application of Hopfield Neural Nets in
Engineering Problems 248
9.2.6 Boltzman Machines 252
9.3 Bi directional Associative Memory 253
9.4 Adaptive Resonance Theory 256
9.5 Fuzzy Associative Memory 260 ;
9.6 Discussions 262 I
Exercise 263
References 265
Chapter 10: Competitive Learning Using Neural Nets
10.1 Introduction 267
10.2 Two Layered Recurrent Networks for Competitive Learning 270
10.3 Components of a Competitive Learning Network 272
10.3.1 The Pre Processing Layer 272
10.3.2 The Instar Connectivity from Neurons
of the Input to the Output Layer 273
10.3.3 Competitive Learning in the Output Layer 274
10.4 Hebbian Learning in the Competitive Layer 276
10.5 Analysis of Pattern Clustering Network 279
10.6 Principal Component Analysis 281
10.7 Self Organizing Feature Map 282
10.8 Application in Face Recognition 284
10.9 Conclusions 289
Exercise 289
References 292
Chapter 11: Neuro dynamic Programming by Reinforcement
Learning
11.1 Introduction 295
11.2 Formulation of the Reinforcement Learning Paradigm 298
11.3 Q Learning 302
11.4 Convergence of Q Learning Algorithm 307
11.5 Nondeterministic Rewards and Actions 308
11.6 Temporal Difference Learning 310
11.7 Neural Reinforcement Learning 311
11.8 Multi Agent Reinforcement Learning 315
11.9 Conclusions 317
Exercise 318
References 321
Chapter 12: Evolutionary Computing Algorithms
12.1 Introduction 323
12.2 Genetic Algorithm: How does it work? 324
12.3 Deterministic Explanation of Holland s Observation 331
12.4 Stochastic Explanation of GA 332
12.5 The Markov Model for Convergence Analysis 335
12.6 Application of GA in Optimization Problems 339
12.7 Application of GA in Machine Learning 341
12.7.1 GA as an Alternative to Back propagation Learning 342
12.7.2 Adaptation of the Learning Rule/ Control Law by GA 342
12.8 Application of GA in Intelligent Search 345
12.8.1 Navigational Planning of Robots 345
12.9 Genetic Programming 346
12.10 Conclusions 348
Exercise 349
References 350
Chapter 13: Belief Calculus and Probabilistic Reasoning
13.1 Introduction 353
13.2 Elements of Probability Theory 354
13.2.1 Bayes Law on Conditional Probability 356
13.3 Belief Propagation on a Causal Tree 361
13.4 Pearl s Belief Propagation Scheme on a Polytree 369
13.5 Dempster Shafer Theory for Uncertainty Management 372
13.6 Conclusions 377
Exercise 377
References 391
Chapter 14: Reasoning in Expert Systems Using Fuzzy
Petri Nets
14.1 Introduction 394
14.2 Imprecision Management in an Acyclic FPN 396
14.2.1 Formal Definitions and the Proposed Model 396
14.2.2 Proposed Model for Belief Propagation 396
14.2.3 Proposed Algorithm for Belief Propagation 398
14.3 Imprecision and Inconsistency Management
in a Cyclic FPN 404
14.3.1 Proposed Model for Belief Revision 404
14.3.2 Stability Analysis of the Belief Revision Model 405
14.3.3 Detection and Elimination of Limit cycles 411
14.3.4 Nonmonotonic Reasoning in an FPN 414
14.4 Conclusions 415
Exercise 419
References 419
Chapter 15: Image Matching Using Fuzzy Moment
Descriptors
15.1 Introduction 423
15.2 Image Features and their Membership Distributions 425
15.2.1 Fuzzy Membership Distributions 426
15.2.2 Fuzzy Production Rules 428
15.3 Fuzzy Moment Descriptors 429
15.4 Image Matching Algorithm 431
15.5 Rotation and Size Invariant Matching 433
15.6 Noise Insensitive Matching 433
15.7 Computer Simulation 434
15.8 Implication of the Results 435
15.9 Template Matching Using Interleaved Search 435
15.10 Computer Simulation of Template Matching 439
15.11 Human Mood Detection from Facial Expressions 440
15.11.1 Image Segmentation and Localization of
Facial Components 441
15.11.2 Facial Extracts and their Measurements for
Mood Analysis 442
15.12 Conclusions 446
Exercise 447
References 450
Chapter 16: Behavioral Synergism of Soft Computing Tools
16.1 Introduction 453
16.2 Neuro Fuzzy Synergism 455
16.2.1 Weakly Coupled Neuro Fuzzy Systems 455
16.2.2 Tightly Coupled Neuro Fuzzy Systems 456
16.3 Fuzzy GA Synergism 459
16.4 Neuro GA Synergism 460
16.4.1 Adaptation of a Neural Learning Algorithm Using GA 460
16.5 GA Belief Network Synergism 462
16.6 A Case Study of Synergism of 2 Neural Topology and GA 462
16.6.1 The Problem 462
16.6.2 Clustering by TASONN 463
16.6.3 Continuous Hopfield Net A Review 463
16.6.4 Perception to Action Transformation 464
16.6.5 Optimization of the Energy Function Using GA 465
16.6.6 Experimental Details 466
16.7 Conclusions and Future Directions 468
Exercise 469
References 475
Chapter 17: Object Recognition from Gray Images Using
Fuzzy ADALINE Neurons
17.1 Introduction 477
17.2 Proposed Model of ADALINE 480
17.3 Stability Analysis for Convergence of the ADALINE Model 482
17.4 Training of the Proposed Neural Net 484
17.4.1 Training Algorithm of AD ALINES 484
17.4.2 Training of the Neural Net 487
17.4.3 Training with Multiple Input Output Patterns 488
17.5 Translation Rotation and Size Invariant Gray
Pattern Recognition 490
17.5.1 Design of Translational Invariance Network 491
17.5.2 Design of Rotational Invariance Network 492
17.5.3 Design of Size Invariance Network 493
17.6 Conclusions 493
Exercise 494
References 495
Chapter 18: Distributed Machine Learning Using Fuzzy
Cognitive Maps
18.1 Introduction 497
18.2 Axelrod s Cognitive Maps 498
18.3 Kosko s Model 500
18.4 Kosko s Extended Model 503
18.5 Adaptive FCMs 504
18.6 Zhang, Chen and Bezdek s Model 505
18.7 Pal and Konar s Model 507
18.8 Conclusions 513
Exercise 513
References 517
Chapter 19: Machine Learning Using Fuzzy Petri Nets
19.1 Introduction 521
19.2 The Proposed Model for Cognitive Reasoning 523
19.2.1 Encoding of Weights 524
19.2.2 The recall Model 524
19.3 State Space Formulation 526
19.3.1 State Space Model for Belief Updating 527
19.3.2 State Space Model for FTT Updating of Transitions 527
19.3.3 State Space Model for Weights 528
19.4 Stability Analysis of the Cognitive Model 528
19.5 Computer Simulation 532
19.6 Implication of the Results 535
19.7 Knowledge Refinement by Hebbian Learning 535
19.7.1 The Encoding Model 535
19.7.2 The Recall/Reasoning Model 537
19.7.3 Case Study by Computer Simulation 537
19.7.4 Implication of the Results 542
19.8 Conclusions 542
Exercise 544
References 545
Chapter 20: Computational Intelligence in Tele¬
communication Networks
20.1 Introduction 547
20.2 Network Routing Using Genetic Algorithms 549
20.2.1 Path Genetic Operators 551
20.2.2 Fitness Evaluation 553
20.2.3 The Genetic Based Routing Algorithm 553
20.3 Computational Intelligence in Network Congestion Control 554
20.3.1 Fuzzy Congestion Controller 555
20.4 Computational Intelligence in Handling the Call Admission
Control Problem 560
20.4.1 Call Admission Control Using Neural Networks 561
20.4.2 Input/Outputs of Neural Nets Used in Call
Admission Control 562
20.5 Intelligent Traffic Control 565
20.6 Conclusions 566
Exercise 567
References 570
Chapter 21: Computational Intelligence in Mobile Robotics
21.1 Introduction 571
21.2 Path Planning of a Mobile Robot Using Neural Nets 573
21.2.1 Generation of Training Instances 574
21.2.2 Configuring the Neural Nets 580
21.2.3 Parameters Used for Performance Evaluation of the
Neural Path Planning Algorithms 582
21.2.4 Experimental Results a Benchmark Analysis 584
21.2.5 Implication of the Results 589
21.3 Object Localization 589
21.4 Target Tracking and Interception by Mobile Robots Using
Kalman Filtering 592
21.4.1 Measurements of the Input to Kalman Filter 595
21.4.2 Extended Kalman Filter an Overview 596
21.4.3 Predicting Target Position Using Extended
Kalman Filter 597
21.4.4 Use of the Back propagation Neural Net 600
21.4.5 Experimental Results 600
21.5 Conclusions and Future Directions 601
Exercise
References
Chapter 22: Emerging Areas of Computational Intelligence
22.1 Introduction 611
22.2 Artificial Life 613
22.2.1 The Model of Artificial Fish Positions,
Speed and Heading 613
22.2.2 Repulsion, Attraction and Aligning 614
22.2.3 Body Size and Form 616
22.3 Particle Swarm Optimization 617
22.3.1 Particle Swarm Size 619
22.3.2 The Split Swarm Algorithm 619
22.4 Artificial Immune Systems 620
22.4.1 Biological Communication among Different
Species of Antibodies 621
22.4.2 A Simple Model of the Immune System 622
22.5 Fuzzy Chaos Theory 624
22.6 Rough Sets 627
22.6.1 Rough Fuzzy Sets 629
22.7 Granular Computing 630
22.7.1 Rough Inclusion and Indiscernibility 632
22.7.2 Classifier Design 632
22.8 Redefining Computational Intelligence 633
22.9 Summary 634
Exercise 635
References 640
Chapter 23: Research Problems for Graduate Thesis and
Pre Ph D Preparatory Courses
23.1 Problem 1: Computing Max Min Inverse Fuzzy Relation 643
23.2 An Outline to the Solution of Problem 1 644
23.3 Tutorial Assignment for Graduate Students 645
23.4 Problem 2: Reasoning with Fuzzy Petri Nets 646
23.4.1 Tutorial Problems on Fuzzy Petri Nets 646
23.4.2 Research Problems on Fuzzy Petri Nets 647
23.5 Problem 3: Spoken Word Reconstruction from Lip
Stylus Sequences 649
23.6 Problem 4: Fuzzy State Equations and stability Analysis 650
23.7 An Outline to the Solution of Problem 4 651
23.8 Graduate Students Assignments on Stability of
Fuzzy State Equations 652
23.9 Problem 5: Fuzzy Data Mining 652
23.10 An approach to the Solution of Problem 5 653
23.11 Graduate Assignments on Fuzzy Data Mining 655
23.12 Problem 6: Selected Items in Signal Processing and
Communication Engineering 655
23.12.1 System Modeling 656
23.12.2 Non linear Prediction Problem 657
23.12.3 Inverse Modeling 658
23.12.4 Adaptive Channel Equalization 659
23.13 Problem 7: Handling Large Training Instances Using Back
Propagation RBF Synergism 660
23.14 Problem 8: Macro Cell Placement and Routing in VLSI Design
Using Genetic Algorithms 662
23.15 A Possible Solution to Macro Cell Placement and Routing 663
23.16 Problem 9: Drug Classification Problem Using Artificial Neural
Networks 664
References 667
Appendix A: Sample Run of Programs Included
in the CD
A. 1 Detection of Mouth Opening of a Person from his/ her
Facial Image 669
A.2 A Program for Image Matching Using Fuzzy Moment
Descriptors 674
A.3 GA in Path Planning of a Mobile Robot 676
A.4 The FPNreasl Program 677
A.5 The FPNreas2 Program 683
A.6 The FPNtreas3 Program 684
A.7 Fuzzy Chaos Program 686
A.8 The New_Petri3 Program to Study Controllability on FPN 688
Appendix B: Evolutionary Algorithms of Current Interest
B.I Ant Colony Systems: an Overview 691
B.I.I The ACO Algorithm 693
B.I.2 Solving the classical TSP Problem by ACO 693
B.1.3 Application Domain of ACO 695
B.2 Differential Evolution 696
B.2.1 Outline of the Algorithm 696
B.2.2 Application Domain of DE and Recent Research 698
References 698
Index 701
About the Author 707
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| indexdate | 2024-07-09T20:05:37Z |
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| owner | DE-1050 DE-20 DE-1051 DE-573 DE-91G DE-BY-TUM DE-824 DE-29T DE-634 DE-83 |
| owner_facet | DE-1050 DE-20 DE-1051 DE-573 DE-91G DE-BY-TUM DE-824 DE-29T DE-634 DE-83 |
| physical | XXIII, 708 S. Ill., graph. Darst. CD-ROM (12 cm) |
| publishDate | 2005 |
| publishDateSearch | 2005 |
| publishDateSort | 2005 |
| publisher | Springer |
| record_format | marc |
| spelling | Konar, Amit Verfasser aut Computational Intelligence principles, techniques and applications ; with 13 tables Amit Konar Computational Intellingence Berlin [u.a.] Springer 2005 XXIII, 708 S. Ill., graph. Darst. CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Künstliche Intelligenz (DE-588)4033447-8 gnd rswk-swf Soft Computing (DE-588)4455833-8 gnd rswk-swf Soft Computing (DE-588)4455833-8 s DE-604 Künstliche Intelligenz (DE-588)4033447-8 s HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013091434&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Konar, Amit Computational Intelligence principles, techniques and applications ; with 13 tables Künstliche Intelligenz (DE-588)4033447-8 gnd Soft Computing (DE-588)4455833-8 gnd |
| subject_GND | (DE-588)4033447-8 (DE-588)4455833-8 |
| title | Computational Intelligence principles, techniques and applications ; with 13 tables |
| title_alt | Computational Intellingence |
| title_auth | Computational Intelligence principles, techniques and applications ; with 13 tables |
| title_exact_search | Computational Intelligence principles, techniques and applications ; with 13 tables |
| title_full | Computational Intelligence principles, techniques and applications ; with 13 tables Amit Konar |
| title_fullStr | Computational Intelligence principles, techniques and applications ; with 13 tables Amit Konar |
| title_full_unstemmed | Computational Intelligence principles, techniques and applications ; with 13 tables Amit Konar |
| title_short | Computational Intelligence |
| title_sort | computational intelligence principles techniques and applications with 13 tables |
| title_sub | principles, techniques and applications ; with 13 tables |
| topic | Künstliche Intelligenz (DE-588)4033447-8 gnd Soft Computing (DE-588)4455833-8 gnd |
| topic_facet | Künstliche Intelligenz Soft Computing |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013091434&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT konaramit computationalintelligenceprinciplestechniquesandapplicationswith13tables AT konaramit computationalintellingence |