Advances in industrial engineering and operations research:
Gespeichert in:
| Weitere beteiligte Personen: | |
|---|---|
| Format: | Buch |
| Sprache: | Englisch |
| Veröffentlicht: |
New York [u.a.]
Springer
2008
|
| Schriftenreihe: | Lecture notes in electrical engineering
5 |
| Links: | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020187683&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| Umfang: | XXVII, 497 S. graph. Darst. |
| ISBN: | 9780387749037 0387749039 |
Internformat
MARC
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| 245 | 1 | 0 | |a Advances in industrial engineering and operations research |c Alan H. S. Chan ... eds. |
| 264 | 1 | |a New York [u.a.] |b Springer |c 2008 | |
| 300 | |a XXVII, 497 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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| 490 | 1 | |a Lecture notes in electrical engineering |v 5 | |
| 700 | 1 | |a Chan, Alan H. S. |4 edt | |
| 830 | 0 | |a Lecture notes in electrical engineering |v 5 |w (DE-604)BV022422356 |9 5 | |
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Datensatz im Suchindex
| _version_ | 1819289094887309312 |
|---|---|
| adam_text | Contents
Preface.............................................................. v
Contributors......................................................... xxi
1 A Comprehensive Movement Compatibility Study for
Hong Kong Chinese................................................ 1
W.H. Chan and Alan H.S. Chan
1.1 Introduction 1
1.2 Methods 4
1.2.1 Experimental Design 4
1.2.2 Subjects 4
1.3 Results and Discussion 4
1.3.1 Response Preference and Mean Stereotype Strength 4
1.3.2 Reversibility 7
1.3.3 Response Time 8
1.4 Conclusion and Recommendations 9
References 10
2 A Study of Comparative Design Satisfaction Between Culture
and Modern Bamboo Chair......................................... 13
Vanchai Laemlaksaku and Sittichai Kaewkuekool
2.1 Introduction 13
2.2 Methodology 14
2.2.1 Design and Fabrication 14
2.2.2 Sample Selection 17
2.2.3 Questionnaire 17
2.3 Results 18
2.3.1 Dimensional Appropriateness of Chair 18
2.3.2 Comfort Level of Chair 21
viii Contents
2.4 Conclusions 24
2.4.1 Dimensional Appropriateness of the Chair 24
2.4.2 Comfort Level 24
2.4.3 Aesthetic Appeal of the Modern Bamboo Chair 25
2.5 Recommendations 25
References 25
3 Factors Influencing Symbol-Training Effectiveness.................. 27
Annie W.Y. Ng and Alan H.S. Chan
3.1 Introduction 27
3.2 Factors Influencing Symbol-Training Effectiveness 28
3.2.1 Training Method 28
3.2.2 Other Training Factors 34
3.3 Experimental Design and Analysis for Symbol-Training
Effectiveness Research 34
3.4 Conclusion 36
References 36
4 Multiple-Colony Ant Algorithm with Forward-Backward
Scheduling Approach for Job-Shop Scheduling Problem............. 39
Apinanthana Udomsakdigool and Voratas Kachitvichyanukul
4.1 Introduction 39
4.2 Problem Definition and Graph-Based Representation 40
4.2.1 Problem Definition 40
4.2.2 Graph-Based Representation 41
4.2.3 The General Concept of ACO Algorithm 42
4.2.4 Memory Requirement for Ant and Colony 43
4.2.5 Hierarchical Cooperation in Multiple Colonies 44
4.2.6 Backward Scheduling Approach 45
4.3 Description of Algorithm 46
4.3.1 Initialize Pheromone and Parameter Setting 47
4.3.2 Local Improvement 50
4.3.3 Pheromone Updating 51
4.3.4 Restart Process 53
4.4 Experimental Results 53
4.5 Conclusion and Recommendation 53
4.5.1 Conclusion 53
4.5.2 Recommendation 54
References 54
5 Proposal of New Paradigm for Hand and Foot Controls in the
Context of Spatial Compatibility Effect............................. 57
Alan H.S. Chan and Ken W.L. Chan
5.1 Introduction 57
5.1.1 Spatial Stimulus-Response (SR) Compatibility 58
Contents jx
5.2 Research Plan and Methodology 59
5.3 Experiment 1: Spatial SR Compatibility Effect of
Foot Controls 59
5.3.1 Design 59
5.4 Experiment 2: Spatial SR Compatibility Effect of Hand and
Foot Controls 60
5.4.1 Design 61
5.5 Experiment 3: Spatial SR Compatibility Effect of Hand
and Foot Controls for Stimulus and Response Arrays on
Orthogonal Planes 61
5.5.1 Design 62
5.6 Experiment 4: Spatial SR Compatibility Effect of Hand and Foot
Controls for Stimulus and Response Arrays on Parallel and
Orthogonal Planes 62
5.6.1 Design 63
5.7 Analysis 64
References 64
6 Development of a Mathematical Model for Process
with S-Type Quality Characteristics to a Quality
Selection Problem.................................................. 67
K. Tahera, R.N. Ibrahim, and P.B. Lochert
6.1 Introduction 67
6.2 Model Development 69
6.3 Genetic Algorithm 74
6.3.1 Genetic Representation 75
6.3.2 Population Size 76
6.3.3 Generating Initial Population 76
6.3.4 Fitness Function 77
6.3.5 Selection 77
6.3.6 Mating or Crossover 77
6.3.7 Mutation 78
6.3.8 Termination Criteria 79
6.3.9 Generic Algorithm Parameters 79
6.4 Numerical Example 79
6.5 Conclusions 80
References 80
7 Temporal Aggregation and the Production Smoothing
Model: Evidence from Electronic Parts and Components
Manufacturing in Taiwan........................................... 83
Chien-wen Shen
7.1 Introduction 83
7.2 Literature Review 84
7.3 Model Specifications 85
x Contents
7.4 Empirical Results 87
7.4.1 Tests of Production-Smoothing Hypotheses 88
7.4.2 Model Analyses 88
7.5 Conclusions 93
References 94
8 Simulations of Gear Shaving and the Tooth Contact Analysis....... 95
Shinn-Liang Chang, Hung-Jeng Lin, Jia-Hung Liu,
and Ching-Hua Hung
8.1 Introduction 95
8.2 Mathematical Model of the Shaving Machine 96
8.3 Tooth Contact Analysis of the Shaved Gear 103
8.4 Longitudinal Tooth Crowning Introduced by Litvin 105
8.5 Conclusion 109
References 109
9 On Aggregative Methods of Supplier Assessment................... Ill
Vladimir Modrak
9.1 Introduction 111
9.2 Research Background and Motivation 112
9.3 The Importance of Suppliers Assessment and Selection 114
9.4 Alternative Techniques of Supplier Assessment 116
9.4.1 Assessment of the Quality of Supplied Products 117
9.4.2 Assessment by Adherence to Time Schedules 117
9.4.3 Supplier Assessment with Respect to the Schedule
of Quantity 120
9.4.4 Aggregative Supplier Assessment 123
9.5 Discussion and Closing Remarks 124
References 124
10 Human Factors and Ergonomics for Nondestructive Testing........ 127
B.L. Luk and Alan H.S. Chan
10.1 Introduction 127
10.2 Principles and Procedures 128
10.2.1 Dye Penetrant Inspection 128
10.2.2 Magnetic Particles Inspection 129
10.2.3 Ultrasonic Inspection 130
10.2.4 Eddy Current 132
10.3 Human Abilities and Skills Required 133
10.3.1 Perceptual and Cognitive Abilities 133
10.3.2 Physical Strength 135
10.3.3 Surface Preparation Technique 135
10.4 Ergonomics, Safety, and Health Problems 136
10.4.1 Illumination 136
Contents xj
10.4.2 Working Posture 136
10.4.3 Potential Chemical Hazards 138
10.5 Conclusions and Recommendations 140
References 141
11 A Novel Matrix Approach to Determine Makespan for
Zero-Wait Batch Processes........................................ 143
Amir Shafeeq, M.I. Abdul Mutalib, K.A. Amminudin,
and Ayyaz Muhammad
11.1 Introduction 143
11.2 Batch Process 144
11.2.1 Makespan for Single-Product Batch Processing 145
11.2.2 Makespan for Multiproduct Batch Process 146
11.3 The Matrix Method 148
11.4 Application of the Matrix Method 150
11.5 Conclusion 152
References 153
12 Interactive Meta-Goal Programming: A Decision Analysis
Approach for Collaborative Manufacturing........................ 155
Hao W. Lin, Sev V. Nagalingam, and Grier C.I. Lin
12.1 Introduction 155
12.2 Decision Making in Collaborative Manufacturing 156
12.3 Interactive Meta-Goal Programming-Based Decision
Analysis Framework 157
12.3.1 Meta-Goals 157
12.3.2 Interactive Process 161
12.3.3 Interactive Meta-Goal Programming-Based Decision
Analysis Workflow 167
12.4 Example 169
12.5 Conclusion 171
References 172
13 Nonlinear Programming Based on Particle Swarm
Optimization..................................................... 173
Takeshi Matsui, Kosuke Kato, Masatoshi Sakawa, Takeshi Uno,
and Kenji Morihara
13.1 Introduction 173
13.2 Nonlinear Programming Problem 174
13.3 Particle Swarm Optimization 174
13.4 Improvement of Particle Swarm Optimization 175
13.4.1 Generation of Initial Search Positions of Particles 176
13.4.2 Modified Move Schemes of a Particle 176
13.4.3 Division of the Swarm into Two Subswarms 177
13.4.4 Secession 178
xii Contents
13.4.5 Multiple Stretching Technique 179
13.4.6 The Procedure of Revised PSO 180
13.5 Numerical Example 181
13.6 Conclusions 183
References 183
14 A Heuristic for the Capacitated Single Allocation
Hub Location Problem............................................ 185
Jeng-Fung Chen
14.1 Introduction 185
14.2 Previous Related Studies 186
14.3 A Model 187
14.4 Heuristic 188
14.4.1 Determining the Number of Hubs 188
14.4.2 Selecting Hub Locations 189
14.4.3 Allocating Nonhubs To Hubs 189
14.4.4 Heuristic SATLCHLP 190
14.5 Computational Results 190
14.5.1 Australia Post Data Set 191
14.5.2 Results 191
14.6 Conclusions and Suggestions for Future Research 194
References 195
15 Multimodal Transport: A Framework for Analysis................. 197
Mark K.H. Goh, Robert DeSouza, Miti Garg, Sumeet Gupta,
and Luo Lei
15.1 Introduction 197
15.2 Literature Review 199
15.3 Theoretical Framework 200
15.4 Research Methodology 201
15.5 Case Study 202
15.5.1 Railways 203
15.5.2 Road 203
15.5.3 Maritime 203
15.5.4 Multimodal 204
15.6 Future Directions for Research 207
References 208
16 Fractional Matchings of Graphs................................... 209
Jiguo Yu and Baoxiang Cao
16.1 Terminology and Notation 209
16.2 Basic Results on Fractional Matching 210
16.3 Fractional Factor-Critical Graph 211
16.4 Fractional Deleted Graphs 215
16.5 Fractional Covered Graphs 217
16.6 Fractional Extendable Graph 220
Contents xiii
16.7 Conclusion 224
References 224
17 Correlation Functions for Dynamic Load Balancing
of Cycle Shops.................................................... 227
Claudia Fiedler and Wolfgang Meyer
17.1 Problem Statement 227
17.2 Load-Balancing Systems: State of the Art 229
17.3 Process Plan and Resource Model 230
17.4 Theory of Correlation Scheduling 232
17.4.1 Two Processes Being Sent to the Plant 232
17.4.2 Three Processes Being Sent to the Plant 233
17.4.3 Generalization to n Processes 233
17.5 Dynamic Scheduling 234
17.5.1 Collision Functions 234
17.5.2 Scheduling Procedure 235
17.6 Load Balancing 237
17.6.1 Load Balancing at System Level 237
17.6.2 Load Balancing at Subsystem Level 238
17.7 Conclusion 242
References 243
18 Neural Network-Based Integral Sliding Mode Control
for Nonlinear Uncertain Systems.................................. 245
S.W. Wang and D.L. Yu
18.1 Introduction 245
18.1.1 Sliding Mode Control 245
18.1.2 Integral Sliding Mode Control 246
18.1.3 Radial Basis Function Neural Network Approximation 246
18.2 Problem Statement 247
18.3 New Integral Sliding Surface 248
18.4 Sliding Mode Control Law 253
18.5 Numerical Example 254
18.6 Conclusions 256
References 256
19 Decentralized Neuro-Fuzzy Control of a Class of
Nonlinear Systems................................................ 259
Miguel A. Hernandez and Yu Tang
19.1 Introduction 259
19.2 Problem Statement 260
19.3 Recurrent Neuro-fuzzy Networks 262
19.4 Design of the Decentralized Control 263
19.4.1 Control Law 263
19.4.2 Stability Analysis 264
19.5 Output Feedback 269
xiv Contents
19.6 Experimental Results 269
19.7 Conclusions 272
References 273
20 A New Training Algorithm of Adaptive Fuzzy Control for
Chaotic Dynamic Systems......................................... 275
Chun-Fei Hsu, Bore-Kuen Lee, and Tsu-Tian Lee
20.1 Introduction 275
20.2 Problem Formulation 277
20.3 Design of AFC with PID-Type Learning Algorithm 278
20.3.1 Approximation of Fuzzy System 278
20.3.2 Design of PID-AFC 279
20.3.3 Design of PID-AFC with Bound Estimation 281
20.4 Simulation Results 284
20.5 Conclusions 287
References 289
21 General-Purpose Simulation Management for Satellite
Navigation Signal Simulation...................................... 291
Ge Li, Xinyu Yao, and Kedi Huang
21.1 Introduction 291
21.2 The Real-Time Application Requirements 292
21.2.1 Requirements for the Simulation Architecture 292
21.2.2 Requirements of the Real-Time Calculation for the
High-Fidelity Model 292
21.2.3 Requirements of the Data Communication for
Different Layers 293
21.2.4 Requirements of the Real-Time Simulation Engine 293
21.3 A General-Purpose Architecture for Satellite Navigation Signal
Simulation 293
21.4 General-Purpose Real-Time Distributed Simulation
Managements 295
21.4.1 Experiment Design and Management Techniques 295
21.4.2 Simulation Database Techniques 296
21.4.3 Simulation Management Techniques 297
21.4.4 System Scalability Realization 298
21.5 Conclusions 298
References 299
22 Multilayered Quality-of-Service Architecture with Cross-layer
Coordination for Teleoperation System............................ 301
X.U. Lei and L.I. Guo-dong
22.1 Introduction 301
22.2 Network Performance Parameters Analysis 302
22.3 Architectural Framework 303
Contents xv
22.4 Communication Network QoS Enhancement 305
22.4.1 Network Layer QoS Optimization 305
22.4.2 Data Link Layer QoS Optimization 306
22.5 Resource Network QoS Enhancement 307
22.5.1 Transport Layer QoS Optimization 307
22.5.2 Presentation Layer QoS Enhancing 308
22.5.3 Session Layer QoS Supervision 309
22.5.4 Application Layer QoS 309
22.6 Cross-layer Coordination and Adaptation 309
22.7 Application Scenarios 311
22.8 Conclusion 313
References 313
23 Improvement of State Estimation for Systems with
Chaotic Noise..................................................... 315
Pitikhate Sooraksa and Prakob Jandaeng
23.1 Introduction 315
23.2 Improvement of Adaptive Kalman Filtering 316
23.3 Results 319
23.3.1 Model 319
23.3.2 Computer Simulation 319
23.4 Conclusion 325
References 325
24 Combined Sensitivity-Complementary Sensitivity Min-Max
Approach for Load Disturbance-Setpoint Tradeoff Design.......... 327
Ramon Vilanova and Orlando Arrieta
24.1 Introduction 327
24.2 Problem Formulation 328
24.2.1 PID Controller 329
24.2.2 Process Model 329
24.2.3 Design Problem Formulation 329
24.3 Solution to the Optimal Approximation Problem 331
24.4 Step Response Tuning 333
24.5 Disturbance Attenuation Tuning 335
24.6 Example 336
24.7 Trade-off Tuning 338
24.8 Conclusions 342
References 342
25 Nonlinear Adaptive Sliding Mode Control for a Rotary
Inverted Pendulum................................................ 345
Yanliang Zhang, Wei Tech Ang, Jiong Jin, Shudong Zhang,
and Zhihong Man
25.1 Introduction 345
xvi Contents
25.2 Background 346
25.2.1 Mathematical Model of System 346
25.2.2 Sliding Mode Control 347
25.2.3 Adaptive Control 348
25.3 Sliding Mode Control: Design and Simulation 348
25.3.1 Linear Sliding Mode Control 348
25.3.2 Nonlinear Sliding Mode Control 350
25.4 Nonlinear Adaptive Sliding Mode Control Design
and Simulation 353
25.4.1 System Parameters 353
25.4.2 Parameter Selection 356
25.5 Experimental Results 357
25.6 Conclusion 359
References 359
26 Robust Load Frequency Sliding Mode Control Based on
Uncertainty and Disturbance Estimator............................ 361
P.D. Shendge, B.M. Patre, and S.B. Phadke
26.1 Introduction 361
26.2 Dynamic Model for Load Frequency Control 362
26.3 Model Following and UDE-Based Control Law 364
26.4 Design of Control 364
26.4.1 Uncertainty and Disturbance Estimation
with First-Order Filter 366
26.4.2 Uncertainty and Disturbance Estimation
with Second-Order Filter 366
26.4.3 Uncertainty and Disturbance Estimation
with nth-Order Filter 367
26.5 Model Following and UDE Based LFC 368
26.6 Results 370
26.7 Conclusion 373
References 373
27 Robust Intelligent Motion Control for Linear Piezoelectric
Ceramic Motor System Using Self-constructing Neural Network___ 375
Chun-Fei Hsu, Bore-Kuen Lee, and Tsu-Tian Lee
27.1 Introduction 375
27.2 Problem Formulation 377
27.3 Robust Intelligent Motion Controller Design 378
27.3.1 Description of SCNN 379
27.3.2 Approximation of SCNN 381
27.3.3 Design of RIMC 382
27.4 Experimental Results 384
27.5 Conclusions 388
References 390
Contents xvjj
28 Development of Hybrid Magnetic Bearings System for
Axial-Flow Blood Pump........................................... 391
Lim Tau Meng and Cheng Shanbao
28.1 Introduction 391
28.2 Design of Axial-flow Blood Pump 392
28.3 Principles of Magnetic Bearings 394
28.4 Principles of Lorentz-type Motor 394
28.5 Control of the HMBs System 396
28.6 Performance of the HMBs System 397
28.7 Conclusions and Future Work 399
References 399
29 Critical Angle for Optimal Correlation Assignment to Control
Memory and Computational Load Requirements in a Densely
Populated Target Environment.................................... 401
D.M. Akbar Hussain and Zaki Ahmed
29.1 Introduction 402
29.2 Critical Angle Representation 402
29.3 Motion Model Consideration 404
29.4 Implementation 406
29.5 Performance Parameter 407
29.6 Simulation Results 408
29.7 Conclusion 412
References 413
30 High-Precision Finite Difference Method Calculations of
Electrostatic Potential............................................. 415
David Edwards, Jr.
30.1 Introduction 415
30.1.1 Historical Development 1970-2007 415
30.1.2 Brief Description of the Process 416
30.2 Construction of Order-10 Algorithm for General Mesh Points and
the Definition of the grad6 Function 417
30.3 Properties of the grad6 Function and the Definition of the
Maximum-Error Function 419
30.4 Comparison of Different Algorithms for the Two-Tube
Zero-Gap Lens 423
30.5 Application to Region Construction 425
30.6 Dependence of Algorithm Precision upon the Set of
Surrounding Points 426
30.7 Notes of Caution 428
30.8 Summary and Conclusion 430
Appendix A 431
References 432
xviii Contents
31 Newton-Tau Method.............................................. 433
Karim Ivaz and Bahrain Sadigh Mostahkam
31.1 Introduction 433
31.2 Solving Nonlinear Fredholm Integral Equation 433
31.2.1 Formulation of the Problem 433
31.2.2 Application of the Newton Method 434
31.2.3 Application of the Tau Method 435
31.2.4 Numerical Examples 436
31.3 Solving a System of Nonlinear Integral Equations 438
31.3.1 Formulation of the Problem 438
31.3.2 Application of the Newton Method to SNFIE 440
31.3.3 The Tau Method Applied to (8) 441
31.3.4 Numerical Examples 443
31.4 Solving Nonlinear Integro-Differential Equation 445
31.4.1 Formulation of the Problem 445
31.4.2 Application of the Newton Method 447
31.4.3 Application of the Tau Method 448
31.4.4 Numerical Examples 451
References 452
32 Reconfigurable Hardware Implementation of the Successive
Overrelaxation Method........................................... 453
Safaa J. Kasbah, Ramzi A. Haraty, and Issam W. Damaj
32.1 Introduction 453
32.2 Description of the Algorithm 455
32.3 Reconfigurable Computing 455
32.3.1 Hardware Compilation 456
32.3.2 Handel-C Language 457
32.4 Hardware Implementation of SOR 459
32.5 Experimental Results 462
32.6 Conclusion 464
References 464
33 Tabu Search Algorithm Based on Strategic Oscillation for
Nonlinear Minimum Spanning Tree Problems...................... 467
Hideki Katagiri, Masatoshi Sakawa, Kosuke Kato, Ichiro Nishizaki,
Takeshi Uno, and Tomohiro Hayashida
33.1 Introduction 467
33.2 Problem Formulation 468
33.3 Summary of Tabu Search 469
33.4 Tabu Search Algorithm Based on Strategic Oscillation for
Nonlinear MST Problems 469
33.4.1 Initial Solution 470
33.4.2 Neighborhood Structure and Local Search 471
33.4.3 Tabu List and Aspiration Criterion 471
Contents xix
33.4.4 Strategic Oscillation 471
33.4.5 Diversification 472
33.5 Numerical Experiment 472
33.6 Conclusion 475
References 475
34 Customization of Visual Lobe Measurement System for Testing
the Effects of Foveal Load......................................... 477
Cathy H.Y. Chiu and Alan H.S. Chan
34.1 Introduction 477
34.2 Design 480
34.2.1 Additional Features 480
34.2.2 Stimuli 481
34.2.3 Software 483
34.2.4 Apparatus 483
34.2.5 Output 483
34.3 Conclusion 484
References 485
Index................................................................ 487
|
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| id | DE-604.BV025591317 |
| illustrated | Illustrated |
| indexdate | 2024-12-20T14:30:58Z |
| institution | BVB |
| isbn | 9780387749037 0387749039 |
| language | English |
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| physical | XXVII, 497 S. graph. Darst. |
| publishDate | 2008 |
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| publisher | Springer |
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| series | Lecture notes in electrical engineering |
| series2 | Lecture notes in electrical engineering |
| spellingShingle | Advances in industrial engineering and operations research Lecture notes in electrical engineering |
| title | Advances in industrial engineering and operations research |
| title_auth | Advances in industrial engineering and operations research |
| title_exact_search | Advances in industrial engineering and operations research |
| title_full | Advances in industrial engineering and operations research Alan H. S. Chan ... eds. |
| title_fullStr | Advances in industrial engineering and operations research Alan H. S. Chan ... eds. |
| title_full_unstemmed | Advances in industrial engineering and operations research Alan H. S. Chan ... eds. |
| title_short | Advances in industrial engineering and operations research |
| title_sort | advances in industrial engineering and operations research |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020187683&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV022422356 |
| work_keys_str_mv | AT chanalanhs advancesinindustrialengineeringandoperationsresearch |