Librarian View
Last updated in SearchWorks on November 25, 2023 9:40am
LEADER 13947cam a22006378i 4500
001
a10168137
003
SIRSI
005
20130615013641.0
006
m o d
007
cr |||
008
130220s2013 enk ob 001 0 eng
010
a| 2013007336
020
a| 9781118534823 (electronic bk.)
020
a| 1118534824 (electronic bk.)
020
a| 9781118534809 (electronic bk.)
020
a| 1118534808 (electronic bk.)
020
z| 9781118534793
020
z| 1118534794
020
z| 9781118534816
020
z| 1118534816
020
z| 9781118337844 (cloth)
020
z| 1118337840 (cloth)
035
a| (Sirsi) a10168137
040
a| DLC
b| eng
e| rda
e| pn
c| DLC
d| OCLCO
d| E7B
d| DG1
d| N$T
d| OCLCQ
d| YDXCP
d| CUS
d| CSt
d| UtOrBLW
042
a| pcc
049
a| STFA
050
1
4
a| Q342
072
7
a| COM
x| 005030
2| bisacsh
072
7
a| COM
x| 004000
2| bisacsh
082
0
4
a| 006.3
2| 23
100
1
a| Siddique, N. H.
245
1
0
a| Computational intelligence :
b| synergies of fuzzy logic, neural networks and evolutionary computing /
c| Nazmul Siddique, Hojjat Adeli.
263
a| 1306
264
1
a| Chichester, West Sussex, United Kingdom :
b| John Wiley & Sons Inc.,
c| 2013.
300
a| 1 online resource.
336
a| text
b| txt
2| rdacontent
337
a| computer
b| c
2| rdamedia
338
a| online resource
b| cr
2| rdacarrier
504
a| Includes bibliographical references and index.
588
a| Description based on print version record.
650
0
a| Computational intelligence.
650
7
a| COMPUTERS
x| Enterprise Applications
x| Business Intelligence Tools.
2| bisacsh
650
7
a| COMPUTERS
x| Intelligence (AI) & Semantics.
2| bisacsh
700
1
a| Adeli, Hojjat,
d| 1950-
776
0
8
i| Print version:
a| Siddique, N.H.
t| Computational intelligence
d| Chichester, West Sussex, United Kingdom : John Wiley & Sons Inc., 2013
z| 9781118337844
w| (DLC) 2012047736
994
a| 92
b| STF
856
4
0
z| Available to Stanford-affiliated users.
u| http://dx.doi.org/10.1002/9781118534823
y| Wiley Online Library
x| Provider: John Wiley
x| purchased
x| eLoaderURL
x| wl4
x| wlocn828193875
596
a| 22
035
a| (OCoLC-M)828193875
035
a| (OCoLC-I)848176828
905
0
a| Foreword vii Preface ix Acknowledgement xi Chapter 1: Introduction 1-20 1.1 Computational Intelligence 1 1.2 Paradigms of Computational Intelligence 2 1.3 Synergies of Computational Intelligence Techniques 11 1.4 Applications of Computational Intelligence 13 1.5 Grand Challenges of Computational Intelligence 14 1.6 Overview of the Book 14 1.7 Matlab Basics 16 1.8 Bibliography 17 Chapter 2: Fuzzy Logic 21-78 2.1 Introduction 21 2.2 Fuzzy Logic 23 2.3 Fuzzy Sets 24 2.4 Membership Functions 25 2.5 Features of MFs 30 2.6 Operations on Fuzzy sets 32 2.7 Linguistic Variables 39 2.8 Linguistic Hedges 42 2.9 Fuzzy Relations 45 2.10 Fuzzy If-Then Rules 48 2.11 Fuzzification 52 2.12 Defuzzification 54 2.13 Inference Mechanism 59 2.13.1 Mamdani Fuzzy Inference 60 2.13.2 Sugeno Fuzzy Inference 61 2.13.3 Tsukamoto Fuzzy Inference 65 2.14 Worked out Examples 67 2.15 Matlab Programs 76 2.16 Bibliography 77 Chapter 3: Fuzzy Systems and Applications 79-128 3.1 Introduction 79 3.2 Fuzzy System 80 3.3 Fuzzy Modelling 81 3.3.1 Structure Identification 82 3.3.2 Parameter Identification 85 3.3.3 Construction of parameterised Membership Functions 86 3.4 Fuzzy Control 92 3.4.1 Fuzzification 93 3.4.2 Inference Mechanism 93 3.4.3 Rule-base 98 3.4.4 Defuzzification 100 3.5 Design of Fuzzy Controller 101 3.5.1 Input-output Selection 102 3.5.2 Choice of Membership Functions 102 3.5.3 Creation of Rule-base 103 3.5.4 Types of Fuzzy Controller 104 3.6 Modular Fuzzy Controller .121 3.7 Matlab Programs 124 3.8 Bibliography 125 Chapter 4: Neural Networks 129-201 4.1 Introduction 129 4.2 Artificial Neuron Model 130 4.3 Activation Functions 132 4.4 Network Architecture 134 4.4.1 Feedforward Networks 134 4.4.1.1 Multilayer Perceptron (MLP) Networks 136 4.4.1.2 Radial Basis Function (RBF) Networks 138 4.4.1.3 General Regression Neural Networks 142 4.4.1.4 Probabilistic Neural Network 146 4.4.1.5 Belief Network 149 4.4.1.6 Hamming Network 150 4.4.1.7 Stochastic Networks 153 4.5 Learning in Neural Networks 153 4.5.1 Supervised learning 154 4.5.1.1 Widro-Hoff Learning Algorithm 155 4.5.1.2 Gradient Descent Rule 4.5.1.3 Generalised Delta Learning Rule 162 4.5.1.4 Backpropagation Learning Algorithm 165 4.5.1.5 Cohen-Grossberg Learning Rule 171 4.5.1.6 Adaptive Conjugate Gradient Model of Adeli and Hung 173 4.5.2 Unsupervised Learning 173 4.5.2.1 Hebbian Learning Rule 174 4.5.2.2 Kohonen Learning 178 4.6 Recurrent Neural Networks 187 4.6.1 Elman Networks 189 4.6.2 Jordan Networks 192 4.6.3 Hopfield Networks 194 4.7 Matlab Programs 198 4.8 Bibliography 198 Chapter 5: Neural Systems 202-232 5.1 Introduction 200 5.2 System Identification and Control 201 5.2.1 System Description 201 5.2.2 System Identification 202 5.2.3 System Control ..203 5.3 Neural Networks for Control 205 5.3.1 System Identification 206 5.3.2 Neural Networks for Control Design 208 5.3.2.1 NN-based direct (or specialised learning) control 209 5.3.2.2 NN-based indirect control .210 5.3.2.3 Backpropagation-through time control 211 5.3.2.4 NN-based direct inverse control 212 5.3.2.5 Model Predictive Control 214 5.3.2.6 NN-based Adaptive Control 216 5.3.2.7 NARMA-L2 (Feedback Linearization) Control 223 5.4 Matlab Programs 226 5.5 Bibliography 227 Chapter 6: Evolutionary Computation 233-304 6.1 Introduction 233 6.2 Evolutionary Computing 234 6.3 Terminologies of Evolutionary Computing 235 6.3.1 Chromosome Representation 235 6.3.2 Encoding Scheme 236 6.3.3 Population 243 6.3.4 Evaluation (or Fitness) Functions 245 6.3.5 Fitness Scaling 246 6.4 Genetic Operators 247 6.4.1 Selection Operators 247 6.4.2 Crossover Operators 252 6.4.3 Mutation Operators 261 6.5 Performance Measure of EA 264 6.6 Evolutionary Algorithms 265 6.6.1 Evolutionary Programming 265 6.6.2 Evolution Strategies 271 6.6.3 Genetic Algorithms 277 6.6.4 Genetic Programming 283 6.6.5 Differential Evolution 294 6.6.6 Cultural Algorithm 299 6.7 Matlab Programs 300 6.8 Bibliography 301 Chapter 7: Evolutionary Systems 305-340 7.1 Optimisation .305 7.2 Multi-objective Optimisation ..310 7.2.1 Vector Evaluated GA 315 7.2.2 Multi-objective GA 315 7.2.3 Niched Pareto GA .316 7.2.4 Non-dominated Sorting GA 316 7.2.5 Strength Pareto Evolutionary Algorithm 318 7.3 Co-evolution .319 7.3.1 Cooperative Co-evolution 324 7.3.2 Competitive Co-evolution .326 7.4 Parallel Evolutionary Algorithms 328 7.4.1 Global GA 329 7.4.2 Migration (or Island) Model GA 330 7.4.3 Diffusion GA .331 7.4.4 Hybrid Parallel GA 334 7.5 Bibliography .336 Chapter 8: Evolutionary Fuzzy Systems 341-392 8.1 Introduction 341 8.2 Evolutionary Adaptive Fuzzy Systems 343 8.2.1 Evolutionary Tuning of Fuzzy Systems 345 8.2.2 Evolutionary Learning of Fuzzy Systems 361 8.3 Objective Functions and Evaluation 368 8.3.1 Objective Functions 368 8.3.2 Evaluation 370 8.4 Fuzzy Adaptive Evolutionary Algorithms 371 8.4.1 Fuzzy Logic based Control of EA Parameters 374 8.4.2 Fuzzy Logic based Genetic Operators of EA 387 8.5 Bibliography 388 Chapter 9: Evolutionary Neural Systems 393-455 9.1 Introduction 393 9.2 Supportive Combinations 395 9.2.1 NN-EA Supportive Combination 395 9.2.2 EA-NN Supportive Combination 398 9.3 Collaborative Combinations 406 9.3.1 EA for NN Connection Weight Training 408 9.3.2 EA for NN Architectures 416 9.3.3 EA for NN Node Transfer Functions 430 9.3.4 EA for NN Weight, Architecture and Transfer Function Training 434 9.4 Amalgamated Combination 437 9.5 Competing Conventions 440 9.6 Bibliography 447 Chapter 10: Neuro Fuzzy Systems 455-530 10.1 Introduction 455 10.2 Combination of Neural and Fuzzy Systems 458 10.3 Cooperative Neuro-Fuzzy Systems 459 10.3.1 Cooperative FS-NN Systems 460 10.3.2 Cooperative NN-FS Systems 461 10.4 Concurrent Neuro-Fuzzy Systems 470 10.5 Hybrid Neuro-Fuzzy Systems 471 10.5.1 Fuzzy Neural Networks with Mamdani-type Fuzzy Inference System 472 10.5.2 Fuzzy Neural Networks with Takagi-Sugeno-type Fuzzy Inference System 474 10.5.3 Fuzzy Neural Networks with Tsukamoto-type Fuzzy Inference System 476 10.5.4 Neural Network based Fuzzy System (Sigma-Pi Network) 480 10.5.5 Fuzzy-Neural System Architecture with Ellipsoid Input Space 484 10.5.6 Fuzzy Adaptive Learning Control Network (FALCON) 487 10.5.7 Approximate Reasoning based Intelligent Control (ARIC) 490 10.5.8 Generalised ARIC (GARIC) 495 10.5.9 Fuzzy Basis Function Networks (FBFN) 502 10.5.10 FUzzy Net (FUN) 505 10.5.11 Combination of Fuzzy Inference and Neural Network in Fuzzy Inference Software (FINEST) 507 10.5.12 Neuro-Fuzzy Controller (NEFCON) 510 10.5.13 Self-constructing Neural Fuzzy Inference Network (SONFIN) 512 10.6 Adaptive Neuro-Fuzzy System 515 10.6.1 Adaptive Neuro-Fuzzy Inference System (ANFIS) 516 10.6.2 Coactive Neuro-Fuzzy Inference System (CANFIS) 519 10.7 Fuzzy Neurons 523 10.8 Matlab Programs 526 10.9 Bibliography 527 Appendix531-606 Index.
1| Nielsen
x| 9781118534823
x| 20160611
920
b| Computational Intelligence: Synergies of Fuzzy Logic, Neural Networks and Evolutionary Computing presents an introduction to some of the cutting edge technological paradigms under the umbrella of computational intelligence. Computational intelligence schemes are investigated with the development of a suitable framework for fuzzy logic, neural networks and evolutionary computing, neuro-fuzzy systems, evolutionary-fuzzy systems and evolutionary neural systems. Applications to linear and non-linear systems are discussed with examples. Key features: Covers all the aspects of fuzzy, neural and evolutionary approaches with worked out examples, MATLAB(R) exercises and applications in each chapter Presents the synergies of technologies of computational intelligence such as evolutionary fuzzy neural fuzzy and evolutionary neural systems Considers real world problems in the domain of systems modelling, control and optimization Contains a foreword written by Lotfi Zadeh Computational Intelligence: Synergies of Fuzzy Logic, Neural Networks and Evolutionary Computing is an ideal text for final year undergraduate, postgraduate and research students in electrical, control, computer, industrial and manufacturing engineering.
1| Nielsen
x| 9781118534823
x| 20160611
905
0
a| Foreword xiii Preface xv Acknowledgements xix 1 Introduction to Computational Intelligence 1 1.1 Computational Intelligence 1 1.2 Paradigms of Computational Intelligence 2 1.3 Approaches to Computational Intelligence 3 1.4 Synergies of Computational Intelligence Techniques 11 1.5 Applications of Computational Intelligence 12 1.6 Grand Challenges of Computational Intelligence 13 1.7 Overview of the Book 13 1.8 MATLAB R - Basics 14 References 15 2 Introduction to Fuzzy Logic 19 2.1 Introduction 19 2.2 Fuzzy Logic 20 2.3 Fuzzy Sets 21 2.4 Membership Functions 22 2.5 Features of MFs 27 2.6 Operations on Fuzzy Sets 29 2.7 Linguistic Variables 33 2.8 Linguistic Hedges 35 2.9 Fuzzy Relations 37 2.10 Fuzzy If--Then Rules 39 2.11 Fuzzification 43 2.12 Defuzzification 44 2.13 Inference Mechanism 48 2.14 Worked Examples 54 2.15 MATLAB R - Programs 61 References 61 3 Fuzzy Systems and Applications 65 3.1 Introduction 65 3.2 Fuzzy System 66 3.3 Fuzzy Modelling 67 3.4 Fuzzy Control 75 3.5 Design of Fuzzy Controller 81 3.6 Modular Fuzzy Controller 97 3.7 MATLAB R - Programs 99 References 100 4 Neural Networks 103 4.1 Introduction 103 4.2 Artificial Neuron Model 106 4.3 Activation Functions 107 4.4 Network Architecture 108 4.5 Learning in Neural Networks 124 4.6 Recurrent Neural Networks 149 4.7 MATLAB R - Programs 155 References 156 5 Neural Systems and Applications 159 5.1 Introduction 159 5.2 System Identification and Control 160 5.3 Neural Networks for Control 163 5.4 MATLAB R - Programs 179 References 180 6 Evolutionary Computing 183 6.1 Introduction 183 6.2 Evolutionary Computing 183 6.3 Terminologies of Evolutionary Computing 185 6.4 Genetic Operators 194 6.5 Performance Measures of EA 208 6.6 Evolutionary Algorithms 209 6.7 MATLAB R - Programs 234 References 235 7 Evolutionary Systems 239 7.1 Introduction 239 7.2 Multi-objective Optimization 243 7.3 Co-evolution 250 7.4 Parallel Evolutionary Algorithm 256 References 262 8 Evolutionary Fuzzy Systems 265 8.1 Introduction 265 8.2 Evolutionary Adaptive Fuzzy Systems 267 8.3 Objective Functions and Evaluation 287 8.4 Fuzzy Adaptive Evolutionary Algorithms 290 References 303 9 Evolutionary Neural Networks 307 9.1 Introduction 307 9.2 Supportive Combinations 309 9.3 Collaborative Combinations 318 9.4 Amalgamated Combination 343 9.5 Competing Conventions 345 References 351 10 Neural Fuzzy Systems 357 10.1 Introduction 357 10.2 Combination of Neural and Fuzzy Systems 359 10.3 Cooperative Neuro-Fuzzy Systems 360 10.4 Concurrent Neuro-Fuzzy Systems 369 10.5 Hybrid Neuro-Fuzzy Systems 369 10.6 Adaptive Neuro-Fuzzy System 404 10.7 Fuzzy Neurons 409 10.8 MATLAB R - Programs 411 References 412 Appendix A: MATLAB R - Basics 415 Appendix B: MATLAB R - Programs for Fuzzy Logic 433 Appendix C: MATLAB R - Programs for Fuzzy Systems 443 Appendix D: MATLAB R - Programs for Neural Systems 461 Appendix E: MATLAB R - Programs for Neural Control Design 473 Appendix F: MATLAB R - Programs for Evolutionary Algorithms 489 Appendix G: MATLAB R - Programs for Neuro-Fuzzy Systems 497 Index 507.
1| Nielsen
x| 9781118337844
x| 20160612
035
a| (Sirsi) wlocn828193875
999
f
f
i| d94afe9d-9935-5f97-8200-b7186184e2b8
s| 9026cc32-3872-5554-b5b7-231df338782b
Holdings JSON
{
"holdings": [
{
"id": "b585f605-57b0-500d-b7d3-c72d4a08cec5",
"hrid": "ah10168137_1",
"notes": [
],
"_version": 1,
"metadata": {
"createdDate": "2023-08-21T14:57:48.390Z",
"updatedDate": "2023-08-21T14:57:48.390Z",
"createdByUserId": "58d0aaf6-dcda-4d5e-92da-012e6b7dd766",
"updatedByUserId": "58d0aaf6-dcda-4d5e-92da-012e6b7dd766"
},
"sourceId": "f32d531e-df79-46b3-8932-cdd35f7a2264",
"boundWith": null,
"formerIds": [
],
"illPolicy": null,
"instanceId": "d94afe9d-9935-5f97-8200-b7186184e2b8",
"holdingsType": {
"id": "996f93e2-5b5e-4cf2-9168-33ced1f95eed",
"name": "Electronic",
"source": "folio"
},
"holdingsItems": [
],
"callNumberType": null,
"holdingsTypeId": "996f93e2-5b5e-4cf2-9168-33ced1f95eed",
"electronicAccess": [
],
"bareHoldingsItems": [
],
"holdingsStatements": [
],
"statisticalCodeIds": [
],
"administrativeNotes": [
],
"effectiveLocationId": "b0a1a8c3-cc9a-487c-a2ed-308fc3a49a91",
"permanentLocationId": "b0a1a8c3-cc9a-487c-a2ed-308fc3a49a91",
"suppressFromDiscovery": false,
"holdingsStatementsForIndexes": [
],
"holdingsStatementsForSupplements": [
],
"location": {
"effectiveLocation": {
"id": "b0a1a8c3-cc9a-487c-a2ed-308fc3a49a91",
"code": "SUL-ELECTRONIC",
"name": "online resource",
"campus": {
"id": "c365047a-51f2-45ce-8601-e421ca3615c5",
"code": "SUL",
"name": "Stanford Libraries"
},
"details": {
},
"library": {
"id": "c1a86906-ced0-46cb-8f5b-8cef542bdd00",
"code": "SUL",
"name": "SUL"
},
"isActive": true,
"institution": {
"id": "8d433cdd-4e8f-4dc1-aa24-8a4ddb7dc929",
"code": "SU",
"name": "Stanford University"
}
},
"permanentLocation": {
"id": "b0a1a8c3-cc9a-487c-a2ed-308fc3a49a91",
"code": "SUL-ELECTRONIC",
"name": "online resource",
"campus": {
"id": "c365047a-51f2-45ce-8601-e421ca3615c5",
"code": "SUL",
"name": "Stanford Libraries"
},
"details": {
},
"library": {
"id": "c1a86906-ced0-46cb-8f5b-8cef542bdd00",
"code": "SUL",
"name": "SUL"
},
"isActive": true,
"institution": {
"id": "8d433cdd-4e8f-4dc1-aa24-8a4ddb7dc929",
"code": "SU",
"name": "Stanford University"
}
}
}
}
],
"items": [
]
}
FOLIO JSON
{
"pieces": [
null
],
"instance": {
"id": "d94afe9d-9935-5f97-8200-b7186184e2b8",
"hrid": "a10168137",
"notes": [
{
"note": "Includes bibliographical references and index",
"staffOnly": false,
"instanceNoteTypeId": "86b6e817-e1bc-42fb-bab0-70e7547de6c1"
},
{
"note": "Description based on print version record",
"staffOnly": false,
"instanceNoteTypeId": "66ea8f28-d5da-426a-a7c9-739a5d676347"
}
],
"title": "Computational intelligence : synergies of fuzzy logic, neural networks and evolutionary computing / Nazmul Siddique, Hojjat Adeli.",
"series": [
],
"source": "MARC",
"_version": 1,
"editions": [
],
"metadata": {
"createdDate": "2023-08-21T14:55:20.600Z",
"updatedDate": "2023-08-21T14:55:20.600Z",
"createdByUserId": "58d0aaf6-dcda-4d5e-92da-012e6b7dd766",
"updatedByUserId": "58d0aaf6-dcda-4d5e-92da-012e6b7dd766"
},
"statusId": "9634a5ab-9228-4703-baf2-4d12ebc77d56",
"subjects": [
"Computational intelligence",
"COMPUTERS Enterprise Applications Business Intelligence Tools",
"COMPUTERS Intelligence (AI) & Semantics"
],
"languages": [
"eng"
],
"indexTitle": "Computational intelligence : synergies of fuzzy logic, neural networks and evolutionary computing",
"identifiers": [
{
"value": "2013007336",
"identifierTypeId": "c858e4f2-2b6b-4385-842b-60732ee14abb"
},
{
"value": "9781118534823 (electronic bk.)",
"identifierTypeId": "8261054f-be78-422d-bd51-4ed9f33c3422"
},
{
"value": "1118534824 (electronic bk.)",
"identifierTypeId": "8261054f-be78-422d-bd51-4ed9f33c3422"
},
{
"value": "9781118534809 (electronic bk.)",
"identifierTypeId": "8261054f-be78-422d-bd51-4ed9f33c3422"
},
{
"value": "1118534808 (electronic bk.)",
"identifierTypeId": "8261054f-be78-422d-bd51-4ed9f33c3422"
},
{
"value": "9781118534793",
"identifierTypeId": "fcca2643-406a-482a-b760-7a7f8aec640e"
},
{
"value": "1118534794",
"identifierTypeId": "fcca2643-406a-482a-b760-7a7f8aec640e"
},
{
"value": "9781118534816",
"identifierTypeId": "fcca2643-406a-482a-b760-7a7f8aec640e"
},
{
"value": "1118534816",
"identifierTypeId": "fcca2643-406a-482a-b760-7a7f8aec640e"
},
{
"value": "9781118337844 (cloth)",
"identifierTypeId": "fcca2643-406a-482a-b760-7a7f8aec640e"
},
{
"value": "1118337840 (cloth)",
"identifierTypeId": "fcca2643-406a-482a-b760-7a7f8aec640e"
},
{
"value": "(Sirsi) a10168137",
"identifierTypeId": "7e591197-f335-4afb-bc6d-a6d76ca3bace"
},
{
"value": "(OCoLC-M)828193875",
"identifierTypeId": "439bfbae-75bc-4f74-9fc7-b2a2d47ce3ef"
},
{
"value": "(OCoLC-I)848176828",
"identifierTypeId": "439bfbae-75bc-4f74-9fc7-b2a2d47ce3ef"
},
{
"value": "(Sirsi) wlocn828193875",
"identifierTypeId": "7e591197-f335-4afb-bc6d-a6d76ca3bace"
}
],
"publication": [
{
"role": "Publication",
"place": "Chichester, West Sussex, United Kingdom",
"publisher": "John Wiley & Sons Inc",
"dateOfPublication": "2013"
}
],
"contributors": [
{
"name": "Siddique, N. H",
"primary": true,
"contributorTypeId": "9f0a2cf0-7a9b-45a2-a403-f68d2850d07c",
"contributorNameTypeId": "2b94c631-fca9-4892-a730-03ee529ffe2a"
},
{
"name": "Adeli, Hojjat, 1950-",
"primary": false,
"contributorTypeId": "9f0a2cf0-7a9b-45a2-a403-f68d2850d07c",
"contributorNameTypeId": "2b94c631-fca9-4892-a730-03ee529ffe2a"
}
],
"catalogedDate": "2013-06-13",
"staffSuppress": false,
"instanceTypeId": "6312d172-f0cf-40f6-b27d-9fa8feaf332f",
"previouslyHeld": false,
"classifications": [
{
"classificationNumber": "Q342",
"classificationTypeId": "ce176ace-a53e-4b4d-aa89-725ed7b2edac"
},
{
"classificationNumber": "006.3",
"classificationTypeId": "42471af9-7d25-4f3a-bf78-60d29dcf463b"
}
],
"instanceFormats": [
],
"electronicAccess": [
{
"uri": "http://dx.doi.org/10.1002/9781118534823",
"name": "Resource",
"linkText": "Wiley Online Library",
"publicNote": "Available to Stanford-affiliated users",
"relationshipId": "f5d0068e-6272-458e-8a81-b85e7b9a14aa"
}
],
"holdingsRecords2": [
],
"modeOfIssuanceId": "9d18a02f-5897-4c31-9106-c9abb5c7ae8b",
"publicationRange": [
],
"statisticalCodes": [
],
"alternativeTitles": [
],
"discoverySuppress": false,
"instanceFormatIds": [
"f5e8210f-7640-459b-a71f-552567f92369"
],
"publicationPeriod": {
"start": 2013
},
"statusUpdatedDate": "2023-08-21T14:55:20.405+0000",
"statisticalCodeIds": [
],
"administrativeNotes": [
],
"physicalDescriptions": [
"1 online resource."
],
"publicationFrequency": [
],
"suppressFromDiscovery": false,
"natureOfContentTermIds": [
]
},
"holdingSummaries": [
{
"poLineId": null,
"orderType": null,
"orderStatus": null,
"poLineNumber": null,
"orderSentDate": null,
"orderCloseReason": null,
"polReceiptStatus": null
}
]
}
