Verfügbarkeit: Reliability and risk issues in large scale safety-critical digital control systems

Reliability and risk issues in large scale safety-critical digital control systems:

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Weitere Verfasser:	Seong, Poong Hyun (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London Springer 2009
Schriftenreihe:	Springer series in reliability engineering
Schlagworte:	Digital control systems Digital control systems > Reliability Zuverlässigkeit Digitale Regelung
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	Erscheint: August 2008
Beschreibung:	XXIV, 303 S. 112 schw.-w. Ill., 36 schw.-w. Tab., 24 schw.-w. Fotos, 88 schw.-w. graph. Darst.
ISBN:	9781848003835

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adam_text	Contents List of Contributors ..........................................................................................xv List of Figures .................................................................................................xvii List of Tables .................................................................................................xxiii Part I Hardware-related Issues and Countermeasures 1 Reliability of Electronic Components ...........................................................3 Jong Gyun Choi, Poong Hyun Seong 1.1 Mathematical Reliability Models .............................................................5 1.2 Permanent Failure Models of the Electronic Components ........................7 1.3 Intermittent Failure Models of the Electronic Components .....................13 1.4 Transient Failure Models of the Electronic Components ........................15 1.5 Concluding Remarks .............................................................................20 References ....................................................................................................21 2 Issues in System Reliability and Risk Model 25 Hyun Gook Kang 2.1 System Reliability Models ....................................................................27 2.1.1 Simple System Structure ............................................................29 2.1.2 Complicated System Structure ....................................................31 viii Contents 2.2 Modeling of the Multi-tasking of Digital Systems ..................................32 2.2.1 Risk Concentration .....................................................................32 2.2.2 Dynamic Nature .........................................................................35 2.3 Estimation of Software Failure Probability ............................................36 2.3.1 Quantification of Software Reliability ........................................36 2.3.2 Assessment of Software Development Process ............................37 2.3.3 Other Issues ...............................................................................38 2.4 Evaluation of Fault Tolerance Features ..................................................38 2.5 Evaluation ofNetwork Communication Safety ......................................41 2.6 Assessment of Human Failure Probability .............................................42 2.7 Assessment of Common-cause Failure ..................................................43 2.8 Concluding Remarks .............................................................................45 References ....................................................................................................45 3 Case Studies for System Reliability and Risk Assessment .........................47 Jong Gyun Choi, Hyun Gook Kang, Poong Hyun Seong 3.1 Case Study 1 : Reliability Assessment of Digital Hardware Modules ......48 3.2 Case Study 2: Reliability Assessment of Embedded Digital System Using Multi-state Function ............................................51 3.2.1 Model ........................................................................................53 3.2.2 A Model Application to NPP Component Control System ...........59 3.3 Case Study 3 : Risk Assessment of Safety-critical Digital System ...........62 3.3.1 Procedures for the PRA of Digital I&C System ...........................63 3.3.2 System Layout and Modeling Assumptions ................................64 3.3.3 Quantification ............................................................................67 3.3.4 Sensitivity Study for the Fault Coverage and the Software Failure Probability ...........................................69 3.3.5 Sensitivity Study for Condition-based HRA Method ...................73 3.4 Concluding Remarks .............................................................................76 References ....................................................................................................76 Contents ix Part II Software-related Issues and Counter meas ures 4 Software Faults and Reliability ..................................................................81 Han Seong Son, Man Cheol Kim 4.1 Software Faults .....................................................................................81 4.1.1 Systematic Software Fault ..........................................................82 4.1.2 Random Software Fault ..............................................................83 4.1.3 Software Faults and System Reliability Estimation .....................84 4.2 Quantitative Software Reliability Models ..............................................84 4.2.1 A Classification of Quantitative Software Reliability Models ......85 4.2.2 Time-related Software Reliability Models Versus Non-time-related Software Reliability Models ............................86 4.2.3 Issues in Software Reliability Quantification ...............................87 4.2.4 Reliability Growth Models and Their Applicability .....................89 4.3 Qualitative Software Reliability Evaluation ...........................................91 4.3.1 Software Fault Tree Analysis ......................................................92 4.3.2 Software Failure Mode and Effect Analysis ................................98 4.3.3 Software Hazard and Operability Studies ....................................99 4.4 Concluding Remarks ...........................................................................1°° References .................................................................................................. 101 5 Software Reliability Improvement Techniques 105 Han Seong Son, Seo Ryong Koo 5.1 Formal Methods .................................................................................. 106 5.1.1 Formal Specification ................................................................107 5.1.2 Formal Verification ..................................................................108 5.1.3 Formal Methods and Fault Avoidance ......................................108 5.2 Verification and Validation .................................................................1 Ю 5.2.1 Lifecycle V&V ........................................................................112 5.2.2 Integrated Approach to V&V ....................................................113 5.3 Fault Tolerance Techniques .................................................................116 5.3.1 Diversity .................................................................................. 116 χ Contents 5.3.2 Block Recovery .......................................................................117 5.3.3 Perspectives on Software Fault Tolerance .................................118 5.4 Concluding Remarks ...........................................................................119 References ..................................................................................................119 6 NuSEE: Nuclear Software Engineering Environment .............................121 Seo Ryong Koo, Han Seong Son, Poong Hyun Seong 6.1 NuSEE Toolset ...................................................................................123 6.1.1 NuSISRT .................................................................................123 6.1.2 NuSRS .....................................................................................127 6.1.3 NuSDS ....................................................................................130 6.1.4 NuSCM ...................................................................................132 6.2 Concluding Remarks ...........................................................................133 References ..................................................................................................134 Part HI Human-factors-related Issues and Countermeasures 7 Human Reliability Analysis in Large-scale Digital Control Systems .......139 Jae Whan Kim 7.1 First-generation HRA Methods ...........................................................140 7.1.1 THERP ....................................................................................140 7.1.2 HCR ........................................................................................141 7.1.3 SLIM .......................................................................................142 7.1.4 HEART ...................................................................................142 7.2 Second-generation HRA Methods .......................................................143 7.2.1 CREAM ...................................................................................143 7.2.2 ATHEANA ..............................................................................148 7.2.3 The MDTA-based Method .......................................................151 7.3 Concluding Remarks ........................................................................... I59 References ..................................................................................................160 Contents xi 8 Human Factors Engineering in Large-scale Digital Control Systems......163 Jong Hyun Kim, Poong Hyun Seong 8.1 Analyses for HMI Design....................................................................164 8.1.1 Function Analysis ....................................................................164 8.1.2 Task Analysis ...........................................................................166 8.1.3 Cognitive Factors .....................................................................169 8.2 HMI Design ........................................................................................173 8.2.1 Computer-based Information Display .......................................174 8.2.2 Automation ..............................................................................180 8.2.3 Computerized Operator Support Systems ..................................183 8.3 Human Factors Engineering Verification and Validation ......................187 8.3.1 Verification ..............................................................................187 8.3.2 Validation ................................................................................188 8.4 Summary and Concluding Remarks .....................................................190 References ..................................................................................................191 9 HUPESS: Human Performance Evaluation Support System ..................197 Jun Su Ha, Poong Hyun Seong 9.1 Human Performance Evaluation with HUPESS ...................................199 9.1.1 Needs for the Human Performance Evaluation ..........................199 9.1.2 Considerations and Constraints in Development of HUPESS .... 199 9.2 Human Performance Measures ............................................................202 9.2.1 Plant Performance ....................................................................202 9.2.2 Personnel Task Performance .....................................................206 9.2.3 Situation Awareness (SA) .........................................................208 9.2.4 Workload .................................................................................212 9.2.5 Teamwork ................................................................................216 9.2.6 Anthropométrie and Physiological Factors ................................216 9.3 Human Performance Evaluation Support System (HUPESS) ...............217 9.3.1 Introduction .............................................................................217 9.3.2 Configuration of HUPESS ........................................................217 xii Contents 9.3.3 Integrated Measurement, Evaluation, and Analysis withHUPESS ..........................................................................220 9.4 Implications for HRA in ACRs ...........................................................223 9.4.1 Issues Related to HRA .............................................................223 9.4.2 Role of Human Performance Evaluation for HRA .....................223 9.5 Concluding Remarks ...........................................................................223 References ..................................................................................................224 Part IV Integrated System-related Issues and Countermeasures 10 Issues in Integrated Model of I&C Systems and Human Operators ........233 Man Cheol Kim, Poong Hyun Seong 10.1 Conventional Way of Considering I&C Systems and Human Operators .........................................................................233 10.2 Interdependency of I&C Systems and Human Operators ......................234 10.2.1 Risk Concentration on I&C Systems .........................................235 10.2.2 Effects of Instrument Faults on Human Operators .....................236 10.2.3 Dependency of I&C Systems on Human Operators ...................236 10.3 Important Factors in Situation Assessment of Human Operators ..........237 10.3.1 Possibilities of Providing Wrong Information to Human Operators .................................................................237 10.3.2 Operators Trust on Instruments ...............................................238 10.3.3 Different Difficulties in Correct Diagnosis of Different Accidents ..............................................................238 10.4 Concluding Remarks ...........................................................................238 References ..................................................................................................240 11 Countermeasures in Integrated Model of I&C Systems and Human Operators ..............................................................................241 Man Cheol Kim, Poong Hyun Seong 11.1 Human Operators Situation Assessment Model ..................................242 Contents xiii 11.1.1 Situation Assessment and Situation Awareness .........................242 11.1.2 Description of Situation Assessment Process ............................242 11.1.3 Modeling of Operators Rules ...................................................243 11.1.4 Bayesian Inference ...................................................................245 11.1.5 Knowledge-driven Monitoring .................................................246 11.1.6 Ideal Operators Versus Real Human Operators ..........................247 11.2 An Integrated Model of I&C Systems and Human Operators ...............248 11.2.1 A Mathematical Model for I&C Systems and Human Operators ...............................................................248 11.3 An Application to an Accident in an NPP ............................................249 11.3.1 Description on the Example Situation .......................................249 11.3.2 A Probable Scenario for the Example Situation .........................251 11.3.3 Quantitative Analysis for the Scenario ......................................252 11.3.4 Consideration of All Possible Scenarios ....................................254 11.3.5 Consideration of the Effects of Context Factors ........................255 11.4 Discussion ..........................................................................................259 11.5 Concluding Remarks ...........................................................................263 References ..................................................................................................264 12 INDESCO: Integrated Decision Support System to Aid the Cognitive Activities of Operators .......................................................265 Seung Jun Lee, Man Cheol Kim, Poong Hyun Seong 12.1 Main Control Room Environment ........................................................266 12.2 Cognitive Process Model for Operators in NPPs ..................................268 12.2.1 Human Cognitive Process Model ..............................................268 12.2.2 Cognitive Process Model for NPP Operators .............................269 12.3 Integrated Decision Support System to Aid Cognitive Activities of Operators (INDESCO) ....................................................................271 12.3.1 Architecture of INDESCO ........................................................271 12.3.2 Decision Support Systems for Cognitive Process ......................272 12.4 Quantitative Effect Estimation of Decision Support Systems ................275 12.4.1 Target System of the Evaluation ...............................................275 xiv Contents 12.4.2 HRA Event Trees .....................................................................276 12.4.3 Assumptions for Evaluations ....................................................279 12.4.4 Evaluation Scenarios ................................................................282 12.4.5 Evaluation Results ...................................................................283 12.5 Concluding Remarks ...........................................................................285 References ..................................................................................................286 Acronyms and Abbreviations .........................................................................289 Index ...............................................................................................................295 Reliability and Risk Issues in Large Scale Safety-critical Digital Control Systems Reliability and Risk Issues in Large Scale Safety-critical Digital Control Systems provides some important coverage of reliability issues and their corresponding countermeasures in the field of large-scale digital control systems, from the hardware and software in digital systems to the human operators who supervise the overall process of large-scale systems. Unlike other books which examine theories and issues in individual fields, this book reviews important problems and countermeasures across the fields of hardware and system reliability, software reliability, verification and validation, digital systems, human factors engineering and human reliability analysis. Divided into four sections dealing with hardware and digital system reliability, software reliability, human reliability and human operators in integrated large-scale digital systems operation, Reliability and Risk Issues in Large Scale Safety-critical Digital Control Systems offers insights from professional researchers in each specialized field in a diverse yet unified approach. Springer Series in Reliability Engineering publishes high quality books in important areas of current theoretical research and development in reliability, and in areas that bridge the gap between theory and application in areas of interest to practitioners in industry, laboratories, business, and government.
adam_txt	Contents List of Contributors .xv List of Figures .xvii List of Tables .xxiii Part I Hardware-related Issues and Countermeasures 1 Reliability of Electronic Components .3 Jong Gyun Choi, Poong Hyun Seong 1.1 Mathematical Reliability Models .5 1.2 Permanent Failure Models of the Electronic Components .7 1.3 Intermittent Failure Models of the Electronic Components .13 1.4 Transient Failure Models of the Electronic Components .15 1.5 Concluding Remarks .20 References .21 2 Issues in System Reliability and Risk Model 25 Hyun Gook Kang 2.1 System Reliability Models .27 2.1.1 Simple System Structure .29 2.1.2 Complicated System Structure .31 viii Contents 2.2 Modeling of the Multi-tasking of Digital Systems .32 2.2.1 Risk Concentration .32 2.2.2 Dynamic Nature .35 2.3 Estimation of Software Failure Probability .36 2.3.1 Quantification of Software Reliability .36 2.3.2 Assessment of Software Development Process .37 2.3.3 Other Issues .38 2.4 Evaluation of Fault Tolerance Features .38 2.5 Evaluation ofNetwork Communication Safety .41 2.6 Assessment of Human Failure Probability .42 2.7 Assessment of Common-cause Failure .43 2.8 Concluding Remarks .45 References .45 3 Case Studies for System Reliability and Risk Assessment .47 Jong Gyun Choi, Hyun Gook Kang, Poong Hyun Seong 3.1 Case Study 1 : Reliability Assessment of Digital Hardware Modules .48 3.2 Case Study 2: Reliability Assessment of Embedded Digital System Using Multi-state Function .51 3.2.1 Model .53 3.2.2 A Model Application to NPP Component Control System .59 3.3 Case Study 3 : Risk Assessment of Safety-critical Digital System .62 3.3.1 Procedures for the PRA of Digital I&C System .63 3.3.2 System Layout and Modeling Assumptions .64 3.3.3 Quantification .67 3.3.4 Sensitivity Study for the Fault Coverage and the Software Failure Probability .69 3.3.5 Sensitivity Study for Condition-based HRA Method .73 3.4 Concluding Remarks .76 References .76 Contents ix Part II Software-related Issues and Counter meas ures 4 Software Faults and Reliability .81 Han Seong Son, Man Cheol Kim 4.1 Software Faults .81 4.1.1 Systematic Software Fault .82 4.1.2 Random Software Fault .83 4.1.3 Software Faults and System Reliability Estimation .84 4.2 Quantitative Software Reliability Models .84 4.2.1 A Classification of Quantitative Software Reliability Models .85 4.2.2 Time-related Software Reliability Models Versus Non-time-related Software Reliability Models .86 4.2.3 Issues in Software Reliability Quantification .87 4.2.4 Reliability Growth Models and Their Applicability .89 4.3 Qualitative Software Reliability Evaluation .91 4.3.1 Software Fault Tree Analysis .92 4.3.2 Software Failure Mode and Effect Analysis .98 4.3.3 Software Hazard and Operability Studies .99 4.4 Concluding Remarks .1°° References . 101 5 Software Reliability Improvement Techniques 105 Han Seong Son, Seo Ryong Koo 5.1 Formal Methods . 106 5.1.1 Formal Specification .107 5.1.2 Formal Verification .108 5.1.3 Formal Methods and Fault Avoidance .108 5.2 Verification and Validation .1 Ю 5.2.1 Lifecycle V&V .112 5.2.2 Integrated Approach to V&V .113 5.3 Fault Tolerance Techniques .116 5.3.1 Diversity . 116 χ Contents 5.3.2 Block Recovery .117 5.3.3 Perspectives on Software Fault Tolerance .118 5.4 Concluding Remarks .119 References .119 6 NuSEE: Nuclear Software Engineering Environment .121 Seo Ryong Koo, Han Seong Son, Poong Hyun Seong 6.1 NuSEE Toolset .123 6.1.1 NuSISRT .123 6.1.2 NuSRS .127 6.1.3 NuSDS .130 6.1.4 NuSCM .132 6.2 Concluding Remarks .133 References .134 Part HI Human-factors-related Issues and Countermeasures 7 Human Reliability Analysis in Large-scale Digital Control Systems .139 Jae Whan Kim 7.1 First-generation HRA Methods .140 7.1.1 THERP .140 7.1.2 HCR .141 7.1.3 SLIM .142 7.1.4 HEART .142 7.2 Second-generation HRA Methods .143 7.2.1 CREAM .143 7.2.2 ATHEANA .148 7.2.3 The MDTA-based Method .151 7.3 Concluding Remarks . I59 References .160 Contents xi 8 Human Factors Engineering in Large-scale Digital Control Systems.163 Jong Hyun Kim, Poong Hyun Seong 8.1 Analyses for HMI Design.164 8.1.1 Function Analysis .164 8.1.2 Task Analysis .166 8.1.3 Cognitive Factors .169 8.2 HMI Design .173 8.2.1 Computer-based Information Display .174 8.2.2 Automation .180 8.2.3 Computerized Operator Support Systems .183 8.3 Human Factors Engineering Verification and Validation .187 8.3.1 Verification .187 8.3.2 Validation .188 8.4 Summary and Concluding Remarks .190 References .191 9 HUPESS: Human Performance Evaluation Support System .197 Jun Su Ha, Poong Hyun Seong 9.1 Human Performance Evaluation with HUPESS .199 9.1.1 Needs for the Human Performance Evaluation .199 9.1.2 Considerations and Constraints in Development of HUPESS . 199 9.2 Human Performance Measures .202 9.2.1 Plant Performance .202 9.2.2 Personnel Task Performance .206 9.2.3 Situation Awareness (SA) .208 9.2.4 Workload .212 9.2.5 Teamwork .216 9.2.6 Anthropométrie and Physiological Factors .216 9.3 Human Performance Evaluation Support System (HUPESS) .217 9.3.1 Introduction .217 9.3.2 Configuration of HUPESS .217 xii Contents 9.3.3 Integrated Measurement, Evaluation, and Analysis withHUPESS .220 9.4 Implications for HRA in ACRs .223 9.4.1 Issues Related to HRA .223 9.4.2 Role of Human Performance Evaluation for HRA .223 9.5 Concluding Remarks .223 References .224 Part IV Integrated System-related Issues and Countermeasures 10 Issues in Integrated Model of I&C Systems and Human Operators .233 Man Cheol Kim, Poong Hyun Seong 10.1 Conventional Way of Considering I&C Systems and Human Operators .233 10.2 Interdependency of I&C Systems and Human Operators .234 10.2.1 Risk Concentration on I&C Systems .235 10.2.2 Effects of Instrument Faults on Human Operators .236 10.2.3 Dependency of I&C Systems on Human Operators .236 10.3 Important Factors in Situation Assessment of Human Operators .237 10.3.1 Possibilities of Providing Wrong Information to Human Operators .237 10.3.2 Operators' Trust on Instruments .238 10.3.3 Different Difficulties in Correct Diagnosis of Different Accidents .238 10.4 Concluding Remarks .238 References .240 11 Countermeasures in Integrated Model of I&C Systems and Human Operators .241 Man Cheol Kim, Poong Hyun Seong 11.1 Human Operators' Situation Assessment Model .242 Contents xiii 11.1.1 Situation Assessment and Situation Awareness .242 11.1.2 Description of Situation Assessment Process .242 11.1.3 Modeling of Operators'Rules .243 11.1.4 Bayesian Inference .245 11.1.5 Knowledge-driven Monitoring .246 11.1.6 Ideal Operators Versus Real Human Operators .247 11.2 An Integrated Model of I&C Systems and Human Operators .248 11.2.1 A Mathematical Model for I&C Systems and Human Operators .248 11.3 An Application to an Accident in an NPP .249 11.3.1 Description on the Example Situation .249 11.3.2 A Probable Scenario for the Example Situation .251 11.3.3 Quantitative Analysis for the Scenario .252 11.3.4 Consideration of All Possible Scenarios .254 11.3.5 Consideration of the Effects of Context Factors .255 11.4 Discussion .259 11.5 Concluding Remarks .263 References .264 12 INDESCO: Integrated Decision Support System to Aid the Cognitive Activities of Operators .265 Seung Jun Lee, Man Cheol Kim, Poong Hyun Seong 12.1 Main Control Room Environment .266 12.2 Cognitive Process Model for Operators in NPPs .268 12.2.1 Human Cognitive Process Model .268 12.2.2 Cognitive Process Model for NPP Operators .269 12.3 Integrated Decision Support System to Aid Cognitive Activities of Operators (INDESCO) .271 12.3.1 Architecture of INDESCO .271 12.3.2 Decision Support Systems for Cognitive Process .272 12.4 Quantitative Effect Estimation of Decision Support Systems .275 12.4.1 Target System of the Evaluation .275 xiv Contents 12.4.2 HRA Event Trees .276 12.4.3 Assumptions for Evaluations .279 12.4.4 Evaluation Scenarios .282 12.4.5 Evaluation Results .283 12.5 Concluding Remarks .285 References .286 Acronyms and Abbreviations .289 Index .295 Reliability and Risk Issues in Large Scale Safety-critical Digital Control Systems Reliability and Risk Issues in Large Scale Safety-critical Digital Control Systems provides some important coverage of reliability issues and their corresponding countermeasures in the field of large-scale digital control systems, from the hardware and software in digital systems to the human operators who supervise the overall process of large-scale systems. Unlike other books which examine theories and issues in individual fields, this book reviews important problems and countermeasures across the fields of hardware and system reliability, software reliability, verification and validation, digital systems, human factors engineering and human reliability analysis. Divided into four sections dealing with hardware and digital system reliability, software reliability, human reliability and human operators in integrated large-scale digital systems operation, Reliability and Risk Issues in Large Scale Safety-critical Digital Control Systems offers insights from professional researchers in each specialized field in a diverse yet unified approach. Springer Series in Reliability Engineering publishes high quality books in important areas of current theoretical research and development in reliability, and in areas that bridge the gap between theory and application in areas of interest to practitioners in industry, laboratories, business, and government.
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illustrated	Illustrated
index_date	2024-07-02T22:22:49Z
indexdate	2024-07-09T21:22:54Z
institution	BVB
isbn	9781848003835
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016793296
oclc_num	233935006
open_access_boolean
owner	DE-703 DE-83
owner_facet	DE-703 DE-83
physical	XXIV, 303 S. 112 schw.-w. Ill., 36 schw.-w. Tab., 24 schw.-w. Fotos, 88 schw.-w. graph. Darst.
publishDate	2009
publishDateSearch	2009
publishDateSort	2009
publisher	Springer
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series2	Springer series in reliability engineering
spelling	Reliability and risk issues in large scale safety-critical digital control systems Poong Hyun Seong, ed. London Springer 2009 XXIV, 303 S. 112 schw.-w. Ill., 36 schw.-w. Tab., 24 schw.-w. Fotos, 88 schw.-w. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in reliability engineering Erscheint: August 2008 Digital control systems Digital control systems Reliability Zuverlässigkeit (DE-588)4059245-5 gnd rswk-swf Digitale Regelung (DE-588)4012293-1 gnd rswk-swf Digitale Regelung (DE-588)4012293-1 s Zuverlässigkeit (DE-588)4059245-5 s DE-604 Seong, Poong Hyun edt Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016793296&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016793296&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Reliability and risk issues in large scale safety-critical digital control systems Digital control systems Digital control systems Reliability Zuverlässigkeit (DE-588)4059245-5 gnd Digitale Regelung (DE-588)4012293-1 gnd
subject_GND	(DE-588)4059245-5 (DE-588)4012293-1
title	Reliability and risk issues in large scale safety-critical digital control systems
title_auth	Reliability and risk issues in large scale safety-critical digital control systems
title_exact_search	Reliability and risk issues in large scale safety-critical digital control systems
title_exact_search_txtP	Reliability and risk issues in large scale safety-critical digital control systems
title_full	Reliability and risk issues in large scale safety-critical digital control systems Poong Hyun Seong, ed.
title_fullStr	Reliability and risk issues in large scale safety-critical digital control systems Poong Hyun Seong, ed.
title_full_unstemmed	Reliability and risk issues in large scale safety-critical digital control systems Poong Hyun Seong, ed.
title_short	Reliability and risk issues in large scale safety-critical digital control systems
title_sort	reliability and risk issues in large scale safety critical digital control systems
topic	Digital control systems Digital control systems Reliability Zuverlässigkeit (DE-588)4059245-5 gnd Digitale Regelung (DE-588)4012293-1 gnd
topic_facet	Digital control systems Digital control systems Reliability Zuverlässigkeit Digitale Regelung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016793296&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016793296&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
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