Verfügbarkeit: Techno-Economic evaluation of 5G technology for latency-critical applications in production

Techno-Economic evaluation of 5G technology for latency-critical applications in production: = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion

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Bibliographische Detailangaben
1. Verfasser:	Kiesel, Raphael (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Aachen Apprimus Verlag 2022
Ausgabe:	1. Auflage
Schriftenreihe:	Ergebnisse aus der Produktionstechnik Band 34/2022
Schlagworte:	Technologiemanagement Networked Control System 5G Wirtschaftlichkeit Technikbewertung Fertigungstechnik Produktionsqualität und Messtechnik Digitalisierung Messtechnik und Qualität Undustrie 4.0 Hochschulschrift
Online-Zugang:	Volltext Inhaltsverzeichnis
Beschreibung:	151, lxiv Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 346 g
ISBN:	9783985551156 3985551154
DOI:	10.18154/RWTH-2022-09700

Internformat

MARC


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Datensatz im Suchindex

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adam_text	I TABLE OF CONTENTS I TABLE OF CONTENTS................................................................................................ III II EQUATION SYMBOLS AND ABBREVIATIONS ............................................................. VII III LIST OF FIGURES .................................................................................................... XV IV LIST OF TABLES ..................................................................................................... XIX 1 INTRODUCTION .......................................................................................................... 1 1.1 MOTIVATION & RESEARCH QUESTION ................................................................... 1 1.2 RESEARCH APPROACH & THESIS STRUCTURE ........................................................ 4 2 LATENCY-CRITICAL APPLICATIONS IN PRODUCTION ...................................................... 7 2.1 DEFINITION OF TERMS ........................................................................................ 7 2.1.1 APPLICATIONS IN PRODUCTION ................................................................ 7 2.1.2 APPLICATION-PERCEIVED LATENCY ......................................................... 8 2.1.3 LATENCY-CRITICAL APPLICATION ............................................................... 9 2.2 RELEVANCE OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION ........................... 11 2.3 CONTROL SYSTEMS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION .................. 13 2.3.1 CONTROL SYSTEMS .............................................................................. 13 2.3.2 NETWORKED CONTROL SYSTEMS ............................................................ 15 2.3.3 LATENCIES IN NETWORKED CONTROL SYSTEMS ....................................... 17 2.4 INTERIM CONCLUSION ....................................................................................... 19 3 WIRELESS INDUSTRIAL COMMUNICATION TECHNOLOGY ............................................. 21 3.1 DEFINITION OF TERMS ...................................................................................... 21 3.1.1 COMMUNICATION ............................................................................... 21 3.1.2 COMMUNICATION SYSTEM .................................................................. 22 3.1.3 INDUSTRIAL COMMUNICATION TECHNOLOGIES ......................................... 22 3.2 PERFORMANCE REQUIREMENTS OF INDUSTRIAL COMMUNICATION TECHNOLOGIES FOR NCS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION ............................... 24 3.2.1 PERFORMANCE CHARACTERISTICS OF INDUSTRIAL COMMUNICATION TECHNOLOGIES ................................................................................. 24 3.2.2 RANGES OF PERFORMANCE CHARACTERISTICS OF INDUSTRIAL COMMUNICATION TECHNOLOGIES ....................................................... 27 3.2.3 PERFORMANCE REQUIREMENTS FOR INDUSTRIAL COMMUNICATION TECHNOLOGIES OF LATENCY-CRITICAL APPLICATIONS ................................ 28 3.3 INDUSTRIAL COMMUNICATION TECHNOLOGIES FOR NCS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION ........................................................................... 34 3.3.1 CURRENT WIRELESS INDUSTRIAL COMMUNICATION TECHNOLOGIES ............ 34 3.3.2 EVALUATION OF CURRENT INDUSTRIAL COMMUNICATION TECHNOLOGIES .... 40 3.4 5G TECHNOLOGY IN PRODUCTION ...................................................................... 41 3.4.1 5G TECHNOLOGY NETWORK ARCHITECTURE ............................................ 42 3.4.2 PERFORMANCE CHARACTERISTICS AND SERVICES OF 5G TECHNOLOGY ...... 46 IV I TABLE OF CONTENTS 3.4.3 CURRENT DEVELOPMENT STATE OF 5G TECHNOLOGY IN PRODUCTION ....... 49 3.4.4 USE CASES AND POTENTIAL OF 5G TECHNOLOGY TO CONTROL LATENCY CRITICAL APPLICATIONS IN PRODUCTION .................................................. 50 3.4.5 CURRENT STATE AND BARRIERS OF 5G TECHNOLOGY DEPLOYMENT IN PRODUCTION ...................................................................................... 53 3.5 INTERIM CONCLUSION ....................................................................................... 55 4 DERIVATION OF REQUIREMENTS AND ANALYSIS OF EXISTING APPROACHES ............. 57 4.1 DERIVATION OF REQUIREMENTS FOR AN EVALUATION APPROACH ........................... 57 4.1.1 PRODUCTION DOMAIN .......................................................................... 57 4.1.2 5G TECHNOLOGY INFLUENCE ................................................................ 58 4.1.3 EVALUATION DESIGN ........................................................................... 58 4.1.4 USER ORIENTATION .............................................................................. 60 4.2 ANALYSIS OF BASIC PRINCIPLES, CONCEPTS AND EXISTING APPROACHES ............. 61 4.2.1 BASIC PRINCIPLES FOR TECHNO-ECONOMIC ANALYSIS IN PRODUCTION ...... 62 4.2.2 RESEARCH CONCEPTS AND APPROACHES ............................................. 63 4.2.3 INDUSTRIAL CONCEPTS AND APPROACHES .............................................. 70 4.3 CLASSIFICATION OF EXISTING APPROACHES AND REQUIRED ACTION ......................... 73 5 DEVELOPMENT OF A TECHNO-ECONOMIC EVALUATION MODEL ................................ 75 5.1 GENERAL CONCEPT AND CHAPTER STRUCTURE .................................................... 75 5.2 APPLICATION REQUIREMENTS SPECIFICATION ..................................................... 78 5.3 PERFORMANCE GOALS OF 5G DEPLOYMENT ....................................................... 82 5.3.1 IDENTIFICATION AND OPERATIONALIZATION OF TECHNICAL PERFORMANCE GOALS TO EVALUATE 5G DEPLOYMENT ................................................. 82 5.3.2 IDENTIFICATION AND OPERATIONALIZATION OF ECONOMIC PERFORMANCE GOALS TO EVALUATE 5G DEPLOYMENT ................................................. 87 5.4 5G-ENABLED & INFLUENCED CONTROL TASKS ..................................................... 89 5.4.1 GENERAL APPROACH TO IDENTIFY 5G-ENABLED AND -INFLUENCED CONTROL TASKS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION ........ 90 5.4.2 CONTROL TASKS OF AUTOMATED GUIDED VEHICLES ................................ 92 5.4.3 CONTROL TASKS OF MILLING MACHINE PRODUCING BLISKS ...................... 97 5.4.4 SUMMARY OF COMMONALITIES OF 5G-ENABLED AND -INFLUENCED CONTROL TASKS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION ....... 106 5.5 IDENTIFICATION AND CLUSTERING OF NECESSARY EVALUATION DATA ...................... 106 5.6 TECHNO-ECONOMIC PERFORMANCE QUANTIFICATION ......................................... 109 5.6.1 GENERAL QUANTIFICATION APPROACH ................................................. 109 5.6.2 QUANTIFICATION OF TECHNICAL PERFORMANCE GOALS ............................ 112 5.6.3 QUANTIFICATION OF ECONOMIC PERFORMANCE GOALS ........................... 113 5.7 IMPLEMENTATION OF THE EVALUATION MODEL ................................................... 113 5.8 INTERIM CONCLUSION ..................................................................................... 116 I TABLE OF CONTENTS V 6 VERIFICATION AND VALIDATION OF THE EVALUATION MODEL .................................... 119 6.1 VERIFICATION AND VALIDATION DURING MODEL DEVELOPMENT AND IMPLEMENTATION ................................................................................. 121 6.2 VERIFICATION AND VALIDATION THROUGH CASE STUDIES ..................................... 121 6.2.1 CASE STUDY 1: AUTOMATED GUIDED VEHICLE ................................... 122 6.2.2 CASE STUDY 2: MILLING MACHINE PRODUCING BLISKS ...................... 128 6.2.3 CASE STUDY VARIATIONS .................................................................. 133 6.2.4 INTERIM CONCLUSION OF VERIFICATION AND VALIDATION THROUGH CASE STUDIES ............................................................................ 142 6.3 VERIFICATION AND VALIDATION THROUGH EXPERT REVIEW ................................... 142 7 CONCLUSION AND CRITICAL DISCUSSION.............................................................. 145 8 SUMMARY AND OUTLOOK ................................................................................... 149 8.1 SUMMARY .................................................................................................. 149 8.2 OUTLOOK ..................................................................................................... 150 V BIBLIOGRAPHY .................................................................................................... XIX VI ANNEX ............................................................................................................ XXXV A.1 OVERVIEW OF COMMUNICATION TECHNOLOGIES ............................................. XXXV A.2 5G-SYSTEM ARCHITECTURE ......................................................................... XXXVI A.3 5G-NPN DEPLOYMENT OPTIONS AND THEIR CHARACTERISTICS ....................... XXXVII A.4 SEARCH QUERIES TO IDENTIFY EXISTING RESEARCH APPROACHES .................... XXXIX A.5 OVERVIEW OF RESEARCH OF TECHNICAL GOALS IN PRODUCTION ........................... XLII A.6 DETAILED DEFINITION OF KEY PERFORMANCE INDICATORS ................................... XLIII A.6.1 FLEXIBILITY ...................................................................................... XLIII A.6.2 MOBILITY ......................................................................................... XLIV A.6.3 PRODUCTIVITY.................................... ............................................. XLV A.6.4 QUALITY .......................................................................................... XLVI A.6. 5 SAFETY ......................................................................................... XLVIII A.6.6 SUSTAINABILITY ..................................................................................... I A.6. 7 UTILIZATION ......................................................................................... LII A.7 DATA TO BE ENTERED FOR EVALUATION .............................................................. LIV A.8 SOURCE CODE AND COMPILED FILE OF THE TECHNO-ECONOMIC MODEL ............... IX A.9 VERIFICATION & VALIDATION .............................................................................. IX A.9.1 POSSIBLE ICT FOR THE SELECTED APPLICATIONS AND USE CASES .............. IX A.9.2 CASE STUDY DATA ............................................................................ IXI A. 10 GUIDING QUESTIONS FOR EXPERT REVIEW ...................................................... IXIV
adam_txt	I TABLE OF CONTENTS I TABLE OF CONTENTS. III II EQUATION SYMBOLS AND ABBREVIATIONS . VII III LIST OF FIGURES . XV IV LIST OF TABLES . XIX 1 INTRODUCTION . 1 1.1 MOTIVATION & RESEARCH QUESTION . 1 1.2 RESEARCH APPROACH & THESIS STRUCTURE . 4 2 LATENCY-CRITICAL APPLICATIONS IN PRODUCTION . 7 2.1 DEFINITION OF TERMS . 7 2.1.1 APPLICATIONS IN PRODUCTION . 7 2.1.2 APPLICATION-PERCEIVED LATENCY . 8 2.1.3 LATENCY-CRITICAL APPLICATION . 9 2.2 RELEVANCE OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION . 11 2.3 CONTROL SYSTEMS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION . 13 2.3.1 CONTROL SYSTEMS . 13 2.3.2 NETWORKED CONTROL SYSTEMS . 15 2.3.3 LATENCIES IN NETWORKED CONTROL SYSTEMS . 17 2.4 INTERIM CONCLUSION . 19 3 WIRELESS INDUSTRIAL COMMUNICATION TECHNOLOGY . 21 3.1 DEFINITION OF TERMS . 21 3.1.1 COMMUNICATION . 21 3.1.2 COMMUNICATION SYSTEM . 22 3.1.3 INDUSTRIAL COMMUNICATION TECHNOLOGIES . 22 3.2 PERFORMANCE REQUIREMENTS OF INDUSTRIAL COMMUNICATION TECHNOLOGIES FOR NCS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION . 24 3.2.1 PERFORMANCE CHARACTERISTICS OF INDUSTRIAL COMMUNICATION TECHNOLOGIES . 24 3.2.2 RANGES OF PERFORMANCE CHARACTERISTICS OF INDUSTRIAL COMMUNICATION TECHNOLOGIES . 27 3.2.3 PERFORMANCE REQUIREMENTS FOR INDUSTRIAL COMMUNICATION TECHNOLOGIES OF LATENCY-CRITICAL APPLICATIONS . 28 3.3 INDUSTRIAL COMMUNICATION TECHNOLOGIES FOR NCS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION . 34 3.3.1 CURRENT WIRELESS INDUSTRIAL COMMUNICATION TECHNOLOGIES . 34 3.3.2 EVALUATION OF CURRENT INDUSTRIAL COMMUNICATION TECHNOLOGIES . 40 3.4 5G TECHNOLOGY IN PRODUCTION . 41 3.4.1 5G TECHNOLOGY NETWORK ARCHITECTURE . 42 3.4.2 PERFORMANCE CHARACTERISTICS AND SERVICES OF 5G TECHNOLOGY . 46 IV I TABLE OF CONTENTS 3.4.3 CURRENT DEVELOPMENT STATE OF 5G TECHNOLOGY IN PRODUCTION . 49 3.4.4 USE CASES AND POTENTIAL OF 5G TECHNOLOGY TO CONTROL LATENCY CRITICAL APPLICATIONS IN PRODUCTION . 50 3.4.5 CURRENT STATE AND BARRIERS OF 5G TECHNOLOGY DEPLOYMENT IN PRODUCTION . 53 3.5 INTERIM CONCLUSION . 55 4 DERIVATION OF REQUIREMENTS AND ANALYSIS OF EXISTING APPROACHES . 57 4.1 DERIVATION OF REQUIREMENTS FOR AN EVALUATION APPROACH . 57 4.1.1 PRODUCTION DOMAIN . 57 4.1.2 5G TECHNOLOGY INFLUENCE . 58 4.1.3 EVALUATION DESIGN . 58 4.1.4 USER ORIENTATION . 60 4.2 ANALYSIS OF BASIC PRINCIPLES, CONCEPTS AND EXISTING APPROACHES . 61 4.2.1 BASIC PRINCIPLES FOR TECHNO-ECONOMIC ANALYSIS IN PRODUCTION . 62 4.2.2 RESEARCH CONCEPTS AND APPROACHES . 63 4.2.3 INDUSTRIAL CONCEPTS AND APPROACHES . 70 4.3 CLASSIFICATION OF EXISTING APPROACHES AND REQUIRED ACTION . 73 5 DEVELOPMENT OF A TECHNO-ECONOMIC EVALUATION MODEL . 75 5.1 GENERAL CONCEPT AND CHAPTER STRUCTURE . 75 5.2 APPLICATION REQUIREMENTS SPECIFICATION . 78 5.3 PERFORMANCE GOALS OF 5G DEPLOYMENT . 82 5.3.1 IDENTIFICATION AND OPERATIONALIZATION OF TECHNICAL PERFORMANCE GOALS TO EVALUATE 5G DEPLOYMENT . 82 5.3.2 IDENTIFICATION AND OPERATIONALIZATION OF ECONOMIC PERFORMANCE GOALS TO EVALUATE 5G DEPLOYMENT . 87 5.4 5G-ENABLED & INFLUENCED CONTROL TASKS . 89 5.4.1 GENERAL APPROACH TO IDENTIFY 5G-ENABLED AND -INFLUENCED CONTROL TASKS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION . 90 5.4.2 CONTROL TASKS OF AUTOMATED GUIDED VEHICLES . 92 5.4.3 CONTROL TASKS OF MILLING MACHINE PRODUCING BLISKS . 97 5.4.4 SUMMARY OF COMMONALITIES OF 5G-ENABLED AND -INFLUENCED CONTROL TASKS OF LATENCY-CRITICAL APPLICATIONS IN PRODUCTION . 106 5.5 IDENTIFICATION AND CLUSTERING OF NECESSARY EVALUATION DATA . 106 5.6 TECHNO-ECONOMIC PERFORMANCE QUANTIFICATION . 109 5.6.1 GENERAL QUANTIFICATION APPROACH . 109 5.6.2 QUANTIFICATION OF TECHNICAL PERFORMANCE GOALS . 112 5.6.3 QUANTIFICATION OF ECONOMIC PERFORMANCE GOALS . 113 5.7 IMPLEMENTATION OF THE EVALUATION MODEL . 113 5.8 INTERIM CONCLUSION . 116 I TABLE OF CONTENTS V 6 VERIFICATION AND VALIDATION OF THE EVALUATION MODEL . 119 6.1 VERIFICATION AND VALIDATION DURING MODEL DEVELOPMENT AND IMPLEMENTATION . 121 6.2 VERIFICATION AND VALIDATION THROUGH CASE STUDIES . 121 6.2.1 CASE STUDY 1: AUTOMATED GUIDED VEHICLE . 122 6.2.2 CASE STUDY 2: MILLING MACHINE PRODUCING BLISKS . 128 6.2.3 CASE STUDY VARIATIONS . 133 6.2.4 INTERIM CONCLUSION OF VERIFICATION AND VALIDATION THROUGH CASE STUDIES . 142 6.3 VERIFICATION AND VALIDATION THROUGH EXPERT REVIEW . 142 7 CONCLUSION AND CRITICAL DISCUSSION. 145 8 SUMMARY AND OUTLOOK . 149 8.1 SUMMARY . 149 8.2 OUTLOOK . 150 V BIBLIOGRAPHY . XIX VI ANNEX . XXXV A.1 OVERVIEW OF COMMUNICATION TECHNOLOGIES . XXXV A.2 5G-SYSTEM ARCHITECTURE . XXXVI A.3 5G-NPN DEPLOYMENT OPTIONS AND THEIR CHARACTERISTICS . XXXVII A.4 SEARCH QUERIES TO IDENTIFY EXISTING RESEARCH APPROACHES . XXXIX A.5 OVERVIEW OF RESEARCH OF TECHNICAL GOALS IN PRODUCTION . XLII A.6 DETAILED DEFINITION OF KEY PERFORMANCE INDICATORS . XLIII A.6.1 FLEXIBILITY . XLIII A.6.2 MOBILITY . XLIV A.6.3 PRODUCTIVITY. . XLV A.6.4 QUALITY . XLVI A.6. 5 SAFETY . XLVIII A.6.6 SUSTAINABILITY . I A.6. 7 UTILIZATION . LII A.7 DATA TO BE ENTERED FOR EVALUATION . LIV A.8 SOURCE CODE AND COMPILED FILE OF THE TECHNO-ECONOMIC MODEL . IX A.9 VERIFICATION & VALIDATION . IX A.9.1 POSSIBLE ICT FOR THE SELECTED APPLICATIONS AND USE CASES . IX A.9.2 CASE STUDY DATA . IXI A. 10 GUIDING QUESTIONS FOR EXPERT REVIEW . IXIV
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV048601746
illustrated	Illustrated
index_date	2024-07-03T21:10:15Z
indexdate	2024-07-10T09:42:40Z
institution	BVB
institution_GND	(DE-588)1068101474
isbn	9783985551156 3985551154
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033977257
oclc_num	1353293040
open_access_boolean	1
owner	DE-29T
owner_facet	DE-29T
physical	151, lxiv Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 346 g
psigel	ebook
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	Apprimus Verlag
record_format	marc
series	Ergebnisse aus der Produktionstechnik
series2	Ergebnisse aus der Produktionstechnik Fertigungsmesstechnik & Qualitätsmanagement
spelling	Kiesel, Raphael Verfasser (DE-588)120325444X aut Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion Raphael Kiesel Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion 1. Auflage Aachen Apprimus Verlag 2022 151, lxiv Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 346 g txt rdacontent n rdamedia nc rdacarrier Ergebnisse aus der Produktionstechnik Band 34/2022 Fertigungsmesstechnik & Qualitätsmanagement Dissertation Rheinisch-Westfälische Technische Hochschule Aachen 2022 Technologiemanagement (DE-588)4215161-2 gnd rswk-swf Networked Control System (DE-588)1117495795 gnd rswk-swf 5G (DE-588)1188755676 gnd rswk-swf Wirtschaftlichkeit (DE-588)4066424-7 gnd rswk-swf Technikbewertung (DE-588)4078176-8 gnd rswk-swf Fertigungstechnik Produktionsqualität und Messtechnik Digitalisierung Technologiemanagement Messtechnik und Qualität Undustrie 4.0 (DE-588)4113937-9 Hochschulschrift gnd-content Networked Control System (DE-588)1117495795 s 5G (DE-588)1188755676 s Technikbewertung (DE-588)4078176-8 s Wirtschaftlichkeit (DE-588)4066424-7 s Technologiemanagement (DE-588)4215161-2 s DE-604 Apprimus Verlag (DE-588)1068101474 pbl Erscheint auch als Online-Ausgabe, PDF https://doi.org/10.18154/RWTH-2022-09700 Ergebnisse aus der Produktionstechnik Band 34/2022 (DE-604)BV023307578 2022,34 https://doi.org/10.18154/RWTH-2022-09700 Resolving-System kostenfrei Volltext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033977257&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20221020 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Kiesel, Raphael Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion Ergebnisse aus der Produktionstechnik Technologiemanagement (DE-588)4215161-2 gnd Networked Control System (DE-588)1117495795 gnd 5G (DE-588)1188755676 gnd Wirtschaftlichkeit (DE-588)4066424-7 gnd Technikbewertung (DE-588)4078176-8 gnd
subject_GND	(DE-588)4215161-2 (DE-588)1117495795 (DE-588)1188755676 (DE-588)4066424-7 (DE-588)4078176-8 (DE-588)4113937-9
title	Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion
title_alt	Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion
title_auth	Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion
title_exact_search	Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion
title_exact_search_txtP	Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion
title_full	Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion Raphael Kiesel
title_fullStr	Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion Raphael Kiesel
title_full_unstemmed	Techno-Economic evaluation of 5G technology for latency-critical applications in production = Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion Raphael Kiesel
title_short	Techno-Economic evaluation of 5G technology for latency-critical applications in production
title_sort	techno economic evaluation of 5g technology for latency critical applications in production tehno okonomische evaluierung der 5g technologie fur latenzkritische applikationen in der produktion
title_sub	= Tehno-Ökonomische Evaluierung der 5G-Technologie für latenzkritische Applikationen in der Produktion
topic	Technologiemanagement (DE-588)4215161-2 gnd Networked Control System (DE-588)1117495795 gnd 5G (DE-588)1188755676 gnd Wirtschaftlichkeit (DE-588)4066424-7 gnd Technikbewertung (DE-588)4078176-8 gnd
topic_facet	Technologiemanagement Networked Control System 5G Wirtschaftlichkeit Technikbewertung Hochschulschrift
url	https://doi.org/10.18154/RWTH-2022-09700 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033977257&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV023307578
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