Verfügbarkeit: A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems

A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems:

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Bibliographische Detailangaben
1. Verfasser:	Khound, Parthib (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Düren Shaker 2023
Schriftenreihe:	Berichte aus der Steuerungs- und Regelungstechnik
Schlagworte:	Fahrzeugverhalten Fahrzeugkolonne Abstandsregelung Längsdynamik Abstandsregeltempomat Stabilität adaptive cruise control disturbance compensation time-delay compensation string stability over-damped string stability time-lag compensation Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xxiii, 142 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 221 g
ISBN:	9783844092240 3844092242

Internformat

MARC


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adam_text	CONTENTS LIST OF ABBREVIATIONS XI LIST OF SYMBOLS XIII LIST OF FIGURES XX LIST OF TABLES XXIII 1 INTRODUCTION 1 1.1 RESEARCH MOTIVATIONS ..................................................................................... 2 1.1.1 HUMAN DRIVING ................................................................................... 2 1.1.2 COMMERCIAL ACC SYSTEMS ................................................................. 5 1.1.3 STATE-OF-THE-ART ACC SYSTEMS ............................................................ 7 1.1.4 CACC SYSTEMS ................................................................................... 12 1.2 RESEARCH CONTRIBUTION .................................................................................. 13 1.2.1 RESEARCH OBJECTIVES ..................................................................... 13 1.2.2 RESEARCH APPROACH ............................................................................. 13 1.3 OUTLINE ............................................................................. YY ............................. 15 2 BACKGROUND CONCEPTS 17 2.1 ACC SYSTEMS ................................................................................................. 17 2.1.1 WORKING PRINCIPLE ................................................................................ 17 2.1.2 CONTROL ARCHITECTURE .......................................................................... 20 2.1.3 PLATOONING SYSTEMS ............................................................................. 22 2.2 STABILITY CONDITIONS ....................................................................................... 23 2.2.1 LOCAL STABILITY ................................................................................... 23 2.2.2 STRING STABILITY ................................................................................... 23 2.2.2.1 CLASSICAL STRING STABILITY ................................................... 24 2.2.2.2 OVER-DAMPED STRING STABILITY ............................................ 24 2.3 PHYSICAL NATURE OF THE STRING STABILITY CRITERIA .......................................... 25 2.3.1 THEORETICAL ARGUMENT ....................................................................... 25 2.3.2 ILLUSTRATION BY SIMULATION ................................................................. 27 3 SYSTEM ARCHITECTURE 30 3.1 PLATOONING PROBLEMS .................................................................................... 30 3.2 OVERALL SOLUTION ............................................................................................. 32 3.3 THEORETICAL ASSUMPTIONS .............................................................................. 33 4 ACC FUNCTION WITH THE LOWER-LEVEL TIME-LAG COMPENSATOR 34 4.1 ACC SYSTEM WITHOUT THE TIME-LAG PARAMETER .......................................... 34 4.1.1 SYSTEM DESCRIPTION ............................................................................ 34 4.1.2 STABILITY ANALYSIS ............................................................................... 35 4.2 STABILITY PROBLEM CAUSED BY THE TIME-LAG PARAMETER .......................... 36 4.3 ACC SYSTEM WITH THE TIME-LAG COMPENSATOR MODULE .......................... 38 4.3.1 METHOD 1: USING A SINGLE LAYER SLIDING SURFACE TECHNIQUE .... 39 4.3.1.1 SYSTEM DESCRIPTION .............................................................. 39 4.3.1.2 STABILITY ANALYSIS ................................................................. 41 4.3.2 METHOD 2: USING A DOUBLE LAYER SLIDING SURFACE TECHNIQUE .... 43 4.3.2.1 SYSTEM DESCRIPTION .............................................................. 43 4.3.2.2 STABILITY ANALYSIS ................................................................. 44 4.3.3 METHOD COMPARISON AND SELECTION ................................................. 46 5 PARASITIC TIME-DELAY COMPENSATOR 48 5.1 STABILITY PROBLEM CAUSED BY THE TIME-DELAY PARAMETER ......................... 49 5.2 TIME-DELAY COMPENSATOR MODULE ................................................................. 50 5.3 ADAPTATION TO THE ACC FUNCTION ................................................................. 52 5.3.1 SYSTEM DESCRIPTION ............................................................................ 52 5.3.2 STABILITY ANALYSIS ............................................................................... 54 6 DISTURBANCE OBSERVER 58 6.1 PROBLEM CAUSED BY THE INPUT DISTURBANCE ................................................. 58 6.2 INPUT DISTURBANCE OBSERVER MODULE ............................................................. 60 6.2.1 SYSTEM DESCRIPTION ............................................................................. 60 6.2.2 DISTURBANCE SIGNAL ANALYSIS ............................................................. 62 6.3 SUMMARY OF THE OVERALL SYSTEM ................................................................... 63 7 SIMULATION RESULTS 64 7.1 VALUES OF THE PARAMETERS ................................................................................ 64 7.2 IMPULSE EXCITATION TEST ............................................................................... 67 7.2.1 SYSTEM WITH THE CTG SPACING FUNCTION ........................................ 67 7.2.2 SYSTEM WITH THE QR SPACING FUNCTION ........................................... 68 7.2.3 SYSTEM WITH THE VTG SPACING FUNCTION ........................................ 69 7.3 EXTERNAL PERTURBATION TEST ............................................................................ 70 7.3.1 TEST OF THE SYSTEM WHEN ALL THE MODULES ARE INACTIVE .................... 72 7.3.2 TEST OF THE SYSTEM WITH ONLY ONE ACTIVE MODULE ............................ 72 7.3.2.1 ONLY TIME-LAG COMPENSATOR IS ACTIVE ............................ 72 7.3.2.2 ONLY TIME-DELAY COMPENSATOR IS ACTIVE ......................... 74 7.3.2.3 ONLY DISTURBANCE OBSERVER IS ACTIVE ............................... 75 7.3.3 TEST OF THE SYSTEM WITH TWO ACTIVE MODULES ................................. 77 7.3.3.1 TIME-LAG COMPENSATOR AND DISTURBANCE OBSERVER ARE ACTIVE .................................................................. 78 7.3.3.2 TIME-LAG AND TIME-DELAY COMPENSATORS ARE ACTIVE . . 79 7.3.3.3 TIME-DELAY COMPENSATOR AND DISTURBANCE OBSERVER ARE ACTIVE ................................................................................. 81 7.3.4 TEST OF THE SYSTEM ACTIVATING ALL THE MODULES .............................. 84 7.4 SENSITIVITY TEST .............................................................................................. 86 7.5 COMPARISON WITH OTHER RELATED METHODS .................................................... 89 7.5.1 OVER-DAMPED TIME-LAG COMPENSATION METHOD ........................... 91 7.5.2 EXTENDED ATG METHOD .................................................................. 92 7.5.3 PREDICTOR-BASED FEEDBACK CONTROL METHOD .................................... 93 7.6 DISCUSSION OF THE SIMULATION RESULTS .......................................................... 95 8 CONCLUSION 97 8.1 SUMMARY OF THE RESEARCH ........................................................................... 97 8.1.1 MOTIVATIONS ....................................................................................... 97 8.1.2 KEY FEATURES OF THE PRESENTED METHODOLOGY ................................... 98 8.2 LIMITATIONS ................................................................................................... 99 8.3 FUTURE RESEARCH DIRECTIONS .............................................................................. 100 A DERIVATIONS RELATED TO THE ACC FUNCTIONS 102 A.1 LINEARIZATION OF THE ACC SYSTEM WITHOUT THE TIME-LAG COMPENSATOR . . 102 A. 2 STABILITY LIMIT FOR THE ACC SYSTEM WITHOUT THE TIME-LAG COMPENSATOR 105 A. 3 METHOD 1: CLOSED-LOOP SYSTEM ..................................................................... 105 A. 4 METHOD 1: LINEARIZATION ............................................................................ 106 A. 5 METHOD 1: POLES CONTOUR ................................................................................. 108 YY A. 6 METHOD 2: CLOSED-LOOP SYSTEM ..................................................................... 109 A. 7 METHOD 2: LINEARIZATION ................................................................................. 110 B DERIVATIONS RELATED TO THE TIME-DELAY COMPENSATOR 113 B.1 PREDICTION PRINCIPLE ......................................................................................... 113 B.2 STEADY-STATE BEHAVIOR ................................................................................... 115 B.3 REFERENCE CORRECTION ...................................................................................... 116 B.4 STABILITY LIMITS FOR THE CONVEX SPACING FUNCTIONS ...................................... 117 C DERIVATION RELATED TO THE DISTURBANCE SIGNAL ANALYSES 119 C.1 PREDICTED ACCELERATION VERSUS CONTROLLER SPACING ERROR ............................. 119 C.2 CONTROL SIGNAL IN LAPLACE DOMAIN ................................................................. 121 C.3 PREDICTED ACCELERATION WITHOUT THE DISTURBANCE OBSERVER .......................... 122 C.4 TRANSFER FUNCTION WITHOUT THE DISTURBANCE OBSERVER ................................ 123 C.5 OBSERVED DISTURBANCE SIGNAL IN LAPLACE DOMAIN ......................................... 124 C.6 PREDICTED ACCELERATION WITH THE DISTURBANCE OBSERVER ................................ 125 C.7 TRANSFER FUNCTION WITH THE DISTURBANCE OBSERVER ...................................... 127 AUTHOR S CONTRIBUTION 128 BIBLIOGRAPHY 129 CURRICULUM VITAE 142
adam_txt	CONTENTS LIST OF ABBREVIATIONS XI LIST OF SYMBOLS XIII LIST OF FIGURES XX LIST OF TABLES XXIII 1 INTRODUCTION 1 1.1 RESEARCH MOTIVATIONS . 2 1.1.1 HUMAN DRIVING . 2 1.1.2 COMMERCIAL ACC SYSTEMS . 5 1.1.3 STATE-OF-THE-ART ACC SYSTEMS . 7 1.1.4 CACC SYSTEMS . 12 1.2 RESEARCH CONTRIBUTION . 13 1.2.1 RESEARCH OBJECTIVES . 13 1.2.2 RESEARCH APPROACH . 13 1.3 OUTLINE . YY . 15 2 BACKGROUND CONCEPTS 17 2.1 ACC SYSTEMS . 17 2.1.1 WORKING PRINCIPLE . 17 2.1.2 CONTROL ARCHITECTURE . 20 2.1.3 PLATOONING SYSTEMS . 22 2.2 STABILITY CONDITIONS . 23 2.2.1 LOCAL STABILITY . 23 2.2.2 STRING STABILITY . 23 2.2.2.1 CLASSICAL STRING STABILITY . 24 2.2.2.2 OVER-DAMPED STRING STABILITY . 24 2.3 PHYSICAL NATURE OF THE STRING STABILITY CRITERIA . 25 2.3.1 THEORETICAL ARGUMENT . 25 2.3.2 ILLUSTRATION BY SIMULATION . 27 3 SYSTEM ARCHITECTURE 30 3.1 PLATOONING PROBLEMS . 30 3.2 OVERALL SOLUTION . 32 3.3 THEORETICAL ASSUMPTIONS . 33 4 ACC FUNCTION WITH THE LOWER-LEVEL TIME-LAG COMPENSATOR 34 4.1 ACC SYSTEM WITHOUT THE TIME-LAG PARAMETER . 34 4.1.1 SYSTEM DESCRIPTION . 34 4.1.2 STABILITY ANALYSIS . 35 4.2 STABILITY PROBLEM CAUSED BY THE TIME-LAG PARAMETER . 36 4.3 ACC SYSTEM WITH THE TIME-LAG COMPENSATOR MODULE . 38 4.3.1 METHOD 1: USING A SINGLE LAYER SLIDING SURFACE TECHNIQUE . 39 4.3.1.1 SYSTEM DESCRIPTION . 39 4.3.1.2 STABILITY ANALYSIS . 41 4.3.2 METHOD 2: USING A DOUBLE LAYER SLIDING SURFACE TECHNIQUE . 43 4.3.2.1 SYSTEM DESCRIPTION . 43 4.3.2.2 STABILITY ANALYSIS . 44 4.3.3 METHOD COMPARISON AND SELECTION . 46 5 PARASITIC TIME-DELAY COMPENSATOR 48 5.1 STABILITY PROBLEM CAUSED BY THE TIME-DELAY PARAMETER . 49 5.2 TIME-DELAY COMPENSATOR MODULE . 50 5.3 ADAPTATION TO THE ACC FUNCTION . 52 5.3.1 SYSTEM DESCRIPTION . 52 5.3.2 STABILITY ANALYSIS . 54 6 DISTURBANCE OBSERVER 58 6.1 PROBLEM CAUSED BY THE INPUT DISTURBANCE . 58 6.2 INPUT DISTURBANCE OBSERVER MODULE . 60 6.2.1 SYSTEM DESCRIPTION . 60 6.2.2 DISTURBANCE SIGNAL ANALYSIS . 62 6.3 SUMMARY OF THE OVERALL SYSTEM . 63 7 SIMULATION RESULTS 64 7.1 VALUES OF THE PARAMETERS . 64 7.2 IMPULSE EXCITATION TEST . 67 7.2.1 SYSTEM WITH THE CTG SPACING FUNCTION . 67 7.2.2 SYSTEM WITH THE QR SPACING FUNCTION . 68 7.2.3 SYSTEM WITH THE VTG SPACING FUNCTION . 69 7.3 EXTERNAL PERTURBATION TEST . 70 7.3.1 TEST OF THE SYSTEM WHEN ALL THE MODULES ARE INACTIVE . 72 7.3.2 TEST OF THE SYSTEM WITH ONLY ONE ACTIVE MODULE . 72 7.3.2.1 ONLY TIME-LAG COMPENSATOR IS ACTIVE . 72 7.3.2.2 ONLY TIME-DELAY COMPENSATOR IS ACTIVE . 74 7.3.2.3 ONLY DISTURBANCE OBSERVER IS ACTIVE . 75 7.3.3 TEST OF THE SYSTEM WITH TWO ACTIVE MODULES . 77 7.3.3.1 TIME-LAG COMPENSATOR AND DISTURBANCE OBSERVER ARE ACTIVE . 78 7.3.3.2 TIME-LAG AND TIME-DELAY COMPENSATORS ARE ACTIVE . . 79 7.3.3.3 TIME-DELAY COMPENSATOR AND DISTURBANCE OBSERVER ARE ACTIVE . 81 7.3.4 TEST OF THE SYSTEM ACTIVATING ALL THE MODULES . 84 7.4 SENSITIVITY TEST . 86 7.5 COMPARISON WITH OTHER RELATED METHODS . 89 7.5.1 OVER-DAMPED TIME-LAG COMPENSATION METHOD . 91 7.5.2 EXTENDED ATG METHOD . 92 7.5.3 PREDICTOR-BASED FEEDBACK CONTROL METHOD . 93 7.6 DISCUSSION OF THE SIMULATION RESULTS . 95 8 CONCLUSION 97 8.1 SUMMARY OF THE RESEARCH . 97 8.1.1 MOTIVATIONS . 97 8.1.2 KEY FEATURES OF THE PRESENTED METHODOLOGY . 98 8.2 LIMITATIONS . 99 8.3 FUTURE RESEARCH DIRECTIONS . 100 A DERIVATIONS RELATED TO THE ACC FUNCTIONS 102 A.1 LINEARIZATION OF THE ACC SYSTEM WITHOUT THE TIME-LAG COMPENSATOR . . 102 A. 2 STABILITY LIMIT FOR THE ACC SYSTEM WITHOUT THE TIME-LAG COMPENSATOR 105 A. 3 METHOD 1: CLOSED-LOOP SYSTEM . 105 A. 4 METHOD 1: LINEARIZATION . 106 A. 5 METHOD 1: POLES CONTOUR . 108 YY A. 6 METHOD 2: CLOSED-LOOP SYSTEM . 109 A. 7 METHOD 2: LINEARIZATION . 110 B DERIVATIONS RELATED TO THE TIME-DELAY COMPENSATOR 113 B.1 PREDICTION PRINCIPLE . 113 B.2 STEADY-STATE BEHAVIOR . 115 B.3 REFERENCE CORRECTION . 116 B.4 STABILITY LIMITS FOR THE CONVEX SPACING FUNCTIONS . 117 C DERIVATION RELATED TO THE DISTURBANCE SIGNAL ANALYSES 119 C.1 PREDICTED ACCELERATION VERSUS CONTROLLER SPACING ERROR . 119 C.2 CONTROL SIGNAL IN LAPLACE DOMAIN . 121 C.3 PREDICTED ACCELERATION WITHOUT THE DISTURBANCE OBSERVER . 122 C.4 TRANSFER FUNCTION WITHOUT THE DISTURBANCE OBSERVER . 123 C.5 OBSERVED DISTURBANCE SIGNAL IN LAPLACE DOMAIN . 124 C.6 PREDICTED ACCELERATION WITH THE DISTURBANCE OBSERVER . 125 C.7 TRANSFER FUNCTION WITH THE DISTURBANCE OBSERVER . 127 AUTHOR ' S CONTRIBUTION 128 BIBLIOGRAPHY 129 CURRICULUM VITAE 142
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discipline_str_mv	Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik
format	Thesis Book
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oclc_num	1419449288
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	xxiii, 142 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 221 g
publishDate	2023
publishDateSearch	2023
publishDateSort	2023
publisher	Shaker
record_format	marc
series2	Berichte aus der Steuerungs- und Regelungstechnik
spelling	Khound, Parthib Verfasser (DE-588)1306576040 aut A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems Parthib Khound Düren Shaker 2023 xxiii, 142 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 221 g txt rdacontent n rdamedia nc rdacarrier Berichte aus der Steuerungs- und Regelungstechnik Dissertation Universität Siegen 2023 Fahrzeugverhalten (DE-588)4132163-7 gnd rswk-swf Fahrzeugkolonne (DE-588)4153581-9 gnd rswk-swf Abstandsregelung (DE-588)4130266-7 gnd rswk-swf Längsdynamik (DE-588)4430981-8 gnd rswk-swf Abstandsregeltempomat (DE-588)7597875-1 gnd rswk-swf Stabilität (DE-588)4056693-6 gnd rswk-swf adaptive cruise control disturbance compensation time-delay compensation string stability over-damped string stability time-lag compensation (DE-588)4113937-9 Hochschulschrift gnd-content Fahrzeugkolonne (DE-588)4153581-9 s Abstandsregeltempomat (DE-588)7597875-1 s Fahrzeugverhalten (DE-588)4132163-7 s Längsdynamik (DE-588)4430981-8 s Abstandsregelung (DE-588)4130266-7 s Stabilität (DE-588)4056693-6 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034715478&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20230908 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Khound, Parthib A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems Fahrzeugverhalten (DE-588)4132163-7 gnd Fahrzeugkolonne (DE-588)4153581-9 gnd Abstandsregelung (DE-588)4130266-7 gnd Längsdynamik (DE-588)4430981-8 gnd Abstandsregeltempomat (DE-588)7597875-1 gnd Stabilität (DE-588)4056693-6 gnd
subject_GND	(DE-588)4132163-7 (DE-588)4153581-9 (DE-588)4130266-7 (DE-588)4430981-8 (DE-588)7597875-1 (DE-588)4056693-6 (DE-588)4113937-9
title	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems
title_auth	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems
title_exact_search	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems
title_exact_search_txtP	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems
title_full	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems Parthib Khound
title_fullStr	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems Parthib Khound
title_full_unstemmed	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems Parthib Khound
title_short	A Unified Adaptive Cruise Control Framework for Over-Damped String Stable Platooning Systems
title_sort	a unified adaptive cruise control framework for over damped string stable platooning systems
topic	Fahrzeugverhalten (DE-588)4132163-7 gnd Fahrzeugkolonne (DE-588)4153581-9 gnd Abstandsregelung (DE-588)4130266-7 gnd Längsdynamik (DE-588)4430981-8 gnd Abstandsregeltempomat (DE-588)7597875-1 gnd Stabilität (DE-588)4056693-6 gnd
topic_facet	Fahrzeugverhalten Fahrzeugkolonne Abstandsregelung Längsdynamik Abstandsregeltempomat Stabilität Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034715478&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT khoundparthib aunifiedadaptivecruisecontrolframeworkforoverdampedstringstableplatooningsystems

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