Verfügbarkeit: Object-level fusion for surround environment perception in automated driving applications

Object-level fusion for surround environment perception in automated driving applications:

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Bibliographische Detailangaben
1. Verfasser:	Aeberhard, Michael 1983- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Düsseldorf VDI Verlag GmbH [2017]
Ausgabe:	Als Manuskript gedruckt
Schriftenreihe:	Fortschritt-Berichte VDI. Reihe 12, Verkehrstechnik/Fahrzeugtechnik Nr. 804
Schlagworte:	Multisensor Sensorsystem Personenkraftwagen Objekterkennung Fahrerassistenzsystem Umweltmodell > Informatik Datenfusion Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 199 Seiten Illustrationen, Diagramme
ISBN:	9783183804122

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS ABBREVIATIONS VIII LIST OF SYMBOLS X ABSTRACT XV 1 INTRODUCTION 1 1.1 M OTIVATION............................................................................................................ 2 1.2 AUTOMATION IN DRIVER ASSISTANCE AND SAFETY S Y S TE M S ................................... 3 1.2.1 LEVEL 0 - NO AUTOMATION....................................................................... 6 1.2.2 LEVEL 1 - DRIVER ASSISTANCE ................................................................. 7 1.2.3 LEVEL 2 - PARTIAL A U TO M A TIO N .............................................................. 8 1.2.4 LEVEL 3 - CONDITIONAL A UTOM ATION........................................................ 9 1.2.5 LEVELS 4 AND 5 - TOWARDS FULLY AUTOMATED D RIV IN G ......................... 15 1.3 PROBLEM OF OBJECT D ETECTION ............................................................................. 21 1.4 CONTRIBUTION AND OUTLINE OF THE T H E S IS ........................................................... 23 2 SENSOR DATA FUSION ARCHITECTURES 27 2.1 OVERVIEW............................................................................................................... 27 2.1.1 LOW-LEVEL................................................................................................ 28 2.1.2 HIGH-LEVEL................................................................................................ 31 2.1.3 H Y B RID ...................................................................................................... 32 2.1.4 C OM PARISON............................................................................................. 33 2.2 PROPOSED MODULAR SENSOR DATA FUSION A RCHITECTURE ..................................... 38 2.2.1 OBJECT M O D E L.......................................................................................... 39 2.2.2 SENSOR-LEVEL............................................................................................. 41 2.2.3 FUSION-LEVEL............................................................................................. 42 2.2.4 APPLICATION-LEVEL ................................................................................... 43 3 FUSION STRATEGY AND OBJECT ASSOCIATION 46 3.1 DATA A LIGNM ENT................................................................................................... 46 3.1.1 S P A TIA L...................................................................................................... 46 3.1.2 T E M P O RA L................................................................................................ 47 3.2 FUSION S TRA TE G Y ................................................................................................... 48 3.2.1 SENSOR-TO-SENSOR ................................................................................... 48 3.2.2 SENSOR-TO-GLOBAL .................................................................................... 49 3.3 A SSO C IATIO N ......................................................................................................... 50 3.3.1 A RCHITECTURE............................................................................................. 51 3.3.2 FEATURE S ELECTIO N .................................................................................... 52 3.3.3 STATE V ECTOR............................................................................................. 56 3.3.4 G EOM ETRICAL............................................................................................. 58 3.3.5 ASSOCIATION V ALID ATIO N .......................................................................... 60 3.3.6 MULTI-OBJECT ASSOCIATION ....................................................................... 60 4 STATE AND COVARIANCE 64 4.1 SENSOR-LEVEL PROCESSING WITH TRACKING A LGORITHM S ........................................ 64 4.1.1 FEATURE E X TRA C TIO N ................................................................................. 65 4.1.2 DATA A SSOCIATION.................................................................................... 66 4.1.3 F ILTE RIN G ................................................................................................... 66 4.1.4 TRACK M ANAGEM ENT................................................................................. 68 4.1.5 KINEMATIC MODELS.................................................................................... 68 4.2 CORRELATION AND SEQUENCE OF SENSOR D A T A ........................................................ 69 4.2.1 PROCESS N O IS E .......................................................................................... 70 4.2.2 COMMON INFORMATION H IS TO R Y .............................................................. 71 4.2.3 OUT-OF-SEQUENCE D A T A ........................................................................... 72 4.3 TRACK-TO-TRACK FUSION WITH THE COMMON S TA TE ............................................... 73 4.3.1 ADAPTED KALMAN F ILTE R........................................................................... 74 4.3.2 COVARIANCE INTERSECTION........................................................................... 76 4.3.3 INFORMATION MATRIX F USIO N .................................................................... 77 4.3.4 C OM PARISON............................................................................................. 79 4.4 GEOMETRICAL FUSION USING THE OBJECT MODEL .................................................. 86 4.4.1 DIMENSION E S TIM A TIO N ........................................................................... 87 4.4.2 EXTRACTION OF FUSED COORDINATES........................................................... 90 5 EXISTENCE PROBABILITY 93 5.1 SENSOR-LEVEL PROCESSING .................................................................................... 93 5.1.1 EXISTENCE P RE D IC TIO N .............................................................................. 94 5.1.2 EXISTENCE U P D A TE .................................................................................... 95 5.1.3 GENERALIZED BAYES EXTENSION ................................................................. 97 5.1.4 MODELING THE PARAM ETERS........................................................................ 98 5.1.5 OBJECT M A N AG E M EN T.............................................................................. 104 5.2 F U S IO N ....................................................................................................................... 105 5.2.1 A RCHITECTURE................................................................................................. 105 5.2.2 MODELING WITH DEMPSTER-SHAFER EVIDENCE T H E O R Y ................................ 105 5.2.3 EXTENSION FOR OCCLUSION M ODELING............................................................ 110 5.2.4 MODELING THE TRUST P RO B A B ILITY ............................................................... 114 6 CLASSIFICATION 116 6.1 SENSOR-LEVEL PROCESSING ........................................................................................ 117 6.1.1 MEASUREMENT CLASSIFICATION ..................................................................... 117 6.1.2 TEMPORAL F ILTE RIN G .....................................................................................124 6.2 F U S IO N ....................................................................................................................... 124 6.2.1 MODELING WITH THE DEMPSTER-SHAFER EVIDENCE T H E O RY ..........................125 6.2.2 MODELING THE TRUST P RO B A B ILITY ............................................................... 130 7 EVALUATION 133 7.1 TEST VEHICLE AND SENSOR CONFIGURATION ........................................................... 133 7.2 OVERTAKING MANEUVER WITH GROUND TRUTH .........................................................135 7.2.1 GROUND TRUTH C ALCULATION........................................................................ 136 7.2.2 STATE E S TIM A TIO N .................................................................................... 136 7.2.3 E X IS TE N C E ....................................................................................................140 7.2.4 C LASSIFICATION..............................................................................................140 7.3 PERFORMANCE IN REAL TRAFFIC SCENARIOS..................................................................141 7.3.1 DETECTION R A T E ...........................................................................................144 7.3.2 CLASSIFICATION PERFORM ANCE........................................................................ 146 7.3.3 INTEGRATION IN AUTOMATED DRIVING AND ADAS P R O JE C T S .......................149 8 CONCLUSION AND DISCUSSION 152 A SYNCHRONOUS TRACK-TO-TRACK FUSION ALGORITHMS 155 A.L SIMPLE WEIGHTED F U S IO N ...................................................................................... 155 A.2 USE OF CROSS-COVARIANCE ...................................................................................... 157 A 3 COVARIANCE INTERSECTION..........................................................................................158 A.4 C OM PARISON............................................................................................................ 159 B INFORMATION MATRIX FUSION DERIVATION 162 C DETERMINING THE TRUST PROBABILITY 164 C.L EXISTENCE ............................................................................................................... 164 C. 2 CLASSIFICATION......................................................................................................... 165 D EVALUATION SCENARIO DESCRIPTIONS 167 D. L TRAINING D A T A ......................................................................................................... 167 D.2 EVALUATION D A TA .................................................................................................. 167 D.2.1 TEST T RA CK ................................................................................................... 167 D.2.2 REAL T RA FFIC ............................................................................................ 168 REFERENCES 172
any_adam_object	1
author	Aeberhard, Michael 1983-
author_GND	(DE-588)1136141693
author_facet	Aeberhard, Michael 1983-
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author_sort	Aeberhard, Michael 1983-
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discipline	Verkehr / Transport
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spelling	Aeberhard, Michael 1983- Verfasser (DE-588)1136141693 aut Object-level fusion for surround environment perception in automated driving applications Michael Aeberhard, M.Sc., München Object level fusion for surround environment perception in automated driving applications Object level fusion in automated driving Als Manuskript gedruckt Düsseldorf VDI Verlag GmbH [2017] © 2017 XV, 199 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Fortschritt-Berichte VDI. Reihe 12, Verkehrstechnik/Fahrzeugtechnik Nr. 804 Dissertation Technische Universität Dortmund 2017 Multisensor (DE-588)4257775-5 gnd rswk-swf Sensorsystem (DE-588)4307964-7 gnd rswk-swf Personenkraftwagen (DE-588)4076001-7 gnd rswk-swf Objekterkennung (DE-588)4314334-9 gnd rswk-swf Fahrerassistenzsystem (DE-588)4622983-8 gnd rswk-swf Umweltmodell Informatik (DE-588)4250471-5 gnd rswk-swf Datenfusion (DE-588)4582612-2 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Personenkraftwagen (DE-588)4076001-7 s Fahrerassistenzsystem (DE-588)4622983-8 s Objekterkennung (DE-588)4314334-9 s Sensorsystem (DE-588)4307964-7 s Multisensor (DE-588)4257775-5 s Datenfusion (DE-588)4582612-2 s Umweltmodell Informatik (DE-588)4250471-5 s DE-604 Fortschritt-Berichte VDI. Reihe 12, Verkehrstechnik/Fahrzeugtechnik Nr. 804 (DE-604)BV000761054 804 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029961354&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Aeberhard, Michael 1983- Object-level fusion for surround environment perception in automated driving applications Fortschritt-Berichte VDI. Reihe 12, Verkehrstechnik/Fahrzeugtechnik Multisensor (DE-588)4257775-5 gnd Sensorsystem (DE-588)4307964-7 gnd Personenkraftwagen (DE-588)4076001-7 gnd Objekterkennung (DE-588)4314334-9 gnd Fahrerassistenzsystem (DE-588)4622983-8 gnd Umweltmodell Informatik (DE-588)4250471-5 gnd Datenfusion (DE-588)4582612-2 gnd
subject_GND	(DE-588)4257775-5 (DE-588)4307964-7 (DE-588)4076001-7 (DE-588)4314334-9 (DE-588)4622983-8 (DE-588)4250471-5 (DE-588)4582612-2 (DE-588)4113937-9
title	Object-level fusion for surround environment perception in automated driving applications
title_alt	Object level fusion for surround environment perception in automated driving applications Object level fusion in automated driving
title_auth	Object-level fusion for surround environment perception in automated driving applications
title_exact_search	Object-level fusion for surround environment perception in automated driving applications
title_full	Object-level fusion for surround environment perception in automated driving applications Michael Aeberhard, M.Sc., München
title_fullStr	Object-level fusion for surround environment perception in automated driving applications Michael Aeberhard, M.Sc., München
title_full_unstemmed	Object-level fusion for surround environment perception in automated driving applications Michael Aeberhard, M.Sc., München
title_short	Object-level fusion for surround environment perception in automated driving applications
title_sort	object level fusion for surround environment perception in automated driving applications
topic	Multisensor (DE-588)4257775-5 gnd Sensorsystem (DE-588)4307964-7 gnd Personenkraftwagen (DE-588)4076001-7 gnd Objekterkennung (DE-588)4314334-9 gnd Fahrerassistenzsystem (DE-588)4622983-8 gnd Umweltmodell Informatik (DE-588)4250471-5 gnd Datenfusion (DE-588)4582612-2 gnd
topic_facet	Multisensor Sensorsystem Personenkraftwagen Objekterkennung Fahrerassistenzsystem Umweltmodell Informatik Datenfusion Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029961354&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000761054
work_keys_str_mv	AT aeberhardmichael objectlevelfusionforsurroundenvironmentperceptioninautomateddrivingapplications AT aeberhardmichael objectlevelfusioninautomateddriving

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