Verfügbarkeit: Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering

Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering: = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter

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Bibliographische Detailangaben
1. Verfasser:	Schwenzer, Max (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Aachen Apprimus Verlag 2022
Ausgabe:	1. Auflage
Schriftenreihe:	Ergebnisse aus der Produktionstechnik Band 13/2022
Schlagworte:	Schnittkraft Kalman-Filter Prozessregelung Modellprädiktive Regelung Fräsen Regelungstechnik Hochleistungszerspanung Zerspantechnologie Hochschulschrift
Online-Zugang:	kostenfrei Inhaltsverzeichnis
Beschreibung:	xvii, 197 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 329 g
ISBN:	9783985550579 3985550573
DOI:	10.18154/RWTH-2022-03843

Internformat

MARC


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245	1	0	\|a Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering \|b = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter \|c Max Schwenzer
246	1	1	\|a Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter
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Datensatz im Suchindex

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adam_text	CONTENTS CONTENTS I LIST OF FIGURES III LIST OF TABLES VIII LISTS OF SYMBOLS AND ACRONYMS XI LIST OF UPPERCASE CHARACTERS ............................................................... XI LIST OF LOWERCASE CHARACTERS .................................................................. XIII LIST OF GREEK CHARACTERS ......................................................................... XV LIST OF ACRONYMS ....................................................................................... XVI 1 INTRODUCTION 1 2 STATE OF THE ART 3 2.1 FORCE CONTROL IN MILLING ............................................................... 3 2.1.1 A PRIORI PROCESS OPTIMIZATION: FEEDRATE SCHEDULING ... 6 2.1.2 TIME-INVARIANT CONTROL ...................................................... 7 2.1.3 TIME-VARIANT CONTROL: ADAPTIVE CONTROLLERS ..................... 9 2.1.4 SIMULATION-ENHANCED CONTROL .............................................. 11 2.1.5 TIME-VARIANT CONTROL: MODEL-BASED PREDICTIVE CONTROL . . 12 2.2 PROCESS MODEL IDENTIFICATION .......................................................... 15 2.2.1 FORCE MODEL: SHEAR-BASED MODELS ..................................... 16 2.2.2 FORCE MODEL: MECHANISTIC MODELS ..................................... 17 2.2.3 CUTTING WITH A DEFINED EDGE: UNDEFORMED CHIP PARAMETERS 22 2.2.4 CHIP SIZE EFFECT ................................................................... 24 2.2.5 IDENTIFICATION METHODS FOR MECHANISTIC FORCE MODELS ... 25 2.2.6 RADIAL DEVIATION MODEL ....................................................... 29 2.2.7 IDENTIFICATION METHODS FOR RADIAL DEVIATION MODELS .... 31 2.3 SUMMARY AND FINDINGS ON THE STATE OF THE ART ............................... 32 3 OBJECTIVES AND TASKS 35 4 INSTANTANEOUS PROCESS MODEL IDENTIFICATION IN MILLING 39 4.1 ON MODELING THE PROCESS FORCE IN MILLING ........................................ 40 4.2 ENSEMBLE K ALMAN FILTERING FOR FORCE MODEL IDENTIFICATION .... 43 4.2.1 EXCURSION: THE ENSEMBLE K ALMAN FILTER ............................ 43 4.2.2 CONSIDERATIONS ON ENKF FOR IDENTIFYING A PROCESS MODEL IN MILLING ...............................................................................47 II CONTENTS 4.3 ON THE IDENTIFICATION OF A MECHANISTIC FORCE MODEL ......................... 51 4.3.1 SETUP FOR THE SIMULATION-BASED ANALYSIS ............................ 51 4.3.2 COMPARATIVE STUDY ON IDENTIFICATION METHODS FOR THE KIENZLE-MODEL ................................................................... 53 4.3.3 ANALYZING THE CONVERGENCE OF THE COEFFICIENTS ............... 56 4.4 ON THE IDENTIFICATION OF A RADIAL DEVIATION MODEL ............................ 59 4.4.1 IDENTIFYING THE RADIAL OFFSET IN POLAR COORDINATES ............ 60 4.4.2 IDENTIFYING THE RADIAL OFFSET IN CARTESIAN COORDINATES . . 61 4.5 ANALYZING A JOINT IDENTIFICATION OF FORCE AND RADIAL DEVIATION MODEL 63 4.6 SUMMARY AND FINDINGS ON METHODS FOR INSTANTANEOUS PROCESS MODEL IDENTIFICATION ......................................................................... 67 5 APPLIED MODEL IDENTIFICATION WITH ENKF 69 5.1 IDENTIFICATION UNDER COORDINATE TRANSFORMATION ............................... 69 5.1.1 IDENTIFICATION FROM SIGNALS IN DIFFERENT COORDINATE SYSTEMS 69 5.1.2 FUSING SIGNALS OF DIFFERENT COORDINATE SYSTEMS ............... 73 5.2 IDENTIFICATION ON REAL MEASUREMENTS .............................................. 76 5.2.1 MEASURING THE POSITION OF EACH INDIVIDUAL TOOTH ............ 76 5.2.2 EXPERIMENTAL SETUP: WORKPIECE, ENGAGEMENT CONDITIONS, AND MEASUREMENTS .............................................................77 5.2.3 ANALYZING THE ENKF ON REAL MEASUREMENTS ...................... 81 5.2.4 EXTENDING THE ENKF TO TIME-VARIANT IDENTIFICATIONS .... 84 5.3 SUMMARY AND FINDINGS ON ENKF WITH REAL MEASUREMENTS .... 89 6 MODEL PREDICTIVE FORCE CONTROL IN MILLING 91 6.1 DEVELOPMENT OF A CONTINUOUS REFERENCE GENERATOR ......................... 93 6.1.1 DETERMINING THE MAXIMUM UNDEFORMED CHIP THICKNESS PER REVOLUTION ...................................................................... 94 6.1.2 SOLVING THE INVERSE PROCESS MODEL ..................................... 95 6.2 CONTROLLER DESIGN AND TUNING .......................................................... 98 6.2.1 IDENTIFYING A MACHINE TOOL MODEL ...................................... 100 6.2.2 CHOOSING CONTROL HORIZONS ................................................ 102 6.2.3 REQUIRED RESOLUTION OF THE ENGAGEMENT SIMULATION . . .103 6.3 DEVELOPING A ROBUST MEASUREMENT OF THE FEED VELOCITY ............. 105 6.4 THE SETUP OF THE MODEL PREDICTIVE FORCE CONTROLLER ....................... 107 6.4.1 CONTROL SYSTEM COMMUNICATION ......................................... 107 6.4.2 SYNCHRONICITY, LATENCY, AND DELAY ...................................... 109 6.4.3 REAL-TIME IMPLEMENTATION ................................................... 110 6.5 SUMMARY AND FINDINGS ON THE MODEL PREDICTIVE FORCE CONTROLLER .113 CONTENTS III 7 VALIDATION OF FORCE CONTROL IN MILLING 115 7.1 MPFC WITH AN ENKF-BASED IDENTIFICATION ................................... 115 7.1.1 ENKF WITH UNIFORM INITIAL DISTRIBUTION ................................ 115 7.1.2 ENKF WITH UNIFORM INITIAL DISTRIBUTION AND INFLATION . . . .119 7.1.3 ENKF WITH GAUSSIAN INITIAL DISTRIBUTION ............................. 123 7.2 OPEN-LOOP FORCE CONTROL, CLOSED-LOOP VELOCITY CONTROL ............... 125 7.3 MPFC WITH DISCRETE IDENTIFICATION .................................................. 127 7.4 SUMMARY AND FINDINGS OF ENKF-BASED MPFC ............................. 129 8 CONCLUSION 131 8.1 SUMMARY AND DISCUSSION .............................................................. 131 8.2 OUTLOOK ......................................................................................... 133 FAZIT 135 APPENDIX 139 A.1 NOTES ON THE ENSEMBLE K ALMAN FILTER .......................................... 139 A.1.1 MATRIX DIMENSIONS OF THE ENKF ......................................... 139 A.1 .2 ALTERNATIVE FORMULATION OF THE ENKF ................................... 140 A.2 ALGORITHMS ....................................................................................... 141 A.2.1 RECURSIVE LEAST SQUARES (RLS) ......................................... 141 A.2.2 B OUNDED OPTIMIZATION BY QUADRATIC APPROXIMA TION (BOBYQA) ..................................................... 141 A.2.3 K ALMAN FILTER (KF) .............................................................. 142 A.3 SUPPLEMENT .................................................................................... 144 A.3.1 COMPLEMENTARY FIGURES TO CHAPTER 4 ................................ 144 A.3. 2 COMPLEMENTARY FIGURES TO CHAPTER 5 ................................ 152 A.3.3 COMPLEMENTARY FIGURES TO CHAPTER 6 ................................ 158 A.3.4 COMPLEMENTARY FIGURES TO CHAPTER 7 ................................ 158 BIBLIOGRAPHY 171
adam_txt	CONTENTS CONTENTS I LIST OF FIGURES III LIST OF TABLES VIII LISTS OF SYMBOLS AND ACRONYMS XI LIST OF UPPERCASE CHARACTERS . XI LIST OF LOWERCASE CHARACTERS . XIII LIST OF GREEK CHARACTERS . XV LIST OF ACRONYMS . XVI 1 INTRODUCTION 1 2 STATE OF THE ART 3 2.1 FORCE CONTROL IN MILLING . 3 2.1.1 A PRIORI PROCESS OPTIMIZATION: FEEDRATE SCHEDULING . 6 2.1.2 TIME-INVARIANT CONTROL . 7 2.1.3 TIME-VARIANT CONTROL: ADAPTIVE CONTROLLERS . 9 2.1.4 SIMULATION-ENHANCED CONTROL . 11 2.1.5 TIME-VARIANT CONTROL: MODEL-BASED PREDICTIVE CONTROL . . 12 2.2 PROCESS MODEL IDENTIFICATION . 15 2.2.1 FORCE MODEL: SHEAR-BASED MODELS . 16 2.2.2 FORCE MODEL: MECHANISTIC MODELS . 17 2.2.3 CUTTING WITH A DEFINED EDGE: UNDEFORMED CHIP PARAMETERS 22 2.2.4 CHIP SIZE EFFECT . 24 2.2.5 IDENTIFICATION METHODS FOR MECHANISTIC FORCE MODELS . 25 2.2.6 RADIAL DEVIATION MODEL . 29 2.2.7 IDENTIFICATION METHODS FOR RADIAL DEVIATION MODELS . 31 2.3 SUMMARY AND FINDINGS ON THE STATE OF THE ART . 32 3 OBJECTIVES AND TASKS 35 4 INSTANTANEOUS PROCESS MODEL IDENTIFICATION IN MILLING 39 4.1 ON MODELING THE PROCESS FORCE IN MILLING . 40 4.2 ENSEMBLE K ALMAN FILTERING FOR FORCE MODEL IDENTIFICATION . 43 4.2.1 EXCURSION: THE ENSEMBLE K ALMAN FILTER . 43 4.2.2 CONSIDERATIONS ON ENKF FOR IDENTIFYING A PROCESS MODEL IN MILLING .47 II CONTENTS 4.3 ON THE IDENTIFICATION OF A MECHANISTIC FORCE MODEL . 51 4.3.1 SETUP FOR THE SIMULATION-BASED ANALYSIS . 51 4.3.2 COMPARATIVE STUDY ON IDENTIFICATION METHODS FOR THE KIENZLE-MODEL . 53 4.3.3 ANALYZING THE CONVERGENCE OF THE COEFFICIENTS . 56 4.4 ON THE IDENTIFICATION OF A RADIAL DEVIATION MODEL . 59 4.4.1 IDENTIFYING THE RADIAL OFFSET IN POLAR COORDINATES . 60 4.4.2 IDENTIFYING THE RADIAL OFFSET IN CARTESIAN COORDINATES . . 61 4.5 ANALYZING A JOINT IDENTIFICATION OF FORCE AND RADIAL DEVIATION MODEL 63 4.6 SUMMARY AND FINDINGS ON METHODS FOR INSTANTANEOUS PROCESS MODEL IDENTIFICATION . 67 5 APPLIED MODEL IDENTIFICATION WITH ENKF 69 5.1 IDENTIFICATION UNDER COORDINATE TRANSFORMATION . 69 5.1.1 IDENTIFICATION FROM SIGNALS IN DIFFERENT COORDINATE SYSTEMS 69 5.1.2 FUSING SIGNALS OF DIFFERENT COORDINATE SYSTEMS . 73 5.2 IDENTIFICATION ON REAL MEASUREMENTS . 76 5.2.1 MEASURING THE POSITION OF EACH INDIVIDUAL TOOTH . 76 5.2.2 EXPERIMENTAL SETUP: WORKPIECE, ENGAGEMENT CONDITIONS, AND MEASUREMENTS .77 5.2.3 ANALYZING THE ENKF ON REAL MEASUREMENTS . 81 5.2.4 EXTENDING THE ENKF TO TIME-VARIANT IDENTIFICATIONS . 84 5.3 SUMMARY AND FINDINGS ON ENKF WITH REAL MEASUREMENTS . 89 6 MODEL PREDICTIVE FORCE CONTROL IN MILLING 91 6.1 DEVELOPMENT OF A CONTINUOUS REFERENCE GENERATOR . 93 6.1.1 DETERMINING THE MAXIMUM UNDEFORMED CHIP THICKNESS PER REVOLUTION . 94 6.1.2 SOLVING THE INVERSE PROCESS MODEL . 95 6.2 CONTROLLER DESIGN AND TUNING . 98 6.2.1 IDENTIFYING A MACHINE TOOL MODEL . 100 6.2.2 CHOOSING CONTROL HORIZONS . 102 6.2.3 REQUIRED RESOLUTION OF THE ENGAGEMENT SIMULATION . . .103 6.3 DEVELOPING A ROBUST MEASUREMENT OF THE FEED VELOCITY . 105 6.4 THE SETUP OF THE MODEL PREDICTIVE FORCE CONTROLLER . 107 6.4.1 CONTROL SYSTEM COMMUNICATION . 107 6.4.2 SYNCHRONICITY, LATENCY, AND DELAY . 109 6.4.3 REAL-TIME IMPLEMENTATION . 110 6.5 SUMMARY AND FINDINGS ON THE MODEL PREDICTIVE FORCE CONTROLLER .113 CONTENTS III 7 VALIDATION OF FORCE CONTROL IN MILLING 115 7.1 MPFC WITH AN ENKF-BASED IDENTIFICATION . 115 7.1.1 ENKF WITH UNIFORM INITIAL DISTRIBUTION . 115 7.1.2 ENKF WITH UNIFORM INITIAL DISTRIBUTION AND INFLATION . . . .119 7.1.3 ENKF WITH GAUSSIAN INITIAL DISTRIBUTION . 123 7.2 OPEN-LOOP FORCE CONTROL, CLOSED-LOOP VELOCITY CONTROL . 125 7.3 MPFC WITH DISCRETE IDENTIFICATION . 127 7.4 SUMMARY AND FINDINGS OF ENKF-BASED MPFC . 129 8 CONCLUSION 131 8.1 SUMMARY AND DISCUSSION . 131 8.2 OUTLOOK . 133 FAZIT 135 APPENDIX 139 A.1 NOTES ON THE ENSEMBLE K ALMAN FILTER . 139 A.1.1 MATRIX DIMENSIONS OF THE ENKF . 139 A.1 .2 ALTERNATIVE FORMULATION OF THE ENKF . 140 A.2 ALGORITHMS . 141 A.2.1 RECURSIVE LEAST SQUARES (RLS) . 141 A.2.2 B OUNDED OPTIMIZATION BY QUADRATIC APPROXIMA TION (BOBYQA) . 141 A.2.3 K ALMAN FILTER (KF) . 142 A.3 SUPPLEMENT . 144 A.3.1 COMPLEMENTARY FIGURES TO CHAPTER 4 . 144 A.3. 2 COMPLEMENTARY FIGURES TO CHAPTER 5 . 152 A.3.3 COMPLEMENTARY FIGURES TO CHAPTER 6 . 158 A.3.4 COMPLEMENTARY FIGURES TO CHAPTER 7 . 158 BIBLIOGRAPHY 171
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV048237075
illustrated	Illustrated
index_date	2024-07-03T19:52:54Z
indexdate	2024-07-10T09:32:45Z
institution	BVB
institution_GND	(DE-588)1068101474
isbn	9783985550579 3985550573
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033617667
oclc_num	1313608665
open_access_boolean	1
owner	DE-29T DE-83
owner_facet	DE-29T DE-83
physical	xvii, 197 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 329 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 Technologie der Fertigungsverfahren
spelling	Schwenzer, Max Verfasser (DE-588)1256182893 aut Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter Max Schwenzer Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter 1. Auflage Aachen Apprimus Verlag 2022 xvii, 197 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 329 g txt rdacontent n rdamedia nc rdacarrier Ergebnisse aus der Produktionstechnik Band 13/2022 Technologie der Fertigungsverfahren Dissertation Rheinisch-Westfälische Technische Hochschule Aachen 2021 Schnittkraft (DE-588)4125462-4 gnd rswk-swf Kalman-Filter (DE-588)4130759-8 gnd rswk-swf Prozessregelung (DE-588)4222919-4 gnd rswk-swf Modellprädiktive Regelung (DE-588)1135937567 gnd rswk-swf Fräsen (DE-588)4018037-2 gnd rswk-swf Regelungstechnik Hochleistungszerspanung Zerspantechnologie (DE-588)4113937-9 Hochschulschrift gnd-content Fräsen (DE-588)4018037-2 s Schnittkraft (DE-588)4125462-4 s Prozessregelung (DE-588)4222919-4 s Modellprädiktive Regelung (DE-588)1135937567 s Kalman-Filter (DE-588)4130759-8 s DE-604 Apprimus Verlag (DE-588)1068101474 pbl Erscheint auch als Online-Ausgabe, PDF https://doi.org/10.18154/RWTH-2022-03843 Ergebnisse aus der Produktionstechnik Band 13/2022 (DE-604)BV023307578 2022,13 https://doi.org/10.18154/RWTH-2022-03843 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=033617667&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20220412 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Schwenzer, Max Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter Ergebnisse aus der Produktionstechnik Schnittkraft (DE-588)4125462-4 gnd Kalman-Filter (DE-588)4130759-8 gnd Prozessregelung (DE-588)4222919-4 gnd Modellprädiktive Regelung (DE-588)1135937567 gnd Fräsen (DE-588)4018037-2 gnd
subject_GND	(DE-588)4125462-4 (DE-588)4130759-8 (DE-588)4222919-4 (DE-588)1135937567 (DE-588)4018037-2 (DE-588)4113937-9
title	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter
title_alt	Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter
title_auth	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter
title_exact_search	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter
title_exact_search_txtP	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter
title_full	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter Max Schwenzer
title_fullStr	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter Max Schwenzer
title_full_unstemmed	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering = Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter Max Schwenzer
title_short	Closing the loop of model predictive force control in milling with Ensemble Kalman Filtering
title_sort	closing the loop of model predictive force control in milling with ensemble kalman filtering schließen des regelkreises einer modellpradiktiven kraftregelung beim frasen mit einem ensemble kalman filter
title_sub	= Schließen des Regelkreises einer modellprädiktiven Kraftregelung beim Fräsen mit einem Ensemble Kalman Filter
topic	Schnittkraft (DE-588)4125462-4 gnd Kalman-Filter (DE-588)4130759-8 gnd Prozessregelung (DE-588)4222919-4 gnd Modellprädiktive Regelung (DE-588)1135937567 gnd Fräsen (DE-588)4018037-2 gnd
topic_facet	Schnittkraft Kalman-Filter Prozessregelung Modellprädiktive Regelung Fräsen Hochschulschrift
url	https://doi.org/10.18154/RWTH-2022-03843 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033617667&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV023307578
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