Verfügbarkeit: Production processes and systems digitalization

Production processes and systems digitalization:

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Bibliographische Detailangaben
Hauptverfasser:	Trebuňa, Peter (VerfasserIn), Pekarčíková, Miriam (VerfasserIn), Kliment, Marek (VerfasserIn), Trojan, Jozef (VerfasserIn), Mizerák, Marek (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Lüdenscheid, Germany RAM-Verlag 2022 Košice Scientific and professional literature edition 2022
Schlagworte:	Digitalisierung Produktionssystem Produktionsprozess Systems Digitalization Digital modeling and simulation of processes and systems Production Processes
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	410 Seiten Illustrationen, Diagramme 25 cm, 650 g
ISBN:	9783965950269 3965950266

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MARC


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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS LIST OF FIGURES ....................................................................................................................................... 1 1. THE EVOLUTION OF INDUSTRIAL REVOLUTIONS .................................................................................... 13 1.1. TRANSITION FROM INDUSTRY 4.0 TO INDUSTRY 5.0 ..................................................................... 16 1.2. INDUSTRY 5.0 ........................................................................................................................ 21 1.3. BENEFITS OF INDUSTRY 5.0 ...................................................................................................... 24 1.4. PREREQUISITES FOR INDUSTRY 5.0 ............................................................................................. 25 1.5. HUMAN-MACHINE COLLABORATION IN THE INDUSTRY 5.0 CONCEPT ............................................... 27 1.6. KEY APPLICATIONS OF INDUSTRY 5.0 ......................................................................................... 31 2. TESTBED ....................................................................................................................................... 33 2.1. TESTBED IN FOREIGN COUNTRIES ............................................................................................ 33 2.1.1. RICAIPZEMA TESTBED SAARBRUCKEN ......................................................................... 34 2.1.2. RICAIP TESTBED PRAGUE CHRC CTU .............................................................................. 34 2.1.3. RICAIP TESTBED BRNO CEITEC BUT .............................................................................. 35 2.1.4. ENGINE TESTBEDS GRAZ, AUSTRIA ................................................................................... 35 2.2. TESTBED 4.0 ......................................................................................................................... 36 2.3. TESTBED 4.0 WORKPLACES ...................................................................................................... 38 2.3.1. PRODUCT DATA ............................................................................................................... 38 2.3.2. DEVELOPMENT AND DEBUGGING OF AUTOMATED EQUIPMENT .......................................... 42 2.3.3. PRE-PRODUCTION PHASES ............................................................................................... 43 2.3.4. PRODUCTION, LOGISTICS, MANAGEMENT OUTPUTS .............................................................. 45 2.3.5. MATERIALS, EQUIPMENT AND MANPOWER FLOW MANAGEMENT ........................................ 48 2.3.6. CAM MACHINE ............................................................................................................. 49 2.3.7. DIGITAL TWIN ................................................................................................................. 51 2.3.8. EXTERNAL PARTNERS AND COLLABORATOR APPLICATIONS ........................................................ 53 2.4. TESTBED 4.0 TECHNOLOGY ..................................................................................................... 55 2.4.1 RTLS .................................................................................................................................. 55 2.4.2. PLC ................................................................................................................................ 58 2.4.3. WMS AND MATERIAL FLOW TECHNOLOGY ............................................................................ 59 2.5. PLM SYSTEM ON THE MARKET ................................................................................................. 61 2.6. REPRESENTATION OF SIEMENS PLM PORTFOLIO ON THE MARKET AND IN TESTBED 4.0 ................. 62 3. ARTIFICIAL INTELLIGENCE................................................................................................................... 66 3.1. DEFINITION OF ARTIFICIAL INTELLIGENCE ...................................................................................... 66 3.2. USING THE DEFINITION OF ARTIFICIAL INTELLIGENCE ...................................................................... 68 3.3. THE MAIN GOAL OF ARTIFICIAL INTELLIGENCE TODAY ..................................................................... 69 3.4. HISTORICAL DEVELOPMENT OF ARTIFICIAL INTELLIGENCE ................................................................ 70 3.5. ADVANCES IN COMPUTING ....................................................................................................... 73 3.6. DEMONSTRABILITY OF ARTIFICIAL INTELLIGENCE ............................................................................ 82 3.6.1. THE TURING TEST ............................................................................................................ 82 3.6.2. PROGRESSIVE SOLUTION APPROACHES ............................................................................... 83 3.6.3. MONTE CARLO ALGORITHMS .............................................................................................. 84 3.6.4. HEURISTIC ALGORITHMS .................................................................................................... 84 3.6.5. PURE RANDOM SEARCH ................................................................................................... 84 3.6.6. LOCAL SEARCH ................................................................................................................. 84 3.6.7. HILL CLIMBING ................................................................................................................. 84 3.6.8. TABUSEARCH ................................................................................................................. 85 3.6.9. SIMULATED ANNEALING ................................................................................................... 85 3.6.10. META-HEURISTIC ALGORITHMS ........................................................................................... 86 3.6.11. NEURAL NETWORKS .......................................................................................................... 89 3.6.12. BUSINESS INTELLIGENCE ................................................................................................... 90 4. DATA MANAGEMENT VIA PLM........................................................................................................ 92 4.1. PRODUCTION DATA AND PRODUCT INFORMATION .......................................................................... 93 4.1.1. PRODUCTION DATA ........................................................................................................... 93 4.1.2. PRODUCT INFORMATION .................................................................................................... 93 4.2. PRODUCT DATA MANAGEMENT (PDM) ...................................................................................... 93 4.3. PRODUCT LIFECYCLE MANAGEMENT (PLM) .............................................................................. 95 4.3.1. A SINGLE SOURCE OF INFORMATION ................................................................................... 96 4.3.2. FULL CONTROL OVER COMPANY PROCESES .......................................................................... 96 4.3.3. SAFE AND SECURE SOURCE OF COMPANY KNOW-HOW ........................................................ 97 4.4. HISTORY OF DEVELOPMENT AND ORIGINS OF PDM / PLM SOLUTIONS ............................................ 98 4.5. BASIC LAYOUT AND DESCRIPTION OF PLM COMPONENTS ............................................................. 98 4.5.1. DOCUMENT MANAGEMENT ............................................................................................ 98 4.5.2. DATA STRUCTURE ............................................................................................................ 99 4.5.3. PLM SOLUTION ARCHITECTURE ........................................................................................ 100 4.5.4. USER ORGANIZATION AND USER RIGHTS MANAGEMENT ...................................................... 103 4.5.5. PROJECT ADMINISTRATION .............................................................................................. 104 4.5.6. REQUIREMENTS MANAGEMENT ..................................................................................... 105 4.5.7. PROJECT MANAGEMENT ................................................................................................. 106 4.5.8. DATA CLASSIFICATION ...................................................................................................... 107 4.5.9. DATA VISUALIZATION ...................................................................................................... 108 4.6. BUSINESS PROCESSES ........................................................................................................... 109 4.6.1. CHANGE MANAGEMENT ............................................................................................... 110 4.6.2. MUTUAL COOPERATION .................................................................................................. ILL 4.7. INTEGRATION OF PLM WITH OTHER APPLICATIONS ..................................................................... 112 4.7.1. INTEGRATION WITH MS OFFICE PRODUCTS .......................................................................... 113 4.7.2. CAD INTEGRATION ......................................................................................................... 113 4.7.3. CAE INTEGRATION ......................................................................................................... 114 4.7.4. CAM INTEGRATION ........................................................................................................ 114 4.7.5. INTEGRATION WITH INFORMATION SYSTEMS ...................................................................... 115 4.8. HD-PLM .............................................................................................................................. 117 4.9. BASIC PREREQUISITES FOR SUCCESSFUL PLM SOLUTION IMPLEMENTATION .................................. 119 4.10. POSSIBLE RISKS OF PLM SOLUTIONS IMPLEMENTATION .......................................................... 119 4.11. EXAMPLES OF PLM SOLUTIONS ........................................................................................... 120 5. PLM SYSTEMS - THEORETICAL KNOWLEDGE ................................................................................... 121 5.1. PLM - PRODUCT LIFECYCLE MANAGEMENT ............................................................................ 121 5.1.1. PLM STAGES .................................................................................................................. 123 5.1.2. PLM GRID ..................................................................................................................... 126 5.1.3. BENEFITS OF PLM ......................................................................................................... 127 5.1.4. PLM SOFTWARE REPRESENTATION ON THE MARKET .......................................................... 129 5.2. SIEMENS TECNOMATIX - PLM SYSTEM FOR MANAGEMENT AND ADMINISTRATION OF COMPANY PROCESSES ....................................................................................................................................... 132 5.2.1. TECNOMATIX - MODULES .............................................................................................. 132 5.2.2. PROCESS SIMULATE ....................................................................................................... 134 5.2.3. PROCESS SIMULATE MODULES ......................................................................................... 135 6. LAUNCHING PROCESS SIMULATE AND CREATING A NEW PROJECT...................................................... 139 6.1. WORKING INTERFACE .............................................................................................................. 140 6.2. BASIC COMMANDS FOR DESKTOP SETUP .................................................................................. 141 6.3. IMPORT/EXPORT .................................................................................................................... 147 6.4. WORKING WITH THE MOUSE ................................................................................................... 148 6.5. WORKING WITH THE OBJECT TREE ............................................................................................ 149 6.6. CREATING AND WORKING WITH GROUPS .................................................................................... 150 7. INSERTING AND CREATING MODELS ................................................................................................ 153 7.1. INSERTING OBJECTS FROM THE LIBRARY ..................................................................................... 153 7.2. INSERTING OWN MODELS INTO THE LIBRARY ............................................................................... 155 7.3. INSERTING NEW PARTS ........................................................................................................... 156 7.4. CREATING SIMPLE MODELS ..................................................................................................... 158 7.5. CREATING MORE COMPLEX MODELS ........................................................................................ 159 7.6. SAVING AN OBJECT TO THE LIBRARY .......................................................................................... 163 7.7. MODEL MODIFICATION ............................................................. 164 7.8. RETURNING TO A SAVED MODEL .............................................................................................. 165 7.9. EXAMPLES ............................................................................................................................ 165 7.9.1. MODELING AND POSITIONING OF A DONUT ON THE TABLE .................................................. 165 7.9.2. MODELING A GLASS OF JUICE ON THE TABLE ...................................................................... 166 7.9.3. CREATING A COFFEE CUP ............................................................................................... 168 8. REPOSITIONING OBJECTS .............................................................................................................. 172 8.1. THE FAST PLACEMENT COMMAND ......................................................................................... 172 8.2. THE CREATE FRAME COMMAND ............................................................................................ 173 8.2.1. CREATE FRAME USING 6 VALUES .................................................................................... 173 8.2.2. CREATE FRAME BY 3 POINTS ......................................................................................... 174 8.2.3. CREATE FRAME BETWEEN 2 POINTS ............................................................................... 175 8.2.4. CREATE FRAME BY CIRCLE CENTER .................................................................................. 175 8.3. THE PLACEMENT MANIPULATOR COMMAND ........................................................................... 176 8.4. INTERRELATION BETWEEN PLACEMENT MANIPULATOR, MEASURING AND UNITS .......................... 178 8.4.1. DETERMINING THE DISTANCE BETWEEN TWO OBJECTS ..................................................... 178 8.4.2. DETERMINATION OF THE MINIMUM DISTANCE BETWEEN TWO OBJECTS .............................. 180 8.4.3. OBJECT MOVEMENT ...................................................................................................... 181 8.4.4. IMPACT INDUCED BY A CHANGE OF UNITS ....................................................................... 182 8.5. RELOCATION OF THE OBJECT RELATIVE TO 2 FRAMES ................................................................. 182 9. GENERATING BASIC OPERATIONS................................................................................................... 184 9.1. LOADING PARTS OF AN OBJECT ............................................................................. 184 9.2. SETTING THE OBJECT KINEMATICS ............................................................................................ 185 9.2.1. SETTING THE MODELING OPTION .................................................................................... 185 9.2.2. DETERMINING INTERRELATION OF INDIVIDUAL PARTS OF THE OBJECT ..................................... 186 9.3. OPENING THE JOINT JOG WINDOW .......................................................................................... 190 9.4. DEFINING POSES ................................................................................................................... 191 9.5. CREATE DEVICE OPERATION .................................................................................................... 193 9.6. CREATING AN OBJECT FLOW OPERATION .................................................................................... 194 9.7. WORKING WITH THE OPERATIONS TREE ..................................................................................... 196 9.8. EXAMPLES OF CREATING OPERATIONS ....................................................................................... 198 9.8.1. CUBE MOVEMENT ON THE CONVEYOR ............................................................................. 198 9.8.2. CREATING A DRILLING OPERATION ...................................................................................... 203 10. SIMULATING HUMAN OPERATIONS ................................................................................................209 10.1. MODELING A HUMAN .......................................................................................................209 10.2. MODELING A HUMAN GAIT OPERATION ............................................................................... 210 10.3. ADJUSTING THE HUMAN POSTURE ...................................................................................... 211 10.3.1. CONTROL ......................................................................................................................212 10.3.2. POSTURE LIBRARY ......................................................................................................... 213 10.3.3. ADJUST JOINT ................................................................................................................ 214 10.3.4. LOADS AND WEIGHTS .................................................................................................... 215 10.4. CREATING SIMULATIONS OF BASIC HUMAN ACTIONS ................................................................ 215 10.5. BASIC SPATIAL ANALYSIS ..................................................................................................... 218 10.5.1. GRASP ENVELOPE ......................................................................................................... 218 10.5.2. VISION ENVELOPE ......................................................................................................... 219 10.5.3. VISION WINDOW .......................................................................................................... 219 10.5.4. ENVELOPE SETUP .......................................................................................................... 220 10.6. TOOLS FOR ERGONOMIC ASSESSMENT.................................................................................. 220 10.7. EXAMPLES ....................................................................................................................... 222 10.7.1. INSERTING A WORKER INTO A FORKLIFT ............................................................................. 222 10.7.2. RELOCATION OF AN OBJECT BY HUMAN ........................................................................... 226 11. CREATING BASIC ROBOTIC OPERATIONS ......................................................................................... 233 11.1. PROCEDURE FOR CREATING A SPOT WELDING OPERATION ........................... 233 11.2. PROCEDURE FOR CREATING AN OBJECT TRANSFER OPERATION USING A ROBOTIC ARM .................. 237 12. BASIC SIMULATION OPTIONS AND SETTINGS .................................................................................... 243 12.1. WORKING WITH SEQUENCE EDITOR ..................................................................................... 243 12.2. MAKING A SIMULATION VIDEO ........................................................................................... 246 12.3. TAKING A PICTURE ............................................................................................................ 246 12.4. MAKING NOTES ON DEVICES .............................................................................................. 248 12.5. DIMENSION QUOTATION ....................................................................................................248 12.6. WORKING WITH COLLISION VIEWER ..................................................................................... 249 13. TECNOMATIX PROCESS SIMULATE VIRTUAL COMMISSIONING, ENVIRONMENT AND TOOLS USED IN THE DESIGN OF MANUFACTURING SYSTEMS ................................................................... 252 13.1. THE PROCESS OF PROJECT DESIGN ..................................................................................... 252 13.2. DESCRIPTION OF THE WORKPLACE MODELED ....................................................................... 260 13.3. CREATING THE KINEMATICS OF INDIVIDUAL COMPONENTS OF THE PRODUCTION LINE ................ 263 13.3.1. CREATING THE KINEMATICS OF A CNC LATHE ................................................................... 263 13.3.2. CREATING THE KINEMATICS OF THE TURNTABLE ................................................................ 267 13.3.3. CREATING THE KINEMATICS OF THE CLAMPS .................................................................... 269 13.4. CREATING A CONVEYOR ..................................................................................................... 271 13.5. LOGIC BLOCKS - SMART COMPONENT ................................................................................. 275 13.5.1. CREATING A LOGIC BLOCK FOR THE ROBOT GRIPPER ............................................................. 276 13.5.2. CREATING A LOGIC BLOCK FOR THE CNC LATHE ................................................................... 282 13.5.3. AUTOMATIC LOGIC BLOCK CREATION FOR THE TURNTABLE ..................................................... 283 13.5.4. AUTOMATIC LOGIC BLOCK CREATION FOR CLAMPS ............................................................... 285 13.6. CREATING TURNTABLE CONNECTION WITH CLAMPS ................................................................ 286 13.7. CREATING SENSORS ........................................................................................................... 287 13.8. CREATING MATERIAL FLOW .................................................................................................. 289 14. CHARACTERISTICS OF REVERSE ENGINEERING .................................................................................. 290 14.1. OPTIONS FOR LINKING REVERSE ENGINEERING TO OTHER ACTIVITIES ........................................ 290 14.2. CLASSIFICATION OF METHODS FOR SURFACE MEASUREMENT .................................................. 291 14.2.1. CONTACT MEASUREMENT .............................................................................................. 291 14.2.2. NON-CONTACT MEASUREMENT ...................................................................................... 292 14.2.3. DESTRUCTIVE MEASUREMENT ........................................................................................ 293 14.3. PRINCIPLES OF CONTACT METHODS ...................................................................................... 293 14.3.1. ADVANTAGES AND DISADVANTAGES OF CONTACT METHODS .............................................. 294 14.4. PRINCIPLES OF NON-CONTACT METHODS .............................................................................. 296 14.4.1. ADVANTAGES AND DISADVANTAGES OF NON-CONTACT METHODS ....................................... 299 14.5. PRINCIPLES OF DESTRUCTIVE DIGITALIZATION .......................................................................... 300 14.5.1. ADVANTAGES AND DISADVANTAGES OF DESTRUCTIVE DIGITALIZATION .................................... 301 14.6. MEASUREMENT DATA PROCESSING ...................................................................................... 301 14.7. RAPID PROTOTYPING .......................................................................................................... 304 14.7.1. STEREOLITHOGRAPHY ..................................................................................................... 306 14.7.2. SELECTIVE LASER SINTERING ........................................................................................... 307 14.8. THE CONCEPT OF 3D PRINTER ............................................................................................. 312 14.9. THE USE OF RAPID PROTOTYPING ........................................................................................ 313 15. DEVELOPMENT TRENDS LEADING TO THE SHAPING OFDIGITAL ENTERPRISE .....................................316 15.1. GLOBALIZATION ................................................................................................................. 316 15.2. INFORMATICS ..................................................................... 317 15.3. COOPERATION ................................................................................................................... 318 15.4. MODULARITY AND MECHATRONICS ....................................................................................... 319 15.5. COMPETITIVENESS ............................................................................................................ 320 15.6. DIGITALIZATION .................................................................................................................. 321 16. 3D SCANNING AS A MEANS FOR DIGITALIZATION OF ENTITIES ...........................................................324 16.1. LASER .............................................................................................................................. 326 16.1.1. THE PHYSICAL PRINCIPLE OF THE LASER ............................................................................. 326 16.1.2. PARTS OF THE LASER ....................................................................................................... 327 16.1.3. TYPES OF LASER ............................................................................................................. 328 16.2. THE SPATIAL POLAR METHOD ................................................................. 328 16.3. MEASUREMENT OF LENGTHS ............................................................................................... 329 16.4. THE EVOLUTION OF 3D LASER SCANNING .............................................................................. 330 16.5. 3D LASER SCANNING TECHNOLOGIES ........................................................................... 332 16.5.1. CONTACT TECHNOLOGY ................................................................................................... 333 16.5.2. NON-CONTACT TECHNOLOGY ............................................................................................ 334 16.6. TYPES OF 3D SCANNERS ....................................................................................................334 16.6.1. LASER 3D SCANNERS ...................................................................................................... 334 16.6.2. SCANNERS USING STRUCTURED LIGHT ................................................................................ 335 16.6.3. MEDIUM AND LONG RANGE 3D SCANNERS....................................................................... 336 16.6.4. LASER PULSE-BASED 3D SCANNERS ................................................................................ 337 16.6.5. PHASE-SHIFT 3D LASER SCANNERS ................................................................................... 337 16.6.6. COORDINATE MEASURING MACHINE (CMM) .................................................................. 338 16.6.7. MEASURING ARM SCANNERS USING REVERSE ENGINEERING ............................................... 339 16.6.8. OPTICAL 3D SCANNERS .................................................................................................. 340 16.6.9. LIDAR SCANNING ............................................................................................................ 341 16.7. TECHNOLOGICAL PARAMETERS OF 3D SCANNERS .................................................................. 345 16.8. APPLICATION CHARACTERISTICS OF 3D SCANNERS ................................................................. 346 16.9. FACTORS INFLUENCING THE MEASUREMENT ......................................................................... 347 16.9.1. INFLUENCE OF THE SHAPE OF THE OBJECT MEASURED ....................................................... 347 16.9.2. INFLUENCE OF THE SURFACE OF THE OBJECT MEASURED ..................................................... 348 16.10. THE FUTURE OF 3D SCANNING ............................................................................................ 349 16.10.1. ADVANTAGE FOR DESIGN CREATION ............................................................................ 350 16.10.2. INVESTMENT MAXIMIZATION CAPABILITY ................................................................... 350 16.11. LASER SCANNING PROCEDURE ........................................................................................... 350 16.11.1. REGISTRATION (JOINING) OF SCAN AREAS USING INSERTION POINTS ................................. 351 17. SOFTWARE SUPPORT FOR CREATING 3D MODELS ............................................................................. 354 17.1. CAD SOFTWARE USE FOR 3D MODEL CREATION .................................................................... 354 17.1.1. SOLIDWORKS ................................................................................................................. 355 17.1.2. AUTODESK INVENTOR ..................................................................................................... 355 17.1.3. REVIT ........................................................................................................................... 356 17.1.4. RECAP .........................................................................................................................356 17.2. GRAPHICS PROGRAMS USE FOR CREATING 3D OBJECTS ......................................................... 357 18. COMPARING THE FEATURES OF TWO SCANNING TECHNOLOGIES ......................................................... 358 18.1. TIME INTENSITY 359 18.2. RELEVANCE OF LIGHT CONDITIONS ........................................................................................ 359 18.3. OBJECT SURFACE RELEVANCE ............................................................................................... 361 18.4. QUALITY OF PRIMARY MODEL .............................................................................................. 363 18.5. MODEL MODIFICATION OPTION ........................................................................................... 364 18.6. DEMONSTRATIONS OF VARIOUS SCANNING TECHNOLOGIES ...................................................... 366 19. THEORETICAL KNOWLEDGE IN THE FIELD OF INDUSTRIAL MONITORING ............................................... 369 19.1. RTLS DEFINITION ................................................................................................................ 369 19.2. RTLS SYSTEMS TOPOLOGY .................................................................................................. 369 19.2.1. DEFINITIONS BY THE APPLIED INFRASTRUCTURE ................................................................. 370 19.3. RTLS SYSTEM COMPONENTS .............................................................................................. 370 19.3.1. TRANSPONDERS ............................................................................................................. 370 19.3.2. RECEIVERS ................................................................................................................... 371 19.3.3. SOFTWARE .................................................................................................................... 371 19.4. RTLS COVERAGE OPTIONS .................................................................................................. 371 19.5. LOCALIZATION OF TRACKED OBJECTS ...................................................................................... 373 19.6. LOCATION MAPPING TECHNOLOGIES .................................................................................... 374 19.7. RFID TECHNOLOGY ............................................................................................................. 374 19.7.1. RFID TECHNOLOGY PRINCIPLE ......................................................................................... 374 19.7.2. PARTS OF THE SYSTEM - BASIC LEVEL: ............................................................................... 375 19.7.3. THE USE OF RFID TECHNOLOGY ....................................................................................... 375 19.8. ULTRASOUND LOCALIZATION TECHNOLOGY ............................................................................... 376 19.8.1. USID TECHNOLOGY PRINCIPLE ........................................................... YY ........................... 376 19.8.2. USID TECHNOLOGY APPLICATIONS ................................................................................... 377 19.9. INFRARED LOCALIZATION TECHNOLOGY ................................................................................... 377 19.9.1. IR LOCALIZATION PRINCIPLE ............................................................................................ 377 19.9.2. UTILIZATION OF IR LOCALIZATION ...................................................................................... 377 19.10. BLUETOOTH LOCALIZATION SYSTEMS ................................................................................... 378 19.10.1. CLASSIFICATION OF BLUETOOTH LOCALIZATION TECHNOLOGIES .......................................... 378 19.10.2. THE OPERATING PRINCIPLE OF BLUETOOTH LOCALIZATION .............................................. 378 19.10.3. USES OF BLUETOOTH LOCALIZATION ............................................................................ 379 19.11. WLAN LOCALIZATION SYSTEMS ......................................................................................... 379 19.11.1. THE USE OF WLAN LOKALIZATION SYSTEMS ............................................................... 379 19.12. LOCALIZATION TECHNOLOGIES USING MOBILE NETWORKS ....................................................... 380 19.12.1. THE OPERATING PRINCIPLE OF LOCALIZATION USING MOBILE NETWORKS .......................... 380 19.12.2. THE USE OF LOCALIZATION BASED ON THE MOBILE NETWORK PRINCIPLE ......................... 380 19.13. GLOBAL NAVIGATION SATELLITE SYSTEM ............................................................................ 380 19.13.1. GNSS OPERATING PRINCIPLE ................................................................................... 381 19.13.2. USES OF GLOBAL SATELLITE NAVIGATION SYSTEMS .......................................................... 382 19.14. UWB LOCALIZATION TECHNOLOGY ...................................................................................... 382 19.15. THE OPERATING PRINCIPLE OF UWB TECHNOLOGY ............................................................... 383 19.16. DIFFERENT USES OF UWB TECHNOLOGY .............................................................................. 383 19.17. COMPARISON OF RTLS TECHNOLOGIES ............................................................................... 384 19.17.1. RSSI VS TIME-OF-FLIGHT ESTIMATE ........................................................................... 384 19.18. UWB TECHNOLOGY BY SEWIO .......................................................................................... 385 19.19. SEWIO NETWORKS S.R.O ................................................................................................... 385 19.20. COMPANY PRODUCTS AND SERVICES ................................................................................. 386 19.20.1. HARDWARE SUPPORT ............................................................................................... 388 19.20.2. SOFTWARE SUPPORT ................................................................................................. 389 19.21. IMPLEMENTATION OF RTLS IN LABORATORY ENVIRONMENT OF THE DEPARTMENT OF INDUSTRIAL AND DIGITAL ENGINEERING ............................................................................................................... 391 19.22. TECHNICAL IMPLEMENTATION ........................................................................................... 392 19.22.1. ANCHORS AND TAGS CONFIGURATION .......................................................................... 393 CONCLUSION ........................................................................................................................................ 396 REFERENCES ,397
adam_txt	TABLE OF CONTENTS LIST OF FIGURES . 1 1. THE EVOLUTION OF INDUSTRIAL REVOLUTIONS . 13 1.1. TRANSITION FROM INDUSTRY 4.0 TO INDUSTRY 5.0 . 16 1.2. INDUSTRY 5.0 . 21 1.3. BENEFITS OF INDUSTRY 5.0 . 24 1.4. PREREQUISITES FOR INDUSTRY 5.0 . 25 1.5. HUMAN-MACHINE COLLABORATION IN THE INDUSTRY 5.0 CONCEPT . 27 1.6. KEY APPLICATIONS OF INDUSTRY 5.0 . 31 2. TESTBED . 33 2.1. TESTBED IN FOREIGN COUNTRIES . 33 2.1.1. RICAIPZEMA TESTBED SAARBRUCKEN . 34 2.1.2. RICAIP TESTBED PRAGUE CHRC CTU . 34 2.1.3. RICAIP TESTBED BRNO CEITEC BUT . 35 2.1.4. ENGINE TESTBEDS GRAZ, AUSTRIA . 35 2.2. TESTBED 4.0 . 36 2.3. TESTBED 4.0 WORKPLACES . 38 2.3.1. PRODUCT DATA . 38 2.3.2. DEVELOPMENT AND DEBUGGING OF AUTOMATED EQUIPMENT . 42 2.3.3. PRE-PRODUCTION PHASES . 43 2.3.4. PRODUCTION, LOGISTICS, MANAGEMENT OUTPUTS . 45 2.3.5. MATERIALS, EQUIPMENT AND MANPOWER FLOW MANAGEMENT . 48 2.3.6. CAM MACHINE . 49 2.3.7. DIGITAL TWIN . 51 2.3.8. EXTERNAL PARTNERS AND COLLABORATOR APPLICATIONS . 53 2.4. TESTBED 4.0 TECHNOLOGY . 55 2.4.1 RTLS . 55 2.4.2. PLC . 58 2.4.3. WMS AND MATERIAL FLOW TECHNOLOGY . 59 2.5. PLM SYSTEM ON THE MARKET . 61 2.6. REPRESENTATION OF SIEMENS PLM PORTFOLIO ON THE MARKET AND IN TESTBED 4.0 . 62 3. ARTIFICIAL INTELLIGENCE. 66 3.1. DEFINITION OF ARTIFICIAL INTELLIGENCE . 66 3.2. USING THE DEFINITION OF ARTIFICIAL INTELLIGENCE . 68 3.3. THE MAIN GOAL OF ARTIFICIAL INTELLIGENCE TODAY . 69 3.4. HISTORICAL DEVELOPMENT OF ARTIFICIAL INTELLIGENCE . 70 3.5. ADVANCES IN COMPUTING . 73 3.6. DEMONSTRABILITY OF ARTIFICIAL INTELLIGENCE . 82 3.6.1. THE TURING TEST . 82 3.6.2. PROGRESSIVE SOLUTION APPROACHES . 83 3.6.3. MONTE CARLO ALGORITHMS . 84 3.6.4. HEURISTIC ALGORITHMS . 84 3.6.5. PURE RANDOM SEARCH . 84 3.6.6. LOCAL SEARCH . 84 3.6.7. HILL CLIMBING . 84 3.6.8. TABUSEARCH . 85 3.6.9. SIMULATED ANNEALING . 85 3.6.10. META-HEURISTIC ALGORITHMS . 86 3.6.11. NEURAL NETWORKS . 89 3.6.12. BUSINESS INTELLIGENCE . 90 4. DATA MANAGEMENT VIA PLM. 92 4.1. PRODUCTION DATA AND PRODUCT INFORMATION . 93 4.1.1. PRODUCTION DATA . 93 4.1.2. PRODUCT INFORMATION . 93 4.2. PRODUCT DATA MANAGEMENT (PDM) . 93 4.3. PRODUCT LIFECYCLE MANAGEMENT (PLM) . 95 4.3.1. A SINGLE SOURCE OF INFORMATION . 96 4.3.2. FULL CONTROL OVER COMPANY PROCESES . 96 4.3.3. SAFE AND SECURE SOURCE OF COMPANY KNOW-HOW . 97 4.4. HISTORY OF DEVELOPMENT AND ORIGINS OF PDM / PLM SOLUTIONS . 98 4.5. BASIC LAYOUT AND DESCRIPTION OF PLM COMPONENTS . 98 4.5.1. DOCUMENT MANAGEMENT . 98 4.5.2. DATA STRUCTURE . 99 4.5.3. PLM SOLUTION ARCHITECTURE . 100 4.5.4. USER ORGANIZATION AND USER RIGHTS MANAGEMENT . 103 4.5.5. PROJECT ADMINISTRATION . 104 4.5.6. REQUIREMENTS MANAGEMENT . 105 4.5.7. PROJECT MANAGEMENT . 106 4.5.8. DATA CLASSIFICATION . 107 4.5.9. DATA VISUALIZATION . 108 4.6. BUSINESS PROCESSES . 109 4.6.1. CHANGE MANAGEMENT . 110 4.6.2. MUTUAL COOPERATION . ILL 4.7. INTEGRATION OF PLM WITH OTHER APPLICATIONS . 112 4.7.1. INTEGRATION WITH MS OFFICE PRODUCTS . 113 4.7.2. CAD INTEGRATION . 113 4.7.3. CAE INTEGRATION . 114 4.7.4. CAM INTEGRATION . 114 4.7.5. INTEGRATION WITH INFORMATION SYSTEMS . 115 4.8. HD-PLM . 117 4.9. BASIC PREREQUISITES FOR SUCCESSFUL PLM SOLUTION IMPLEMENTATION . 119 4.10. POSSIBLE RISKS OF PLM SOLUTIONS IMPLEMENTATION . 119 4.11. EXAMPLES OF PLM SOLUTIONS . 120 5. PLM SYSTEMS - THEORETICAL KNOWLEDGE . 121 5.1. PLM - PRODUCT LIFECYCLE MANAGEMENT . 121 5.1.1. PLM STAGES . 123 5.1.2. PLM GRID . 126 5.1.3. BENEFITS OF PLM . 127 5.1.4. PLM SOFTWARE REPRESENTATION ON THE MARKET . 129 5.2. SIEMENS TECNOMATIX - PLM SYSTEM FOR MANAGEMENT AND ADMINISTRATION OF COMPANY PROCESSES . 132 5.2.1. TECNOMATIX - MODULES . 132 5.2.2. PROCESS SIMULATE . 134 5.2.3. PROCESS SIMULATE MODULES . 135 6. LAUNCHING PROCESS SIMULATE AND CREATING A NEW PROJECT. 139 6.1. WORKING INTERFACE . 140 6.2. BASIC COMMANDS FOR DESKTOP SETUP . 141 6.3. IMPORT/EXPORT . 147 6.4. WORKING WITH THE MOUSE . 148 6.5. WORKING WITH THE OBJECT TREE . 149 6.6. CREATING AND WORKING WITH GROUPS . 150 7. INSERTING AND CREATING MODELS . 153 7.1. INSERTING OBJECTS FROM THE LIBRARY . 153 7.2. INSERTING OWN MODELS INTO THE LIBRARY . 155 7.3. INSERTING NEW PARTS . 156 7.4. CREATING SIMPLE MODELS . 158 7.5. CREATING MORE COMPLEX MODELS . 159 7.6. SAVING AN OBJECT TO THE LIBRARY . 163 7.7. MODEL MODIFICATION . 164 7.8. RETURNING TO A SAVED MODEL . 165 7.9. EXAMPLES . 165 7.9.1. MODELING AND POSITIONING OF A DONUT ON THE TABLE . 165 7.9.2. MODELING A GLASS OF JUICE ON THE TABLE . 166 7.9.3. CREATING A COFFEE CUP . 168 8. REPOSITIONING OBJECTS . 172 8.1. THE FAST PLACEMENT COMMAND . 172 8.2. THE CREATE FRAME COMMAND . 173 8.2.1. CREATE FRAME USING 6 VALUES . 173 8.2.2. CREATE FRAME BY 3 POINTS . 174 8.2.3. CREATE FRAME BETWEEN 2 POINTS . 175 8.2.4. CREATE FRAME BY CIRCLE CENTER . 175 8.3. THE PLACEMENT MANIPULATOR COMMAND . 176 8.4. INTERRELATION BETWEEN PLACEMENT MANIPULATOR, MEASURING AND UNITS . 178 8.4.1. DETERMINING THE DISTANCE BETWEEN TWO OBJECTS . 178 8.4.2. DETERMINATION OF THE MINIMUM DISTANCE BETWEEN TWO OBJECTS . 180 8.4.3. OBJECT MOVEMENT . 181 8.4.4. IMPACT INDUCED BY A CHANGE OF UNITS . 182 8.5. RELOCATION OF THE OBJECT RELATIVE TO 2 FRAMES . 182 9. GENERATING BASIC OPERATIONS. 184 9.1. LOADING PARTS OF AN OBJECT . 184 9.2. SETTING THE OBJECT KINEMATICS . 185 9.2.1. SETTING THE MODELING OPTION . 185 9.2.2. DETERMINING INTERRELATION OF INDIVIDUAL PARTS OF THE OBJECT . 186 9.3. OPENING THE JOINT JOG WINDOW . 190 9.4. DEFINING POSES . 191 9.5. CREATE DEVICE OPERATION . 193 9.6. CREATING AN OBJECT FLOW OPERATION . 194 9.7. WORKING WITH THE OPERATIONS TREE . 196 9.8. EXAMPLES OF CREATING OPERATIONS . 198 9.8.1. CUBE MOVEMENT ON THE CONVEYOR . 198 9.8.2. CREATING A DRILLING OPERATION . 203 10. SIMULATING HUMAN OPERATIONS .209 10.1. MODELING A HUMAN .209 10.2. MODELING A HUMAN GAIT OPERATION . 210 10.3. ADJUSTING THE HUMAN POSTURE . 211 10.3.1. CONTROL .212 10.3.2. POSTURE LIBRARY . 213 10.3.3. ADJUST JOINT . 214 10.3.4. LOADS AND WEIGHTS . 215 10.4. CREATING SIMULATIONS OF BASIC HUMAN ACTIONS . 215 10.5. BASIC SPATIAL ANALYSIS . 218 10.5.1. GRASP ENVELOPE . 218 10.5.2. VISION ENVELOPE . 219 10.5.3. VISION WINDOW . 219 10.5.4. ENVELOPE SETUP . 220 10.6. TOOLS FOR ERGONOMIC ASSESSMENT. 220 10.7. EXAMPLES . 222 10.7.1. INSERTING A WORKER INTO A FORKLIFT . 222 10.7.2. RELOCATION OF AN OBJECT BY HUMAN . 226 11. CREATING BASIC ROBOTIC OPERATIONS . 233 11.1. PROCEDURE FOR CREATING A SPOT WELDING OPERATION . 233 11.2. PROCEDURE FOR CREATING AN OBJECT TRANSFER OPERATION USING A ROBOTIC ARM . 237 12. BASIC SIMULATION OPTIONS AND SETTINGS . 243 12.1. WORKING WITH SEQUENCE EDITOR . 243 12.2. MAKING A SIMULATION VIDEO . 246 12.3. TAKING A PICTURE . 246 12.4. MAKING NOTES ON DEVICES . 248 12.5. DIMENSION QUOTATION .248 12.6. WORKING WITH COLLISION VIEWER . 249 13. TECNOMATIX PROCESS SIMULATE VIRTUAL COMMISSIONING, ENVIRONMENT AND TOOLS USED IN THE DESIGN OF MANUFACTURING SYSTEMS . 252 13.1. THE PROCESS OF PROJECT DESIGN . 252 13.2. DESCRIPTION OF THE WORKPLACE MODELED . 260 13.3. CREATING THE KINEMATICS OF INDIVIDUAL COMPONENTS OF THE PRODUCTION LINE . 263 13.3.1. CREATING THE KINEMATICS OF A CNC LATHE . 263 13.3.2. CREATING THE KINEMATICS OF THE TURNTABLE . 267 13.3.3. CREATING THE KINEMATICS OF THE CLAMPS . 269 13.4. CREATING A CONVEYOR . 271 13.5. LOGIC BLOCKS - SMART COMPONENT . 275 13.5.1. CREATING A LOGIC BLOCK FOR THE ROBOT GRIPPER . 276 13.5.2. CREATING A LOGIC BLOCK FOR THE CNC LATHE . 282 13.5.3. AUTOMATIC LOGIC BLOCK CREATION FOR THE TURNTABLE . 283 13.5.4. AUTOMATIC LOGIC BLOCK CREATION FOR CLAMPS . 285 13.6. CREATING TURNTABLE CONNECTION WITH CLAMPS . 286 13.7. CREATING SENSORS . 287 13.8. CREATING MATERIAL FLOW . 289 14. CHARACTERISTICS OF REVERSE ENGINEERING . 290 14.1. OPTIONS FOR LINKING REVERSE ENGINEERING TO OTHER ACTIVITIES . 290 14.2. CLASSIFICATION OF METHODS FOR SURFACE MEASUREMENT . 291 14.2.1. CONTACT MEASUREMENT . 291 14.2.2. NON-CONTACT MEASUREMENT . 292 14.2.3. DESTRUCTIVE MEASUREMENT . 293 14.3. PRINCIPLES OF CONTACT METHODS . 293 14.3.1. ADVANTAGES AND DISADVANTAGES OF CONTACT METHODS . 294 14.4. PRINCIPLES OF NON-CONTACT METHODS . 296 14.4.1. ADVANTAGES AND DISADVANTAGES OF NON-CONTACT METHODS . 299 14.5. PRINCIPLES OF DESTRUCTIVE DIGITALIZATION . 300 14.5.1. ADVANTAGES AND DISADVANTAGES OF DESTRUCTIVE DIGITALIZATION . 301 14.6. MEASUREMENT DATA PROCESSING . 301 14.7. RAPID PROTOTYPING . 304 14.7.1. STEREOLITHOGRAPHY . 306 14.7.2. SELECTIVE LASER SINTERING . 307 14.8. THE CONCEPT OF 3D PRINTER . 312 14.9. THE USE OF RAPID PROTOTYPING . 313 15. DEVELOPMENT TRENDS LEADING TO THE SHAPING OFDIGITAL ENTERPRISE .316 15.1. GLOBALIZATION . 316 15.2. INFORMATICS . 317 15.3. COOPERATION . 318 15.4. MODULARITY AND MECHATRONICS . 319 15.5. COMPETITIVENESS . 320 15.6. DIGITALIZATION . 321 16. 3D SCANNING AS A MEANS FOR DIGITALIZATION OF ENTITIES .324 16.1. LASER . 326 16.1.1. THE PHYSICAL PRINCIPLE OF THE LASER . 326 16.1.2. PARTS OF THE LASER . 327 16.1.3. TYPES OF LASER . 328 16.2. THE SPATIAL POLAR METHOD . 328 16.3. MEASUREMENT OF LENGTHS . 329 16.4. THE EVOLUTION OF 3D LASER SCANNING . 330 16.5. 3D LASER SCANNING TECHNOLOGIES . 332 16.5.1. CONTACT TECHNOLOGY . 333 16.5.2. NON-CONTACT TECHNOLOGY . 334 16.6. TYPES OF 3D SCANNERS .334 16.6.1. LASER 3D SCANNERS . 334 16.6.2. SCANNERS USING STRUCTURED LIGHT . 335 16.6.3. MEDIUM AND LONG RANGE 3D SCANNERS. 336 16.6.4. LASER PULSE-BASED 3D SCANNERS . 337 16.6.5. PHASE-SHIFT 3D LASER SCANNERS . 337 16.6.6. COORDINATE MEASURING MACHINE (CMM) . 338 16.6.7. MEASURING ARM SCANNERS USING REVERSE ENGINEERING . 339 16.6.8. OPTICAL 3D SCANNERS . 340 16.6.9. LIDAR SCANNING . 341 16.7. TECHNOLOGICAL PARAMETERS OF 3D SCANNERS . 345 16.8. APPLICATION CHARACTERISTICS OF 3D SCANNERS . 346 16.9. FACTORS INFLUENCING THE MEASUREMENT . 347 16.9.1. INFLUENCE OF THE SHAPE OF THE OBJECT MEASURED . 347 16.9.2. INFLUENCE OF THE SURFACE OF THE OBJECT MEASURED . 348 16.10. THE FUTURE OF 3D SCANNING . 349 16.10.1. ADVANTAGE FOR DESIGN CREATION . 350 16.10.2. INVESTMENT MAXIMIZATION CAPABILITY . 350 16.11. LASER SCANNING PROCEDURE . 350 16.11.1. REGISTRATION (JOINING) OF SCAN AREAS USING INSERTION POINTS . 351 17. SOFTWARE SUPPORT FOR CREATING 3D MODELS . 354 17.1. CAD SOFTWARE USE FOR 3D MODEL CREATION . 354 17.1.1. SOLIDWORKS . 355 17.1.2. AUTODESK INVENTOR . 355 17.1.3. REVIT . 356 17.1.4. RECAP .356 17.2. GRAPHICS PROGRAMS USE FOR CREATING 3D OBJECTS . 357 18. COMPARING THE FEATURES OF TWO SCANNING TECHNOLOGIES . 358 18.1. TIME INTENSITY 359 18.2. RELEVANCE OF LIGHT CONDITIONS . 359 18.3. OBJECT SURFACE RELEVANCE . 361 18.4. QUALITY OF PRIMARY MODEL . 363 18.5. MODEL MODIFICATION OPTION . 364 18.6. DEMONSTRATIONS OF VARIOUS SCANNING TECHNOLOGIES . 366 19. THEORETICAL KNOWLEDGE IN THE FIELD OF INDUSTRIAL MONITORING . 369 19.1. RTLS DEFINITION . 369 19.2. RTLS SYSTEMS TOPOLOGY . 369 19.2.1. DEFINITIONS BY THE APPLIED INFRASTRUCTURE . 370 19.3. RTLS SYSTEM COMPONENTS . 370 19.3.1. TRANSPONDERS . 370 19.3.2. RECEIVERS . 371 19.3.3. SOFTWARE . 371 19.4. RTLS COVERAGE OPTIONS . 371 19.5. LOCALIZATION OF TRACKED OBJECTS . 373 19.6. LOCATION MAPPING TECHNOLOGIES . 374 19.7. RFID TECHNOLOGY . 374 19.7.1. RFID TECHNOLOGY PRINCIPLE . 374 19.7.2. PARTS OF THE SYSTEM - BASIC LEVEL: . 375 19.7.3. THE USE OF RFID TECHNOLOGY . 375 19.8. ULTRASOUND LOCALIZATION TECHNOLOGY . 376 19.8.1. USID TECHNOLOGY PRINCIPLE . YY . 376 19.8.2. USID TECHNOLOGY APPLICATIONS . 377 19.9. INFRARED LOCALIZATION TECHNOLOGY . 377 19.9.1. IR LOCALIZATION PRINCIPLE . 377 19.9.2. UTILIZATION OF IR LOCALIZATION . 377 19.10. BLUETOOTH LOCALIZATION SYSTEMS . 378 19.10.1. CLASSIFICATION OF BLUETOOTH LOCALIZATION TECHNOLOGIES . 378 19.10.2. THE OPERATING PRINCIPLE OF BLUETOOTH LOCALIZATION . 378 19.10.3. USES OF BLUETOOTH LOCALIZATION . 379 19.11. WLAN LOCALIZATION SYSTEMS . 379 19.11.1. THE USE OF WLAN LOKALIZATION SYSTEMS . 379 19.12. LOCALIZATION TECHNOLOGIES USING MOBILE NETWORKS . 380 19.12.1. THE OPERATING PRINCIPLE OF LOCALIZATION USING MOBILE NETWORKS . 380 19.12.2. THE USE OF LOCALIZATION BASED ON THE MOBILE NETWORK PRINCIPLE . 380 19.13. GLOBAL NAVIGATION SATELLITE SYSTEM . 380 19.13.1. GNSS OPERATING PRINCIPLE . 381 19.13.2. USES OF GLOBAL SATELLITE NAVIGATION SYSTEMS . 382 19.14. UWB LOCALIZATION TECHNOLOGY . 382 19.15. THE OPERATING PRINCIPLE OF UWB TECHNOLOGY . 383 19.16. DIFFERENT USES OF UWB TECHNOLOGY . 383 19.17. COMPARISON OF RTLS TECHNOLOGIES . 384 19.17.1. RSSI VS TIME-OF-FLIGHT ESTIMATE . 384 19.18. UWB TECHNOLOGY BY SEWIO . 385 19.19. SEWIO NETWORKS S.R.O . 385 19.20. COMPANY PRODUCTS AND SERVICES . 386 19.20.1. HARDWARE SUPPORT . 388 19.20.2. SOFTWARE SUPPORT . 389 19.21. IMPLEMENTATION OF RTLS IN LABORATORY ENVIRONMENT OF THE DEPARTMENT OF INDUSTRIAL AND DIGITAL ENGINEERING . 391 19.22. TECHNICAL IMPLEMENTATION . 392 19.22.1. ANCHORS AND TAGS CONFIGURATION . 393 CONCLUSION . 396 REFERENCES ,397
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author	Trebuňa, Peter Pekarčíková, Miriam Kliment, Marek Trojan, Jozef Mizerák, Marek
author_facet	Trebuňa, Peter Pekarčíková, Miriam Kliment, Marek Trojan, Jozef Mizerák, Marek
author_role	aut aut aut aut aut
author_sort	Trebuňa, Peter
author_variant	p t pt m p mp m k mk j t jt m m mm
building	Verbundindex
bvnumber	BV049008263
classification_rvk	ZM 9000
ctrlnum	(OCoLC)1375575934 (DE-599)DNB1271898705
dewey-full	658.514
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	658 - General management
dewey-raw	658.514
dewey-search	658.514
dewey-sort	3658.514
dewey-tens	650 - Management and auxiliary services
discipline	Werkstoffwissenschaften / Fertigungstechnik Wirtschaftswissenschaften
discipline_str_mv	Werkstoffwissenschaften / Fertigungstechnik Wirtschaftswissenschaften
format	Book
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id	DE-604.BV049008263
illustrated	Illustrated
index_date	2024-07-03T22:10:52Z
indexdate	2024-07-10T09:52:39Z
institution	BVB
institution_GND	(DE-588)1067145753
isbn	9783965950269 3965950266
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-034271370
oclc_num	1375575934
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	410 Seiten Illustrationen, Diagramme 25 cm, 650 g
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	RAM-Verlag Scientific and professional literature edition
record_format	marc
spelling	Trebuňa, Peter Verfasser aut Production processes and systems digitalization Peter Trebuňa, Miriam Pekarčíková, Marek Kliment, Jozef Trojan, Marek Mizerák Lüdenscheid, Germany RAM-Verlag 2022 Košice Scientific and professional literature edition 2022 410 Seiten Illustrationen, Diagramme 25 cm, 650 g txt rdacontent n rdamedia nc rdacarrier Digitalisierung (DE-588)4123065-6 gnd rswk-swf Produktionssystem (DE-588)4138914-1 gnd rswk-swf Produktionsprozess (DE-588)4123984-2 gnd rswk-swf Systems Digitalization Digital modeling and simulation of processes and systems Production Processes Produktionssystem (DE-588)4138914-1 s Produktionsprozess (DE-588)4123984-2 s Digitalisierung (DE-588)4123065-6 s DE-604 Pekarčíková, Miriam Verfasser aut Kliment, Marek Verfasser aut Trojan, Jozef Verfasser aut Mizerák, Marek Verfasser aut RAM-Verlag (DE-588)1067145753 pbl Erscheint auch als Online-Ausgabe Production Processes and Systems Digitalization 1. Auflage erschienen Lüdenscheid : RAM-Verlag, 2022 Online-Ressource B:DE-101 application/pdf https://d-nb.info/1271898705/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034271370&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p dnb 20230406 DE-101 https://d-nb.info/provenance/plan#dnb
spellingShingle	Trebuňa, Peter Pekarčíková, Miriam Kliment, Marek Trojan, Jozef Mizerák, Marek Production processes and systems digitalization Digitalisierung (DE-588)4123065-6 gnd Produktionssystem (DE-588)4138914-1 gnd Produktionsprozess (DE-588)4123984-2 gnd
subject_GND	(DE-588)4123065-6 (DE-588)4138914-1 (DE-588)4123984-2
title	Production processes and systems digitalization
title_auth	Production processes and systems digitalization
title_exact_search	Production processes and systems digitalization
title_exact_search_txtP	Production processes and systems digitalization
title_full	Production processes and systems digitalization Peter Trebuňa, Miriam Pekarčíková, Marek Kliment, Jozef Trojan, Marek Mizerák
title_fullStr	Production processes and systems digitalization Peter Trebuňa, Miriam Pekarčíková, Marek Kliment, Jozef Trojan, Marek Mizerák
title_full_unstemmed	Production processes and systems digitalization Peter Trebuňa, Miriam Pekarčíková, Marek Kliment, Jozef Trojan, Marek Mizerák
title_short	Production processes and systems digitalization
title_sort	production processes and systems digitalization
topic	Digitalisierung (DE-588)4123065-6 gnd Produktionssystem (DE-588)4138914-1 gnd Produktionsprozess (DE-588)4123984-2 gnd
topic_facet	Digitalisierung Produktionssystem Produktionsprozess
url	https://d-nb.info/1271898705/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034271370&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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