Onishi / Maurer / Eben | Gain competitive advantage by managing complexity | E-Book | sack.de
E-Book

E-Book, Englisch, 476 Seiten

Onishi / Maurer / Eben Gain competitive advantage by managing complexity


Proceedings of the 14th International DSM Conference Kyoto, Japan 2012

E-Book, Englisch, 476 Seiten

ISBN: 978-3-446-43412-7
Verlag: Hanser, Carl
Format: PDF
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

Dependency and Structure Modelling (DSM) techniques support the management of complexity by focusing attention on the elements of a complex system and how they are related to each other. The DSM perspective can assist in understanding, designing and optimising complex systems – including products, processes and organisations. This volume comprises peer-reviewed papers representing state-of-the-art in DSM research and applications. The papers were presented at the 14th International DSM Conference held in September 2012 in Kyoto.
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Autoren/Hrsg.

Onishi, Moritoyo
Maurer, Maik
Eben, Katharina
Lindemann, Udo

Weitere Infos & Material

1;TABLE OF CONTENTS;6
2;FOREWORD;11
3;ORGANIZING COMMITTEE;13
4;PART I – APPLICATION OF MATRIXMETHODOLOGY;15
4.1;FORMATION OF THE DSM INDUSTRY SPECIAL INTEREST GROUP (DSMISIG);17
4.2;DSM BASED KNOWLEDGE CONFIGURATION METHODOLOGY;31
4.3;WELDING PROCESS ANALYSIS USING LITERATURE BASED DESIGN STRUCTURE MATRIX;45
4.4;DESIGN FOR ADAPTABILITY – SUPPORT OF UPGRADE STRATEGIES TO REACT TO EVOLVING STAKEHOLDER NEEDS AND REQUIREMENTS;57
4.5;MDM-BASED REPRESENTATION OF REQUIREMENT/FUNCTION RELATION IN THE SOUND DESIGN FOR CONSUMER ELECTRONICS;67
4.6;VALUE AND WASTE DEPENDENCIES AND GUIDELINES;79
4.7;FLEXIBILITY ANALYSIS OF A SUPPLY CHAIN USING DESIGN STRUCTURE MATRIX;93
5;PART II – MODELLING APPROACHES ANDINFORMATION ACQUISITION;103
5.1;CONDITIONAL DSM;105
5.2;FINDING PARAMETER CONSTRAINT NETWORKS IN A PRODUCT SYSTEM;115
5.3;A PORT-BASED APPROACH FOR MODELING THE STRUCTURE OF MECHATRONIC MODULES;125
5.4;EFFECIVE & EFFICIENT DSM CONFIGURATION GUIDELINES FOR LOW-COST DEVELOPMENT OF COMPLEX SYSTEMS;139
5.5;GENERATING A NETWORK OF INFORMATION DEPENDENCIES AUTOMATICALLY;153
6;PART III – SYSTEM ARCHITECTURES;167
6.1;A MATRIX-BASED APPROACH FOR A QUALITATIVE ASSESSMENT OF SYSTEM ARCHITECTURE SPECIFIC PROCESSES REGARDING EFFICIENCY;169
6.2;FUNCTIONAL STRUCTURE BASEDCHANGE ASSESSMENT IN PRODUCT DESIGN;181
6.3;STRUCTURAL COMPLEXITY METRIC FORENGINEERED COMPLEX SYSTEMS AND ITSAPPLICATION;195
7;PART IV – PROJECT AND PROCESSMANAGEMENT;207
7.1;HANDLING A DESIGN STRUCTURE MATRIX BASED ON FUZZY DATA;209
7.2;MANAGEMENT OF RELATIONSHIPS BETWEEN PRODUCT INFORMATION ON MODEL BASED DESIGN PROCESS;225
7.3;USING DSM FOR EXTRACTING AND ANALYZING THE UNDERLYING PROBLEMS OF OUR PROJECTS;239
7.4;INTEGRATED MODELLING OF PRODUCT- AND PROCESS-RELATED INFORMATION;253
7.5;A DSM-BASED “2.0” SYSTEM FOR HUMAN INTERVENTION PLANNING AND SCHEDULING IN FACILITIES EMITTING IONIZING RADIATIONS;267
7.6;DESIGNING INTEROPERABLE LEAN, AGILE, RESILIENT AND GREEN INDUSTRIAL ECOSYSTEMS;277
7.7;INTERPLAY BETWEEN PRODUCT ARCHITECTURE AND ORGANIZATIONAL STRUCTURE;289
8;PART V – SOFTWARE ENGINEERING;303
8.1;ARCHITECTURE MIGRATION USING DSM IN A LARGE-SCALE SOFTWARE PROJECT;305
8.2;A NEW APPROACH TO COMPONENT REUSE IN MULTI-SOFTWARE DEVELOPMENT PROJECT MANAGEMENT BY USING AN INFORMATIONCENTRIC PROJECT MODEL;315
9;PART VI – CIVIL ENGINEERING;329
9.1;ANALYSING PROCESS-ORIENTED BIM EXECUTION PLAN USING MDM;343
9.2;CREATING DYNAMIC ORGANIZATIONAL MODULARITY IN LEAN CONSTRUCTION DESIGN – COMBINING MDM AND DSM METHODOLOGY SYSTEMATICALLY;357
9.3;CLASSIFYING COMPONENTS BASED ON CHANGE PROPAGATION POTENTIAL;331
10;PART VII – MANAGEMENT OF ENGINEERING DESIGN PROJECTS;371
10.1;AN ONTOLOGY-REPRESENTATION OF THE INTEGRATED PRODUCT ENGINEERING MODEL;373
10.2;DEPENDENCY STRUCTURE MATRIX MODELLINGFOR HUMAN RESOURCE ALLOCATION;385
10.3;STABILITY OF COLLABORATIVE R&D NETWORKS: A SIMULATION STUDY;399
10.4;THE PREDICTION OF ERRATIC STATES IN PRODUCT DEVELOPMENT;415
10.5;MODELING OF COOPERATIVE WORK IN CONCURRENT ENGINEERING PROJECTS BASED ON EXTENDED WORK TRANSFORMATION MATRICES WITH HIDDEN STATE VARIABLES;425
10.6;SIMULATION OF PRODUCT CHANGE EFFECTS BASED ON DESIGN STRUCTURE AND DOMAIN MAPPING MATRICES;437
10.7;INCREASING VALUE IN DEVELOPMENT PROJECTS USING DOMAIN MAPPING MATRIX;451
11;PART VIII – COMPLEX PROBLEM SOLVING;461
11.1;THE EXPLAINER AND ITS USE IN ENGINEERING;463
12;PART I – CONTINUATION;475
12.1;A CONCEPTUAL APPROACH TO IMPROVE CONFIGURATION OF A PROLONGED MANNED MISSION SPACECRAFT BASED ON DSM;477
13;AUTHOR INDEX;487
14;KEYWORD INDEX;489

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