System Lifecycle Management: Engineering Digitalization
- Length: 283 pages
- Edition: 1
- Language: English
- Publisher: Springer Vieweg
- Publication Date: 2021-08-11
- ISBN-10: 3658338733
- ISBN-13: 9783658338732
- Sales Rank: #2534169 (See Top 100 Books)
Years of experience in the area of Product Lifecycle Management (PLM) in industry, research and education form the basis for this overview. The author covers the development from PDM via PLM to SysLM (System Lifecycle Management) in the form commonly used today, which are necessary prerequisites for the sustainable development and implementation of IoT/IoS, Industry 4.0 and Engineering 4.0 concepts. The building blocks and properties of future-proof systems for the successful implementation of the concepts of Engineering 4.0 are thereby dedicated to holistic considerations, which also inform in detail. SysLM functions and processes in mechatronic development and design as well as across the entire product lifecycle – from requirements management to the Digital Twin – are covered as examples. SysLM trends such as low code development, cloud, disruptive business models, and bimodality provide an outlook on future developments. The author dedicates the treatment of the agile SysLM introduction to the implementation in the enterprise. The basics are deepened with examples of a concrete SysLM system.
Acknowledgements Contents 1 Foreword References 2 Forty Years of Product Data Management from PDM via PLM to SysLM Abstract 2.1 Document Management System (DMS) 2.2 Product Data Management (PDM) 2.3 Product Lifecycle Management (PLM) 2.4 On the Path to System Lifecycle Management References 3 Engineering 4.0—Foundations of the Digitalization of Engineering Abstract 3.1 Digitalization—Buzzword or Challenge? 3.2 Digitization, Digitalization, and Digital Transformation 3.3 Internet of Things (IOT), Systems of Systems (SOS), Industry 4.0, Industrial Internet, and Internet of Services (IOS) 3.4 Digital Twin and Digital Thread 3.4.1 Digital Twin 3.4.2 Digital Thread 3.4.3 Implementation of Digital Twin and Digital Thread in Operational Practice 3.5 Model-Based Systems Engineering, System Thinking, and the System Model 3.5.1 Discipline-Oriented Approach in Product Development 3.5.2 Systems Engineering 3.5.3 Systems Thinking 3.5.4 Model-Based Engineering and Model-Based Systems Engineering 3.5.5 The Digital Model 3.5.6 The System Model 3.6 A New Interdisciplinary Design Methodology 3.6.1 VPESystemDevelopmentMethodology 3.6.2 Detailed Implementation of the System Model at a Micro-methodology Level 3.6.3 Validation of the VPESystemDevelopmentMethodology References 4 Engineering 4.0—Implementation of the Digitalization of Engineering Abstract 4.1 The Digitalization of Products and Services 4.2 The Digitalization of the Engineering Processes 4.2.1 Vertical Integration and Digitalization 4.2.1.1 Requirements Management and Requirements Development (→ Requirements Engineering) 4.2.1.2 System Architecture Model (SAM) and System Model (SM) 4.2.1.3 CAx Integration 4.2.1.4 Simulation Integration into SysLM 4.2.2 Horizontal Integration and Digitalization 4.2.2.1 Standardized Company-Wide Technical Organization 4.2.2.2 Integration of the Product Lifecycle Phases 4.3 Technical Requirements on SysLM 4.4 Validation of the Maturity of Digitalization in Engineering 4.4.1 Maturity Models References 5 Bimodal SysLM Systems and Agile Implementation Abstract 5.1 Vision SysLM Versus Actual Status of Current PLM Implementations 5.2 Innovative Products/Systems and Business Models Present New Challenges for SysLM 5.3 Reduction in the Total Cost of Ownership with Bimodal SysLM 5.4 The Agile Implementation of SysLM systems 5.4.1 Integration of Product Engineering and Supply Chains to support OnePDM 5.4.2 Best Practice 5.4.3 Benefits References 6 Summary Reference Appendix
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