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Logistics engineering and management / / Benjamin S. Blanchard
| Logistics engineering and management / / Benjamin S. Blanchard |
| Autore | Blanchard Benjamin S. |
| Edizione | [Sixth edition, Pearson new international edition.] |
| Pubbl/distr/stampa | Harlow, England : , : Pearson, , [2014] |
| Descrizione fisica | 1 online resource (418 pages) : illustrations |
| Disciplina | 620.001171 |
| Collana | Always learning |
| Soggetto topico |
Systems engineering
Logistics |
| ISBN |
129205199X
9781292051994 1292027134 9781292027135 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | 1. Introduction to logistics -- 2. Reliability, maintainability, and availability measures -- 3. The measures of logistics and system support -- 4. Logistics and supportability analysis -- 5. Logistics in system design and development -- 6. Logistics in the production/construction phase -- 7. Logistics in the utilization, sustaining support, and retirement phases -- 8. Logistics management -- Appendix: Supplier evaluation checklist -- Appendix: Maintenance Task Analysis (MTA) -- Appendix: List of abbreviations. |
| Record Nr. | UNINA-9910153087603321 |
Blanchard Benjamin S.
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| Harlow, England : , : Pearson, , [2014] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Micro-assembly technologies and applications : IFIP TC5 WG5. 5 Fourth International Precision Assembly Seminar (IPAS'2008) Chamonix, France, February 10-13 2008 / / edited by Svetan Ratchev, Sandra Koelemeijer
| Micro-assembly technologies and applications : IFIP TC5 WG5. 5 Fourth International Precision Assembly Seminar (IPAS'2008) Chamonix, France, February 10-13 2008 / / edited by Svetan Ratchev, Sandra Koelemeijer |
| Edizione | [1st ed. 2008.] |
| Pubbl/distr/stampa | New York, NY : , : Springer, , [2008] |
| Descrizione fisica | 1 online resource (427 p.) |
| Disciplina | 620.001171 |
| Collana | IFIP International Federation for Information Processing |
| Soggetto topico |
Systems engineering
Artificial intelligence |
| ISBN | 0-387-77405-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Design of Micro Products -- Application of a DF?A Methodology to facilitate the assembly of a Micro/Nano Measurement Device -- A DFA Framework for Hybrid Microsystems -- Statistical Assemblies with form Errors — A 2D Example -- A Classification and Coding System for Micro-Assembly -- A Method for Three Dimensional Tolerance Analysis and Synthesis Applied to Complex and Precise Assemblies -- New Designs for Submillimetric Press-Fitting -- Design and Testing of an Ortho-Planar Micro-Valve -- Robust Design of a Lens System of Variable Refraction Power with Respect to the Assembly Process -- Micro-Assembly Processes and Applications -- Product-Process Ontology for Managing Assembly Specific Knowledge Between Product Design and Assembly System Simulation -- Bridging the Gap — from Process Related Documentation to an Integrated Process and Application Knowledge Management in Micro Systems Technology -- Distributed Simulation in Manufacturing Using High Level Architecture -- Adaptive Packaging Solution for a Microlens Array Placed Over a Micro-UV-LED Array -- Solder Bumping — A Flexible Joining Approach for the Precision Assembly of Optoelectronical Systems -- Fluidassem - A New Method of Fluidic-Based Assembly with Surface Tension -- Concepts for Hybrid Micro Assembly Using Hot Melt Joining -- Application of Microstereolithography Technology in Micromanufacturing -- In Situ Microassembly -- Interest of the Inertial Tolerancing Method in the Case of Watch Making Micro Assembly -- Precision Assembly of Active Microsystems with a Size-Adapted Assembly System -- Assembly of Osseous Fragments in Orthopaedic Surgery: The Need for New Standards of Evaluation -- Gripping and Feeding Solutions for Micro-Assembly -- A Critical Review of Releasing Strategies in Microparts Handling -- A Low Cost Coarse/Fine Piezoelectrically Actuated Microgripper with Force Measurement Adapted to Eupass Control Structure -- Development of A Monolithic Shape Memory Alloy Manipulator -- Statically Determined Gripper Construction -- Precision Positioning down to Single Nanometres Based on Micro Harmonic Drive Systems -- Assembly of a Micro Ball-Bearing using a Capillary Gripper and a Microcomponent Feeder -- Pneumatic Contactless Microfeeder, Design Optimisation and Experimental Validation -- Pneumatic Positioning System for Precision Assembly -- Manufacturing of Devices for the Parallel Precision Alignment of Multiple Micro Components -- Towards a Traceable Infrastructure for Low Force Measurements -- When Manufacturing Capability Exceeds Control Capability: The Paradox of High Precision Products, or is it Possible to Assemble Functional Products out of Components we are Unable to Measure? -- Impact Forces Reduction for High-Speed Micro-Assembly -- Development of Micro-Assembly Production Systems -- Strategies and Devices for a Modular Desktop Factory -- A Decision Making Tool for Reconfigurable Assembly Lines — Eupass Project -- Standardised Interface and Construction Kit for Micro-Assembly -- Towards a Publish / Subscribe Control Architecture for Precision Assembly with the Data Distribution Service -- Smart Assembly — Data and Model Driven -- Man-Robot Cooperation — New Technologies and New Solutions -- Integration of Design and Assembly Using Augmented Reality -- Concept for an Industrial Ubiquitous Assembly Robot. |
| Record Nr. | UNINA-9910483152003321 |
| New York, NY : , : Springer, , [2008] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Mod4Sim 2017 : Model-driven Approaches for Simulation Engineering : 2017 Spring Simulation Multi-Conference (SpringSim '17) : Virginia Beach, VA, USA, 23-26 April 2017 / / edited by Andrea D'Ambrogio, Umut Durak, Deniz Çetinkaya
| Mod4Sim 2017 : Model-driven Approaches for Simulation Engineering : 2017 Spring Simulation Multi-Conference (SpringSim '17) : Virginia Beach, VA, USA, 23-26 April 2017 / / edited by Andrea D'Ambrogio, Umut Durak, Deniz Çetinkaya |
| Pubbl/distr/stampa | San Diego, California : , : Society for Computer Simulation International, , 2017 |
| Descrizione fisica | 1 online resource (142 pages) |
| Disciplina | 620.001171 |
| Soggetto topico |
Systems engineering - Mathematical models
Systems engineering |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910375849803321 |
| San Diego, California : , : Society for Computer Simulation International, , 2017 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Model-Based Reliability Systems Engineering
| Model-Based Reliability Systems Engineering |
| Autore | Ren Yi |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Singapore : , : Springer Singapore Pte. Limited, , 2023 |
| Descrizione fisica | 1 online resource (345 pages) |
| Disciplina | 620.001171 |
| Altri autori (Persone) |
QianCheng
YangDezhen FengQiang SunBo WangZili |
| ISBN | 981-9902-75-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Preface -- Contents -- 1 Development Phase of Reliability Systems Engineering -- 1.1 Background of Reliability System Engineering -- 1.1.1 The Development History of RMS Engineering in Foreign Countries -- 1.1.2 Global Developing Trends of RMS Engineering -- 1.1.3 Challenges Faced by Hexability in China and Demands for Leap-Forward Development -- 1.2 The Concept of Reliability System Engineering -- 1.2.1 System Engineering -- 1.2.2 Definition of Reliability System Engineering -- 1.2.3 Philosophical Connotation of Reliability System Engineering -- 1.3 Formation of the Theoretical and Technological Framework of Reliability System Engineering -- 1.3.1 Fundamental Theory of Reliability System Engineering -- 1.3.2 Technology Framework for Reliability System Engineering -- 1.3.3 Application Mode of Reliability System Engineering -- 1.4 Modelling Trend of Reliability System Engineering -- 1.4.1 Emergence and Development of Model-Based System Engineering (MBSE) -- 1.4.2 Trend of Modelling, Virtualization, and Integration of the Hexability Design -- 1.4.3 Difficulties in Reliability System Engineering -- 1.4.4 Technical Requirements for the Unified Model of Reliability System Engineering -- 2 Fundamentals of Model-Based Reliability System Engineering -- 2.1 MBRSE Theory and Methods -- 2.1.1 General Technical Framework for the Integration of RSE Technology -- 2.1.2 Main Research Areas and Engineering Significance of MBRSE -- 2.2 The Concept and Connotation of MBRSE -- 2.2.1 Definition of MBRSE -- 2.2.2 Elements and Architecture of MBRSE -- 2.3 Information Sharing Mechanism of MBRSE -- 2.3.1 The Cognitive Process of Product Life Cycle -- 2.3.2 Design Ontology Framework for MBRSE -- 2.3.3 Construction of the Fault Ontology -- 2.4 Process Control Mechanism of MBRSE -- 2.4.1 Meta-process for Brand-New Product Design Meta.
2.4.2 Meta-process for Inherited Product Design Meta -- 2.4.3 Meta-process for Product Structural Design -- 2.4.4 Hexability Design Goal Control Method -- 2.5 MBRSE Design Evolution Mechanism -- 2.5.1 Design Evolution Method Set Based on Axiomatic Design Theory -- 2.5.2 Design Domain Extension for MBRSE -- 2.5.3 Mapping Principle of the MBRSE Design Domain -- 3 MBRSE Based Unified Model and Global Evolution Decision Method -- 3.1 MBRSE Model Evolution Process Integrating Functional Realization and Fault Mitigation -- 3.2 Modelling Method for Fundamental Product Model -- 3.3 Evolutionary Decision-Making of the Unified Model -- 3.3.1 Deterministic Model -- 3.3.2 Stochastic Model -- 3.3.3 Fuzzy Model -- 3.3.4 Hybrid Model -- 4 System Fault Identification and Control Method Based on Functional Model -- 4.1 Identification of Component Functional Faults in the Total Domain to Preserve Function -- 4.2 Identification of Component Physical Faults in the Total Domain Based on the Function-Physics Mapping -- 4.2.1 Fault Identification Methods of Basic Physical Components -- 4.2.2 Fault Identification Methods of Robust Physical Components -- 4.3 Emergent Fault Integrated Identification -- 4.3.1 Interface Fault -- 4.3.2 Transfer Fault -- 4.3.3 Error Propagation Fault -- 4.4 Fault Closed-Loop Mitigation Control -- 4.4.1 Component Fault Closed-Loop Mitigation Control -- 4.4.2 System Fault Closed-Loop Mitigation Control -- 4.5 Fault Mitigation Decision Method -- 4.5.1 Fault Mitigation Decision Considering Transmission Chain -- 4.5.2 Fault Mitigation Decision Considering the Coupling Relationship -- 5 Physics of Failure Based Fault Identification and Control Methods -- 5.1 Introduction to Physics of Failure Model -- 5.1.1 Physical Process of a Fault -- 5.1.2 Physics of Failure Model -- 5.1.3 Visualization Model of the Fault. 5.2 Load-Response Analysis and Fault Identification -- 5.2.1 Fundamental Concepts and Principles -- 5.2.2 Finite Element Methods for the Load-Response Analysis -- 5.2.3 Simulation Based Fault Identification -- 5.3 Time Analysis and Fault Identification of the PoF Model -- 5.3.1 Failure Mode Analysis of the Product -- 5.3.2 Establishment of Time Varying Reliability Model -- 5.3.3 Calculation of Penetrability -- 5.3.4 Determination of the Limit State Function -- 5.3.5 Model Parameters Determination Based on the Degradation Process -- 5.4 PoF Based Failure Simulation and Evaluation -- 5.4.1 Fundamental Process -- 5.4.2 Failure Prediction -- 5.4.3 Reliability Evaluation -- 5.5 PoF Based Optimization Design and Fault Control -- 5.5.1 Parameter Sensitive Analysis Based on Orthogonal Test and Grey Correlation Model -- 5.5.2 Reliability-Based Design Optimization -- 5.5.3 Reliability-Based Multidisciplinary Design Optimization -- 6 Model-Based Reliability System Engineering R& -- D Process Model -- 6.1 Model-Based System Engineering Process and Design Flow -- 6.1.1 Evolution of the System Engineering Process -- 6.1.2 System Design Flow -- 6.2 Concepts of Integrated Design Process of Both Functional Performance and Hexability Under the MBRSE Mode -- 6.2.1 Integrated Design Process of Both Functional Performance and Hexability -- 6.2.2 Effects of the MBRSE on the Integrated Design Process -- 6.2.3 Multiple View Description Methods for the MBRSE Process -- 6.3 Key Technologies of the MBRSE -- 6.3.1 MBRSE Process Planning Technologies -- 6.3.2 Analysis Method for the Operation Conflict in the MBRSE Process -- 6.3.3 Simulation Based Operation Evaluation of the MBRSE Process -- 6.3.4 MBRSE Process Review and Validation Methods -- 7 Integrated Design Platform for Model-Based Reliability System Engineering. 7.1 Engineering Requirements of the MBRSE Integrated Design Platform -- 7.1.1 Overview of Enabling Technology for Complex System Development -- 7.1.2 Enabling Technological Requirements for RSE Integrated Design -- 7.2 Fundamental Models of MBRSE Integrated Design Platform -- 7.2.1 Framework of Integrated Design Platform -- 7.2.2 Functional Composition of the Integrated Design Platform -- 7.2.3 Extension of the Product Data Model for Integrated Design -- 7.2.4 PLM Based Hexability Design Process -- 7.3 Integration of MBRSE Integrated Design Tools -- 7.3.1 Integration Requirements for the Integrated Design Tools -- 7.3.2 Integration Model on the Integrated Design Tools -- 8 Application Cases of the Use of MBRSE -- 8.1 Requirement Analysis -- 8.1.1 Operating Requirements -- 8.1.2 Requirements Decomposition -- 8.2 Preliminary Design -- 8.2.1 Functional Design -- 8.2.2 Structural Design -- 8.2.3 Working Principles -- 8.3 Systematic Failure Determination and Mitigation Based on the Functional Model -- 8.3.1 Systematic Determination of the Failure -- 8.3.2 Typical Failure Transmission Chain -- 8.3.3 Typical Closed-Loop Failure Mitigation Process -- 8.4 Determination and Control of Component Failures -- 8.4.1 Description of the Device -- 8.4.2 Digital Prototype Modeling -- 8.4.3 Load Response Analysis -- 8.4.4 Failure Prediction Model -- 8.4.5 Reliability Evaluation -- 8.4.6 Optimization Design and Failure Control -- 9 MBRSE Future Outlook -- 9.1 Technical Development Trend of MBRSE -- 9.2 Digital Twin Technology for Reliability -- 9.2.1 State-of-Art of Digital Twins -- 9.2.2 Reliability System Engineering Digital Twin -- Bibliography. |
| Record Nr. | UNINA-9910831014903321 |
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Ren Yi
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| Singapore : , : Springer Singapore Pte. Limited, , 2023 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Model-based system and architecture engineering with the arcadia method / / Jean-Luc Voirin
| Model-based system and architecture engineering with the arcadia method / / Jean-Luc Voirin |
| Autore | Voirin Jean-Luc |
| Pubbl/distr/stampa | London, England ; ; Oxford, England : , : ISTE Press : , : Elsevier, , 2018 |
| Descrizione fisica | 1 online resource (390 pages) |
| Disciplina | 620.001171 |
| Soggetto topico |
Systems engineering
System design Model-driven software architecture |
| ISBN |
0-08-101794-4
1-78548-169-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910583063703321 |
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Voirin Jean-Luc
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| London, England ; ; Oxford, England : , : ISTE Press : , : Elsevier, , 2018 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Model-based systems architecting / / Daniel Krob
| Model-based systems architecting / / Daniel Krob |
| Autore | Krob Daniel |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley and Sons Inc, , [2022] |
| Descrizione fisica | 1 online resource (276 pages) |
| Disciplina | 620.001171 |
| Soggetto topico | Systems engineering |
| ISBN |
1-119-98849-7
1-119-98847-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910580252703321 |
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Krob Daniel
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| Hoboken, New Jersey : , : John Wiley and Sons Inc, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Model-based systems architecting / / Daniel Krob
| Model-based systems architecting / / Daniel Krob |
| Autore | Krob Daniel |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley and Sons Inc, , [2022] |
| Descrizione fisica | 1 online resource (276 pages) |
| Disciplina | 620.001171 |
| Soggetto topico |
System design
Systems engineering |
| ISBN |
1-119-98849-7
1-119-98847-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910830847103321 |
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Krob Daniel
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| Hoboken, New Jersey : , : John Wiley and Sons Inc, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Modellbasierter Entwicklungsprozess cybertronischer Systeme [[electronic resource] ] : Der PLM-unterstützte Referenzentwicklungsprozess für Produkte und Produktionssysteme / / herausgegeben von Martin Eigner, Walter Koch, Christian Muggeo
| Modellbasierter Entwicklungsprozess cybertronischer Systeme [[electronic resource] ] : Der PLM-unterstützte Referenzentwicklungsprozess für Produkte und Produktionssysteme / / herausgegeben von Martin Eigner, Walter Koch, Christian Muggeo |
| Edizione | [1st ed. 2017.] |
| Pubbl/distr/stampa | Berlin, Heidelberg : , : Springer Berlin Heidelberg : , : Imprint : Springer Vieweg, , 2017 |
| Descrizione fisica | 1 online resource (247 pages) : illustrations |
| Disciplina | 620.001171 |
| Soggetto topico |
Industrial engineering
Production engineering Management Industrial management Computer-aided engineering Industrial and Production Engineering Innovation/Technology Management Computer-Aided Engineering (CAD, CAE) and Design |
| ISBN | 3-662-55124-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | ger |
| Nota di contenuto | Einleitung: Das Projekt -- Der mecPro² Referenzentwicklungsprozess -- mecPro² Modellierung der Systemarchitektur -- Integriertes Modell aus Referenzentwicklungsprozess und Beschreibungssystematik -- Modellbildung und Simulation -- mecPro² Informationsmodell -- Umsetzung PLM -- Demonstratoren -- Ausblick / Erkenntnisse. |
| Record Nr. | UNINA-9910484573203321 |
| Berlin, Heidelberg : , : Springer Berlin Heidelberg : , : Imprint : Springer Vieweg, , 2017 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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MSCIAAS 2017 : Modeling and Simulation of Complexity in Intelligent, Adaptive and Autonomous Systems 2017 : 2017 Spring Simulation Multi-Conference (SpringSim '17) : Virginia Beach, VA, USA, 23-26 April 2017 / / / Saurabh Mittal, José Luis Risco-Martín, editors
| MSCIAAS 2017 : Modeling and Simulation of Complexity in Intelligent, Adaptive and Autonomous Systems 2017 : 2017 Spring Simulation Multi-Conference (SpringSim '17) : Virginia Beach, VA, USA, 23-26 April 2017 / / / Saurabh Mittal, José Luis Risco-Martín, editors |
| Pubbl/distr/stampa | San Diego : , : Society for Computer Simulation International, , 2017 |
| Descrizione fisica | 1 online resource |
| Disciplina | 620.001171 |
| Collana | Simulation series, |
| Soggetto topico |
Adaptive control systems
Systems engineering |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910375665903321 |
| San Diego : , : Society for Computer Simulation International, , 2017 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Optimization for engineering problems / / edited by Kaushik Kumar and J. Paulo Davim
| Optimization for engineering problems / / edited by Kaushik Kumar and J. Paulo Davim |
| Autore | Kumar Kaushik |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | London, England ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , [2019] |
| Descrizione fisica | 1 online resource (193 pages) |
| Disciplina | 620.001171 |
| Collana |
Systems and industrial engineering series
THEi Wiley ebooks. |
| Soggetto topico | Systems engineering |
| ISBN |
1-119-64461-5
1-119-64455-0 1-119-64460-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910555124803321 |
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Kumar Kaushik
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| London, England ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , [2019] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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