Models, Methods and Tools for Product Service Design : : The Manutelligence Project.

Models, Methods and Tools for Product Service Design : : The Manutelligence Project.

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Superior document:SpringerBriefs in Applied Sciences and Technology Series
:
Cattaneo, Laura.
TeilnehmendeR:
Terzi, Sergio.
Place / Publishing House:Cham : : Springer International Publishing AG,, 2018.
©2019.
Year of Publication:2018
Edition:1st ed.
Language:English
Series:SpringerBriefs in Applied Sciences and Technology Series
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Physical Description:1 online resource (147 pages)
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(Au-PeEL)EBL5504979
(OCoLC)1053985769
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spelling Cattaneo, Laura.
Models, Methods and Tools for Product Service Design : The Manutelligence Project.
1st ed.
Cham : Springer International Publishing AG, 2018.
©2019.
1 online resource (147 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
SpringerBriefs in Applied Sciences and Technology Series
Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- 1.1 Product Lifecycle Management -- 1.2 Product Service System -- 1.3 Internet of Things for Smart Manufacturing -- 1.4 Life Cycle Cost (LCC) and Life Cycle Assessment (LCA) -- 1.5 The Manutelligence Project -- 1.5.1 Manutelligence Research Objectives -- 1.5.2 The Manutelligence IT Platform -- References -- 2 Engineering and Business Requirements Definition, Analysis and Validation -- 2.1 Introduction -- 2.2 Challenges -- 2.3 Methodology -- 2.3.1 Four Phase Approach -- 2.3.2 Requirements Elicitation Techniques in Manutelligence -- 2.3.3 Structuration Methods -- 2.3.4 Analysis and Prioritization Method -- 2.3.5 Requirements Validation Method -- 2.4 Results from the Definition of Business and Engineering Requirements -- 2.4.1 Results from Requirements Elicitation -- 2.4.2 Results from Structuration and Organization -- 2.4.3 Results from Prioritization -- 2.5 Validation Results -- 2.6 Conclusion -- References -- 3 Life Cycle Management for Product-Service Systems -- 3.1 Product-Service Systems and the Internet of Things -- 3.2 Life Cycle Thinking, Modelling and Management -- 3.3 Approach to Design IoT-Related PSS -- 3.3.1 Design Methodology -- 3.3.2 IoT Assessment Support -- 3.4 Life Cycle Modelling Support -- 3.4.1 Life Cycle Analysis Support -- 3.5 Challenges for Product-Service Systems Management -- 3.5.1 IoT Assessment -- 3.5.2 Life Cycle Modelling -- References -- 4 A Platform for Product-Service Design and Manufacturing Intelligence -- 4.1 P-S Collaborative Design and Manufacturing Platform -- 4.2 Product Service Solution for Industrial Scenarios -- 4.3 P-S Collaborative Design and Manufacturing Platform Components -- 4.3.1 3DEXPERIENCE -- 4.3.2 I-like -- 4.3.3 MaGA -- 4.3.4 LCPA -- 4.4 P-S Collaborative Design and Manufacturing Platform Integration.
4.5 P-S Process Design and Manufacturing Execution Tools: 3D Modeling (CATIA and Solidworks) -- 4.5.1 Product Structure -- 4.6 3D Modeling -- 4.6.1 Visualization -- 4.6.2 Simulation Modeling (SIMULIA) -- 5 Tools and Procedures to Embed and Retrieve Product-Service Lifecycle Knowledge -- 5.1 Methodologies for Customer Feedback -- 5.1.1 Introduction -- 5.1.2 Customer Feedback Analysis Approach -- 5.1.3 Customer Types -- 5.1.4 Objectives and Benefits -- 5.1.5 Mapping Feedback Scenarios -- 5.1.6 Role of Manutelligence Platform -- 5.2 Tools for Customer Involvement: Manutelligence Web Application User Interfaces -- 5.2.1 Ferrari Use Case User Experience -- 5.2.2 Meyer Use Case: Customer Feedback in Sales and Design -- 5.3 Manufacturing Context Driven Intelligence Layer Development and Integration -- 5.3.1 Introduction -- 5.3.2 Device Abstraction Layer -- 5.3.3 Manufacturing Data Visualization Through Application Dashboard -- 5.3.4 Industrial Scenario: 3D Printing Monitoring -- 6 Life Cycle Assessment and Life Cycle Costing for PSS -- 6.1 Introduction -- 6.2 Life Cycle Assessment (LCA) for Product Service Systems (PSS) -- 6.3 Life Cycle Costing (LCC) for Product Service Systems (PSS) -- 6.4 Definition of Requirements for LCA and LCC Tools -- 6.5 The LCA Tool: MaGA -- 6.6 Testing the MaGA Tool in a FabLAB Environment -- 6.7 The LCC Tool: BAL.LCPA -- 6.8 Testing the BAL.LCPA Tool in a FabLAB Environment -- 6.9 Conclusion -- References -- 7 Use Cases -- 7.1 Ferrari Use Case -- 7.1.1 The Ferrari Company -- 7.1.2 The Ferrari Business Challenges -- 7.1.3 The Ferrari Objectives in Manutelligence Project -- 7.1.4 Use Case-Drive Style Comfort and Accuracy -- 7.2 FabLab-Ateneus of Digital Fabrication (ADF) -- 7.2.1 The FabLab-Introduction -- 7.2.2 Context and Motivations -- 7.2.3 Scenario A: "Supporting the Generation of CAD Design from User's Requirements".
7.2.4 Scenario B: "Knowledge Sharing Within the FabLab/ADF Network" -- 7.2.5 Scenario C: "Developing the Production Cycle" -- 7.2.6 Scenario D: "Cloud-Based Feedback and Multidirectional Information Flow for the Design of Smart Objects" -- 7.2.7 Scenario E: "Sustainability Assessment" -- 7.3 Ship Use Case: Supporting Customer Feedback for Product-Service Design -- 7.3.1 Objectives and Results -- 7.4 Smart House Case-Introduction to Lindbäcks and Their Business Challenges -- 7.4.1 Collecting Information of the Use-Phase to Improve Lindbäcks Houses -- 7.4.2 Use-Phase Information to Create Additional Services -- 7.4.3 Conclusion -- 8 Business Exploitation -- 8.1 Product/Service Life Cycle Management Scenario, Market Trends and Challenges -- 8.2 Business Potential of the Manutelligence Platform -- 8.2.1 Platform Developers -- 8.2.2 Consulting Business -- 8.2.3 Uses Cases -- 8.3 Business Model -- 8.3.1 Customers Segments -- 8.3.2 Value Proposition -- 8.3.3 Customer Relationships and Channels -- 8.3.4 Revenue Models -- 8.3.5 Key Activities and Resources -- 8.3.6 Key Partners -- 8.3.7 Cost Structure -- References.
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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
Electronic books.
Terzi, Sergio.
Print version: Cattaneo, Laura Models, Methods and Tools for Product Service Design Cham : Springer International Publishing AG,c2018 9783319958484
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language English
format eBook
author Cattaneo, Laura.
spellingShingle Cattaneo, Laura.
Models, Methods and Tools for Product Service Design : The Manutelligence Project.
SpringerBriefs in Applied Sciences and Technology Series
Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- 1.1 Product Lifecycle Management -- 1.2 Product Service System -- 1.3 Internet of Things for Smart Manufacturing -- 1.4 Life Cycle Cost (LCC) and Life Cycle Assessment (LCA) -- 1.5 The Manutelligence Project -- 1.5.1 Manutelligence Research Objectives -- 1.5.2 The Manutelligence IT Platform -- References -- 2 Engineering and Business Requirements Definition, Analysis and Validation -- 2.1 Introduction -- 2.2 Challenges -- 2.3 Methodology -- 2.3.1 Four Phase Approach -- 2.3.2 Requirements Elicitation Techniques in Manutelligence -- 2.3.3 Structuration Methods -- 2.3.4 Analysis and Prioritization Method -- 2.3.5 Requirements Validation Method -- 2.4 Results from the Definition of Business and Engineering Requirements -- 2.4.1 Results from Requirements Elicitation -- 2.4.2 Results from Structuration and Organization -- 2.4.3 Results from Prioritization -- 2.5 Validation Results -- 2.6 Conclusion -- References -- 3 Life Cycle Management for Product-Service Systems -- 3.1 Product-Service Systems and the Internet of Things -- 3.2 Life Cycle Thinking, Modelling and Management -- 3.3 Approach to Design IoT-Related PSS -- 3.3.1 Design Methodology -- 3.3.2 IoT Assessment Support -- 3.4 Life Cycle Modelling Support -- 3.4.1 Life Cycle Analysis Support -- 3.5 Challenges for Product-Service Systems Management -- 3.5.1 IoT Assessment -- 3.5.2 Life Cycle Modelling -- References -- 4 A Platform for Product-Service Design and Manufacturing Intelligence -- 4.1 P-S Collaborative Design and Manufacturing Platform -- 4.2 Product Service Solution for Industrial Scenarios -- 4.3 P-S Collaborative Design and Manufacturing Platform Components -- 4.3.1 3DEXPERIENCE -- 4.3.2 I-like -- 4.3.3 MaGA -- 4.3.4 LCPA -- 4.4 P-S Collaborative Design and Manufacturing Platform Integration.
4.5 P-S Process Design and Manufacturing Execution Tools: 3D Modeling (CATIA and Solidworks) -- 4.5.1 Product Structure -- 4.6 3D Modeling -- 4.6.1 Visualization -- 4.6.2 Simulation Modeling (SIMULIA) -- 5 Tools and Procedures to Embed and Retrieve Product-Service Lifecycle Knowledge -- 5.1 Methodologies for Customer Feedback -- 5.1.1 Introduction -- 5.1.2 Customer Feedback Analysis Approach -- 5.1.3 Customer Types -- 5.1.4 Objectives and Benefits -- 5.1.5 Mapping Feedback Scenarios -- 5.1.6 Role of Manutelligence Platform -- 5.2 Tools for Customer Involvement: Manutelligence Web Application User Interfaces -- 5.2.1 Ferrari Use Case User Experience -- 5.2.2 Meyer Use Case: Customer Feedback in Sales and Design -- 5.3 Manufacturing Context Driven Intelligence Layer Development and Integration -- 5.3.1 Introduction -- 5.3.2 Device Abstraction Layer -- 5.3.3 Manufacturing Data Visualization Through Application Dashboard -- 5.3.4 Industrial Scenario: 3D Printing Monitoring -- 6 Life Cycle Assessment and Life Cycle Costing for PSS -- 6.1 Introduction -- 6.2 Life Cycle Assessment (LCA) for Product Service Systems (PSS) -- 6.3 Life Cycle Costing (LCC) for Product Service Systems (PSS) -- 6.4 Definition of Requirements for LCA and LCC Tools -- 6.5 The LCA Tool: MaGA -- 6.6 Testing the MaGA Tool in a FabLAB Environment -- 6.7 The LCC Tool: BAL.LCPA -- 6.8 Testing the BAL.LCPA Tool in a FabLAB Environment -- 6.9 Conclusion -- References -- 7 Use Cases -- 7.1 Ferrari Use Case -- 7.1.1 The Ferrari Company -- 7.1.2 The Ferrari Business Challenges -- 7.1.3 The Ferrari Objectives in Manutelligence Project -- 7.1.4 Use Case-Drive Style Comfort and Accuracy -- 7.2 FabLab-Ateneus of Digital Fabrication (ADF) -- 7.2.1 The FabLab-Introduction -- 7.2.2 Context and Motivations -- 7.2.3 Scenario A: "Supporting the Generation of CAD Design from User's Requirements".
7.2.4 Scenario B: "Knowledge Sharing Within the FabLab/ADF Network" -- 7.2.5 Scenario C: "Developing the Production Cycle" -- 7.2.6 Scenario D: "Cloud-Based Feedback and Multidirectional Information Flow for the Design of Smart Objects" -- 7.2.7 Scenario E: "Sustainability Assessment" -- 7.3 Ship Use Case: Supporting Customer Feedback for Product-Service Design -- 7.3.1 Objectives and Results -- 7.4 Smart House Case-Introduction to Lindbäcks and Their Business Challenges -- 7.4.1 Collecting Information of the Use-Phase to Improve Lindbäcks Houses -- 7.4.2 Use-Phase Information to Create Additional Services -- 7.4.3 Conclusion -- 8 Business Exploitation -- 8.1 Product/Service Life Cycle Management Scenario, Market Trends and Challenges -- 8.2 Business Potential of the Manutelligence Platform -- 8.2.1 Platform Developers -- 8.2.2 Consulting Business -- 8.2.3 Uses Cases -- 8.3 Business Model -- 8.3.1 Customers Segments -- 8.3.2 Value Proposition -- 8.3.3 Customer Relationships and Channels -- 8.3.4 Revenue Models -- 8.3.5 Key Activities and Resources -- 8.3.6 Key Partners -- 8.3.7 Cost Structure -- References.
author_facet Cattaneo, Laura.
Terzi, Sergio.
author_variant l c lc
author2 Terzi, Sergio.
author2_variant s t st
author2_role TeilnehmendeR
author_sort Cattaneo, Laura.
title Models, Methods and Tools for Product Service Design : The Manutelligence Project.
title_sub The Manutelligence Project.
title_full Models, Methods and Tools for Product Service Design : The Manutelligence Project.
title_fullStr Models, Methods and Tools for Product Service Design : The Manutelligence Project.
title_full_unstemmed Models, Methods and Tools for Product Service Design : The Manutelligence Project.
title_auth Models, Methods and Tools for Product Service Design : The Manutelligence Project.
title_new Models, Methods and Tools for Product Service Design :
title_sort models, methods and tools for product service design : the manutelligence project.
series SpringerBriefs in Applied Sciences and Technology Series
series2 SpringerBriefs in Applied Sciences and Technology Series
publisher Springer International Publishing AG,
publishDate 2018
physical 1 online resource (147 pages)
edition 1st ed.
contents Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- 1.1 Product Lifecycle Management -- 1.2 Product Service System -- 1.3 Internet of Things for Smart Manufacturing -- 1.4 Life Cycle Cost (LCC) and Life Cycle Assessment (LCA) -- 1.5 The Manutelligence Project -- 1.5.1 Manutelligence Research Objectives -- 1.5.2 The Manutelligence IT Platform -- References -- 2 Engineering and Business Requirements Definition, Analysis and Validation -- 2.1 Introduction -- 2.2 Challenges -- 2.3 Methodology -- 2.3.1 Four Phase Approach -- 2.3.2 Requirements Elicitation Techniques in Manutelligence -- 2.3.3 Structuration Methods -- 2.3.4 Analysis and Prioritization Method -- 2.3.5 Requirements Validation Method -- 2.4 Results from the Definition of Business and Engineering Requirements -- 2.4.1 Results from Requirements Elicitation -- 2.4.2 Results from Structuration and Organization -- 2.4.3 Results from Prioritization -- 2.5 Validation Results -- 2.6 Conclusion -- References -- 3 Life Cycle Management for Product-Service Systems -- 3.1 Product-Service Systems and the Internet of Things -- 3.2 Life Cycle Thinking, Modelling and Management -- 3.3 Approach to Design IoT-Related PSS -- 3.3.1 Design Methodology -- 3.3.2 IoT Assessment Support -- 3.4 Life Cycle Modelling Support -- 3.4.1 Life Cycle Analysis Support -- 3.5 Challenges for Product-Service Systems Management -- 3.5.1 IoT Assessment -- 3.5.2 Life Cycle Modelling -- References -- 4 A Platform for Product-Service Design and Manufacturing Intelligence -- 4.1 P-S Collaborative Design and Manufacturing Platform -- 4.2 Product Service Solution for Industrial Scenarios -- 4.3 P-S Collaborative Design and Manufacturing Platform Components -- 4.3.1 3DEXPERIENCE -- 4.3.2 I-like -- 4.3.3 MaGA -- 4.3.4 LCPA -- 4.4 P-S Collaborative Design and Manufacturing Platform Integration.
4.5 P-S Process Design and Manufacturing Execution Tools: 3D Modeling (CATIA and Solidworks) -- 4.5.1 Product Structure -- 4.6 3D Modeling -- 4.6.1 Visualization -- 4.6.2 Simulation Modeling (SIMULIA) -- 5 Tools and Procedures to Embed and Retrieve Product-Service Lifecycle Knowledge -- 5.1 Methodologies for Customer Feedback -- 5.1.1 Introduction -- 5.1.2 Customer Feedback Analysis Approach -- 5.1.3 Customer Types -- 5.1.4 Objectives and Benefits -- 5.1.5 Mapping Feedback Scenarios -- 5.1.6 Role of Manutelligence Platform -- 5.2 Tools for Customer Involvement: Manutelligence Web Application User Interfaces -- 5.2.1 Ferrari Use Case User Experience -- 5.2.2 Meyer Use Case: Customer Feedback in Sales and Design -- 5.3 Manufacturing Context Driven Intelligence Layer Development and Integration -- 5.3.1 Introduction -- 5.3.2 Device Abstraction Layer -- 5.3.3 Manufacturing Data Visualization Through Application Dashboard -- 5.3.4 Industrial Scenario: 3D Printing Monitoring -- 6 Life Cycle Assessment and Life Cycle Costing for PSS -- 6.1 Introduction -- 6.2 Life Cycle Assessment (LCA) for Product Service Systems (PSS) -- 6.3 Life Cycle Costing (LCC) for Product Service Systems (PSS) -- 6.4 Definition of Requirements for LCA and LCC Tools -- 6.5 The LCA Tool: MaGA -- 6.6 Testing the MaGA Tool in a FabLAB Environment -- 6.7 The LCC Tool: BAL.LCPA -- 6.8 Testing the BAL.LCPA Tool in a FabLAB Environment -- 6.9 Conclusion -- References -- 7 Use Cases -- 7.1 Ferrari Use Case -- 7.1.1 The Ferrari Company -- 7.1.2 The Ferrari Business Challenges -- 7.1.3 The Ferrari Objectives in Manutelligence Project -- 7.1.4 Use Case-Drive Style Comfort and Accuracy -- 7.2 FabLab-Ateneus of Digital Fabrication (ADF) -- 7.2.1 The FabLab-Introduction -- 7.2.2 Context and Motivations -- 7.2.3 Scenario A: "Supporting the Generation of CAD Design from User's Requirements".
7.2.4 Scenario B: "Knowledge Sharing Within the FabLab/ADF Network" -- 7.2.5 Scenario C: "Developing the Production Cycle" -- 7.2.6 Scenario D: "Cloud-Based Feedback and Multidirectional Information Flow for the Design of Smart Objects" -- 7.2.7 Scenario E: "Sustainability Assessment" -- 7.3 Ship Use Case: Supporting Customer Feedback for Product-Service Design -- 7.3.1 Objectives and Results -- 7.4 Smart House Case-Introduction to Lindbäcks and Their Business Challenges -- 7.4.1 Collecting Information of the Use-Phase to Improve Lindbäcks Houses -- 7.4.2 Use-Phase Information to Create Additional Services -- 7.4.3 Conclusion -- 8 Business Exploitation -- 8.1 Product/Service Life Cycle Management Scenario, Market Trends and Challenges -- 8.2 Business Potential of the Manutelligence Platform -- 8.2.1 Platform Developers -- 8.2.2 Consulting Business -- 8.2.3 Uses Cases -- 8.3 Business Model -- 8.3.1 Customers Segments -- 8.3.2 Value Proposition -- 8.3.3 Customer Relationships and Channels -- 8.3.4 Revenue Models -- 8.3.5 Key Activities and Resources -- 8.3.6 Key Partners -- 8.3.7 Cost Structure -- References.
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Tools and Procedures to Embed and Retrieve Product-Service Lifecycle Knowledge -- 5.1 Methodologies for Customer Feedback -- 5.1.1 Introduction -- 5.1.2 Customer Feedback Analysis Approach -- 5.1.3 Customer Types -- 5.1.4 Objectives and Benefits -- 5.1.5 Mapping Feedback Scenarios -- 5.1.6 Role of Manutelligence Platform -- 5.2 Tools for Customer Involvement: Manutelligence Web Application User Interfaces -- 5.2.1 Ferrari Use Case User Experience -- 5.2.2 Meyer Use Case: Customer Feedback in Sales and Design -- 5.3 Manufacturing Context Driven Intelligence Layer Development and Integration -- 5.3.1 Introduction -- 5.3.2 Device Abstraction Layer -- 5.3.3 Manufacturing Data Visualization Through Application Dashboard -- 5.3.4 Industrial Scenario: 3D Printing Monitoring -- 6 Life Cycle Assessment and Life Cycle Costing for PSS -- 6.1 Introduction -- 6.2 Life Cycle Assessment (LCA) for Product Service Systems (PSS) -- 6.3 Life Cycle Costing (LCC) for Product Service Systems (PSS) -- 6.4 Definition of Requirements for LCA and LCC Tools -- 6.5 The LCA Tool: MaGA -- 6.6 Testing the MaGA Tool in a FabLAB Environment -- 6.7 The LCC Tool: BAL.LCPA -- 6.8 Testing the BAL.LCPA Tool in a FabLAB Environment -- 6.9 Conclusion -- References -- 7 Use Cases -- 7.1 Ferrari Use Case -- 7.1.1 The Ferrari Company -- 7.1.2 The Ferrari Business Challenges -- 7.1.3 The Ferrari Objectives in Manutelligence Project -- 7.1.4 Use Case-Drive Style Comfort and Accuracy -- 7.2 FabLab-Ateneus of Digital Fabrication (ADF) -- 7.2.1 The FabLab-Introduction -- 7.2.2 Context and Motivations -- 7.2.3 Scenario A: "Supporting the Generation of CAD Design from User's Requirements".</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">7.2.4 Scenario B: "Knowledge Sharing Within the FabLab/ADF Network" -- 7.2.5 Scenario C: "Developing the Production Cycle" -- 7.2.6 Scenario D: "Cloud-Based Feedback and Multidirectional Information Flow for the Design of Smart Objects" -- 7.2.7 Scenario E: "Sustainability Assessment" -- 7.3 Ship Use Case: Supporting Customer Feedback for Product-Service Design -- 7.3.1 Objectives and Results -- 7.4 Smart House Case-Introduction to Lindbäcks and Their Business Challenges -- 7.4.1 Collecting Information of the Use-Phase to Improve Lindbäcks Houses -- 7.4.2 Use-Phase Information to Create Additional Services -- 7.4.3 Conclusion -- 8 Business Exploitation -- 8.1 Product/Service Life Cycle Management Scenario, Market Trends and Challenges -- 8.2 Business Potential of the Manutelligence Platform -- 8.2.1 Platform Developers -- 8.2.2 Consulting Business -- 8.2.3 Uses Cases -- 8.3 Business Model -- 8.3.1 Customers Segments -- 8.3.2 Value Proposition -- 8.3.3 Customer Relationships and Channels -- 8.3.4 Revenue Models -- 8.3.5 Key Activities and Resources -- 8.3.6 Key Partners -- 8.3.7 Cost Structure -- References.</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources.</subfield></datafield><datafield tag="590" ind1=" " ind2=" "><subfield code="a">Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. 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