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5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
5.1 Sustainability System Design Tools
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5.1 Sustainability System Design Tools

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    • 1. carlo vezzoli politecnico di milano . INDACO dpt. . DIS . faculty of design . Italy Learning Network on Sustainability course System Design for Sustainability Subject 5 . Methods and tools for System Design for Sustainability learning resource 5.1 Sustainability-orienting system design methods and tools
    • 2. CONTENTS A resume of SDS MSDS Method approach and phases System design for sustainability tools Sustainability Design-Orienting (SDO) toolkit Interaction (sustainability) story-spot Quick tour in MSDS Case of MSDS implementation by polimi/dis
    • 3.
      • “ the design for eco-efficiency (and/or) social equity and cohesion of the system of products and services that are together able to fulfil a particular demand of (customer) “ satisfaction ”, as well as the design of the interaction of the stakeholders directly and indirectly linked to that “satisfaction” system ”
      • [VEZZOLI, 2009]
      SYSTEM DESIGN FOR SUSTAINABILITY: DEFINITION
    • 4.
      • 1. “SATISFACTION-SYSTEM” APPROACH
      • DEMAND-SATISFACTION DESIGN
      • 2. “STAKEHOLDER INTERACTIONS” APPROACH
      • STAKEHOLDER CONFIGURATION DESIGN
      • 3. “SUSTAINABILITY-ORIENTED” SYSTEM APPROACH
      SYSTEM DESIGN FOR USATAINABILITY: APPROACH
    • 5.
      • - design an integrated system of products and services fulfilling a particular demand for “satisfaction”
      • - promote/facilitate new socio-economic stakeholders’ interactions
      • - promote/facilitate participated design between different stakeholders
      • - ORIENTATE THE ABOVE PROCESSES TOWARDS ECO-EFFICENT SOLUTIONS
      • - ORIENTATE THE ABOVE PROCESSES TOWARDS SOCIALLY EQUITABLE AND COHESIVE ( SOCIO-EFFICIENT ) SOLUTIONS
      SYSTEM DESIGN FOR USATAINABILITY: SKILLS
    • 6. … in addition to system/strategic design methods/tools > CRITERIA, METHODS AND TOOLS ARE NEED TO ORIENTATE DESIGN TOWARDS SUSTAINABLE STAKEHOLDER INTERACTIONS [… NOT ALL SYSTEM INNOVATION ARE ECO-EFFICENT AND/OR SOCIALLY EQUITABLE AND COHESIVE!] ( OBJECTIVE) ORIENTATE THE SYSTEM DESIGN TOWARDS SUSTAINABLE SOLUTIONS
    • 7. some methods/tools developed to orientate system design towards sustainable solutions: [eu RESEARCHES: MEPSS, HICS, PROSECCO, …] BASED ON THESE METHODS/TOOLS ... MEPSS, EU RESEARCH van Halen, Vezzoli & Wimmer, Methodology for product service system innovation, Van Gorcum, Assen, The Netherlands, 2005 HiCS, EU RESEARCH Manzini, Collina & Evans, Highly Customerised Solutions, Cranfield University, 2006
    • 8.
      • (MODULAR) PHASES:
      • . Strategic analysis
      • . Exploring opportunities
      • . System concept design
      • . System design (and engineering)
      • . Communication
      … from MEPSS/HiCS EU projects adjasted after some company consultings … MSDS : M ethod for S ystem D esign for S ustailability
    • 9. MSDS: PHASES/PROCESSES OBJECTIVES STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION Gaining the information needed to facilitate the generation of ideas oriented towards sustainability Producing a “catalogue” of promising strategic possibilities, i.e. a sustainability design-orienting sceanario Defining one or more system concept oriented towards sustainability Developing the most promising system concept in a detailed version necessariy to its implementation Producing the documents for the external communication of the solution’s characteristics (general characteristics but above all the sustainability ones) ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL) ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION MULTIMEDIA REPORTING: OVERALL QUALITIES MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION
    • 10. MODULAR METHOD : 1. enabling to START up the process at any stage 2. enabling to use a SELECTED set of processes and tools 3. Enabling to work on one, two or all the sustainability DIMENSIONS MSDS: MODULAR APPROACH ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL) MULTIMEDIA REPORTING: OVERALL QUALITIES MULTIMEDIA REPORTING: STAINABILITY QUALITIES
    • 11.
      • 1. Sustainability Design-Orienting toolkit (SDO)
      • 2. system map
      • 3. interaction table (story-board)
      • 4. satisfaction offering diagram
      • 5. stakeholder motivation matrix
      • 6. solution element brief
      • 7. sustainability interaction story-spot
      MSDS MAIN TOOLS: LEGENDA sustainability-orienting system design tools system design tools
    • 12. SUSTAINABILITY ORIENTING SYSTEM DESIGN TOOLS MAIN AIMS: . prioritise . orientate. . check/visualise
    • 13. DESIGN/DEVELOPMENT PROCESS PRODUCT, SERVICE, SYSTEM product concept service concept system design system engin. stakeholders interactions concept product design service design stakeholders interactions design product engineering service engineering stakeholders interactions engineering strategic analysis system concept SUSTAINABILITY ORIENTING METHOD/TOOLS SUATAINABILITY EFFECTIVENESS + _ system design orientation B’ system concept evaluation/visualisation A’ system design evaluation/visualisation C’’ system design evaluation/visualisation A’’ system engineering evaluation B’’ system engineering evaluation/visualisation C’’ priorities evaluat. (existing) A concept orientation B system concept evaluation/visualisation (priorities) C
    • 14. MSDS SUSTAINABILITY ORIENTING SYSTEM DESIGN TOOLS: 1. Sustainability Design-Orienting toolkit (SDO) 7. sustainability interaction story-spot
    • 15. 1. SUSTAINABILITY DESIGN-ORIENTING (SDO) TOOL WHAT IS: a modular software toolkit supporting the following processes: - A : priorities sustainability criteria/guidelines (existing system qualitative analysis) - B : identify sustainable existing options (best practices analysis) - C : generate sustainability - focused idea - D : check/visualise sustainability improvement/worsening of developed concept/s SCOPE orientate system design process towards sustainable solutions (environmental, socio-ethical, economic)
    • 16. SDO integration in the design process per each sustainability dimension increasing the detail level ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION MULTIMEDIA REPORTING: OVERALL QUALITIES MULTIMEDIA REPORTING: STAINABILITY QUALITIES STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL) A: priorities sustain. criteria/guidelines [tool: checklist/existing system] B: analysis of sustainab. best practices [tool: checklist/case study; radars] D:sustainab. improv. check/visualisat. [tool: checklist/concept; radars] C: sustainability-focused idea generation [tool: idea tables + guidelines]
    • 17.
      • SDO STRUCTURE:
      • SUSTAINAB ILITY DIMENSIONS<CRITERIA<GUIDELINES
      environmental degradation future generation equity environmental
      • guideline
      • (e.g. on-site production/assembly)
      • guideline
      • (e.g. use local resources)
      socio-ethical economic criteria 1 (e.g. transportation reduction) criteria 2 (e.g. system life optim.) … criteria 3-6 … criteria 1-6 … criteria 1-6 sustainability principles dimensions distinguished area s criteria designer-BRIDGE-analyst guidelines (2 levels) addressing potential improvement
    • 18. ENVIRONMENTAL CRITERIA (GUIDELINES) to suggest system eco-efficent stakeholder innovative interactions . system life optimisation . transportation/distribution reduction . resources reduction . waste minimisation/valorisation . conservation/biocompatibility . toxic reduction
    • 19. SOCIO-ETHIC CRITERIA (GUIDELINES) to suggest system social equity and cohesion (innovative interactions) . improve employment/working conditions . increase equity and justice in relation to stakeholders . enable responsible/sustainable consumption . favour/integrate the weak and marginalized . improve social cohesion . empower/enhance local resources
    • 20. SCOPE: visualise (only) key interaction in relation to a specific aim, i.e. how the concept help achieve a given sustainability criteria WHAT IS: a clipping from an interaction story-board. It covers less and focuses better than a storyboard 7. SUSTAINABILITYI NTERACTION STORY-SPOT
    • 21. WHAT IT CONSISTS OF: it is a graphical representation containing: > the sequence of slides accompanied with short texts , representing (in time) the key interactions of the solution > differentiated colors to identify each stakeholder (e.g. provider and client) > notes to highlight main achieved sustainability criteria 7. SUSTAINABILITY INTERACTION STORY-SPOT
    • 22. integration in the design process per each sustainability dimension increasing the detail level MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION 7. SUSTAINABILITY INTERACTION STORY-SPOT MULTIMEDIA REPORTING: OVERALL QUALITIES STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL) visualise (only) key interactions underlining the achieved sustainability criteria
    • 23. 6. SUSTAINABILITY INTERACTION STORY-SPOT GREEN COLOR: CLIENT RED COLOR: PROVIDER
    • 24. 6. SUSTAINABILITY INTERACTION STORY-SPOT BACKGROUND COLOR SHORT TEXT STAKEHOLDER IDENTIFICATION IMAGE
    • 25. 6. SUSTAINABILITY INTERACTION STORY-SPOT DESCRITPION OF A SPECIFIC INTERACTION THAT LEADS TOWARDS THE IMPROVEMENT OF A GIVEN ENVIRONMENTAL CRITERIA DESCRITPION OF A SPECIFIC INTERACTION THAT LEADS TOWARDS THE IMPROVEMENT OF A GIVEN SOCIO-ETHICAL CRITERIA
    • 26. QUICK TOUR IN MSDS
    • 27. STRATEGIC ANALISYS Identify the sustainability design priorities MULTIMEDIA REPORTING: OVERALL QUALITIES MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL)
    • 28. . ENVIRONMENTAL/ SUSTAINABILITY PRIORITIES DEF. for each critera evaluation checklists 6 criteria for environm. sustainability dimension define priorities set priotities write answers
    • 29. Generate sustainable-focused ideas on a stakeholder system intaraction level (1) EXPLORING OPPORTUNITIES MULTIMEDIA REPORTING: OVERALL QUALITIES MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL)
    • 30. . GENERATE “SUSTAINABLE IDEAS” BY BRAINSTORMING criterion and its priorit y read guidelines (criteria/system-related) select idea table (one per criterion) type idea emerged
    • 31. . GENERATE “SUSTAINABLE IDEAS” BY BRAINSTORMING criteria ( without priority) write emerged ideas (for criteria) read guidelines criteria/system-related choose criteria
    • 32. Design and formalisation of the system concepts SYSTEM CONCEPT DESIGN MULTIMEDIA REPORTING: OVERALL QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL)
    • 33. . SYSTEM MAP
    • 34. . SATISFACTION OFFERING DIAGRAMM
    • 35. . INTERACTION STORY BOARD
    • 36. F. INTERACTION STORY BOARD . PRODUCT AND SUPPORT-PRODUCT CONCEPTS
    • 37. Generate sustainable-focused ideas on a product-service system concept level SYSTEM CONCEPT DESIGN MULTIMEDIA REPORTING: OVERALL QUALITIES MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL)
    • 38. . GENERATE “SUSTAINABLE IDEAS” BY BRAINSTORMING type idea emerged criterion and its priorit y read guidelines (criteria-related) per each s u st a nibilit y dimension 1. select service or product level for idea table
    • 39. check and visualise achieved sustainability improvements/worsening > up-date priorities MULTIMEDIA REPORTING: OVERALL QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION SYSTEM CONCEPT DESIGN MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL)
    • 40. . CHECK IN PROGRESS CONCEPT evaluation helped by checklists for each criteria for each given criteria define improvement for each sustainab. dimension click on check concept write improvem. Radar env.
    • 41. . CHECK/ VISUALISE IN PROGRESS CONCEPT concept improvement (e.g. +) priority of existing system (e.g. Medium) criterion (sust. dimension) IMPROVEMENT… type text synthethising improvement per each s u st a nibilit y dimension
    • 42. . CHECK/ VISUALISE IN PROGRESS CONCEPT concept improvement (e.g. ++) criterion (sust. dimension) IMPROVEMENT… type text synthethising improvement per each s u st a nibilit y dimension
    • 43. . INTERACTION (SUSTAINABILITY) STORY-SPOT
    • 44. development of the system organization MULTIMEDIA REPORTING: OVERALL QUALITIES SYSTEM DESIGN (AND ENGINEERING) MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL)
    • 45. H. SYSTEM MAP (DETAILED) . SYSTEM MAP
    • 46. . SATISFACTION OFFERING DIAGRAMM
    • 47. . INTERACTION STORY BOARD
    • 48. Check and visualise the achieved sustainability improvements MULTIMEDIA REPORTING: OVERALL QUALITIES MULTIMEDIA REPORTING: STAINABILITY QUALITIES ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION SYSTEM DESIGN (AND ENGINEERING) ENV, SOCIO-ET. & ECON. CHECK/VISUALISATION STRATEGIC ANALYSIS EXPLORING OPPORTUNITIES SYSTEM CONCEPT DESIGN SYSTEM DESIGN (AND ENGIN.) COMMUNICATION ANALYSIS OF THE PROJECT PROMOTERS ANALYSIS OF THE REFERENCE CONTEXT ANALYSIS OF BEST PRACTICES ANALYSIS OF THE REFERENCE STRUCTURE DEFINITION OF SUSTAINABILITY DESIGN PRIORITIES IDEAS GENERATION ORIENTED TO SUSTAINABILITY DEVELEPMENT OF THE SUSTAINABILITY DESIGN ORIENTING SCENARIO - VISIONS/CLUSTERS/IDEAS VISIONS, CLUSTERS AND IDEAS SELECTION SYSTEM CONCEPT DEVELOPMENT SYSTEM DEVELOPMENT (EXECUTIVE LEVEL)
    • 49. . ( up-date ) CHECK DESIGNED SYSTEM evaluation helped by checklists for each criteria for each given criteria define improvement for each sustainab. dimension check concept write improvem. Radar env.
    • 50. . ( up-date ) CHECK/ VISUALISE DESIGNED SYSTEM concept improvement (e.g. =) priority of existing system (e.g. Low) criterion (sust. dimension) IMPROVEMENT… type text synthetising improvement per each s u st a nibilit y dimension
    • 51. . ( up-date ) CHECK/ VISUALISE IN PROGRESS CONCEPT concept improvement (e.g. ++) criterion (sust. dimension) IMPROVEMENT… type text synthsthisisng improvement per each s u st a nibilit y dimension
    • 52. . ( up-date ) INTERACTION (SUSTAINABILITY) STORY-SPOT
    • 53. CASE OF MSDS IMPLEMENTATION BY POLIMI/DIS
    • 54. LESS WASTES: OTHER WAYS OF DOING SCENARIOS AND SYSTEMS’ CONCEPTS OF UPSTREAM WASTES REDUCTION IN THE FOOD AND PAPER CHAINS IN THE CITY OF BRESCIA, ITALY commissioned by: ASM-BRESCIA existing system analysis eco-efficient scenarios and system concept development sustainability focused ideas generation
    • 55. abridged LCA ABRIDGED LIFE CYCLE ASSESSMENT DESIGN OF THE SYSTEM INNOVATION INTRODUCTION AND DIFFUSION PATH ECO-EFFICIENT SCENARIOS ELABORATION commissioned by: system innovation introd. and diffusion path eco-efficient scenarios elaboration PSS concept design PSS engineering PSS CONCEPT DESIGN AND ENGINEERING 0% 20% 40% 60% 80% 100% Impatto relativo (%) 0% 20% 40% 60% 80% 100% and production Pre - production - Distribution Disposal Impatto relativo (%)
    • 56. PRODUCT DEVELOPMENT AND CREATING PROTOTYPES DESIGN OF ECO-EFFICIENT PRODUCT SERVICE SYSTEMS DEFINITION OF A STRATEGIC PATH FOR THE INTRODUCTION AND DIFFUSION OF THE DESIGNED SYSTEMS product design system design path to intro. and diffusion of system innovation commissioned by: ARCHIMEDE ENERGIA ARCHIMEDE ENERGIA
    • 57. system design product design path to intro. and diffusion of system innovation coordinated by: MIT (USA) INTRODUCTION OF SUSTAINABLE MOBILITY SYSTEMS IN EMERGING CONTEXTS 1 . introduction of sustainable Mobility Management system in Bangalore 2 . introduction of sustainable Car sharing (+carpooling) system in Bangalore 3 . introduction of sustainable residential Carpooling system in Beijing
    • 58. system design product design system innovation introd. and diffusion path SYSTEM DESIGN FOR SUSTAINABLE PILOT PROJECT AIMING AT AN INTRODUCTION OF LOCALLY-BASED AND LONG LASTING MOBILITY SYSTEM FOR LOW INCOME CONTEXTS IN AFRICA United Nations Industrial Development Organization A Global UNIDO Network of University Chairs on Innovation Politecnico di Milano Cape Peninsula University of Technology

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