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R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS U R N H Monday, 13 September 2010 History Analysis Systems KTH SUPD Manoochehri 100913 H N p c METABOLISM SYMBIOSIS R E S I L I E N C E SOCIETY LIFESTYLES INFRASTRUCTURE BUILT ENVIRONMENT CITIES BIOCYCLING SERVICE-USE RECYCLING URBAN SUSTAINABILITY PT I

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HISTORY

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HISTORY IDEAWORLD ACTIONS DISCOURSES

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HISTORY IDEAWORLD

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IDEA HISTORY

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Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s IDEA HISTORY

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Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s IDEA HISTORY

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Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s IDEA HISTORY

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Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s IDEA HISTORY

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Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s IDEA HISTORY

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Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s IDEA HISTORY

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Lack of Harmony Separation from Nature Pollution Humankind spoiling its own living environment Wise-use Lack of strategy in exploiting resources Industrial Ugliness Machinery harming Nature, humankind brutalising/being brutalised Enlightenment Inverted Separation from natural systems, lack of immediate feedbacks, lack of contextual limits Hypertechnology, Systems Complexity Super-pollution, Mega-catastrophe Politico-economic ‘anthropocentrism’ (c.f. ‘geocentrism’) Defective theories of economic development

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Lack of Harmony Separation from Nature Pollution Humankind spoiling its own living environment Wise-use Lack of strategy in exploiting resources Industrial Ugliness Machinery harming Nature, humankind brutalising/being brutalised Enlightenment Inverted Separation from natural systems, lack of immediate feedbacks, lack of contextual limits Hypertechnology, Systems Complexity Super-pollution, Mega-catastrophe Politico-economic ‘anthropocentrism’ (c.f. ‘geocentrism’) Defective theories of economic development EARLY IDEAS

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DESIGN HISTORY

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Plato The Republic DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City Buckminster Fuller The Dymaxion City DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City Buckminster Fuller The Dymaxion City Peter Calthorpe The Regional City DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City Buckminster Fuller The Dymaxion City Peter Calthorpe The Regional City Herbert Girardet The Eco-City DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City Buckminster Fuller The Dymaxion City Peter Calthorpe The Regional City Herbert Girardet The Eco-City DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City Buckminster Fuller The Dymaxion City Peter Calthorpe The Regional City Herbert Girardet The Eco-City DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City Buckminster Fuller The Dymaxion City Peter Calthorpe The Regional City Herbert Girardet The Eco-City DESIGN HISTORY

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Plato The Republic Ebenezer Howard The Garden City Buckminster Fuller The Dymaxion City Peter Calthorpe The Regional City Herbert Girardet The Eco-City DESIGN HISTORY

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Futurity, nature, resources ‘Organic’, efficient City that can sustain More positive effects than - ve Dream in the future Mechanism > through ages Rel independent with E + R ‘Place that works’ Respect for nature and equity Small footprint, or offset Needs of present > future Development vs Resources Reduce impact + human needs Needs in balance with Res Self-sufficient Balancing growth vs Res Planned to conserve Res Place that works out Self-sustaining Needs vs Resources/Nature Nature not disrupted, QL up I-O balance, via indiv + grp Knowledge? Manages different R Solving problems in v parad’s

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CURRENT SDUS IDEAS Futurity, nature, resources ‘Organic’, efficient City that can sustain More positive effects than - ve Dream in the future Mechanism > through ages Rel independent with E + R ‘Place that works’ Respect for nature and equity Small footprint, or offset Needs of present > future Development vs Resources Reduce impact + human needs Needs in balance with Res Self-sufficient Balancing growth vs Res Planned to conserve Res Place that works out Self-sustaining Needs vs Resources/Nature Nature not disrupted, QL up I-O balance, via indiv + grp Knowledge? Manages different R Solving problems in v parad’s

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CURRENT SDUS IDEAS Futurity, nature, resources ‘Organic’, efficient City that can sustain More positive effects than - ve Dream in the future Mechanism > through ages Rel independent with E + R ‘Place that works’ Respect for nature and equity Small footprint, or offset Needs of present > future Development vs Resources Reduce impact + human needs Needs in balance with Res Self-sufficient Balancing growth vs Res Planned to conserve Res Place that works out Self-sustaining Needs vs Resources/Nature Nature not disrupted, QL up I-O balance, via indiv + grp Knowledge? Manages different R Solving problems in v parad’s ©UPD 2010

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HISTORY ACTIONS

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ACTION TYPES

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Governmental ACTION TYPES

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Governmental Policy Action ACTION TYPES

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Governmental Policy Action > Policy Action? ACTION TYPES

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Governmental Policy Action > Policy Action? Science ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information > Policy, Lobbying ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information > Policy, Lobbying Social ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information > Policy, Lobbying Social Debate, Media, Personal Concern ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information > Policy, Lobbying Social Debate, Media, Personal Concern > Information Campaigns ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information > Policy, Lobbying Social Debate, Media, Personal Concern > Information Campaigns Discourse ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information > Policy, Lobbying Social Debate, Media, Personal Concern > Information Campaigns Discourse Sustainable development ACTION TYPES

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Governmental Policy Action > Policy Action? Science Research > Industry? Policy? Industry Policies Standards > Business Models ? Campaigning Organisations, Campaigns, Information > Policy, Lobbying Social Debate, Media, Personal Concern > Information Campaigns Discourse Sustainable development > Sustainable development? ACTION TYPES

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Mandates Policy frameworks (Agenda 21), Changed mandates (GATT) Institutional development Government Agencies and Ministries Policies Regulatory: Preservation, Anti-pollution Fiscal: Resource-use taxes, Behaviour taxes, Funding for research Informational: consumer education/information Discourse Sustainable development

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Mandates Policy frameworks (Agenda 21), Changed mandates (GATT) Institutional development Government Agencies and Ministries Policies Regulatory: Preservation, Anti-pollution Fiscal: Resource-use taxes, Behaviour taxes, Funding for research Informational: consumer education/information Discourse Sustainable development POLICY ACTION

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HISTORY DISCOURSES

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SD Economics Environment Society

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SD Economics Environment Society X

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SD Economics Environment Society X HEADLINE DISCOURSE

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Economics Environment Society

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Lowe, 2010, ACF

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Lowe, 2010, ACF HEADLINE DISCOURSE CRISIS

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Economics Environment Society

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Economics Environment Society Lowe, 2010, ACF

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Economics Environment Society Lowe, 2010, ACF DISCOURSE CORRECTION?

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Clean by Technology | Science, Industry Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega- engineering Efficiency by Design | Technology, Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems | Planning, Commerce Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity | People, baby, People! Upshift, Locality, Quality

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Clean by Technology | Science, Industry Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega- engineering Efficiency by Design | Technology, Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems | Planning, Commerce Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity | People, baby, People! Upshift, Locality, Quality ACTION DISCOURSES

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Clean by Technology | Science, Industry Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega- engineering Efficiency by Design | Technology, Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems | Planning, Commerce Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity | People, baby, People! Upshift, Locality, Quality ACTION DISCOURSES

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Clean by Technology | Science, Industry Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega- engineering Efficiency by Design | Technology, Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems | Planning, Commerce Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity | People, baby, People! Upshift, Locality, Quality ACTION DISCOURSES

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Clean by Technology | Science, Industry Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega- engineering Efficiency by Design | Technology, Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems | Planning, Commerce Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity | People, baby, People! Upshift, Locality, Quality ACTION DISCOURSES

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Clean by Technology | Science, Industry Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega- engineering Efficiency by Design | Technology, Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems | Planning, Commerce Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity | People, baby, People! Upshift, Locality, Quality ACTION DISCOURSES

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Futurity, nature, resources ‘Organic’, efficient City that can sustain More positive effects than - ve Dream in the future Mechanism > through ages Rel independent with E + R ‘Place that works’ Respect for nature and equity Small footprint, or offset Needs of present > future Development vs Resources Reduce impact + human needs Needs in balance with Res Self-sufficient Balancing growth vs Res Planned to conserve Res Place that works out Self-sustaining Needs vs Resources/Nature Nature not disrupted, QL up I-O balance, via indiv + grp Knowledge? Manages different R Solving problems in diff

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ACTION DISCOURSE CRISIS Futurity, nature, resources ‘Organic’, efficient City that can sustain More positive effects than - ve Dream in the future Mechanism > through ages Rel independent with E + R ‘Place that works’ Respect for nature and equity Small footprint, or offset Needs of present > future Development vs Resources Reduce impact + human needs Needs in balance with Res Self-sufficient Balancing growth vs Res Planned to conserve Res Place that works out Self-sustaining Needs vs Resources/Nature Nature not disrupted, QL up I-O balance, via indiv + grp Knowledge? Manages different R Solving problems in diff

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ACTION DISCOURSE CRISIS Futurity, nature, resources ‘Organic’, efficient City that can sustain More positive effects than - ve Dream in the future Mechanism > through ages Rel independent with E + R ‘Place that works’ Respect for nature and equity Small footprint, or offset Needs of present > future Development vs Resources Reduce impact + human needs Needs in balance with Res Self-sufficient Balancing growth vs Res Planned to conserve Res Place that works out Self-sustaining Needs vs Resources/Nature Nature not disrupted, QL up I-O balance, via indiv + grp Knowledge? Manages different R Solving problems in diff City? Future? Needs? Power? Future Needs? Lifestyle? I-O? Harmony?

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ACTION DISCOURSE CRISIS Futurity, nature, resources ‘Organic’, efficient City that can sustain More positive effects than - ve Dream in the future Mechanism > through ages Rel independent with E + R ‘Place that works’ Respect for nature and equity Small footprint, or offset Needs of present > future Development vs Resources Reduce impact + human needs Needs in balance with Res Self-sufficient Balancing growth vs Res Planned to conserve Res Place that works out Self-sustaining Needs vs Resources/Nature Nature not disrupted, QL up I-O balance, via indiv + grp Knowledge? Manages different R Solving problems in diff City? Future? Needs? Power? Future Needs? Lifestyle? I-O? Harmony? ©UPD 2010

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ANALYSIS

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ANALYSIS INPUT-OUTPUT 1234 THE NEW DESIGN

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ANALYSIS INPUT-OUTPUT

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N

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NATURAL RESOURCES N

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NATURAL RESOURCES N H

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NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

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NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

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NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

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⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

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⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

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⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS ⊗R N H

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⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS ⊗R N H

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⊖R NATURAL RESOURCES ⊗C BUILT DESIGN/ PRODUCTS ⊗R N H

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⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS ⊖U ⊗R N H

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⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS ⊖U ⊗R N H INPUT-OUTPUT

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ANALYSIS 1234

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SUSTAINABLE ANALYSIS 1 Material Culture > 2 Problems > 3 Solutions > 4 Enablers >

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SUSTAINABLE ANALYSIS Crisis 1 Material Culture > 2 Problems > 3 Solutions > 4 Enablers >

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SUSTAINABLE ANALYSIS Crisis Resources, Nature 1 Material Culture > 2 Problems > 3 Solutions > 4 Enablers >

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SUSTAINABLE ANALYSIS Crisis Resources, Nature 1 Material Culture > 2 Problems > 3 Solutions > 4 Enablers > Supply | Application | Behaviour

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SUSTAINABLE ANALYSIS Crisis Resources, Nature 1 Material Culture > 2 Problems > 3 Solutions > 4 Enablers > Supply | Application | Behaviour Burdens, Incentives

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SUSTAINABLE ANALYSIS Crisis Resources, Nature 1 Material Culture > 2 Problems > 3 Solutions > 4 Enablers > Supply | Application | Behaviour Burdens, Incentives AS PREVIOUSLY ADVERTISED

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1234

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0 CRITIQUE

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BINARY DEBATE TECHNOLOGY OF SUPPLY? FORCING MASS SOCIAL CHANGE? ENVIRONMENTAL VS SUSTAINABLE TOTAL MATERIALISATION? CONDITIONED MATERIALISATION? DESIGN VS ENGINEERING DESIGN? CREATIVITY? HUMAN DEVELOPMENT CREATIVITY FREEDOM OBSCURITY? COHERENT STRUCTURE? MASKING OF POLITICS? SOCIAL ISSUES? APPROPRIATE RELATIONSHIP? SERIOUS TREATMENT? COST? FEASIBLE? COST EFFECTIVE? 0 CRITIQUE

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1 MATERIAL CRISIS

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RESOURCES MEDIA APPLICATIONS FUNCTION 1 MATERIAL CRISIS

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FOSSILS MINERALS BIOTA LIFESYSTEMS SUN WATER SOIL LAND SPACE FOOD POWER GOODS MOBILITY BUILDINGS INFRASTRUCTURE ACTIVITY VALUE EXPERIENCE WELFARE RESOURCES MEDIA APPLICATIONS FUNCTION 1 MATERIAL CRISIS

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2 PROBLEM

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A BIOPHYSICAL RESOURCE LIMITS ABSORPTION (pollution, waste) STOCKS (freshwater, oil, minerals) SERVICES (climate, nutrient cycling, resilience) INPUTS (solar, tidal) B NATURE VULNERABILITY SPECIES ECOSYSTEMS LANDSCAPES 2 PROBLEM

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3 SOLUTIONS

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A SUPPLY POLLUTION REDUCTION STOCK CONSERVATION NATURE PRESERVATION B APPLICATIONS BETTER APPLICATION OF RESOURCES C BEHAVIOUR ME/US ETHICS THEM ETHICS 3 SOLUTIONS

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4 ENABLERS

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A INFORMATION B PRICES C LAWS 4 ENABLERS

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A INFORMATION B PRICES C LAWS 4 ENABLERS D QUALITY DESIGN, INNOVATION, NARRATIVE, VALUE

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ANALYSIS THE NEW DESIGN

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THE NEW DESIGN

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THE NEW DESIGN PROGRAMME

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THE NEW DESIGN PROGRAMME

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THE NEW DESIGN PROGRAMME FORM

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THE NEW DESIGN PROGRAMME FORM

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THE NEW DESIGN PROGRAMME SYSTEMS FORM

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THE NEW DESIGN PROGRAMME SYSTEMS LIFESTYLES FORM

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SYSTEMS

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SYSTEMS

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SYSTEMS H N p c

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SYSTEMS H N p c

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SYSTEMS H N p c

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SYSTEMS H N p c

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SYSTEMS H N p c METABOLISM

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SYSTEMS H N p c METABOLISM

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SYSTEMS H N p c METABOLISM RECYCLING

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SYSTEMS H N p c METABOLISM RECYCLING

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SYSTEMS H N p c METABOLISM R E S I L I E N C E RECYCLING

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SYSTEMS H N p c METABOLISM R E S I L I E N C E RECYCLING

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SYSTEMS H N p c METABOLISM SYMBIOSIS R E S I L I E N C E RECYCLING

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SYSTEMS H N p c METABOLISM SYMBIOSIS R E S I L I E N C E RECYCLING

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SYSTEMS H N p c METABOLISM SYMBIOSIS R E S I L I E N C E BIOCYCLING RECYCLING

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SYSTEMS H N p c METABOLISM SYMBIOSIS R E S I L I E N C E BIOCYCLING RECYCLING

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SYSTEMS H N p c METABOLISM SYMBIOSIS R E S I L I E N C E BIOCYCLING RECYCLING SERVICE-USE

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SYSTEMS H N p c METABOLISM SYMBIOSIS R E S I L I E N C E BIOCYCLING RECYCLING SERVICE-USE

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SYSTEMS H N p c METABOLISM SYMBIOSIS R E S I L I E N C E SOCIETY LIFESTYLES INFRASTRUCTURE BUILT ENVIRONMENT CITIES BIOCYCLING RECYCLING SERVICE-USE

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SUSTAINABILITY SUPPLY APPLICATIONS BEHAVIOUR CONCEPTS MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota Sunlight APPLICATIONS Power Housing Mobility Food Goods Infrastructure MY NEEDS THEIR NEEDS TECHNIQUES Pollution Capture Technolgy Waste Management Recapture Technology Remediation Technology Toxics Reduction Scientific 

Management Source Substitution Park Management Preservation Research Remediation & Restoration Material choices Personal reductions Process 

Efficiency Product 

Efficieny Recycled Materials Recycling Durability Localisation Simultaneous Functionality Sequential Functionality Synchronic Usage Sequential Usage User-adapting Tech User Skills Service Agents Pollution Reduction Stock Conservation Nature Protection Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency Sufficiency-­Limits Respect-Limits 32

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SUSTAINABILITY SUPPLY APPLICATIONS BEHAVIOUR CONCEPTS MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota Sunlight APPLICATIONS Power Housing Mobility Food Goods Infrastructure MY NEEDS THEIR NEEDS TECHNIQUES Pollution Capture Technolgy Waste Management Recapture Technology Remediation Technology Toxics Reduction Scientific 

Management Source Substitution Park Management Preservation Research Remediation & Restoration Material choices Personal reductions Process 

Efficiency Product 

Efficieny Recycled Materials Recycling Durability Localisation Simultaneous Functionality Sequential Functionality Synchronic Usage Sequential Usage User-adapting Tech User Skills Service Agents Pollution Reduction Stock Conservation Nature Protection Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency Sufficiency-­Limits Respect-Limits 32 SYSTEMIC APPLICATION

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SUSTAINABILITY SUPPLY APPLICATIONS BEHAVIOUR CONCEPTS MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota Sunlight APPLICATIONS Power Housing Mobility Food Goods Infrastructure MY NEEDS THEIR NEEDS TECHNIQUES Pollution Capture Technolgy Waste Management Recapture Technology Remediation Technology Toxics Reduction Scientific 

Management Source Substitution Park Management Preservation Research Remediation & Restoration Material choices Personal reductions Process 

Efficiency Product 

Efficieny Recycled Materials Recycling Durability Localisation Simultaneous Functionality Sequential Functionality Synchronic Usage Sequential Usage User-adapting Tech User Skills Service Agents Pollution Reduction Stock Conservation Nature Protection Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency Sufficiency-­Limits Respect-Limits

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SUSTAINABILITY SUPPLY APPLICATIONS BEHAVIOUR CONCEPTS MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota Sunlight APPLICATIONS Power Housing Mobility Food Goods Infrastructure MY NEEDS THEIR NEEDS TECHNIQUES Pollution Capture Technolgy Waste Management Recapture Technology Remediation Technology Toxics Reduction Scientific 

Management Source Substitution Park Management Preservation Research Remediation & Restoration Material choices Personal reductions Process 

Efficiency Product 

Efficieny Recycled Materials Recycling Durability Localisation Simultaneous Functionality Sequential Functionality Synchronic Usage Sequential Usage User-adapting Tech User Skills Service Agents Pollution Reduction Stock Conservation Nature Protection Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency Sufficiency-­Limits Respect-Limits

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SUSTAINABILITY SUPPLY APPLICATIONS BEHAVIOUR CONCEPTS MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota Sunlight APPLICATIONS Power Housing Mobility Food Goods Infrastructure MY NEEDS THEIR NEEDS TECHNIQUES Pollution Capture Technolgy Waste Management Recapture Technology Remediation Technology Toxics Reduction Scientific 

Management Source Substitution Park Management Preservation Research Remediation & Restoration Material choices Personal reductions Process 

Efficiency Product 

Efficieny Recycled Materials Recycling Durability Localisation Simultaneous Functionality Sequential Functionality Synchronic Usage Sequential Usage User-adapting Tech User Skills Service Agents Pollution Reduction Stock Conservation Nature Protection Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency Sufficiency-­Limits Respect-Limits URBAN SPECIFICS

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URBAN SUSTAINABILITY PT II

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URBAN SUSTAINABILITY PT II LIFESTYLES METHODS

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URBAN SUSTAINABILITY

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URBAN SUSTAINABILITY HISTORY

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URBAN SUSTAINABILITY HISTORY ANALYSIS

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URBAN SUSTAINABILITY HISTORY ANALYSIS SYSTEMS

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URBAN SUSTAINABILITY HISTORY ANALYSIS SYSTEMS LIFESTYLES

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URBAN SUSTAINABILITY HISTORY ANALYSIS SYSTEMS LIFESTYLES METHODS

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URBAN SUSTAINABILITY HISTORY ANALYSIS SYSTEMS LIFESTYLES METHODS

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URBAN SUSTAINABILITY HISTORY ANALYSIS SYSTEMS LIFESTYLES METHODS GRAND PROJECT

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URBAN SUSTAINABILITY HISTORY ANALYSIS SYSTEMS LIFESTYLES METHODS GRAND PROJECT ‘REAL’ PROJECT

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ASSIGNMENT

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ASSIGNMENT READING WRITING & DRAWING history analysis systems DISCUSSION PRESENTATION

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ASSIGNMENT READING Sustainable Urban Development Reader | ROUTLEDGE Cities and the Crisis of Civilization | Lewis Mumford The Steady-State Economy | Herman Daly The Metabolism of Cities | Herbert Girardet Urban Planning in Curitiba | Rabinovitch and Leitman CLASSIC OF SUSTAINABILITY SCIENCE CLASSIC OF URBANISM TEXT ON SUSTAINABLE URBANISM

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ASSIGNMENT WRITING

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ASSIGNMENT WRITING HISTORY

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation ANALYSIS

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation ANALYSIS is there an idea crisis?

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation ANALYSIS is there an idea crisis? explain and critique 1234

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation ANALYSIS is there an idea crisis? explain and critique 1234 SYSTEMS

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation ANALYSIS is there an idea crisis? explain and critique 1234 SYSTEMS describe/draw concepts of urban resource system management

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation ANALYSIS is there an idea crisis? explain and critique 1234 SYSTEMS describe/draw concepts of urban resource system management describe/draw practice example

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ASSIGNMENT WRITING HISTORY review historical idea, e.g. ahimsa compare to present ideas, e.g. animal liberation ANALYSIS is there an idea crisis? explain and critique 1234 SYSTEMS describe/draw concepts of urban resource system management describe/draw practice example TO CLARIFY - NO MORE THAN TWO PAGES PER TASK, UNLESS U UP 4 IT - BRING DRAWINGS OF SYSTEMS TASKS FOR PRESENTATION IN CLASS - DISCUSS READINGS, WRITING, AND DRAWINGS IN YOUR GROUPS

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URBAN SUSTAINABILITY HISTORY ANALYSIS SYSTEMS LIFESTYLES METHODS GRAND PROJECT ‘REAL’ PROJECT

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R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS U R N H Monday, 13 September 2010 History Analysis Systems KTH SUPD [email protected] 100913 H N p c METABOLISM SYMBIOSIS R E S I L I E N C E SOCIETY LIFESTYLES INFRASTRUCTURE BUILT ENVIRONMENT CITIES BIOCYCLING SERVICE-USE RECYCLING URBAN SUSTAINABILITY PT I