KTH SCUD - Sustainable Urban Design Lab 1

Transcript

1. FUNK TION SUSTAINABLE URBAN DESIGN LAB 1 JM | RESOURCE

   VISION KTH SCUD | 08.05.09
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   T S S T O R I E S B U I L T D E S I G N

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   T S T E C H N I Q U E S S T O R I E S B U I L T D E S I G N

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   T S T E C H N I Q U E S M E T H O D S T O R I E S B U I L T D E S I G N

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   T S T E C H N I Q U E S M E T H O D S T O R I E S FUNCTION B U I L T D E S I G N

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13. 1 MATERIAL CULTURE 2 PROBLEMS 3 SOLUTIONS 4 ENABLERS 1234

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15. 0 CRITIQUE

16. 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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18. 1 MATERIAL CULTURE

19. RESOURCES MEDIA APPLICATIONS FUNCTION 1 MATERIAL CULTURE

20. 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 CULTURE
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22. 2 PROBLEM

23. 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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25. 3 SOLUTIONS

26. A SUPPLY POLLUTION REDUCTION STOCK CONSERVATION NATURE PRESERVATION B DEMAND

    BETTER APPLICATION OF RESOURCES C ETHICS ME/US ETHICS THEM ETHICS 3 SOLUTIONS
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28. 4 ENABLERS

29. A INFORMATION B PRICES C LAWS 4 ENABLERS

30. A INFORMATION B PRICES C LAWS 4 ENABLERS D QUALITY

    DESIGN, INNOVATION, NARRATIVE, VALUE
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32. 1234

33. 1 MATERIAL CULTURE 2 PROBLEMS 3 SOLUTIONS 4 ENABLERS 1234

34. SOLUTION CONCEPTS

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36. N

37. NATURAL RESOURCES N

38. NATURAL RESOURCES N H

39. NATURAL RESOURCES PRODUCT CONSUMPTION N H

40. NATURAL RESOURCES PRODUCT CONSUMPTION N H

41. NATURAL RESOURCES PRODUCT CONSUMPTION N H

42. SUSTAINABILITY NATURAL RESOURCES PRODUCT CONSUMPTION N H

43. ⊖R SUSTAINABILITY NATURAL RESOURCES PRODUCT CONSUMPTION N H

44. ⊖R SUSTAINABILITY NATURAL RESOURCES PRODUCT CONSUMPTION N H

45. ⊖R SUSTAINABILITY NATURAL RESOURCES PRODUCT CONSUMPTION ⊗R N H

46. ⊖R SUSTAINABILITY NATURAL RESOURCES PRODUCT CONSUMPTION ⊗R N H

47. ⊖R SUSTAINABILITY NATURAL RESOURCES ⊗C PRODUCT CONSUMPTION ⊗R N H

48. ⊖R SUSTAINABILITY NATURAL RESOURCES PRODUCT CONSUMPTION ⊖U ? ⊗R N

    H

49. SUPPLY DEMAND ETHICS POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM ⊖R ⊗C ⊗R ⊗N

50. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED ⊖ ⊗ ⊗ ⊗

51. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED SAFE EFFICIENT APPRECIATIVE ⊖

    ⊗ ⊗ ⊗ ⊖ ⊖

52. STORIES

53. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED SAFE EFFICIENT APRECIATIVE PRODUCTIVE

    ELEGANT LIBERATING ⊖ ⊖ ⊖ ⊖

54. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED SAFE EFFICIENT APRECIATIVE ABUNDANT

    FUNCTIONAL CREATIVE ⊖ ⊖ ⊖ ⊖ ⊖ ⊖

55. SUPPLY DEMAND ETHICS POLLUTION R CONSERVATION PRESERVATION BETTER APPLICATION ME/US

    THEM PRODUCTIVE ELEGANT CREATIVE

56. BUILT DESIGN

57. SUPPLY MANAGEMENT DEMAND MANAGEMENT ETHICAL TRANSFORM SAFETY EFFICIENCY ETHICS TECHS?

    METHODS? TECHS? METHODS? TECHS? METHODS? ⊖ ⊗ ⊗

58. SUPPLY MANAGEMENT DEMAND MANAGEMENT ETHICAL TRANSFORM SAFETY EFFICIENCY ETHICS !

    ? ! DESIGN? ! DESIGN? ⊖ ⊗ ⊗

59. SUPPLY MANAGEMENT DEMAND MANAGEMENT ETHICAL TRANSFORM SAFETY EFFICIENCY ETHICS !

    ? ! NO MONEY MORE LIMITS ! POLITICS ⊖ ⊗ ⊗

60. TECHNIQUES

61. SUPPLY MANAGEMENT SUPPLY MANAGEMENT SUPPLY MANAGEMENT MANAGED > SAFE >

    PRODUCTIVE MANAGED > SAFE > PRODUCTIVE MANAGED > SAFE > PRODUCTIVE POLLUTION R CONSERVATION PRESERVATION SUPPLY

62. ETHICAL TRANSFORMATION ETHICAL TRANSFORMATION INFORMED > APPRECIATIVE > CREATIVE INFORMED

    > APPRECIATIVE > CREATIVE SUFFICIENCY RESPECT ETHICS

63. DEMAND MANAGEMENT DEMAND MANAGEMENT DEMAND MANAGEMENT DEMAND MANAGEMENT DESIGNED >

    EFFICIENT > ELEGANT DESIGNED > EFFICIENT > ELEGANT DESIGNED > EFFICIENT > ELEGANT DESIGNED > EFFICIENT > ELEGANT OBJECT FUNCTION USE WELFARE DEMAND

64. OBJECT OBJECT OBJECT OBJECT RESOURCE EFFICIENCY RESOURCE EFFICIENCY RESOURCE EFFICIENCY

    RESOURCE EFFICIENCY PROCESS & PRODUCT LOCAL- ISATION CYCLING SYSTEMS DURABILITY D

65. FUNCTION FUNCTION FUNCTION FUNCTIONAL EFFICIENCY FUNCTIONAL EFFICIENCY FUNCTIONAL EFFICIENCY SPATIAL

    OBJECT NEGATIVE D

66. USE USE USE USE EFFICIENCY USE EFFICIENCY USE EFFICIENCY SEQUENTL

    USE SIMULTN USE LIFESTYLE SYSTEMS D

67. WELFARE WELFARE WELFARE EFFICIENCY WELFARE EFFICIENCY SKILLS SERVICES D

68. FUNCTION

69. [NATURE’S DEFINITION OF EFFICIENCY, A PRODUCT OF EVOLUTIONARY PRESSURE, IS

    FRACTAL FORMS WHICH OPTIMISE THE RATIO BETWEEN PHOTOSYNTHETIC SURFACE AREA AND BIOMASS VOLUME]

70. SUSTAINABILITY SUPPLY DEMAND ETHICS PRINCIPLES MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT

    DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota 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

71. SUSTAINABILITY SUPPLY DEMAND ETHICS PRINCIPLES MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT

    DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota 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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77. FUNCTIONAL SURFACE

78. FUNCTIONAL SURFACE

79. FUNCTIONAL SURFACE

80. FUNCTIONAL SURFACE

81. FUNCTIONAL SURFACE

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86. INEFFICIENT USE

87. INEFFICIENT USE

88. INEFFICIENT USE

89. INEFFICIENT USE

90. INEFFICIENT USE EFFICIENT USE

91. INEFFICIENT USE EFFICIENT USE

92. INEFFICIENT USE EFFICIENT USE

93. INEFFICIENT USE EFFICIENT USE

94. INEFFICIENT USE EFFICIENT USE EXPERIENCE

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97. SHARING

98. SHARING

99. SHARING

100. SHARING ACCESS

101. SHARING ACCESS CONSUMPTION SYSTEM

102. SHARING ACCESS CONSUMPTION SYSTEM

103. SHARING ACCESS CONSUMPTION SYSTEM FUNCTION

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105. 1 2 3 4

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     T S S T O R I E S

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     T S S T O R I E S B U I L T D E S I G N

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     T S T E C H N I Q U E S S T O R I E S B U I L T D E S I G N

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     T S T E C H N I Q U E S M E T H O D S T O R I E S FUNCTION B U I L T D E S I G N

112. METHOD

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114. H N p c

115. H N p c

116. H N p c METABOLISM

117. H N p c METABOLISM

118. H N p c METABOLISM RECYCLING

119. H N p c METABOLISM RECYCLING

120. H N p c METABOLISM R E S I L

     I E N C E RECYCLING

121. H N p c METABOLISM R E S I L

     I E N C E RECYCLING

122. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E RECYCLING

123. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E RECYCLING

124. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING RECYCLING

125. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING RECYCLING

126. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING SERVICE-USE RECYCLING

127. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING SERVICE-USE RECYCLING

128. 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

129. Programme/Brief Meta Programme Economic/Political Agenda Hard Programme Buildings, Infrastructure Soft

     Programme Aesthetics, Mood, Culture Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS STRUCTURES Resource 

Efficiency Product 

Efficiency Cycling 

Systems

130. Programme/Brief Meta Programme Economic/Political Agenda Hard Programme Buildings, Infrastructure Soft

     Programme Aesthetics, Mood, Culture Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS STRUCTURES Resource 

Efficiency Product 

Efficiency Cycling 

Systems S T A N D A R D

131. Social Discourse Programme/Brief Functional Decomposition vehicle > property > food

     > growth > mobility > space > nutrition > wealth > access accommodation health wellbeing Meta Programme Social Discourse Components Hard Programme Buildings, Infrastructure Soft Programme Aesthetics, Mood, Culture Politics Identity Inclusion Crime Environment Nature Ethics Risk Cost Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion S E MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS ACTIONS STRUCTURES Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency User Skills Development End-use services U Simultaneous / Sequential Spatial F Simultaneous / Sequential Object F Elimination of Negative F Process 

Efficiency Product 

Efficiency Localisation Cycling Systems Durability Simultaneous / Sequential UC Social Discourse

132. S U S T A I N A B L

     E Social Discourse Programme/Brief Functional Decomposition vehicle > property > food > growth > mobility > space > nutrition > wealth > access accommodation health wellbeing Meta Programme Social Discourse Components Hard Programme Buildings, Infrastructure Soft Programme Aesthetics, Mood, Culture Politics Identity Inclusion Crime Environment Nature Ethics Risk Cost Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion S E MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS ACTIONS STRUCTURES Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency User Skills Development End-use services U Simultaneous / Sequential Spatial F Simultaneous / Sequential Object F Elimination of Negative F Process 

Efficiency Product 

Efficiency Localisation Cycling Systems Durability Simultaneous / Sequential UC Social Discourse
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141. FUNK TION [email protected] SUSTAINABLE URBAN DESIGN LAB 1