Kerstin Höger: Sustainable Campus Master Planning - Scalability

KERSTIN HÖGER | PROFESSOR OF ARCHITECTURE & URBAN DESIGN NTNU TRONDHEIM | KERSTIN HÖGER ARCHITEKTEN ZÜRICH

SUSTAINABLE CAMPUS MASTER PLANNING – SCALABILITY

01/06/2014 | PROF. KERSTIN HÖGER | ISCN HARVARD MIT

SCALABILITY CONTEXT & TYPOLOGY UNIVERSITY, SCIENCE/ HIGHTECH/ CREATIVE, CORPORATE CAMPUS

Harvard University

CAMPUS TYPOLOGIES URBAN / SUBURBAN, CREATIVE / HIGHTECH, PUBLIC / PRIVATE, CLUSTER / NETWORK

Innercity University Greenfield Campus Creative Cluster Corporate Center

Bilgi Campi Istanbul

ETH Science City Zurich

Stanford Research Park/ Silicon Valley

Novartis Campus Basel

Benetton HQs & Centers/ Veneto Valley

Cambridge University

CONCENTRATED CLUSTER

NETWORK OF CLUSTERS

Berlin Adlershof/ Humboldt Campus

How can sustainable models stimulate social, cultural, and economic life in and around campuses? What kind of organization / office promotes knowledge transfer on sustainability both locally and globally? How can the campus ‘hardware’ (built environment, open spaces, eco and transport systems and other infrastructures) be related within their specific interlinked sociocultural settings as the urban ‘software’ of a campus (urban public realm, academic and community life, social cohesion, lifestyles and behaviors, networks, atmosphere of openness, safety and mobility)? What kind of scalability strategies can best nurture the dynamic synergies needed to create sustainable centres of knowledge that can flexibly respond to the fast changing demands of society?

QUESTIONS

TU Cottbus University of Konstanz

TU Delft

Free University of Berlin

Science City, ETH Zurich Uithof Campus, Utrecht University

GREENFIELD CAMPUS – FROM MONOCULTURE TO URBAN LIFE

ETH ZÜRICH – HÖNGGERBERG CAMPUS

SIENCE CITY, ETH ZURICH / MASTER PLAN KCAP 2004-07 – SCALABILITY CONCEPT: CAMPUS <> CITY OF CAMPUSES <> GLOBAL CAMPUS NETWORK

Prinzipien

ETH SCIENCE CITYSTRATEGY & LOCAL-GLOBAL NETWORK SCALABILITY GEOGRAPHICALLY & TEXTUAL: CONCEPT – POCESS – MODEL – NETWORK?

ETH – ZURICH: FROM SCIENCE CITY TO CITY OF SCIENCE SCALABILITY REGIONAL & ACROSS LOCAL INSTITUTIONS

CAMPUS SINGAPORE UNIVERSITY OF TECHNOLOGY & DESIGN (SUTD) / MASTER PLAN PROPOSAL KERSTIN HÖGER ARCHITEKTEN – SCALABILITY CONTEXT

Stanford Research Park/ Silicon Valley

Berlin Adlershof/ Humboldt University

Science Park Amsterdam/ University of Amsterdam

Technology Park Bremen/ University of Bremen

Zernike Science Park/ University of Groningen

MobileLifeCampus/ VW Autouni Wolfsburg

HIGHTECH CAMPUS : SYNERGIES BTW SCIENCE & BUSINESS

SCIENCE CITY COPENHAGEN, NORTH CAMPUS

MEDICON VALLEY: LIFE SCIENCE CLUSTER ØRESUND REGION: ~ 340 COMPANIES, 14/ 5 LS UNIS, 7 SCIENCE PARKS, 32 HOSPITALS, 5,000 SCIENTISTS, 150,000/ 45,000 STUDENTS

SCIENCE CITY COPENHAGEN / MASTER PLAN KERSTIN HÖGER ARCHITEKTEN WITH COBE 2010-12

CREATION OF AN URBAN KNOWLEDGE NETWORK & PUBLIC SPACES AS CONNECTORS ENTRANCE CITY PLAZAS (RED), SCIENCE SQUARES (YELLOW), OPEN SPACE NETWORK

CROSS-INFILTRATION OF SCIENCE AND CITY & REDENSIFICATION STRATEGY CITY FUNCTIONS IN THE KNOWLEDGE TERRITORIES AND VICE VERSA

DIFFERENTIATED LANDSCAPES & FLEXIBEL DEVELOPEMNT PROCESS CITY PARK, UNIVERSITY YARD, COMMON GROUND, SCIENCE COURTYOURDS & GARDENS

Harvard University

IIT Chicago

Universität Karlsruhe Cambridge University

MIT Bilgi Istanbul

THE NEW URBAN CAMPUS – FROM SCIENCE CITY TO CITY OF SCIENCE

HARVARD UNIVERSITY

CAMBRIDGE/BOSTON: FROM SUSTAINABLE CITY TO CITY OF SUSTAINABILITY > 100 COLLEGES/ UNIVERSITIES, > 250,OO STUDENTS, BIOTECH CLUSTER MIT & ROUTE 128

SUSTAINABLE CAMPUS GUIDELINES – SCALABLE?

INTEGRATION INTO THE CONTEXT MOBILITY CONCEPT ACCESSIBILITY & OPENNESS QUALITY OF LEARNING, TEACHING & RESEARCH QUALITY OF ACADEMIC & STUDENT LIFE (24/7 CAMPUS) SPATIAL, SOCIAL & FUNCTIONAL DENSITY SOCIAL COHESION PUBLIC – PRIVAT FLEXIBLE URBAN FRAMEWORK & STRUCTURES HYBRID BUILDING TYPOLOGIES TRACES, ORIENTATION & IDENTITY EFFICIENT LAND-USE, BIODIVERSITY & MICROCLIMATE ENERGY, WASTE, WATER & SURFACE MANGEMENT LONG-TERM TRANSFORMATION STRATEGY PARTICIPATORY PLANNING PROCESS CATALYTIC CONDITIONS & SYNERGIES PARTNERSHIPS (SCIENCE, SOCIETY & BUSINESS)

SUSTAINABLE URBAN CAMPUS DESIGN GUIDELINES

CONNECTIVITY LOCAL, REGIONAL, GLOBAL COLLABORATION URBAN CONTEXT & COMMUNITY CITY/SUBURBIA, LANDSCAPE, ECONOMY, SOCIETY, CULTURE MOBILITY VIRTUAL & PHYSICAL (ICT, PEDESTRIAN, PUBLIC, PRIVATE) ACCESSIBILITY, PERMEABILITY & OPENNESS (ACCESS FOR ALL) QUALITY OF THE KNOWLEDGE HARDWARE (FORMAL-INFORMAL, PUBLIC-PRIVAT, INDOOR-OUTDOOR) QUALITY OF KNOWLEDGE & COMMUNITY LIFE (24/7 TERRITORY, MXED-USE, LIVING, CLUSTERS & NETWORKS) SPATIAL, SOCIAL & FUNCTIONAL DENSITY (SHORT WAYS, DIVERSITY, COMFORT VS. SPRAWL, ISOLATION, SEGREGATION) FLEXIBLE, HYBRID & MUTLI-SPACE STRUCTURES (RESPONSIVENESS TO CHANGING NEEDS, ADAPTION & ADOPTABILITY) IMAGE & IDENTITY(ATTRACTIONS, ORIENTATION, LEGIBILITY) LONG-TERM DEVELOPMENT & TRANSFORMATION STRATEGY CATALYTIC CONDITIONS & SYNERGIES PARTNERSHIPS SCIENCE, SOCIETY & BUSINESS GUIDELINES

CREATIVE, INNOVATIVE & SUSTAINABLE KNOWLEDGE & LIVING LABORATORIES

INTEGRATION INTO THE CONTEXT MOBILITY CONCEPT ACCESSIBILITY & OPENNESS QUALITY OF LEARNING, TEACHING & RESEARCH QUALITY OF ACADEMIC & STUDENT LIFE (24/7 CAMPUS) SPATIAL, SOCIAL & FUNCTIONAL DENSITY SOCIAL COHESION PUBLIC – PRIVAT FLEXIBLE URBAN FRAMEWORK & STRUCTURES HYBRID BUILDING TYPOLOGIES TRACES, ORIENTATION & IDENTITY EFFICIENT LAND-USE, BIODIVERSITY & MICROCLIMATE ENERGY, WASTE, WATER & SURFACE MANGEMENT LONG-TERM TRANSFORMATION STRATEGY PARTICIPATORY PLANNING PROCESS CATALYTIC CONDITIONS & SYNERGIES PARTNERSHIPS (SCIENCE, SOCIETY & BUSINESS)

SUSTAINABLE URBAN CAMPUS DESIGN GUIDELINES