Jump to content

Geodesign: Difference between revisions

Add links
From Wikipedia, the free encyclopedia
Browse history interactively
← Previous edit
Content deleted Content added
VisualWikitext
Bdlee2 (talk | contribs)
13 edits
added geography sidebar and navbox (article is mentioned in/related to series)
 
(47 intermediate revisions by 38 users not shown)
Line 1: Line 1:
{{Geography sidebar}}
'''Geodesign''' is a set of techniques and enabling technologies for planning [[Built environment|built]] and [[natural environment|natural environments]] in an integrated process, including project conceptualization, analysis, design specification, stakeholder participation and collaboration, design creation, simulation, and evaluation (among other stages). "Geodesign is a design and planning method which tightly couples the creation of design proposals with impact simulations informed by geographic contexts."<ref>Flaxman, Michael. Geodesign: Fundamental Principles and Routes Forward. Talk at GeoDesign Summit 2010.</ref>


'''Geodesign''' is a set of concepts and methods<ref>Carl Steinitz. 2012. A framework for Geodesign - changing geography by design. Redlands: Esri Press. {{ISBN|9781589483330}}</ref> used to involve all stakeholders and various professions in collaboratively designing and realizing the optimal solution for spatial challenges in the [[Built environment|built]] and [[natural environment]]s, utilizing all available techniques and data in an integrated process. Originally, geodesign was mainly applied during the design and planning phase. "Geodesign is a design and planning method which tightly couples the creation of design proposals with impact simulations informed by geographic contexts."<ref>Flaxman, Michael. Geodesign: Fundamental Principles and Routes Forward. Talk at GeoDesign Summit 2010.</ref> Now, it is also used during realization and maintenance phases and to facilitate re-use of for example buildings or industrial areas.<ref>Danbi J.Lee, Eduardo Dias, Henk J. Scholten. 2014. Geodesign by integrating design and geospatial sciences. Springer International Publishing Switzerland. {{ISBN|978-3-319-08298-1}} DOI 10.1007/978-3-319-08299-8</ref><ref>Frank van der Hoeven, Steffen Nijhuis, Sisi Zlatanova, Eduardo Dias, Stefan van der Spek. 2016. Geo-Design: Advances in bridging geo-information technology, urban planning and landscape architecture. Research in Urbanism Series (RiUS), Volume 4, ISSN 1875-0192 (print), E-ISSN 1879-8217 (online) Delft: TU Delft Open, 2016 {{ISBN|978-94-92516-42-8}}.</ref> Geodesign includes project conceptualization, analysis, design specification, stakeholder participation and collaboration, design creation, simulation, and evaluation (among other stages).
==Technologies==
Nascent geodesign technology extends [[geographic information systems]] so that in addition to analyzing existing environments and [[geodata]], users can synthesize new environments and modify geodata. See, for example, [[CommunityViz]] or [[marinemap]].

"GeoDesign brings geographic analysis into the design process, where initial design sketches are instantly vetted for suitability against a myriad of database layers describing a variety of physical and social factors for the spatial extent of the project. This on-the-fly suitability analysis provides a framework for design, giving land-use planners, engineers, transportation planners, and others involved with design, the tools to leverage geographic information within their design workflows."<ref>[http://www.esri.com/news/arcnews/summer09articles/gis-designing-our-future.html Dangermond, Jack. GIS: Designing Our Future ''ArcNews'', summer 2009.]</ref>


==History==
==History==
Geodesign builds greatly on a long history of work in [[geographic information science]], [[computer-aided design]], [[landscape architecture]], and other [[environmental design]] fields. See for instance, the work of [[Ian McHarg]] and [[Carl Steinitz]].
Geodesign as a labeled field owes much to the sponsorship of [[ESRI]] and its president, [[Jack Dangermond]]. Members of the various disciplines and practices relevant to geodesign have held defining discussions at a workshop on [http://ncgia.ucsb.edu/projects/scdg/ Spatial Concepts in GIS and Design] in December 2008 and the [http://www.geodesignsummit.com/ GeoDesign Summit] in January 2010. GeoDesign Summit 2010 Conference Videos from [http://www.geodesignsummit.com/videos/day-one.html Day 1] and [http://www.geodesignsummit.com/videos/day-two.html Day 2]. The [http://www.geodesignsummit.com/index.html GeoDesign 2011 Summit] is set for January 6-7, 2011 in Redlands, California.
<br />


Members of the various disciplines and practices relevant to geodesign have held defining discussions at a workshop on Spatial Concepts in GIS and Design in December 2008 and the GeoDesign Summit in January 2010. GeoDesign Summit 2010 Conference Videos from Day 1 and Day 2 are an important resource to learn about the many different aspects of GeoDesign. ESRI co-founder Jack Dangermond has introduced each of the GeoDesign Summit meetings. Designer and technologist [[Bran Ferren]], was the keynote speaker for the first and fourth Summit meetings in Redlands, California.<ref>{{Cite web|url=https://blogs.esri.com/esri/esri-insider/2013/02/08/a-250-year-plan-for-the-planet/|title=A 250-Year Plan for the Planet {{!}} Esri Insider|website=blogs.esri.com|date=8 February 2013|language=en-US|access-date=2018-11-20}}</ref> During the fourth conference he presented a provocative view of how what is needed is a 250-year plan, and how GeoDesign was a key concept in making this a reality.<ref>{{Citation|title=Five Minutes into the Future: An Argument for Taking a Longer View|url=https://www.esri.com/videos/watch?videoid=2119&title=five-minutes-into-the-future-an-argument-for-taking-a-longer-view|access-date=2018-11-20}}</ref> Carl Steinitz was a presenter at both the 2010<ref>{{Citation|last=esri|title=GeoDesign Summit 2010: Carl Steinitz: Ways of Designing (Part 4 of 4)|date=2010-04-22|url=https://www.youtube.com/watch?v=-HmYxTzPnLY |archive-url=https://ghostarchive.org/varchive/youtube/20211215/-HmYxTzPnLY |archive-date=2021-12-15 |url-status=live|access-date=2018-11-20}}{{cbignore}}</ref> and 2015<ref>{{Citation|last=Esri Events|title=Esri 2015 Geodesign Summit: Experiments in Geodesign Synthesis|date=2017-12-28|url=https://www.youtube.com/watch?v=czIeEJoEvuo |archive-url=https://ghostarchive.org/varchive/youtube/20211215/czIeEJoEvuo |archive-date=2021-12-15 |url-status=live|access-date=2018-11-20}}{{cbignore}}</ref> Summits.
However, geodesign builds greatly on a long history of work in [[geographic information science]], [[computer-aided design]], [[landscape architecture]], and other [[environmental design]] fields—and it's still somewhat unclear whether geodesign differs greatly in substance from existing efforts. See, for instance, the work of [[Ian McHarg]] and [[http://www.gsd.harvard.edu/people/faculty/steinitz/index.html Carl Steinitz]].

The 2013 Geodesign Summit drew a record 260 attendees from the United States and abroad. That same year, a master's degree in Geodesign — the first of its kind in the nation — began at [[Philadelphia University]].<ref>[http://www.esri.com/news/arcwatch/0113/educating-the-next-generation-in-geodesign.html Goldberg, Debbie. Educating the Next Generation in Geodesign ''ArcWatch'', january 2013.]</ref> Claudia Goetz Phillips, director of Landscape Architecture and GeoDesign at [[Philadelphia University]] says "it is very exciting to be at the forefront of this exciting and relevant paradigm shift in how we address twenty-first-century global to local design and planning issues."<ref>[http://www.esri.com/esri-news/arcwatch/0313/geodesign-in-motion Wheeler, Carla. Geodesign in Motion ' 'ArcWatch'', march 2013.]</ref>

==Theory==
The theory underpinning Geodesign derives from the work of [[Patrick Geddes]] in the first half of the twentieth century and [[Ian McHarg]] in its second half. They advocated a layered approach to regional planning, landscape planning and urban planning. McHarg drew the layers on translucent overlays. Through the work of [[Jack Dangermond]], Carl Steinitz, Henk Scholten and others the layers were modeled with [[Geographical Information Systems]] (GIS).<ref>''Landscape Planning and Environmental Impact Design'', (UCL Press London 1998). {{ISBN|1-85728-321-X}} p.9</ref> The three components of this term each say something about its character. 'Geographical' implies that the layers are geographical (geology, soils, hydrology, roads, land use etc.). 'Information' implies a positivist and scientific methodology. 'System' implies the use of computer technology for the information processing.<ref>''Landscape Planning and Environmental Impact Design'', (UCL Press London 1998). {{ISBN|1-85728-321-X}} p.20</ref>
The scientific aspects of Geodesign contrast with the cultural emphasis of [[Landscape urbanism|Landscape Urbanism]] but the two approaches to landscape planning share a concern for layered analysis <ref>Pe, R. (2012) Hyper-localism and Parametric Mapping for Collaborative Urbanism. ''Digital Landscape Architecture conference, 31 May 2012''</ref> which sits comfortably with [[postmodernism|postmodern]] and [[post-postmodernism|post-postmodern]] theory.

==Technologies==
Nascent geodesign technology extends [[geographic information systems]] so that in addition to analyzing existing environments and [[geodata]], users can synthesize new environments and modify geodata. See, for example, [[CommunityViz]] or [[marinemap]].

"GeoDesign brings geographic analysis into the design process, where initial design sketches are instantly vetted for suitability against myriad database layers describing a variety of physical and social factors for the spatial extent of the project. This on-the-fly suitability analysis provides a framework for design, giving land-use planners, engineers, transportation planners, and others involved with design, the tools to leverage geographic information within their design workflows."<ref>[http://www.esri.com/news/arcnews/summer09articles/gis-designing-our-future.html Dangermond, Jack. GIS: Designing Our Future ''ArcNews'', summer 2009.]</ref>


==See also==
==See also==
* [[Environmental design]]
* [[Environmental design]]
* [[Landscape Architecture]]
* [[Landscape Architecture]]
* [[Landscape urbanism]]
* [[Landscape planning]]
* [[Geographic Information System]]
* [[Geographic Information System]]
* [[Participatory GIS]]
* [[Participatory GIS]]
* [[Public Participation GIS]]
* [[Public Participation GIS]]
* [[Spatial Decision Support System]]
* [[Spatial Decision Support System]]

==References==
<references/>

==Bibliography==
* Ian L. McHarg. 1969. Design With Nature. Garden City, NY: Doubleday/Natural History Press. {{ISBN|0-471-11460-X}}
* Ian L. McHarg and Frederick Steiner, editors. 1998.To Heal the Earth: Selected Writings of Ian L. McHarg. Washington, D.C.: Island Press. {{ISBN|1-55963-573-8}}
* Ian L. McHarg. 1996. A Quest for Life: An Autobiography. New York: John Wiley & Sons. {{ISBN|0-471-08628-2}}
* Frederick Steiner, editor. 2006. The Essential Ian McHarg: Writings on Design and Nature. Washington, D.C.: Island Press. {{ISBN|1-59726-117-3}}
* Frederick Steiner. 2008. The Living Landscape (paperback edition). Washington, D.C. Island Press. {{ISBN|978-1-59726-396-2}}
* Carl Steinitz, Hector Arias, Scott Bassett, Michael Flaxman, Thomas Goode, Thomas Maddock, David Mouat, Richard Peiser, and Allan Shearer. 2003. Alternative Futures for Changing Landscapes: The Upper San Pedro River Basin In Arizona And Sonora. Washington, D.C.: Island Press.
* Carl Steinitz. 2012. A framework for Geodesign - changing geography by design. Redlands: Esri Press. {{ISBN|9781589483330}}
* Danbi J.Lee, Eduardo Dias, Henk J. Scholten. 2014. Geodesign by integrating design and geospatial sciences. Springer International Publishing Switzerland. {{ISBN|978-3-319-08298-1}} DOI 10.1007/978-3-319-08299-8
* Frank van der Hoeven, Steffen Nijhuis, Sisi Zlatanova, Eduardo Dias, Stefan van der Spek. 2016. Geo-Design: Advances in bridging geo-information technology, urban planning and landscape architecture. Research in Urbanism Series (RiUS), Volume 4, ISSN 1875-0192 (print), E-ISSN 1879-8217 (online) Delft: TU Delft Open, 2016 {{ISBN|978-94-92516-42-8}}.


==External links==
==External links==
Line 25: Line 48:
* [http://apb.directionsmag.com/archives/7095-ESRI-Geodesign-Summit-Day-1-AM.html All Points Blog Coverage of GeoDesign Summit]
* [http://apb.directionsmag.com/archives/7095-ESRI-Geodesign-Summit-Day-1-AM.html All Points Blog Coverage of GeoDesign Summit]
* [http://placeways.com/blog/?p=98 Placeways Blog on GeoDesign Summit]
* [http://placeways.com/blog/?p=98 Placeways Blog on GeoDesign Summit]
* [http://www.spatiallyadjusted.com/2010/01/09/thoughts-on-the-geodesign-summit/ James Fee GIS Blog on GeoDesign Summit]
* [http://spatiallyadjusted.com/2010/01/09/thoughts-on-the-geodesign-summit.html/ James Fee GIS Blog on GeoDesign Summit]
* [http://vector1media.com/spatialsustain/the-fresh-start-that-geodesign-offers.html Vector 1 Media Coverage of GeoDesign Summit]
* [http://vector1media.com/spatialsustain/the-fresh-start-that-geodesign-offers.html Vector 1 Media Coverage of GeoDesign Summit]
* [http://search.twitter.com/search?q=geodesign Twitter Stream on GeoDesign]
* [http://ideas.sasaki.com/topics/sasaki-strategies Sasaki Strategies]
* [http://ideas.sasaki.com/topics/sasaki-strategies Sasaki Strategies]
* [http://www.directionsmag.com/articles/geodesign-summit-reflections/122426 Directions Magazine - GeoDesign Summit Reflections by Adena Schutzberg]
* [http://www.geodesignworld.org/wiki/Main_Page GeodesignWorld]
* [http://geodesignportal.sdsconsortium.org/ GeoDesign Knowledge Portal]

* [http://www.geoplanit.co.uk/?cat=156 GeoPlanIT - GeoDesign Posts]
==References==
* [http://www.geodesignsummit.com/ Geodesign Summit, Redlands ]
<references/>
* [http://www.geodesignsummit.com/europe Geodesign Summit, Europe]

* [http://www.geodesignpku.org/ Geodesign Summit, Beijing]
3. Ian L. McHarg. 1969. Design With Nature. Garden City, NY: Doubleday/Natural History Press. ISBN 0-471-11460-X
* [http://ign.ku.dk/english/outreach-publications/conferences-seminars/geodesign-conference/ Geodesign Conference, Copenhagen]

* [http://books.bk.tudelft.nl/index.php/press/catalog/book/511]
4. Ian L. McHarg and Frederick Steiner, editors. 1998.To Heal the Earth: Selected Writings of Ian L. McHarg. Washington, D.C.: Island Press. ISBN 1-55963-573-8

5. Ian L. McHarg. 1996. A Quest for Life: An Autobiography. New York: John Wiley & Sons. ISBN 0-471-08628-2

6. Frederick Steiner, editor. 2006. The Essential Ian McHarg: Writings on Design and Nature. Washington, D.C.: Island Press. ISBN 1-59726-117-3


{{Design}}
7. Carl Steinitz, Hector Arias, Scott Bassett, Michael Flaxman, Thomas Goode, Thomas Maddock, David Mouat, Richard Peiser, and Allan Shearer. 2003. Alternative Futures for Changing Landscapes: The Upper San Pedro River Basin In Arizona And Sonora. Washington, D.C.: Island Press.
{{Geography topics}}


[[Category:Design]]
[[Category:Design]]
[[Category:Technical geography]]
[[Category:Human-Environment interaction]]
[[Category:Group processes]]

Latest revision as of 03:30, 17 August 2024

Part of a series on
Geography
History of geography
Human geography
Fields
Physical geography
Fields
Technical geography
Fields
Integrated geography
Fields
Methods
Quantitative
Qualitative
Theoretical Approaches

Geodesign is a set of concepts and methods[1] used to involve all stakeholders and various professions in collaboratively designing and realizing the optimal solution for spatial challenges in the built and natural environments, utilizing all available techniques and data in an integrated process. Originally, geodesign was mainly applied during the design and planning phase. "Geodesign is a design and planning method which tightly couples the creation of design proposals with impact simulations informed by geographic contexts."[2] Now, it is also used during realization and maintenance phases and to facilitate re-use of for example buildings or industrial areas.[3][4] Geodesign includes project conceptualization, analysis, design specification, stakeholder participation and collaboration, design creation, simulation, and evaluation (among other stages).

History

[edit]

Geodesign builds greatly on a long history of work in geographic information science, computer-aided design, landscape architecture, and other environmental design fields. See for instance, the work of Ian McHarg and Carl Steinitz.

Members of the various disciplines and practices relevant to geodesign have held defining discussions at a workshop on Spatial Concepts in GIS and Design in December 2008 and the GeoDesign Summit in January 2010. GeoDesign Summit 2010 Conference Videos from Day 1 and Day 2 are an important resource to learn about the many different aspects of GeoDesign. ESRI co-founder Jack Dangermond has introduced each of the GeoDesign Summit meetings. Designer and technologist Bran Ferren, was the keynote speaker for the first and fourth Summit meetings in Redlands, California.[5] During the fourth conference he presented a provocative view of how what is needed is a 250-year plan, and how GeoDesign was a key concept in making this a reality.[6] Carl Steinitz was a presenter at both the 2010[7] and 2015[8] Summits.

The 2013 Geodesign Summit drew a record 260 attendees from the United States and abroad. That same year, a master's degree in Geodesign — the first of its kind in the nation — began at Philadelphia University.[9] Claudia Goetz Phillips, director of Landscape Architecture and GeoDesign at Philadelphia University says "it is very exciting to be at the forefront of this exciting and relevant paradigm shift in how we address twenty-first-century global to local design and planning issues."[10]

Theory

[edit]

The theory underpinning Geodesign derives from the work of Patrick Geddes in the first half of the twentieth century and Ian McHarg in its second half. They advocated a layered approach to regional planning, landscape planning and urban planning. McHarg drew the layers on translucent overlays. Through the work of Jack Dangermond, Carl Steinitz, Henk Scholten and others the layers were modeled with Geographical Information Systems (GIS).[11] The three components of this term each say something about its character. 'Geographical' implies that the layers are geographical (geology, soils, hydrology, roads, land use etc.). 'Information' implies a positivist and scientific methodology. 'System' implies the use of computer technology for the information processing.[12] The scientific aspects of Geodesign contrast with the cultural emphasis of Landscape Urbanism but the two approaches to landscape planning share a concern for layered analysis [13] which sits comfortably with postmodern and post-postmodern theory.

Technologies

[edit]

Nascent geodesign technology extends geographic information systems so that in addition to analyzing existing environments and geodata, users can synthesize new environments and modify geodata. See, for example, CommunityViz or marinemap.

"GeoDesign brings geographic analysis into the design process, where initial design sketches are instantly vetted for suitability against myriad database layers describing a variety of physical and social factors for the spatial extent of the project. This on-the-fly suitability analysis provides a framework for design, giving land-use planners, engineers, transportation planners, and others involved with design, the tools to leverage geographic information within their design workflows."[14]

See also

[edit]

References

[edit]
  1. ^ Carl Steinitz. 2012. A framework for Geodesign - changing geography by design. Redlands: Esri Press. ISBN 9781589483330
  2. ^ Flaxman, Michael. Geodesign: Fundamental Principles and Routes Forward. Talk at GeoDesign Summit 2010.
  3. ^ Danbi J.Lee, Eduardo Dias, Henk J. Scholten. 2014. Geodesign by integrating design and geospatial sciences. Springer International Publishing Switzerland. ISBN 978-3-319-08298-1 DOI 10.1007/978-3-319-08299-8
  4. ^ Frank van der Hoeven, Steffen Nijhuis, Sisi Zlatanova, Eduardo Dias, Stefan van der Spek. 2016. Geo-Design: Advances in bridging geo-information technology, urban planning and landscape architecture. Research in Urbanism Series (RiUS), Volume 4, ISSN 1875-0192 (print), E-ISSN 1879-8217 (online) Delft: TU Delft Open, 2016 ISBN 978-94-92516-42-8.
  5. ^ "A 250-Year Plan for the Planet | Esri Insider". blogs.esri.com. 8 February 2013. Retrieved 2018-11-20.
  6. ^ Five Minutes into the Future: An Argument for Taking a Longer View, retrieved 2018-11-20
  7. ^ esri (2010-04-22), GeoDesign Summit 2010: Carl Steinitz: Ways of Designing (Part 4 of 4), archived from the original on 2021-12-15, retrieved 2018-11-20
  8. ^ Esri Events (2017-12-28), Esri 2015 Geodesign Summit: Experiments in Geodesign Synthesis, archived from the original on 2021-12-15, retrieved 2018-11-20
  9. ^ Goldberg, Debbie. Educating the Next Generation in Geodesign ArcWatch, january 2013.
  10. ^ Wheeler, Carla. Geodesign in Motion ' 'ArcWatch, march 2013.
  11. ^ Landscape Planning and Environmental Impact Design, (UCL Press London 1998). ISBN 1-85728-321-X p.9
  12. ^ Landscape Planning and Environmental Impact Design, (UCL Press London 1998). ISBN 1-85728-321-X p.20
  13. ^ Pe, R. (2012) Hyper-localism and Parametric Mapping for Collaborative Urbanism. Digital Landscape Architecture conference, 31 May 2012
  14. ^ Dangermond, Jack. GIS: Designing Our Future ArcNews, summer 2009.

Bibliography

[edit]
  • Ian L. McHarg. 1969. Design With Nature. Garden City, NY: Doubleday/Natural History Press. ISBN 0-471-11460-X
  • Ian L. McHarg and Frederick Steiner, editors. 1998.To Heal the Earth: Selected Writings of Ian L. McHarg. Washington, D.C.: Island Press. ISBN 1-55963-573-8
  • Ian L. McHarg. 1996. A Quest for Life: An Autobiography. New York: John Wiley & Sons. ISBN 0-471-08628-2
  • Frederick Steiner, editor. 2006. The Essential Ian McHarg: Writings on Design and Nature. Washington, D.C.: Island Press. ISBN 1-59726-117-3
  • Frederick Steiner. 2008. The Living Landscape (paperback edition). Washington, D.C. Island Press. ISBN 978-1-59726-396-2
  • Carl Steinitz, Hector Arias, Scott Bassett, Michael Flaxman, Thomas Goode, Thomas Maddock, David Mouat, Richard Peiser, and Allan Shearer. 2003. Alternative Futures for Changing Landscapes: The Upper San Pedro River Basin In Arizona And Sonora. Washington, D.C.: Island Press.
  • Carl Steinitz. 2012. A framework for Geodesign - changing geography by design. Redlands: Esri Press. ISBN 9781589483330
  • Danbi J.Lee, Eduardo Dias, Henk J. Scholten. 2014. Geodesign by integrating design and geospatial sciences. Springer International Publishing Switzerland. ISBN 978-3-319-08298-1 DOI 10.1007/978-3-319-08299-8
  • Frank van der Hoeven, Steffen Nijhuis, Sisi Zlatanova, Eduardo Dias, Stefan van der Spek. 2016. Geo-Design: Advances in bridging geo-information technology, urban planning and landscape architecture. Research in Urbanism Series (RiUS), Volume 4, ISSN 1875-0192 (print), E-ISSN 1879-8217 (online) Delft: TU Delft Open, 2016 ISBN 978-94-92516-42-8.
[edit]
Retrieved from "https://en.wikipedia.org/w/index.php?title=Geodesign&oldid=1240740170"