Alexander Stewart Fotheringham
Alexander Stewart Fotheringham, or A. Stewart Fotheringham (1954) is a British-American geographer known for his significant contributions to quantitative geography and geographic information science (GIScience).[1] He holds a PhD in geography from McMaster University, and is currently a Regents professor of Computational Spatial Science in the School of Geographical Sciences and Urban Planning at Arizona State University.[2][3] He is a prolific publisher, with over 200 peer-reviewed publications and book chapters, and several highly influential books.[2] He has contributed substantially to the literature surrounding spatial analysis and spatial statistics, particularly in the development of geographically weighted regression (GWR) and multiscale geographically weighted regression (MGWR).[2][4][5] GWR an extremely popular statistic in geography, and its development is regarded by some as "one of the most important breakthroughs in Geographic Information Science in the early 21st Century."[4][6]
Alexander Stewart Fotheringham | |
---|---|
Born | Yorkshire, England | 2 February 1954
Citizenship | United Kingdom, United States of America |
Alma mater | McMaster University, University of Aberdeen |
Occupation | Geographer |
Education and field
Fotheringham earned his PhD in geography at McMaster University, Canada. His research focuses on developing and applying spatial statistics, mathematical, and computational methods within the discipline of quantitative geography. He has worked both on the theoretical and applied side of quantitative geography.[7] His applied research interests include crime, public health, and human migration.[2]
Career
University postitions
In his early career years after obtaining his PhD in 1980, he worked as a professor at University at Buffalo, becoming a full professor in 1988.[1] From 1991 to 1992, he held the position of Professor of Quantitative Geography at the University of Newcastle, setting the stage for his future endeavors.[9] From 1993 to 1994, Fotheringham worked as an Assistant Chair in the Department of Geography at the State University of New York.[9]
In 1994, he returned to the University of Newcastle as a professor of Quantitative Geography. Notably, during this time, he also took on the role of Director of the North-East Regional Research Laboratory, where his leadership played a pivotal role in advancing research efforts in the region. He remained in this position until 2004.[9]
Fotheringham expanded his horizons in 2004 by becoming a Visiting Research Fellow at the University of Leeds, where he remained until 2006.[9] Simultaneously, from 2004 to 2011, he assumed the SFI Research Professor and Director role at the National University of Ireland.[9]
Between 2011 and 2014, Fotheringham served as the Director of the Centre for GeoInformatics and held the Professor of Quantitative Geography position at the University of St Andrews.[9]
In 2014, Fotheringham began his tenure as a professor of Computational Spatial Science at Arizona State University, where he continues to make profound contributions to the field and influence the next generation of researchers.[9]
Other academic positions
In addition to his academic roles, Fotheringham has received various prestigious recognitions. From 1995 to 1998, he was elected as the Chair of the Quantitative Methods Study Group of the Royal Geographical Society.[9] In 2009, he was appointed as Ireland's representative on the Governance Committee of the EU Joint Planning Initiative on Urban Europe, giving him an active involvement in shaping urban planning initiatives.[9]
In 2014, Fotheringham was selected as a member of the National Academy of Sciences’ Mapping Science Committee.[10][11] This committee seeks to organize research and inform on methods to use spatial data ethically to inform policy and benefit society.[10]
Publications
Fotheringham published more than 200 peer-reviewed journals and book chapters during their career.[2][3]
They have authored, or served as an volume editor, for numerous books including:
Title | Author(s) or volume editor(s) | Year first published | Editions |
---|---|---|---|
Multiscale Geographically Weighted Regression: Theory and Practice [7] | A. Stewart Fotheringham; Taylor M. Oshan; and Ziqi Li | 2023 | 1 |
Web and Wireless Geographical Information Systems: 9th International Symposium[12] | James D. Carswell; A. Stewart Fotheringham; Gavin McArdle | 2009 | 1 |
The SAGE Handbook of Spatial Analysis[13] | A. Stewart Fotheringham; Peter A. Rogerson | 2008 | 1 |
The Handbook of Geographic Information Science[14] | John P. Wilson; A. Stewart Fotheringham | 2007 | 1 |
Geographically Weighted Regression: the analysis of spatially varying relationships [5] | A. Stewart Fotheringham; Chris Brunsdon; Martin Charlton | 2002 | 1 |
Quantitative Geography: Perspectives on Spatial Data Analysis[15] | A. Stewart Fotheringham; Chris Brunsdon; Martin Charlton | 2000 | 1 |
Spatial Models and GIS: New and Potential Models (Gisdata)[16] | A. Stewart Fotheringham; Michael Wegener | 1999 | 1 |
Spatial Models and GIS: Technical Issues in Geographic Information Systems[17] | A. Stewart Fotheringham; Peter A. Rogerson | 1994 | 1 |
Goodness-of-Fit Statistics (Concepts and Techniques in Modern Geography)[18] | A. Stewart Fotheringham; Daniel C. Knudsen | 1987 | 1 |
Gravity and Spatial Interaction Models (Scientific Geography Series)[19] | Kingsley E. Haynes; A. Stewart Fotheringham | 1985 | 2 |
Geographically Weighted Regression family of statistics
Geographically Weighted Regression
Fotheringham's most significant contribution to GIScience and spatial statistics may be his work in developing Geographically Weighted Regression (GWR).[4] GWR was first developed as a statistical technique in the 1990s by Fotheringham, Chris Brundson, and Martin Charloton.[5][20][21] Fotheringham has continued to be involved in researching expanding upon GWR, and its applications, in the years since.[21]
GWR is designed to address the limitations of traditional global regression models, such as Ordinary Least Squares (OLS), which assume that relationships between variables are global; that is, constant across space. GWR recognizes that relationships between variables are non-stationary; that is, they can vary from one location to another within a geographic area. In this way, it is comparable to other local spatial statistics, such as the univariate Getis-Ord Gi* and Local Moran's I, as compared to their global spatial statistic equivalents Getis-Ord General G and Global Moran's I.
In GWR, regression coefficients (parameters) are estimated locally for each geographic location or point, allowing for the modeling of spatial heterogeneity.[5] This means that GWR considers the spatial context of data and generates separate regression models for different locations, considering the varying relationships between dependent and independent variables. It provides insights into how these relationships change as you move across a geographic area, making it valuable for understanding spatial patterns and identifying areas with unique relationships.[5]
Geographically Weighted Regression is a cornerstone of GIS and spatial analysis, and is built into ArcGIS, as a package for the R (programming language), and as a plugin for QGIS.[22][23][24]
Geographical and Temporal Weighted Regression
Time is recognized as significant to spatial analysis, with a substantial amount of literature within the discipline of time geography.[25][25] However, incorporating both space and time is a significant challenge for researchers. Fotheringham worked to address this problem in his 2015 paper titled "Geographical and Temporal Weighted Regression (GTWR)."[25] GTWR builds upon GWR by incorporating the dimension of time into the analysis.[25] This is accomplished by deriving both spatial and temporal bandwidths and using them to construct a weighted matrix.[25] GTWR is available as packages in R, such as GWmodelS.[26]
Multiscale Geographically Weighted Regression
Multiscale Geographically Weighted Regression (MGWR) builds upon GWR by allowing for the comparison of variables at different spatial scales[7][27] This is accomplished by allowing for different neighborhood bandwidths for each variable.[7][27] MGWR is available both within ArcGIS, and as Python scripts published by a team of researchers including Fotheringham.[27][28][29] Fortheringham spoke at UCGIS on applying MGWR in a webinar titled Measuring the "Unmeasurable: Models of Geographical Context."[30]
Awards
- AAG Fellow, American Association of Geographers, 2023[31]
- AAG Distinguished Scholarship Honors, American Association of Geographers, 2019[4]
- Outstanding Achievement Award, GEOIDE Network Centre of Excellence, 2000[9]
- The Warren G. Nystrom Award, Association of American Geographers, 1981[9]
See also
- Arthur Getis – American geographer and spatial statistician
- George F. Jenks – American geographer and cartographer
- Michael DeMers – American geographer and fiction writer
- Michael Frank Goodchild – British-American geographer
- National Center for Geographic Information and Analysis
- Technical geography – Study of using and creating tools to manage spatial information
- Waldo Tobler – American geographer
References
- "Alexander Stewart Fotheringham – Biography". The Academy of Europe. Retrieved 17 October 2023.
- "Stewart Fotheringham". Arizona State University. Retrieved 17 October 2023.
- "Stewart Fotheringham". Arizona State University: Global Institute of Sustainability and Innovation. Retrieved 17 October 2023.
- "2019 AAG Distinguished Scholarship Honors". American Association of Geographers. Retrieved 17 October 2023.
- Fotheringham, A. Stewart; Brunsdon, Chris; Charlton, Martin (2002). Geographically Weighted Regression: the analysis of spatially varying relationships (1 ed.). JOHN WILEY & SONS, LTD. ISBN 0-471-49616-2.
- Páez, A.; Wheeler, D.C. "Geographically Weighted Regression". International Encyclopedia of Human Geography. Retrieved 17 October 2023.
- Fotheringham, A. Stewart; Oshan, Taylor M.; Li, Ziqi (2023). Multiscale Geographically Weighted Regression: Theory and Practice (1 ed.). ISBN 9781003435464. Retrieved 17 October 2023.
- "Stewart Fotheringham". National Academy of Sciences. Retrieved 17 October 2023.
- "Alexander Stewart Fotheringham". Academia Europaea. Retrieved 18 October 2023.
- "Mapping Science Committee". National Academy of Sciences. Retrieved 17 October 2023.
- Martin, Megan. "Fotheringham selected for National Academy of Sciences committee on mapping science". ASU News. Arizona State University. Retrieved 17 October 2023.
- Carswell, James D.; Fotheringham, A. Stewart; McArdle, Gavin (2009). Web and Wireless Geographical Information Systems: 9th International Symposium. Springer. ISBN 9783642106002.
- Fotheringham, A. Stewart; Rogerson, Peter A. (2008). The SAGE Handbook of Spatial Analysis (1 ed.). SAGE Publications Ltd. ISBN 978-1412910828.
- Wilson, John P.; Fotheringham, A. Stewart (207). The Handbook of Geographic Information Science. Wiley & Sons. ISBN 9781405107952.
- Fotheringham, A. Stewart; Brunsdon, Chris; Charlton, Martin (2000). Quantitative Geography: Perspectives on Spatial Data Analysis. Sage Publications Ltd. ISBN 978-0-7619-5948-9.
- Fotheringham, A. Stewart (1999). Spatial Models and GIS: New and Potential Models (Gisdata) (1 ed.). CRC Press. ISBN 978-0748408467.
- Fotheringham, Stewart; Rogerson, Peter (1994). Spatial Analysis and GIS: Technical Issues in Geographic Information Systems. Taylor & Francis. ISBN 0-7484-0104-0.
- Fotheringham, A.S.; Knudsen, Daniel C. (1987). Goodness-of-Fit Statistics (PDF). ISBN 0 86094 222 8.
- Haynes, Kingsley E.; Fotheringham, A. Stewart (1985). Gravity and Spatial Interaction Models. Morgantown, WV: Regional Research Institute, West Virginia University. Retrieved 29 August 2023.
- "How Geographically Weighted Regression (GWR) works". ArcGIS Pro. Retrieved 17 October 2023.
- Mitchell, Andy (2009). The ESRI Guide to GIS Analysis, Volume 2. Esri Press. ISBN 978-1-58948-116-9.
- "Geographically Weighted Regression (GWR) (Spatial Statistics)". ArcGIS Pro. Retrieved 17 October 2023.
- Bivand, Roger. "Geographically Weighted Regression". Comprehensive R Archive Network (CRAN). Retrieved 17 October 2023.
- Xiangyang, Song; Jiawei, Gao. "GWR(Processing)". QGIS Python Plugins Repository. Retrieved 17 October 2023.
- Fotheringham, A. Stewart; Crespo, Ricardo; Yao, Jing (9 March 2015). "Geographical and Temporal Weighted Regression (GTWR)". Geographic analysis. 47 (4): 431–452. doi:10.1111/gean.12071.
- Lu, Binbin; Hu, Yigong; Yang, Dongyang; Liu, Yong; Liao, Liuqi; Yin, Zuoyao; Xia, Tianyang; Dong, Zheyi; Harris, Paul; Brunsdon, Chris; Comber, Lex; Dong, Guanpeng (February 2023). "GWmodelS: A software for geographically weighted models". SoftwareX. 21. doi:10.1016/j.softx.2022.101291.
- "Multiscale Geographically Weighted Regression (MGWR) (Spatial Statistics)". ArcGIS Pro. Retrieved 17 October 2023.
- Oshan, T. M.; Kang, Li, Z.; Wolf, W.; Fotheringham, Alexander Stewart (2019). "mgwr: A Python implementation of multiscale geographically weighted regression for investigating process spatial heterogeneity and scale". ISPRS International Journal of Geo-Information. 8 (6). doi:10.3390/ijgi8060269.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - "Multiscale Geographically Weighted Regression (MGWR)". GitHub. Retrieved 18 October 2023.
- "Webinars & Workshops". University Consortium for Geographic Information Science. Retrieved 18 October 2023.
- "The AAG Fellows". American Association of Geographers. Retrieved 17 October 2023.