Postgraduate Course: Introduction To Spatial Analysis (PGGE11091)
|School||School of Geosciences
||College||College of Science and Engineering
|Credit level (Normal year taken)||SCQF Level 11 (Postgraduate)
||Availability||Available to all students
|Summary||The course provides an introduction to some of the fundamental concepts and concerns of spatial analysis, which are taught through lectures and practical work.
The main topics covered include: a background to spatial analysis in Geography; a short discussion of what is special about spatial data; spatial autocorrelation; modifiable areal unit problem; basic geometrical frameworks for describing and analysing phenomena in space; distance metrics; gridded space; overlay analysis; suitability analysis; Boolean and continuous classification; networks; shortest path through a network; errors and uncertainty in geographical data.
Examples will be drawn from various domains of physical and human geography including urban geography, the geography of transport and urban planning.
Lecture: Brief history of spatial analysis in geography. What is special about spatial data? Spatial Autocorrelation. Modifiable Areal Unit problem. Concepts of space and distance: 'absolute' and 'relative' space; continuous and discrete spaces.
Lecture: A typology of spatial analytical methods based on point, line, polygon and gridded types of data. Transformations. Map Algebra.
Practical: Cost surfaces and routing by cost minimisation. Example of planning a cycle route.
Lecture: Sieve mapping; weighted linear combination of maps. Constraint mapping and suitability analysis; weighting of evidence; standardisation; trade-off and exclusion. Site selection with Boolean and continuously classified data.
Lecture: Network analysis and routing problems. Form and function in networks; Murray's law. Introducing topology and graph theory; network connectivity; shortest path through a network
Practical: Network Analysis using ArcGIS.
Error and uncertainty in spatial data. Accuracy and precision for spatial data. Sources of error. Error propagation. Representing and handling error. Fuzzy tolerances and fuzzy objects.
Entry Requirements (not applicable to Visiting Students)
||Other requirements|| None
Information for Visiting Students
|High Demand Course?
Course Delivery Information
|Not being delivered|
On completion of this course, the student will be able to:
- Understand the main types of spatial data, geometrical frameworks which can be used to analyse spatial data and reasons why spatial data may require to be analysed differently to non-spatial data.
- Understand methods used in the statistical analysis of spatial data which are applicable to point, line and areal data, including understanding the assumptions involved in their use and typical areas of application.
- Implement some of these spatial analysis techniques in a GIS.
- Plan and write assignments, within the specified parameters and to a professional standard, developing sound arguments grounded in relevant literature from both traditional and electronic media.
- Independently solve practical GIS problems and through further study be able to extend their understanding of the topics studied beyond the material covered in class.
|References (* recommended textbooks)|
Anselin, L. (1989) What is special about spatial data? NCGIA Technical Paper, 89-4. Also in pp. 63-77 of Griffith, D.A. (1990) Statistics, Past, Present and Future. Ann Arbor Institute of Mathematical Geographers.
* Bailey, T. C. and Gatrell, A. C. (1995) Interactive Spatial Data Analysis. Longman, London.
Batty, M. and Longley, P. (1996) Spatial Analysis: Modelling in GIS Environments. GeoInformation International, Cambridge.
Berry, J. K. (1987) Fundamental operations in computer assisted map analysis. IJGIS, 1, 2, 119-136.
Berry, J. K. (1988) Computer assisted map analysis: Potential and pitfalls. Photogrammetric Engineering and Remote Sensing, 53, 10, 1405-1410.
Birkin, M., Clarke, G., Clarke, M. and Wilson, A. (1995) Intelligent GIS: Location Decisions and Strategic Planning. Geoinformation International.
*Burrough, P.A and McDonnell, R.A (1998) Principles of geographical information systems. Clarendon Press, Oxford.
Carver, S (1991) Integrating multicriteria evaluation and GIS. IJGIS 5, 321-39.
*Chrisman, N. (1997) Exploring geographic information systems. Wiley.
*DeMers, M.N. (2002). GIS modelling in raster. New York, Wiley.
* deSmith, Longley P.A. and Goodchild M.F. (2011) Geospatial Analysis - a comprehensive guide. http://www.spatialanalysisonline.com/output/
Eastman, J.R. (2005) Multicriteria evaluation and GIS. Chapter 35 in GIS - principles, techniques, management and applications, Longley, P.A. M.F. Goodchild, D.W. Rhind, and D.J. Maguire (eds). Wiley.
Fischer, M. Scholten, H.J and Unwin, D. (1996) Spatial analytical perspectives on GIS. Taylor and Francis, London.
Fotheringham, A. S. and Rogerson, P. (1994) GIS and Spatial Analytical Problems. IJGIS 7 (1), 3-20.
Fotheringham, A. S. and Rogerson, P. (1994) Spatial Analysis and GIS. Taylor & Francis, London.
Gatrell, A. C. (1991) Concepts of space and geographical data. In Maguire, D. J., Goodchild, M. F. and Rhind, D. W. (Eds.) Geographical Information Systems: Principles and Applications, Vol. 1, Chapter 9, pp. 119-134. Longman, Harlow.
Getis, A. and Boots, B. (1978) Models of Spatial Processes: An Approach to the Study of Point, Line and Area Patterns. Cambridge University Press.
Goodchild, M. (1987) A spatial analytical perspective on GIS. International Journal of Geographical Information Systems, 1, 327-334.
Goodchild, M. F., Gopal, S. (1989) Accuracy of Spatial Databases. Taylor & Francis. London.
Haining, R. (2003) Spatial Data Analysis: Theory and Practice. Cambridge University Press.
Heuvelink, G.M. (1998) Error propagation in environmental modelling with GIS. Taylor and Francis, London.
*Longley, P.A. and Batty, M. (eds.) (2003) Advanced Spatial Analysis - The CASA book of GIS. ESRI Press, Redlands. California.
*Longley, P.A., Goodchild, M. and Rhind, D. (2005) Geographic Information Systems and Science. (2nd edition) Wiley. Chaps 14 and 15
*Longley, P.A., Goodchild, M. F., Maguire, D.J. and Rhind, D. W. (eds.) (1999) Geographical Information Systems (2 Vols) (2nd edition).
Section C on 'Spatial Analysis' in Vol 1 is recommended reading.
*Longley, P.A., Goodchild, M. F., Maguire, D.J. and Rhind, D. W. (eds.) (2005) Geographical Information Systems: Principles, Techniques, Management and Application (abridged edition). Wiley.
*Maguire, D. J., Goodchild, M. F. and Rhind, D. W. (Eds.) (1991) Geographical Information Systems: Principles and Applications (2 Vols.). Longman. Volume 1 may be still online at www.wiley.com/go/longley
(a) Chrisman, N. The error component of geographic data. Ch. 12.;
(b) Gatrell, A. C. Concepts of space and geographical data. Ch. 9;
(c) Openshaw, S. Developing appropriate spatial analysis. Ch 25;
(d) Tomlin, C. D. Cartographic modelling. Ch. 23;
Mennis J, Hultgren T (2006) Intelligent dasymetric mapping and its application to areal interpolation. Cartography and Geographic Information Science, 33, 179-194
*O'Sullivan, D. and D. J. Unwin (1st edn. 2003 or 2nd edn. 2010) Geographic Information Analysis. Wiley, New York
Openshaw, S. and Taylor, P. (1981) The modifiable areal unit problem. Concepts and Techniques in Modern Geography (CATMOG), 38. Geo Abstracts, Norwich, England. Download pdf from http://www.qmrg.org.uk/
Tomlin, C. D. (1990) Geographical Information Systems and Cartographic Modelling. Prentice-Hall, New Jersey.
Unwin, D. J. (1981) Introductory Spatial Analysis. Methuen, London.
Zhang, J and Goodchild, M.F. (2002) Uncertainty in Geographic Information. London, Taylor & Francis.
|Graduate Attributes and Skills
|Additional Class Delivery Information
||Practical Session 16:00-18:00 in room 1.26 Geography, Drummond Street
|Keywords||PGGE11091 Spatial analysis,spatial data,spatial autocorrelation,network spaces,GIS
|Course organiser||Dr Neil Stuart
Tel: (0131 6)50 2549
|Course secretary||Mrs Karolina Galera
Tel: (0131 6)50 9290