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Copyright, 1998-2014 © Qiming Zhou GEOG3600. Geographical Information Systems Geographical Query.

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Presentation on theme: "Copyright, 1998-2014 © Qiming Zhou GEOG3600. Geographical Information Systems Geographical Query."— Presentation transcript:

1

2 Copyright, 1998-2014 © Qiming Zhou GEOG3600. Geographical Information Systems Geographical Query

3 2  What is geographical query?  Queries and reasoning  Measurements

4 Geographical Query3 What is geographical query?  Geographical query is the most basic of analysis operations.  To answer simple questions posed by the user.  No change occur in the database.  No new data are produced.  The operations vary from simple to complex, well-defined queries.  Query and reasoning  Measurements: simple numerical values that describe aspects of geographical data.

5 Geographical Query4 Queries and reasoning  Selective map display  Spatial query  Attribute query  Spatial relationship query  Advanced SQL query

6 Geographical Query5  Selective map display  Displays the locations or all objects using points and arcs, with or without background.  Attributes and entity types can be displayed by varying colours line patterns and point symbols.  Relational query  Different systems use different ways of formulating queries. Structured Query Language (SQL) is an attempt to provide a “standard” way in querying data base.  The user can select object interested and produce maps. Selective map display

7 Geographical Query6 Selective map display (1)

8 Geographical Query7 Selective map display (2)

9 Geographical Query8 Selective map display (3)

10 Geographical Query9 Selective map display (4)

11 Geographical Query10 Selective map display (5)

12 Geographical Query11 Selective map display (6)

13 Geographical Query12 Spatial query - point

14 Geographical Query13 Spatial query - line

15 Geographical Query14 Spatial query - area

16 Geographical Query15 Spatial query with background

17 Geographical Query16 Spatial query with ‘links’

18 Geographical Query17 Attribute query

19 Geographical Query18 Attribute query

20 Geographical Query19 Spatial relationship query

21 Geographical Query20 Extended SQL query

22 Geographical Query21 Measurements  Distance and length  Area and volume  Shape

23 Geographical Query22 Distance and length (x 1, y 1 ) (x 2, y 2 ) Computation of line length The poly line representation of a smooth curve tends to be shorter. The length of a path as travelled on Earth’s surface may be longer than its horizontal projection.

24 Area and volume Geographical Query23

25 Geographical Query24 Shape of an area Measure the shape of zones in terms of their proximity to a perfect circular shape For each zone in X measure the area of the zone (C) measure the perimeter of the zone (P) Circle U = 1 Any other shape 0 < U < 1

26 Geographical Query25 Continents and islands Determine the shape of region by analysing the number of enclosed islands and number of zones which make up the region itself. If the number of zones is greater than the number of enclosed islands, then the region is closer to the shape of “islands”. Otherwise, when the number of enclosed islands is greater than the number of zones, then the region is closer to the shape of “continents”. Continents Islands

27 Geographical Query26 The Euler number An area is closer to either a continent or island shape can be determined by it Euler number. The Euler number is calculated by subtract the number of islands which make up the region itself from the number of enclosed islands by that region. If the Euler number is greater than 0, the region is closer to a “continent”, while the Euler number is less than 0 then the region is closer to “islands”. For each region in X count a count b U = a - b where a = number of enclosed islands b = number of islands which make up the region itself A B For A: a = 0; b = 5; U = -5 For B: a = 3; b = 1; U = 2

28 Landscape metrics Quantitative measurements on the shape of area (patch) (McGarigal et al., 2002), e.g.  PLAND: Percentage of Landscape  Measurement of dominance  NLSI: Normalized Landscape Shape Index  Measurement of aggregation  AWFDI: Area Weighted Fractal Dimension Index  Measurement of complexity Geographical Query27

29 Definitions 28 total length of class edges perimeter of patch i area of patch i For a given class: Geographical Query

30 Normalized Landscape Shape Index (NLSI) 29 For a given area = 9: min e = 12max e = 36 Geographical Query

31 NLSI 30 e i = 16e i = 20e i = 24e i = 30 (a)(b)(c)(d) For a given class: area = 9; min e = 12; max e = 36 Geographical Query

32 Fractal Dimension Index (FDI) 31 The simplest border: FDI = 1 a b abc d abc A complex border: FDI  2 Geographical Query

33 AWFDI (class-level) 32 931 Geographical Query

34 33 Summary  Geographical query is the most frequently used operation in GIS.  Geographical query includes spatial, attribute and spatial relationship queries.  The purpose of geographical query is to retrieve geographical information from GIS based on user-defined criteria.  Spatial measurements can be made in GIS including distance, area, volume and shapes.

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