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Geographic Information Systems

Discover the principles of Geographic Information Systems (GIS), including Coordinate Systems and Map Scale. Learn about Spherical and Rectangular Coordinate Systems, Latitude and Longitude, UTM Zones, State Plane Coordinates, and the significance of Datums. Gain insights into spatial scales, resolution, and extent. Master the basics of Earth's mapping and coordinate systems.

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Geographic Information Systems

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  1. Geographic Information Systems Coordinate Systems

  2. 1. Map Scale • A ratio between a distance on the map and the corresponding distance on the earth The distance on the map is always expressed as one, e.g., 1 : 100,000 • Common map scales 1 : 24,000 1: 100,000 1 : 250,000 1 : 1,000,000

  3. Map Scale • Small and large scale Which one is a larger map scale? 1 : 24,000 or 1 : 100,000 • Spatial scales • Map scale (large vs. small) • Resolution (fine vs. coarse) • Extent (large vs. small)

  4. 2. Coordinate Systems Basic elements of a coordinate system • an origin, then the location of every other point can be stated in terms of • adefineddirection and • a distance in the direction

  5. 2. Coordinate Systems • Spherical coordinate systems Geographic coordinate system • Rectangular coordinate systems UTM (Universal Transverse Mercator) State Plane

  6. 2 (1) Spherical Coordinate Systems • Based on a perfect sphere • Geographic coordinate system - great circles small circles - meridians parallels - Latitude - Longitude courtesy: http://www.colorado.edu/geography/gcraft/

  7. Latitude • Measured northward or southward from the equator to poles • Ranging 0-900 north or south • The measuring units are degrees, minutes, and seconds, 10 = 60’ and 1’=60” • The length of one degree latitude is similar everywhere, ≈ 111km/69miles

  8. Longitude • Measured eastward or westward from the Prime Meridian at Greenwich, England to the International Date Line • Ranging 0-1800 east or west • The measuring units • Length of one degree longitude reduces toward poles

  9. courtesy: Mary Ruvane, http://ils.unc.edu/ 900 latitude Lines of Latitude (East/West - parallels) Prime Meridian 00 Lines of Longitude (North/South - meridians) Central Parallel 00 Latitude and Longitude

  10. Reading Latitude and Longitude • 19050’ S: 19 degrees 50 minutes Latitude South • 43050’ W: 43 degrees 50 minutes Longitude West - 43050’ W

  11. 2 (2) Rectangular Coordinate Systems • Also referred to as Planar, Cartesian, and Grid coordinate system • It converts Earth’s curved surface onto a flat map surface • The x value is given first and called easting, then the y value is given and called northing

  12. 2 (2) (i) UTM • Universal Transverse Mercator coordinate system • A rectangular coordinate system for the WORLD Gerardus Mercator (1512-1594) Courtesy of the Library of Congress, Rare Book Division, Lessing J. Rosenwald Collection.

  13. UTM Zones and Rows • Measuring unit: meter • Map projection: Universal Transverse Mercator • Zones: north-south columns of 60longitude wide, labeled 1 to 60 eastward beginning at the 1800 meridian • Rows: east-west rows of 80 latitude high, labeled from C to X (without I, O) beginning at 800 S latitude • Quadrilaterals

  14. UTM Zones of the World courtesy: http://www.colorado.edu/geography/gcraft/

  15. A UTM Zone • We always use zones and rarely use rows courtesy: http://www.colorado.edu/geography/gcraft/

  16. UTM Easting and Northing • Each of the 60 zones has its own central meridian • The central meridian of a zone is given the easting of 500,000m and the equator is given a northing value of 0 for the northern hemisphere • For southern hemisphere, the equator is given a northing value of 10,000,000m • 671,000m Easting, 4,749,000m Northing

  17. Calculate Your Own Zone 44003’ Latitude N, 71058’ Longitude W = Zone ? courtesy: http://www.colorado.edu/geography/gcraft/

  18. 2 (2) (ii) State Plane Coordinate • A rectangular coordinate system for the UNITED STATES • Measuring unit: foot • Zones: The U.S. is divided into 120 zones. Zone boundaries follow state and county lines

  19. State Plane http://www.cnr.colostate.edu/class_info/nr502/lg3/datums_coordinates/spcs.html

  20. 2 (2) (ii) State Plane Coordinate • Projections: Each zone has its own projection system - Transverse Mercator for states of N-S extent - Lambert's conformal conic projection for states of E-W extent

  21. State Plane • The central meridian of a zone is given 2,000,000ftFalse Easting • False origin: it is established in the south and west of the zone as 0, 0 • False easting, and false northing • Zones may overlap    

  22. Difference between Systems UTM and many other coordinate systems are defined based on the geographic coordinate system

  23. Difference between Systems • Try to use the rectangular systems as much as possible, and not to use geographic system for calculation • Remotely sensed imagery and digital elevation models routinely use UTM • Land record system routinely use State Plane • know how to convert between projections (will be discussed in the lab)

  24. 3. Datum • Vertical datum: is the zero surface from which all elevations or heights are measured

  25. Datum • Geodetic datum: are established to provide positional control that supports surveying and mapping projects covering large geographic areas, such as a country, a continent, or the whole world North American Datum of 1927 (NAD27) North American Datum of 1983 (NAD83) • Coordinates change if datum changes: a control point in CA On NAD83: -117 12 57.75961, 34 01 43.77884 On NAD27: -117 12 54.61539, 34 01 43.72995

  26. 4. Map Projections • A means of converting coordinates on a curved surface to coordinates on a plane • Map projections vs. coordinate systems - Map projections define how positions on the earth’s curved surface are transformed onto a flat map surface - Coordinate systems superimposed on the surface to provide a referencing framework on which positions are measured

  27. Map Projections • A classification of map projections • By conceptual methods Cylindrical, Azimuthal, and Conic • By distortions Conformal, Equal-area, Equidistant, and Azimuthal

  28. Map Projections – by Methods • Cylindrical 1. Mercator 2. Transverse Mercator http://exchange.manifold.net

  29. Map Projections - by Methods • Azimuthal • Conic http://exchange.manifold.net

  30. Map Projections - by Distortions • Conformal projections  It retains shapes about a point •  Equal-area projections  It retains correct relative size •  Equidistant projections  It retains uniform scale in all directions but only from one or two points •  Azimuthal projections  It retains correct directions from one or two points

  31. Map Projections - by Distortions courtesy: Mary Ruvane, http://ils.unc.edu/ Conformal – preserves shape Equivalent - preserves area Equivalent - preserves area Compromise - preserves neither

  32. Commonly Used Projections • Transverse Mercator: cylindrical conformal •  Lambert's conformal conic http://www.youtube.com/watch?v=b1xXTi1nFCo&feature=player_embedded http://www.youtube.com/watch?v=AI36MWAH54s

  33. Commonly Used Projections • UTM as a coordinate system • TM as a means of projection

  34. Readings • Chapter 2

  35. 3. Topographic Maps • Planimetric maps - Graphical representation of the shape and horizontal location of physical features of land and other physical entities. • Topographic maps - identity elevation of the land in contour lines.

  36. Topographic Maps • A map series published by USGS • It is bound by parallels on the north and south, meridians on the east and west, 7.5’ span in either direction • The maps are created from aerial photos • The features are topography, vegetation, railroad, streams, roads, urban, etc. • Three coordinate systems are marked, geographical, UTM, and State Plane

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