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Basic Coordinate Systems Grid Systems

Basic Coordinate Systems Grid Systems. RG 620 May 09, 2013 Institute of Space Technology, Karachi. After projection it is necessary to set up a coordinate system on the map that will allow a point to be described in X-Y space (or northing and easting)

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Basic Coordinate Systems Grid Systems

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  1. Basic Coordinate SystemsGrid Systems RG 620 May 09, 2013 Institute of Space Technology, Karachi

  2. After projection it is necessary to set up a coordinate system on the map that will allow a point to be described in X-Y space (or northing and easting) To describe a location in a universally understandable manner a grid system is necessary For a useful grid it is necessary for it to define an origin and a uniform grid spacing There are several types of Coordinate System to represent the Earth’s surface Coordinate Systems

  3. Some commonly used Coordinate Systems are: Geographic Latitude and Longitudes are used UTM Shape is preserved and precise measurements in meter State Plane Local surveying (with minimum distortion) Coordinate Systems

  4. Geographic Coordinate System (WGS84 datum)

  5. Global coordinate system Globe is divided into narrow longitude zones Best used for north-south oriented areas (little distortion in this direction) Successive swaths of relatively undistorted regions created by changing the orientation of the cylinder slightly These swaths are called UTM zones Each zone is six degrees of longitude wide Total 60 zones Universal Transverse Mercator Coordinate System

  6. These zones are numbered from west to east Zone 1 begins at the International Date Line (1800 W), Zone 2 at 174°W and extends to 168°W Each Zone is further divided into Eastern and Western halves by drawing a center line called Central Meridian Zones are further split north and south of the equator Universal Transverse Mercator Coordinate System

  7. At equator a zone is about 40,000/60 = 667 Km wide Any point can be described by ‘Easting’ and ‘Northing’ values Northing is the distance to the equator, while easting is the distance to the "false easting", which is uniquely defined in each UTM zone The equator is used as the northing origin for all north zones (northing value of zero) South zones have a false northingvalue added to ensure all coordinates within a zone are positive For UTM south zones, the northing values at the equator are set to equal 10,000,000 meters Universal Transverse Mercator Coordinate System

  8. UTM – Easting and Northing

  9. Universal Transverse Mercator Coordinate System • Important thing to remember Coordinate values are discontinuous across UTM zone boundaries, therefore, analyses are difficult across zonal boundaries

  10. Horizontal Zoning • Latitudes are divided into zones lettered from A at the South Pole to Z at the North Pole • Spacing is not regular throughout • A and B zones are within the south circle of 80 degrees • Zones Y and Z cover the north polar region north of 84 • Rest of the zones extend from 80 degrees south latitude to 84 degrees north latitude degrees • Zone X is 12 degrees wide (from 72 to 84 degrees North) • I and O not used • Rest of the zones are 8 degree wide • Zone M and N are just South and North of Equator respectively

  11. UTM Zones

  12. UTM Zones

  13. UTM Zones - Pakistan

  14. Finding Grid Zone for any Latitude In calculation take west longitude as (-) negative and east longitude as (+) positive Add 180 and divide by 6 Round off the resultant value to the next higher number Example: Greenwich Prime Meridian is at …….. Longitude? UTM – Finding Grid Zone

  15. Measuring Distance Distortion • Comparing map distance with the Great Circle Distance • Remember the Example from Text Book where the Great Circle Distance between two point A and B was = 412.906 KM • Identify coordinates of the equivalent points on UTM grid • Calculate the distance between these points • Negative scale distortion when features are compresses or reduced in size • Positive scale distortion when features are expanded

  16. Grid Distance

  17. Standard set of projections for the United States developed in 1930’s Specifies positions in Cartesian coordinate systems for each state Used for local surveying and engineering applications Points are projected from their geodetic latitudes and longitudes to x and y coordinates in the State Plane systems Conformal mapping system for US with a maximum scale distortion of one part in 10,000 State Plane Coordinate (SPC) Systems

  18. Large states are divided into zones to limit distortion error and maintain said accuracy One or more zones in each state with slightly different projection in each zone Boundaries of zones follow state and county lines The number of zones in each state is determined by the area the state covers The number of zones ranges from 1 to 10 (in Alaska) Each zone has a unique central meridian State Plane Coordinate Systems

  19. Zones have different projections Lambert Conformal Conic: for states that are longer east–west, such as Tennessee, Kentucky, North Carolina, Virginia, etc. Transverse Mercator projection: for states that are longer north–south, such as Illinois, Arizona, New Hampshire, etc. The Oblique Mercator projection: for the panhandle of Alaska (AK zone 1) because it lays at an angle State Plane Coordinate Systems

  20. Originally based on the North American Datum of 1927 and the measurement unit was feet Now being converted to North American Datum of 1983 (NAD83) (will use meters as unit of measure) Due to datum change some zones are redefined State Plane 1927 vs. 1983

  21. State Plane Zone Boundaries NAD83

  22. Alaska State Plane Zones

  23. Variation between Datums Reference: David Corner

  24. Reference: David Conner National Geodetic Survey, 2003

  25. Conversion Among Coordinate Systems

  26. References • http://www.ncgia.ucsb.edu/giscc/units/u013/u013_f.html • http://geography.about.com/od/locateplacesworldwide/a/latitude.htm • http://webhelp.esri.com/arcgisdesktop/9.2/ • http://www.uwgb.edu/DutchS/FieldMethods/UTMSystem.htm • Images: • Peter H. Dana, Department of Geography, The University of Texas at Austin • http://upload.wikimedia.org/wikipedia/commons/a/ab/WorldMapLongLat-eq-circles-tropics-non.png • http://www.ncgia.ucsb.edu/education/curricula/giscc/units/u013/figures/figure10.gif • http://www.ncgia.ucsb.edu/giscc/units/u013/u013_f.html • http://www.worldatlas.com/aatlas/imageg.htm • http://www-istp.gsfc.nasa.gov/stargaze/Slatlong.htm • http://www.esri.com/news/arcuser/0703/geoid1of3.html

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