Presentation is loading. Please wait.

Presentation is loading. Please wait.

Alternate coordinate systems: Solutions for large-scale maps

Similar presentations


Presentation on theme: "Alternate coordinate systems: Solutions for large-scale maps"— Presentation transcript:

1 Alternate coordinate systems: Solutions for large-scale maps
+ X axis - + (0,0) Y axis - Universal Transverse Mercator (UTM) State Plane Coordinate System (SPCS) US Public Land Survey (USPLS)

2 The Geographic Coordinate System:
Strengths: One set of coordinates can describe an exact location anywhere on the globe Based on the earth’s spherical shape Issues: Subdivision of degrees: 1° = 60’ 1’ = 60” 1 degree = 60 minutes 1 minute = 60 seconds The length of 1 ° longitude varies

3 UTM Grid System: Why it was developed
UTM = Universal Transverse Mercator Developed shortly after World War II by US Army Now, UTM system used widely for precise positioning

4 Mercator Transverse Mercator 1 UTM zone: 6 degrees wide

5 Is divided into north-south columns known as zones (between 80°S and 84°N)
Zones are numbered 1 to 60 eastward from the Int’l Date Line

6 UTM Zones for the United States

7 Logic of the UTM Grid Zone 12 500,000 m Origin

8 Reading the UTM Grid Easting is measured from the central meridian + 500,000 m Northing is measured from the equator Austin is: 621,161 m E, 3,349,894 m N, Zone 14 N, NAD 83

9 Some additional facts about UTM
Accuracy level of UTM -- Maximum error is: 1 m / 1000 m (5 feet in a mile)

10 Designating location: GCS
Geographic Coordinate System 33° 40’ 12” North ° 55’ 30” West Deg. Min. Sec. Hemisph. Deg. Min. Sec. Hemisph. Universal Transverse Mercator 621,100 m E, 3349,800 m N, Zone 14 N, NAD 83 Easting, Northing, Zone, Datum Or, on topo map: m E, m N

11 Comparing coordinate systems
(0,0) + - X axis Y axis The Geographic Coordinate System Universal Transverse Mercator (UTM) State Plane Coordinate System (SPCS) US Public Land Survey (USPLS)

12 The Geographic Coordinate System: Longitude and latitude
33° 30’ 00” North, ° 00’ 00” West Degrees, Minutes, Seconds N, Degrees, Minutes, Seconds W

13 The United States Public Land Survey: The National Picture

14 The United States Public Land Survey: Townships & Ranges
T 2 S, R 3 W, Gila and Salt River Meridian Township, Range, Principal Meridian Survey Township Townships 6 mi. Ranges

15 Choosing a Coordinate System
Cartesian coordinate systems: When precise measurements of distance & area are needed Choose a system based on size & position USPLS UTM Geographic Coordinate system: Thematic maps – coordinates give general idea of location on globe

16 Use of Known Features Size of known objects may be visible on the map—particularly true with aerial photographs

17 Map distance / real distance Simplify:
In real life: Athletic field is 130 yards Strategy: Create a fraction: Map distance / real distance Simplify: Numerator & denominator are in same units numerator is “1” On the photo: Athletic field 7/8 inch Photo scale = Approx 1:5,350

18 Use of Latitude and Longitude
Strategy: Create a fraction: Map distance / real distance Simplify: Numerator & denominator are in same units numerator is “1” In real life: 1° latitude = km 10° latitude = 1,111.3 km On the map: 10° latitude = 8.8 cm Map scale = approx 1:12,628,750

19 Using longitude instead:
If using longitude, remember they converge at the poles. Calculate the distance with the following formula: Distance = cos(latitude) x km

20 Map Comparison Use a map with a known scale and compare features on the map with unknown scale

21 1. Measure the distance between same pair features on both maps
6 inches 5 inches 1:5200

22 2. Calculate the real- world distance on the map with the known scale
6” = x” on ground? 6” = 5200” x 6 6” = 31,200” on ground 6 inches 5 inches 1:5200

23 3. Calculate the ratio – as before – of the map with unknown scale
6” = x” on ground? 6” = 5200” x 6 6” = 31,200” on ground 5” = 31,200” on ground 1” = 31,200” / 5 1” = 6240” on ground 6 inches 5 inches 1:5200 1:6240

24 Scale and area 9 square inches, 1:5200 map:
9 sq in (map) = 46,800 sq in (ground) ? NO! That would imply that, from McAllister to Palm Walk is 207 inches on the ground! RFs are LINEAR scales, and can be used to measure lines but not areas (at least not directly) 2 3 1 4 5 6 9 7 8 1:5200

25 Scale and area To calculate AREA from a linear scale … 3” 3” 1:5200
3 inches on each (linear) side 3”map = 5200 x 3”ground 3”map = 15,600” ground 15,600” / 63,360in/mi = .246 mi .246 mi x .246 mi =.064 mi2 To calculate AREA from a linear scale … Strategy: Measure width & height of area (on map): Use RF to calculate the area’s width & height in real world Convert to more convenient real-world units Multiply real-world width x height 3” 3” 1:5200

26 New points about scale …
Two common RF’s: 1:63,360 1 inch represents 1 mile 1:100,000 1 cm represents 1 km Use these two RFs to be able to visualize the meaning of other RF’s Strategies for solving scale problems: To calculate RF for a map of unknown scale 1. Create a fraction: Map distance / real distance 2. Simplify: Numerator & denominator are in same units numerator is “1” To calculate land area: 1. Find height and width in real-world units 2. Multiply these 2 values


Download ppt "Alternate coordinate systems: Solutions for large-scale maps"

Similar presentations


Ads by Google