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An Introduction to GPS

An Introduction to GPS. Prepared by:. John McGee Jennifer McKee. With support from:. NSF DUE-0903270. in partnership with:. Geospatial Technician Education Through Virginia’s Community Colleges (GTEVCC). Outline. Why do we use GPS? What is GPS? How does GPS Work?

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An Introduction to GPS

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  1. An Introduction to GPS Prepared by: John McGee Jennifer McKee With support from: NSF DUE-0903270 in partnership with: Geospatial Technician Education Through Virginia’s Community Colleges (GTEVCC)

  2. Outline • Why do we use GPS? • What is GPS? • How does GPS Work? • What do you need to know about GPS? • What can you do with GPS? • How is GPS used in the real world?

  3. How far have we come?

  4. Why GPS? • Many features have addresses and landmarks that are associated with a destination. Fred Jones 332 Elm St. Frog Holler, VA 42534

  5. However, there are many features that do not have addresses… There are many MAJOR cities that do not even have STREET NAMES! And then there is the open ocean and sky… Why GPS?

  6. Why GPS? Location, Location, Location and INFORMATION!!!

  7. Navigation is critical Historical Navigational tools have limits: The Sextant – doesn’t work if it is cloudy Lowrance – radionavigation: only worked near land… The military had its own reasons for determining location… Identify targets Friendly fire issues “smart bombs” Pre-GPS

  8. What is GPS… And how does it work?

  9. What is GPS? • GPS is not a single UNIT! • GPS = Global Positioning SYSTEM • GPS was developed by the Department of Defense at a cost of >$12 billion • Funding for the GPS was contingent on making the system available to the public.

  10. GPS is a SYSTEM There are three major components in this system: • Satellites • Ground Control Stations • GPS Receivers (or units)

  11. Satellites • There are 24-32 satellites up there at any given time orbiting the earth at ~11,000 naut. miles. • The DOD knows the EXACT location of each of the satellites at any given moment. • These satellites have VERY accurate clocks on board. • The satellites continuously send radio signals towards earth. • These radio signals are picked up by GPS receivers.

  12. Satellites: “A Beehive of Activity” http://www.nasa.gov/multimedia/imagegallery/image_feature_1283.html

  13. Control Stations • There are five control stations that monitor the satellites. • Control stations enable information on Earth to be transmitted to the satellites (updates and fine turning). • Control stations continuously track satellites, and update the positions of each satellite. • Without control stations, the accuracy of the system would degrade in a matter of days.

  14. GPS Receivers • GPS units are referred to as “receivers”. • They receive information (radio signals) from satellites. • The GPS receiver knows how • long it takes the signal to travel • from the satellite to the • receiver.

  15. GPS Receivers • The GPS receiver knows how long it takes the signal to travel from the satellite to the receiver. • The Receiver is therefore able to calculate its distance from the satellite. • Distance = time x velocity • Distance = time x 186,355 mi./sec. • The receiver can calculate the time that signal traveled from the satellite to the receiver. • The receiver is therefore able to determine its exact distance from the satellite.

  16. How GPS Works One satellite…

  17. How GPS Works If the GPS receiver only obtains signals from 1 Satellite, then it “knows” that it is located somewhere on this sphere…

  18. How GPS Works

  19. How GPS Works If the GPS receiver only obtains signals from 2 satellites, then it “knows” that it is located somewhere where these 2 spheres intersect

  20. How GPS Works

  21. How GPS Works If the GPS receiver obtains signals from 3 satellites, then it “knows” that it is located somewhere where these 3 spheres intersect (2 points)

  22. How GPS Works

  23. How GPS Works A fourth satellite is required to determine the exact location and elevation.

  24. What do you need to know about GPS?

  25. Different “Grades” of GPS receivers • Recreational Grade GPS • Accurate to within 5 meters (could be better, but don’t rely on it) • Suitable for hunting, recreational, and some business uses • Lowest cost (smallest, and easiest to use): ~$100-$800 • Mapping Grade GPS • Accurate to within 1 meter (3 feet) • Requires differential processing (from a base station) • Suitable for many natural resource applications, city planning • $800-$7,000 • Survey Grade GPS • Accurate to within 1 cm • Suitable for building bridges… • $15,000 -$30,000

  26. What you need to know about GPS? • Signal Accuracy Issues • Selective Availability • Tricks of the Trade • Current Applications of GPS • Future applications of GPS

  27. Signal Accuracy There are 2 types of GPS Signals: P-code: (“Precise” code) • This is only available to the military and some selected public officials. • Very precise, not degraded. C-code: (“Civilian” Code). • Less precise • Signal can be degraded (by scrambling the signal) especially in times of conflict. • This is what the GARMIN Legends (and all public GPS receivers) work with…

  28. Selective Availability (SA) • For national security reasons, the military sometimes degrades the C-code signal. This is called selective availability. • These errors are random • Errors can be as high as +300 feet Never say never…. But SA may not be “turned on” again….

  29. SA errors can put you on the wrong side of a stream, or even a different city block or street! 300 feet is a lot of real estate!!! Selective Availability The GPS tells you that you are located here… But your real location is here…

  30. Selective Availability • It is possible to correct for Selective Availability (as well as other inherent signal errors). • This process is called Differential Correction • Here’s how it works…

  31. Differential Correction • There are already established base stations established around the U.S. • Surveyors have determined the precise location of these base stations. • Each base station has a GPS receiver, which collects incoming (scrambled) signals. • The true (surveyed) location is then compared to the GPS coordinates. • The correction values are then sent to other GPS receivers in the field.

  32. Differential Correction Base station w/ GPS receiver at known location: Differential Correction Signal GPS receiver in the field collecting points, routes, etc. Exact known (surveyed) coordinates differ from GPS coordinates at this location = exact amount of error!

  33. WAAS • The Wide Area Augmentation System (WAAS) is a differential GPS system that is being constructed to support GPS accuracy in aircraft. • WAAS also provides additional accuracy “on the ground” • The GPS receivers that we are using are WAAS compatible

  34. WAAS Most (but not all) GPS receivers are WAAS compatible. 95% of GPS receivers on the market today are WAAS compatible The GARMIN Venture HC is WAAS compatible

  35. Other Tricks of the Trade:Averaging • Averaging: A GPS receiver can collect points continuously for 15-30 seconds. The receiver can then average all these locations together • This only works when you are standing still!! • Note that not all GPS receivers have an averaging capability (the Venture HC does not) GPS Collected Points GPS Averaged Position “True” location

  36. It is better for your receiver to get a fix on “distributed” satellites, then poorly distributed satellites. Other Tricks of the Trade: Satellite Distribution “Positional Dilution of Precision” Good Satellite Distribution Poor Satellite Distribution

  37. GPS planning software... http://www.trimble.com/planningsoftware.shtml

  38. GPS Satellite Visibility: BlacksburgJuly 25, 2010

  39. Try and stay away from buildings and other structures when using a GPS receiver Satellites may not be visible… This can introduce error… Other Tricks of the Trade: MultiPath Errors

  40. Other Tricks of the Trade: Tracking Satellites GPS has worldwide coverage… HOWEVER… You can lose satellite coverage (or received degraded signals) in areas with dense foliage, in “urban canyons”, etc. You may also lose satellite coverage (or receive degraded signals) in deep valleys or gorges.

  41. Accuracy • How accurate is a $150 GPS? • That’s the million dollar question…

  42. How accurate is a $150 GPS?(It depends…) Acknowledgements: Dr. Phillip Rasmussen, Utah Geospatial Extension Specialist

  43. Brand “A” Day 1 Brand “A” Day 2 Brand “A” Day 3 Brand “A” Day 4 Brand “A” Day 5 Brand “B” Day 1 Brand “B” Day 2 Brand “B” Day 3 Brand “B” Day 4 Brand “B” Day 5

  44. GPS Data Collection • Waypoints • Tracks • Routes • Find/GOTO • And more..!

  45. What can you do with a GPS? • Collect and store points (positions) These are called WayPoints. Field corners, insect infestation areas, crop damage, individual trees, trail heads, creek crossings, point source pollution, camping sites, and don’t forget “your car”! • Download the points onto your computer and integrate them with other mapping programs

  46. Corner2 Point3 Latitude: 37° 16’ 18” Longitude: W80° 28’ 45” Elevation: 2108 feet 001 Waypoints

  47. What can you do with a GPS? • Collect and store the path that you have walked / driven • These paths are called TRACKS. • Calculate the distance of a track (i.e. perimeter around a field) • Calculate AREA measurements within a TRACK (after walking around a field or parking lot...) • Save and Download TRACKS onto your computer.

  48. Tracks(just start walking…) What

  49. Latitude: 37° 16’ 18” Longitude: W80° 28’ 45” Elevation: 2108 feet Time: 13:22.15 Date: 05/08/2009 Tracks (just start walking…) • Each track point has important information associated with it... • “Virtual bread crumbs” • Track points can be collected: • Based on a time period (every 10 seconds) • Based on distance (every 20 feet) • Or a combination of time and distance (every 10 secs. or 20 feet, whichever comes first).

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