CS 128/ES Lecture 11a1 GPS
CS 128/ES Lecture 11a2 Global Positioning System
CS 128/ES Lecture 11a3 GPS in practice. Recreational GIS inputs Surveying Transportation and of course, the military
CS 128/ES Lecture 11a4 Why study GPS theory… (just turn it on & use it, right?)
CS 128/ES Lecture 11a5 The NAVSTAR system GPS for Land Surveyors. J. Van Sickle. Ann Arbor Press, 1996 Military wanted portable, fast, passive positioning system Navstar I launched Feb ’78. Now 24 satellites + “spares” Global, 24/7 coverage by at least 4 satellites Satellites carry atomic clocks
CS 128/ES Lecture 11a6 Early GPS specs telenav-gps/ Military criteria for a 1970s positioning system: 1.Able to direct 5 bombs to the same crater 2.Light enough to carry on soldier’s back 3.Cost under $20,000! Bob Rennard, now Chief Technology Officer at TeleNav
CS 128/ES Lecture 11a7 They’ve gotten smaller! /01/12/new-zealands-rakon- develops-worlds-smallest-gps- receiver/ Posted Jan 12th :45PM by Marc Perton Filed under: GPSMarc PertonGPS So you think today's handheld, SDIO and cellphone-based GPS units are small? Get ready for a new generation of even smaller GPS devices, ranging from wristwatches to slim cellphones to -- and we just know this is coming -- implants. That's the promise held forth by what is being billed as the world's smallest GPS receiver, which was developed by New Zealand-based Rakon, a company affiliated with GPS-make Navman. According to Rakon, the chip is about the size of a baby's fingernail, and should be available in a range of devices within the next two years.
CS 128/ES Lecture 11a8 GPS basics Both: Differential GPS Explained. J. Hurn. Trimble Navigation, 1993
CS 128/ES Lecture 11a9 1, 2 … Both: Differential GPS Explained. J. Hurn. Trimble Navigation, 1993
CS 128/ES Lecture 11a10 3! Differential GPS Explained. J. Hurn. Trimble Navigation, 1993 Technically 4 satellites are necessary, but normally only 1 of the 2 points is on the geoid But, as we’ll see later, a 4 th satellite is still useful
CS 128/ES Lecture 11a11 How to time the signal? Standard EDMs bounce a signal off a reflector and measure time of return But, GPS requires a low-power transmission and passive receivers Imagine 2 people with synchronized stop watches, standing 1 mile apart. A gun fires near 1, and each records the time when they hear the shot. What do the 2 times tell you?
CS 128/ES Lecture 11a12 Pseudocode GPS: A guide to the next utility. J. Hurn. Trimble Navigation, 1993 A string of pseudo-random bits Predetermined sequence – can be generated by the satellite and the receivers
CS 128/ES Lecture 11a13 Code correlation GPS for Land Surveyors. J. Van Sickle. Ann Arbor Press, 1996
CS 128/ES Lecture 11a14 But wait: for $19.95 you get … C/A (coarse acquisition) code: - short (1 ms) & slow (1.023 Mbps) - meant to enable receivers to get a crude “fix” quickly P (precision) code: - long (267 d) & fast (10.23 Mbps) - permits sub-meter accuracy
CS 128/ES Lecture 11a15 Still not sure? There’s more … Each code is broadcast on 2 frequencies, the L1 and L2 bands “Dual frequency” receivers utilize the frequency difference between L1 & L2 to compensate for atmospheric distortions – more on that later Survey-grade receivers – mucho $$
CS 128/ES Lecture 11a16 Sources of error 1.[Selective availability] 2.Clock errors 3.Ephemeris errors 4.Atmospheric delays 5.Multipath effects 6.Receiver errors Differential GPS Explained. J. Hurn. Trimble Navigation, 1993
CS 128/ES Lecture 11a17 A small clock error matters! Microwaves travel at approximately the speed of light: 300,000 km per second A clock error of only 1 µs could produce a positional error of ~300 m! How can a $100 GPS receiver have a clock that stays accurate to <<1 µs??
CS 128/ES Lecture 11a18 Voila – the 4 th satellite! Both: GPS: A guide to the next utility. J. Hurn. Trimble Navigation, 1993 A 2-D example: Clocks synchronized Clocks not synchronized
CS 128/ES Lecture 11a19 If the 4 ranges don’t overlap: Both: GPS: A guide to the next utility. J. Hurn. Trimble Navigation, 1993 Receiver adjusts its clocks until they do [Actually: done by algebra, not trial & error] The time on a $100 GPS unit is really accurate!
CS 128/ES Lecture 11a20 Ephemeris errors Trimble Navigation Ephemeris: mathematical description of an orbit
CS 128/ES Lecture 11a21 Atmospheric delays Differential GPS Explained. J. Hurn. Trimble Navigation, 1993 Signal slowed by: - charged particles in the ionosphere - water vapor in the troposphere Dual-frequency receivers can correct for ionosphere but not troposphere errors
CS 128/ES Lecture 11a22 Multi-path errors Top: GPS: A guide to the next utility. J. Hurn. Trimble Navigation, 1993 Bottom: Worse: - near buildings, other obstructions - satellites near horizon: use “elevation mask” Better: - more sophisticated antenna - ground plane to block low-angle reflections
CS 128/ES Lecture 11a23 Typical error “budget” (m)* Source: Standard GPS Differential GPS Satellite clocks1.5~ 0 Ephemeris errors2.5~ 0 Ionosphere delays Troposphere delays Multi-path (reflections)0.6 Receiver errors0.3 Typical totals10 – Differential GPS Explained. J. Hurn. Trimble Navigation * Horizontal position; vertical errors typically 2x or greater
CS 128/ES Lecture 11a24 Improving GPS accuracy DOP and mission planning Differential GPS Surveying-grade GPS
CS 128/ES Lecture 11a25 DOP & “mission” planning Both: GPS: A guide to the next utility. J. Hurn. Trimble Navigation, 1993 Dilution of precision: a small number of satellites or poor positions degrades accuracy Advanced software lets you plan when to use GPS for maximum accuracy
CS 128/ES Lecture 11a26 “mission” planning software Pathfinder Office. Trimble Navigation
CS 128/ES Lecture 11a27 Differential GPS Differential GPS Explained. J. Hurn. Trimble Navigation, 1993 Fixed base station: - knows its location - records any shifts in its readings in correction file Differential corrections: - real time - post-processing
CS 128/ES Lecture 11a28 Real-time DGPS GPS: A guide to the next utility. J. Hurn. Trimble Navigation, 1989 Radio link with base station U. S. Coast Guard beacons WAAS
CS 128/ES Lecture 11a29 Coast Guard beacons Trimble’s Beacon on a Belt
CS 128/ES Lecture 11a30 WAAS Wide Area Augmentation System Designed by FAA & DOT for general aviation ground stations collect DGPS data & uplink to 2 geostationary satellites, 1 over east coast, 1 over the west coast
CS 128/ES Lecture 11a31 Post-processed differential GPS Opened just this year: - Set of NYS DOT DGPS stations, along major highways - Locally: new stations in Friendship, Salamanca National Geodetic Survey: CORS (Continuously Operating Refer. Stations)
CS 128/ES Lecture 11a32 Survey-grade GPS Uses high-quality, dual-frequency receivers and DGPS Carrier phase processing - utilizes the L1 or L2 carrier signal, 1.2 / 1.5 GHz Can achieve accuracies of < 1 cm Expensive, complex, and requires long periods of data collection at each station Differential GPS Explained. J. Hurn. Trimble Navigation, 1993
CS 128/ES Lecture 11a33 The Future of GPS Everyday utilities (cell phones, car navigation systems) Integrated GIS/GPS units GPS stalking?? ??? lity/archives/loca tion_based/index.shtml
CS 128/ES Lecture 11a34 Using GPS with GIS The GolfPS™ Personal GPS System provides instant and continuously updated distance to … any feature on the course, such as bunkers, water hazards and pin placements. GPS with Golf
A driver has blamed his sat nav for leaving his car teetering on the edge of a cliff after he followed its instructions Driver Led To 100ft Cliff Edge By Sat Nav 3:40pm UK, Wednesday March 25, 2009 CS 128/ES Lecture 11a35