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Introduction to the Global Positioning System (GPS)
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Geodesy & GPS for Dummies Session III: National Science Teachers Association 2007 Annual Conference St. Louis, MO March 31, 2007 Casey Brennan
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Learning Outcomes Participants will be able to describe the basics of GPS. Participants will be able to describe the method GPS uses to calculate your position. Participants will be able to list at least three ways that GPS is important to your daily life.
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Overview Part 1: A brief history of positioning Part 2: GPS 101 Part 3: The amazing new world of precise positioning
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Where are we? What is positioning and what is surveying? Positioning in the USA (zero meridian)
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The Importance of Time Time has been the limiting factor for a lot of science, including the science of positioning Ships and clocks (John Harrison and the 18 th Century) Better accuracy requires better clocks John Harrison 1693-1776
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The Technological Revolution Satellites Atomic clocks Microchips and calculators Radio Beacons and other transitions from astro methods to modern methods. Ground based systems
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Very Long Baseline Interferometry The precursor to GPS Quasars and dishes
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The Launch of GPS DOD sponsored project puts satellites into orbit First Sat launched in 1978 24 Sats by mid 1990s 28 Currently in orbit, with more coming A fundamental change in how positioning is done What GPS has changed?
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The GPS Receiver Who has a GPS Receiver? What the receiver does What the receiver does NOT
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Basic Trilateration D=RxT Rate is Speed of light Time is the key! Technology made it possible One you have distance, its “easy”
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GPS positioning simplified to two dimensions x y
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How a GPS receiver works Find the satellites Know where the satellites are Figure out D=RxT Trilaterate Repeat, repeat, repeat
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The limitations of GPS Must be able to “see” the satellites Requires power Multiple sources of error
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Sources of Error in GPS Multipathing Atmospheric Delays PDOP Clocks Orbits Receiver electronics Relativity Geoid models and other really techie stuff
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x PDOP (Position Dilution of Precision) or “Why the distribution of GPS satellites in the sky affects how well I know where I am” (Simplified to a 2-dimensional model)
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PDOP (Position Dilution of Precision) or “Why the distribution of GPS satellites in the sky affects how well I know where I am” (Simplified to a 2-dimensional model) x
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PDOP (Position Dilution of Precision) or “Why the distribution of GPS satellites in the sky affects how well I know where I am” (Simplified to a 2-dimensional model) x Blue/Yellow have “good geometry” so the (green) error box around “x” is small (PDOP is small) Red/Yellow have “bad geometry” so the (orange) error box around “x” is large (PDOP is large)
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Just how accurate can we get? Consumer Grade GPS Survey Grade GPS Use of two receivers instead of just one (CORS)
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Some amazing things to do with GPS Earth Tides Measuring subsidence Track the moving earth Post Glacial Rebound Geocaching Emergency Rescue
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Some amazing things to do with GPS
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Conclusion and discussion GPS completely changed positioning forever GPS will continue to improve
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