Introduction to the Global Positioning System Introduction to the Global Positioning System Pre-Work GPS for Fire Management - 2004.

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Presentation transcript:

Introduction to the Global Positioning System Introduction to the Global Positioning System Pre-Work GPS for Fire Management

 Describe at least three sources of GPS signal error, and identify ways to mitigate or reduce those errors.  Identify the three segments of the Global Positioning System and describe the purpose of each.  Describe two technologies that enhance the accuracy of GPS positioning and collected position data.  Describe the process a GPS receiver uses to triangulate its position.  Identify the four main functions of the GPS.  Successfully complete the Pre-Work Test. Pre-Work Objectives

 A brief history of the Global Positioning System  Segments of the GPS  A primer on how the GPS works  Problems with the GPS  Advancements in the GPS Unit A Lesson 1 Pre-Work Outline

The History of GPS

How the GPS Works

Control Segment Space Segment User Segment Three Segments of the GPS Monitor Stations Ground Antennas Master Station

Kwajalein Atoll US Space Command Control Segment Hawaii Ascension Is. Diego Garcia Cape Canaveral Ground Antenna Master Control Station Monitor Station

Space Segment

 Military.  Search and rescue.  Disaster relief.  Surveying.  Marine, aeronautical and terrestrial navigation.  Remote controlled vehicle and robot guidance.  Satellite positioning and tracking.  Shipping.  Geographic Information Systems (GIS).  Recreation. User Segment

 Position and coordinates.  The distance and direction between any two waypoints, or a position and a waypoint.  Travel progress reports.  Accurate time measurement. Four Primary Functions of GPS

Position is Based on Time T + 3 Then distance between satellite and receiver = “3 times the speed of light” T Radio waves travel at the speed of light. If GPS signal leaves satellite at time “T”… …and is picked up by the receiver at time “T + 3.”

Pseudo Random Noise Code Receiver PRN Satellite PRN Time Difference

What Time is it Anyway? Zulu Time Military Time (local time on a 24 hour clock) Universal Coordinated Time Greenwich Mean Time Local Time: AM and PM (adjusted for local time zone) GPS Time - 13* * GPS Time is currently ahead of UTC by 13 seconds.

Signal From One Satellite The receiver is somewhere on this sphere.

Signals From Two Satellites

Three Satellites (2D Positioning)

Triangulating Correct Position

Three Dimensional (3D) Positioning

Selective Availability (S/A)  The Defense Department dithered the satellite time message, reducing position accuracy to some GPS users.  S/A was designed to prevent America’s enemies from using GPS against us and our allies.  In May 2000 the Pentagon reduced S/A to zero meters error.  S/A could be reactivated at any time by the Pentagon.

Sources of GPS Error Standard Positioning Service (SPS ): Civilian Users SourceAmount of Error  Satellite clocks:1.5 to 3.6 meters  Orbital errors:< 1 meter  Ionosphere:5.0 to 7.0 meters  Troposphere:0.5 to 0.7 meters  Receiver noise:0.3 to 1.5 meters  Multipath:0.6 to 1.2 meters  Selective Availability(see notes)  User error:Up to a kilometer or more Errors are cumulative and increased by PDOP.

Sources of Signal Interference Earth’s Atmosphere Solid Structures Metal Electro-magnetic Fields

Receiver Errors are Cumulative! User error = +- 1 km System and other flaws = < 9 meters

GPS Dilution of Precision and Its Affects On GPS Accuracy

GPS Satellite Geometry  Satellite geometry can affect the quality of GPS signals and accuracy of receiver trilateration.  Dilution of Precision (DOP) reflects each satellite’s position relative to the other satellites being accessed by a receiver.  There are five distinct kinds of DOP.  Position Dilution of Precision (PDOP) is the DOP value used most commonly in GPS to determine the quality of a receiver’s position.  It is usually up to the GPS receiver to pick satellites which provide the best position triangulation.  More advanced GPS receivers can filter out poor DOP values.

Ideal Satellite Geometry N S W E

Good Satellite Geometry

Poor Satellite Geometry N S W E

Differential GPS  Realtime  Post process

DGPS Site x+30, y+60 x+5, y-3 True coordinates = x+0, y+0 Correction = x-5, y+3 DGPS correction = x+(30-5) and y+(60+3) True coordinates = x+25, y+63 x-5, y+3 Real Time Differential GPS DGPS Receiver Receiver

USCG NDGPS Ground Stations National Differential Global Positioning System Yellow areas show overlap between NDGPS stations. Green areas are little to no coverage. Topography may also limit some areas of coverage depicted here.

USCG NDGPS Ground Stations National Differential Global Positioning System Yellow areas show overlap between NDGPS stations. Green areas are little to no coverage. Topography may also limit some areas of coverage depicted here.

Wide Area Augmentation System Geostationary WAAS satellites GPS Constellation WAAS Control Station (West Coast) Local Area System (LAAS) WAAS Control Station (East Coast)

How good is WAAS? meters +-15 meters With Selective Availability set to zero, and under ideal conditions, a GPS receiver without WAAS can achieve fifteen meter accuracy most of the time.* Under ideal conditions a WAAS equipped GPS receiver can achieve three meter accuracy 95% of the time.* * Precision depends on good satellite geometry, open sky view, and no user induced errors.