Introduction to the NAVSTAR Global Positioning System (GPS) - PowerPoint PPT Presentation

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Introduction to the NAVSTAR Global Positioning System (GPS)

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Presentation for the ICAO/FAA WGS-84 Seminar and Workshop, November 9, 1999, San Salvador. Prepared by Fred Henstridge and Bob Nelson. – PowerPoint PPT presentation

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Title: Introduction to the NAVSTAR Global Positioning System (GPS)

1
Introduction to the NAVSTAR Global Positioning
System (GPS)
2
Agenda

GPS Lineage
What is GPS
How Does It Work
Errors and Accuracy's in the GPS system
Future Initiatives

3
GPS Lineage

Phase 1 1973-1979
CONCEPT VALIDATION
1978- First Launch of Block 1 SV
Phase 2 1979-1985
FULL DEVELOPMENT AND TESTS
Phase 3 1985-Present
PRODUCTION AND DEPLOYMENT
1993-IOC 1995-FOC

4
What is GPS
The Global Positioning System (GPS) is a
Constellation of Earth-Orbiting Satellites
Maintained by the United States Government for
the Purpose of Defining Geographic Positions On
and Above the Surface of the Earth. It consists
of Three Segments

Space Segment
Control Segment
User Segment

5
Space Segment Description

24 satellites
6 planes with 55 Inclination
Each plane has 4 or 5 satellites
Broadcasting position and time information on 2
frequencies
Constellation has Spares

Very high orbit
20,200 km
1 revolution in approximately 12 hrs
For accuracy
Survivability
Coverage

6
Control Segment
Monitor and Control
7
Control Segment

Correct Orbit
and clock
errors
Create new
navigation message

Observe
ephemeris
and clock

Upload Station
(5) Monitor Stations
Falcon AFB
8
User Segment

Over 19 Billion invested by DoD
Dual Use System Since 1985
(civil military)
Civilian community was quick to take advantage of
the system
Hundreds of receivers on the market
3 billion in sales, double in 2 years
95 of current users
DoD/DoT Executive Board sets GPS policy

PLGR
9
Common Uses for GPS

Military Specific
Navigation
Surveying
Target acquisition and destruction
Missile Guidance Systems
Joint Direct Attack Munition (JDAM)
Tomahawk III
Joint Stand Off Weapon (JSOW)
Data Collection
Integration with INS for High dynamic
environment
Search Rescue Ops

10
How the system works
Space Segment 24 Satellites

Monitor Stations
Diego Garcia
Ascension Island
Kwajalein
Hawaii
Colorado Springs

11
Distance Measuring

The whole system revolves around time!!!
Distance Rate x Time
Rate 186,000 miles per second (Speed of Light)
Time time it takes signal to travel from the
SV to GPS receiver

12
Triangulation
Satellite 1
13
Distance Measuring
Transmission Time
The Carrier...
combined with
Satellite
The PRN code...
produces the
Modulated carrier signal
which is transmitted...
demodulated...
Receiver
Producing the same
code at the user, but
delayed...
Time delay
14
Signal Structure
L1 Carrier Wave 1575.42MHz
15
Signal Structure
L2 Carrier Wave 1227.6MHz
16
Measuring Travel Time

SV Clocks
2 Cesium 2 Rubidium in each SV
100,000-500,000 each
Receiver Clocks
Clocks similar to quartz watch
Always an error between satellite and receiver
clocks ( ? t)
Require 4 satellites to solve for x, y, z, and
? t

17
Measuring Travel Time
Time Adjustment
1
2
X
18
3 vs 4 Satellites
19
Satellite Locations

Cartesian Coordinate System
Three dimensional right coordinate system with an
origin at the center of the earth and the X axis
oriented at at the Prime Meridian and the Z at
the North Pole
X Axis Coordinate Distance in meters from the
the prime meridian at the origin positive from
90º E Long to 90º W Long
Y Axis Coordinate Distance in metersfrom 90º E
longitude at the origin positive in the eastern
hemisphere and negative in the western
Z Axis Coordinate Distance in meters from the
plane of the equator positive in the northern
Hemispherenegative in the southern

Z
(X,Y,Z)
Y90E
X0º Long
Prime Meridian
20
Common Problems - Errors
Reflected Signal
Direct Signal
Reflected Signal
21
Selective Availability (S/A)

Implemented on Block II satellites, but turned
off 2 May 2000 for the foreseeable future
Requires military to develop Direct Y Code
receivers and local jamming capability
Introduces deliberate errors into satellite
ephemeris (SV location) and clock parameters on
the C\A code
Degrades horizontal positional accuracy to 100m
2DRMS (95 of the time.)

22
Anti-Spoofing (A-S)
23
Resistance to Jamming

Low power signal is vulnerable to jamming
Intentional or unintentional jamming
Theater wide jamming
Local area jamming
The P-Code is phase modulated to provide better
resistance to jamming
DoD working on electronic warfare enhancements
to deny disruption and spoofing.
Direct Y-Code Receivers
Theater jamming capability

24
Common Problems - Errors
Pseudo-Ranging Errors

Satellite clock (S/A)
Ephemeris/orbit (S/A)
Atmospheric delays Ionosphere Troposphere
Receiver computation
noise

25
Common Problems - Errors

Errors Caused By GPS Multipath Reflections
Use Ground Plane On Antenna
Move Away From Reflective Surfaces
Influences on the GPS Signal
Radar
Microwave
ILS or Radio NDB Equipment
ATC Radio Traffic
Misidentification of Thresholds and Other Features

26
GPS Multipath Errors
Effects of Multipath on the GPS Signal

Avoid Reflective Surfaces
Use A Ground Plane Antenna
Use Multipath Rejection Receiver

27
Dilution Of Precision (DOP)
A Measure of The Geometry Of The Visible GPS
Constellation
28
Dilution Of Precision (3)

PDOP Position Dilution Of Precision (Most
Commonly Used)
VDOP Vertical Dilution Of Precision
GDOP Geometric Dilution Of Precision
HDOP Horizontal Dilution Of Precision
TDOP Time Dilution Of Precision

Mission Planning Is Critical to Obtain Good DOP
29
System Accuracy
Standard Positioning Service (SPS)

Available to all users
Accuracy was degraded by Selective Availability
until 2 May 2000
Horizontal Accuracy 100 meters 2 DRMS (40 meters
CEP)
Now has roughly the same accuracy as PPS
Used by military receivers before Y-code lock is
established

30
Scatter plot of horizontal accuracy 2 May 2000
31
System Accuracy
Precise Positioning Service (PPS)

Only available to authorized DoD users
Decryption device and crypto key are required to
decode A-S and remove SA
GUV Key (1 year)
CVW Key (1 week)
Accurate to 21m 2DRMS (8 m CEP)
95 of the time, a receiver's computed horizontal
position will be within 21 meters of its actual
location

32
GPS Accuracy - PPS
Specifications and Derived Values
CEP/50
DRMS
2DRMS/95
PPS
Position
Horizontal
8 m
10.5 m
21 m
Vertical
9 m
14 m
28 m
Spherical
16 m
18 m
36 m
Velocity
Any Axis
0.07 m/sec
0.1 m/sec
0.2 m/sec
Time
GPS
17 nsec
26 nsec
52 nsec
UTC
68 nsec
100 nsec
200 nsec
33
Error and Map Problems
50 m Map Error
Map coordinate determined by terrain association
X
X
GPS coordinate plotted on map
21m GPS Error
34
Differential GPS
Types of Differential Coverage

Coverage
Local Area (Coast Guard)
Wide Area (INMARSAT)
Methods
Real-Time (navigation/mapping)
Post Processing (survey)

35
DGPS Positioning
36
DGPS Navigation
Coast Guard Differential GPS System

Initial Operational Capability on 30 Jan 96
Provides pseudo-range corrections over existing
radio beacons
Corrections to NAD-83 (WGS-84)
Observed accuracy 1 to 3 meters out to 150
nautical miles from base station
Station sites available on the internet
(WWW.NAVCEN.USCG.MIL)

37
DGPS Positioning
Wide Area Differential GPS
Error
correction
message
GPS
signals
Reference receivers
Field receiver
Real-time Corrections to Remove S/A etc.
38
Future Developments
Planned Replenishments - Block IIR