2. Conventional Standalone GPS
Worked on 1575.42MHz and 1227.60MHz
27 satellites were separated into 6 orbits on 20200km
height
24 satellites for use
3 satellites for spare
At least 4 satellites to calculate position,
3 to find out Lat/Long and height
1 to synchronize
GPS characteristics
When first turned on
Searching satellite -> Establish relation -> Receiving data ->
Calculation -> Result
Poor signal conditions
Surrounded by tall buildings (resulting in multi-path)
The satellite signals are weakened when a GPS device is used
indoors or under trees.
GLOBAL POSITIONING SYSTEM (GPS)
3. Mobile device receives the frame sent by satellite
30 sec per frame
GLOBAL POSITIONING SYSTEM (GPS)
4. Enhance the startup performance of a GPS satellite-
based positioning system
Abbreviate TTFF (Time to First Fix)
Enhance GPS sensitivity
Indoor coverage
A-GPS, using network elements such as either an
assistance server or other data from a network, falls
into two modes:
MS based A-GPS
MS Assisted A-GPS
ASSISTED GPS (A-GPS)
5. Can locate the phone roughly by which cell site it is
connected to on the cellular network.
Has a good satellite signal, and lots of computation
power, so it can compare fragmentary signals relayed
to it by cell phones, with the satellite signal it receives
directly, and then inform the cell phone or emergency
services of the cell phone's position.
Can supply orbital data and almanac for the GPS
satellites to the cell phone, enabling the cell phone to
lock to the satellites faster.
By having accurate, surveyed coordinates for the cell
site towers, it has better knowledge of ionospheric
conditions and other errors affecting the GPS signal
than the cell phone alone, enabling more precise
calculation of position.
ASSISTANCE SERVER
6. A-GPS terminal device
MS, A-GPS module
GMLC
Conversation gateway
A-GPS server
Web-based management
Calculation
GIS server
Map information
Database server:
Location data
POI
ASSISTED GPS SYSTEM STRUCTURE
7. Coordinates of the TX antenna of the cell in WGS-84
format.
Latitude: degrees (0, 90), minutes (0..59), seconds (0..59),
fractions (0..99), Latitude sign (0,1)
Longitude: degrees (0, 180), minutes (0..59), seconds (0..59),
fractions (0..99), Longitude sign (0,1)
Altitude: direction (height, depth), altitude measured from the
sea level to the TX antenna: meters (0..10000)
ACOS(COS(RADIANS(90-Lat1))
*COS(RADIANS(90-Lat2)) +SIN(RADIANS(90-Lat1))
*SIN(RADIANS(90-Lat2)) *COS(RADIANS(Long1-
Long2))) *6371
The greatest radius on an ellipsoid as 6378.135km
The smallest as 6356.752km.
ASSISTED GPS DISTANCE CALCULATION