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USA President Bill Clinton ordered the cessation of GPS Selective Availability on May 1st, 2000.<ref>[http://www.navcen.uscg.gov./?pageName=gpsSelectiveAvailability
USA President Bill Clinton ordered the cessation of GPS Selective Availability on May 1st, 2000.<ref>[http://www.navcen.uscg.gov./?pageName=gpsSelectiveAvailability
Announcement of the cessation of GPS Selective Availability on May 1st, 2000]</ref>
Announcement of the cessation of GPS Selective Availability on May 1st, 2000]</ref>
In September 2007, the U.S. Government announced its decision to procure the future generation of GPS satellites, known as GPS III, without the SA feature. Doing this will make the policy decision of 2000 permanent and eliminate a source of uncertainty in GPS performance that has been of concern to civil GPS users worldwide for some time.<ref> [http://www.pnt.gov/public/docs/2007/sa.shtml GPS III, without the SA feature]</ref>
In September 2007, the U.S. Government announced its decision to procure the future generation of GPS satellites, known as GPS III, without the SA feature. Doing this will make the policy decision of 2000 permanent and eliminate a source of uncertainty in GPS performance that has been of concern to civil GPS users worldwide for some time.<ref>[http://www.pnt.gov/public/docs/2007/sa.shtml GPS III, without the SA feature]</ref>


* '''A/S or Anti-Spooffing''': it consists in P code encryption by combining it with a secret W code, resulting in the Y code, which is modulated over the two carriers L1 and L2. The purpose is to protect military receivers from an adversary transmitting a fault copy of GPS signal to mislead the receiver, and to deny the access of non authorized users to the precise ranging code P in L1 and L2 frequencies, being solely C/A code available over L1.  
* '''A/S or Anti-Spooffing''': it consists in P code encryption by combining it with a secret W code, resulting in the Y code, which is modulated over the two carriers L1 and L2. The purpose is to protect military receivers from an adversary transmitting a fault copy of GPS signal to mislead the receiver, and to deny the access of non authorized users to the precise ranging code P in L1 and L2 frequencies, being solely C/A code available over L1.  

Revision as of 08:08, 1 April 2011


GPSGPS
Title GPS Services
Author(s) GMV
Level Basic
Year of Publication 2011
Logo GMV.png


Two levels of service are provided by the GPS, the Precise Positioning Service (PPS) and the Standard Positioning Service (SPS).

Precise Positioning Service

As defined by the United States Government the GPS [1] Precise Positioning Service (PPS) is a positioning and timing service provided by way of authorized access to ranging signals broadcast at the GPS L1 and L2 frequencies. The L1 frequency, transmitted by all Navstar satellites, contains a coarse/acquisition (C/A) code ranging signal, with a navigation data message, that is available for peaceful civil, commercial, and scientific use; and a precision (P) code ranging signal with a navigation data message, that is reserved for authorized use. The P-code will normally be cryptographically altered to become the Y-code. The Y-code will not be available to users that do not have valid cryptographic keys. Navstar satellites also transmit a second P- or Y-(P(Y)-) code ranging signal with a navigation data message at the L2 frequency.

In order to restrict civilian user access to full system accuracy, the following protections were introduced:

  • S/A or Selective Availability: intentional satellite clock degradation (process-δ) and ephemeris manipulation (process-ε). The effect on horizontal positioning implies going from about 10m (S/A=off) to 100m (S/A=on).[2] The process-δ acts directly over satellite clock fundamental frequency, which has a direct impact on pseudoranges to be calculated by user's receivers. The process-ε consists in truncating information related to the orbits.

USA President Bill Clinton ordered the cessation of GPS Selective Availability on May 1st, 2000.[3] In September 2007, the U.S. Government announced its decision to procure the future generation of GPS satellites, known as GPS III, without the SA feature. Doing this will make the policy decision of 2000 permanent and eliminate a source of uncertainty in GPS performance that has been of concern to civil GPS users worldwide for some time.[4]

  • A/S or Anti-Spooffing: it consists in P code encryption by combining it with a secret W code, resulting in the Y code, which is modulated over the two carriers L1 and L2. The purpose is to protect military receivers from an adversary transmitting a fault copy of GPS signal to mislead the receiver, and to deny the access of non authorized users to the precise ranging code P in L1 and L2 frequencies, being solely C/A code available over L1.
GPS accuracy before and after SA removal

Encryption keys and techniques are provided to PPS users which allow them to remove the effects of SA and A-S and thereby attain the maximum accuracy of GPS. PPS receivers that have not been loaded with a valid cryptographic key will have the performance of an SPS receiver.

The P(Y)-code defines the Precise Positioning Service (PPS): it is reserved for military use and authorized civilian users. The sequence is repeated every 266 days (38 weeks) and a weekly portion of this code is assigned to every satellite, called PRN sequence. Its chipping-rate is 10Mbps, which leads to a wavelength of 29:31 m. It is modulated over both carriers L1 and L2.

PPS receivers can use either the P(Y)-code or C/A-code or both. Maximum GPS accuracy will be obtained using the P(Y)-code on both L1 and L2.

Please refer to GPS Performances for more information about the performances provided by the PPS service.

Standard Positioning Service

As defined by the United States Government is[5] the GPS Standard Positioning Service (PPS) is a positioning and timing service provided by way of ranging signals broadcast at the GPS L1 frequency. The L1 frequency, transmitted by all satellites, contains a coarse/acquisition (C/A) code ranging signal, with a navigation data message, that is available for peaceful civil, commercial, and scientific use.

Coarse/Acquisition code (C/A(t)) defines the Standard Positioning Service (SPS): it is also known as civilian code. This sequence contains 1 023 chips and is repeated every millisecond (i.e, a chipping-rate of 1.023 MHz). Thence, the duration of each C/A-code chip is about 1 µs, which means a chip-width or wavelength of 293.1 metre. This code is modulated only on L1.

Please refer to GPS Performances for more information about the performances provided by the SPS service.


Notes

References

  1. ^ Global Positioning Sys-tem Precise Positioning Service Performance Standard
  2. ^ J. Sanz Subirana, JM. Juan Zornoza and M. Hernández-Pajares, Global Navigation Satellite Systems: Volume I: Fundamentals and Algorithms
  3. ^ [http://www.navcen.uscg.gov./?pageName=gpsSelectiveAvailability Announcement of the cessation of GPS Selective Availability on May 1st, 2000]
  4. ^ GPS III, without the SA feature
  5. ^ Global Positioning Sys-tem Standard Positioning Service Performance Standard