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MSAS Signal Structure: Difference between revisions
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==MSAS Signal Structure== | ==MSAS Signal Structure== | ||
• Signal characteristics are compliant with ICAO | |||
SARPs | |||
– Frequency ; L1 1575.42MHz | |||
– Band width ; 2.2MHz | |||
-Compatibility & Interoperability achivement. | – 500 BPS FEC | ||
– Signal strength on the earth surface >-161dBw | |||
• Planned signals | |||
– Band width expansion for L1 | |||
– L5 signal | |||
– Compatibility & Interoperability achivement. | |||
==Notes== | ==Notes== |
Revision as of 14:33, 5 July 2011
MSAS | |
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Title | MSAS Signal Structure |
Author(s) | GMV. |
Level | Basic |
Year of Publication | 2011 |
The Multi-functional Satellite Augmentation System (MSAS) is the Japanese SBAS System: a GPS Augmentation system with the goal of improving its accuracy, integrity, and availability, and that uses the Multifunctional Transport Satellites (MTSAT) owned and operated by the Japanese Ministry of Land, Infrastructure and Transport and the Japan Meteorological Agency (JMA). Tests had been accomplished successfully, and MSAS for aviation use was commissioned on September 27, 2007.[1]
MSAS receives GPS signal at the Ground Monitor Stations and the Monitor & Ranging Stations, checks operational status of GPS, analyze GPS error and ionospheric delay, and then broadcasts augmentation information through MTSAT (Multi-functional Transport Satellite)[2] from the Master Control Stations. Those satellites, MTSAT, broadcast the correction messages back to Earth, where MSAS-enabled GPS receivers use the corrections while computing their positions to improve accuracy.
MSAS Signal Structure
• Signal characteristics are compliant with ICAO SARPs – Frequency ; L1 1575.42MHz
– Band width ; 2.2MHz
– 500 BPS FEC
– Signal strength on the earth surface >-161dBw
• Planned signals
– Band width expansion for L1
– L5 signal
– Compatibility & Interoperability achivement.