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Warianty tytułu
Języki publikacji
Abstrakty
The rapid development of satellite navigation and timing technologies and the broad availability of user equipment and applications has dramatically changed the world over the last 20 years. It took 38 years from the launch of the world’s first artificial satellite, Sputnik 1, (October 4, 1957) to the day NAVSTAR GPS became fully operational (July 17, 1995). In the next 20 years user equipment became widely available at the consumer level, and 10 global and regional satellite systems were partially or fully deployed. These highly precise signals provided free to the user have been incorporated by clever engineers into virtually every technology. At the same time interference with these signals (spoofing and jamming) have become a significant day to day problem in many societies and pose a significant threat to critical infrastructure. This paper provides information on the current status and development of navigation satellite systems based on data provided by the systems' administrators. It also provides information on Loran/eLoran, a system which many nations have selected as a complement and backup for satellite navigation systems.
Rocznik
Tom
Strony
183--192
Opis fizyczny
Bibliogr. 14 poz., rys., tab.
Twórcy
autor
- Gdynia Maritime University, Gdynia, Poland Resilient Navigation and Timing Foundation, USA
autor
- Resilient Navigation and Timing Foundation, USA
Bibliografia
- 1. China Satellite Navigation Office (CSNO). 2013. BeiDou Navigation Satellite System Open Service Performance Standard (Version 1.0), China
- 2. Hein G.W. 2015. Current Status and Future Perspectives of GALILEO & EGNOSS, IAIN World Congress, Prague, Czech Republic
- 3. Indi C.L., Sunda S. 2012. Ionospheric data collection and analysis over Indian region ‐ Recent results. First Meeting of ionospheric Studies Task Force (ISTF/1), Tokio, Japan
- 4. Januszewski J. 2010. Stacje segmentu naziemnego nawigacyjnych systemów satelitarnych i systemów je wspomagających., Prace wydziału nawigacyjnego Akademii Morskiej w Gdyni, nr 25
- 5. Jean P. 2015 Galileo and EGNOS Programmes Status Update. The Tenth Meeting of International Committee on Global Navigation Satellite Systems, Boulder, USA
- 6. Kogure S. 2015. The Current Status of QZSS Program. IAIN World Congress, Prague, Czech Republic
- 7. Mirgorodskaya T. 2012. GLONASS Government Policy, Status and Modernization. 3rd China Satellite Navigation Conference, Guangzhou, China
- 8. Moriyama H. 2015. Status Update on the Quasi‐Zenith Satellite System (QZSS). The Tenth Meeting of International Committee on Global Navigation Satellite Systems, Boulder, USA
- 9. Parikh K.S. 2015. Update on Indian Regional Navigation Satellite System (IRNSS) and GPS Aided Geo Augmented Navigation (GAGAN). The Tenth Meeting of International Committee on Global Navigation Satellite Systems, Boulder, USA
- 10. Parkinson B. 2012. GPS for Humanity, Stanford University, USA
- 11. Ran Ch. 2015. Update on BeiDou Navigation Satellite System. The Tenth Meeting of International Committee on Global Navigation Satellite Systems, Boulder, USA
- 12. Revnivykh S. 2015 GLONASS Status and Evolution, IAIN World Congress 2015, Prague
- 13. RNT Foundation 2015. http://rntfnd.org/2015/12/10/usto‐ build‐eloran‐timing‐then‐navigation‐network‐tocomplement‐gps/
- 14. Terada K. 2008 Overview of MSAS MTSAT Satellitebased Augmentation System. The Third Meeting of International Committee on Global Navigation Satellite Systems, Pasadena, USA
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-95853a7c-210a-44c4-9be7-f65ab6f6b9a2
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