Year: 2012 Language: English Author: Jin Shuanggen Format: PDF Quality: eBook Pages count: 438 Description: Global Positioning System (GPS) has been widely used in navigation, positioning, timing, and scientific questions related to precise positioning on Earth’s surface as a highly precise, continuous, all-weather and real-time technique, since GPS became fully operational in 1993. In addition, when the GPS signal propagates through the Earth’s atmosphere and ionosphere, it is delayed by the atmospheric refractivity. Nowadays, the atmospheric and ionospheric delays can be retrieved from GPS observations, which have facilitated greater advancements in meteorology, climatology, numerical weather models, atmospheric science, and space weather. Furthermore, GPS multipath as one of the main error sources has been recently recognized that GPS reflectometry (GPS-R) from the Earth’s surface could be used to sense the Earth’s surface environments. Together, with the US's modernized GPS-IIF and planned GPS-III, Russia’s restored GLONASS, the coming European Union's GALILEO system, and China's Beidou/COMPASS system, as well as a number of Space Based Augmentation Systems (SBAS), such as Japan's Quasi-Zenith Satellite System (QZSS) and India’s Regional Navigation Satellite Systems (IRNSS), more potentials for the next generation multi-frequency and multi-system global navigation satellite systems (GNSS) will be realized. Therefore, it is valuable to provide detailed information on GNSS techniques and applications for readers and users.
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Global Navigation Satellite Systems
Language: English
Author: Jin Shuanggen
Format: PDF
Quality: eBook
Pages count: 438
Description: Global Positioning System (GPS) has been widely used in navigation, positioning,
timing, and scientific questions related to precise positioning on Earth’s surface as a
highly precise, continuous, all-weather and real-time technique, since GPS became
fully operational in 1993. In addition, when the GPS signal propagates through the
Earth’s atmosphere and ionosphere, it is delayed by the atmospheric refractivity.
Nowadays, the atmospheric and ionospheric delays can be retrieved from GPS
observations, which have facilitated greater advancements in meteorology,
climatology, numerical weather models, atmospheric science, and space weather.
Furthermore, GPS multipath as one of the main error sources has been recently
recognized that GPS reflectometry (GPS-R) from the Earth’s surface could be used to
sense the Earth’s surface environments. Together, with the US's modernized GPS-IIF
and planned GPS-III, Russia’s restored GLONASS, the coming European Union's
GALILEO system, and China's Beidou/COMPASS system, as well as a number of
Space Based Augmentation Systems (SBAS), such as Japan's Quasi-Zenith Satellite
System (QZSS) and India’s Regional Navigation Satellite Systems (IRNSS), more
potentials for the next generation multi-frequency and multi-system global navigation
satellite systems (GNSS) will be realized. Therefore, it is valuable to provide detailed
information on GNSS techniques and applications for readers and users.
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