Ivan G. Petrovski II
The Ionosphere with GNSS SDR (eBook, PDF)
Specialized Software-Defined Radio for In-Depth Ionospheric Research
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Ivan G. Petrovski II
The Ionosphere with GNSS SDR (eBook, PDF)
Specialized Software-Defined Radio for In-Depth Ionospheric Research
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Includes a free version of ionospheric scintillation monitor software. The data are related to various events, such as earthquakes and solar eclipses
Presents an application of Software Defined Radio (SDR) to ionospheric research
Technical language and mathematical formalization is described in very clear and intuitive way
- Geräte: PC
- ohne Kopierschutz
- eBook Hilfe
- Größe: 16.51MB
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Includes a free version of ionospheric scintillation monitor software. The data are related to various events, such as earthquakes and solar eclipses
Presents an application of Software Defined Radio (SDR) to ionospheric research
Technical language and mathematical formalization is described in very clear and intuitive way
Presents an application of Software Defined Radio (SDR) to ionospheric research
Technical language and mathematical formalization is described in very clear and intuitive way
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Springer International Publishing
- Seitenzahl: 276
- Erscheinungstermin: 12. Juni 2024
- Englisch
- ISBN-13: 9783031534430
- Artikelnr.: 70959698
- Verlag: Springer International Publishing
- Seitenzahl: 276
- Erscheinungstermin: 12. Juni 2024
- Englisch
- ISBN-13: 9783031534430
- Artikelnr.: 70959698
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Dr. Petrovski initiated his academic and research career in 1986 at Moscow Aviation Institute in the USSR. In 1997, he relocated to Japan following an invitation from the Japan Science and Technology Agency. Specializing in GNSS technologies and ionospheric studies, he has focused on integrating theoretical foundations with practical engineering solutions.
During his tenure in the Japanese aerospace sector, which included roles at institutions now part of JAXA, Dr. Petrovski has been instrumental in advancing pragmatic innovations. His educational contributions have included regular lectures at the Tokyo GNSS International Summer School, organized by TUMSAT and the Institute of Positioning, Navigation and Timing of Japan.
Dr. Petrovski's bibliography includes two books published by Cambridge University Press, as well as numerous research papers, magazine articles and patents.
During his tenure in the Japanese aerospace sector, which included roles at institutions now part of JAXA, Dr. Petrovski has been instrumental in advancing pragmatic innovations. His educational contributions have included regular lectures at the Tokyo GNSS International Summer School, organized by TUMSAT and the Institute of Positioning, Navigation and Timing of Japan.
Dr. Petrovski's bibliography includes two books published by Cambridge University Press, as well as numerous research papers, magazine articles and patents.
Part I Ionosphere and applications.- Ionosphere and practical applications.- Physics of the ionosphere. Effects of solar activity and Earth magnetic field.- Ionosphere effect on radio.- Ionosphere effect on GNSS.- Ionosphere effect and weather.- Ionosphere and earthquakes.- Unproved hypotheses related to ionosphere.- Part II Models.- Information derivable from ionospheric measurements.- TEC models.- Scintillation models.- Low frequency models.- Part III Instruments.- Probes and ionometers.- Schumann receiver.- GNSS receiver. Receiver - pseudolite pair.- Ionospheric scintillation monitor.- Part VI Measurements.- Ground based measurements.- Network based measurements.- Airborne measurements.- Spaceborne measurements and occultation method.- Active measurements and upsetting effects.- Part V Case study: SDR ionospheric scintillation monitor. Ground based and airborne measurements.- TEC.- Scintillation effects.- Eclipse events.- Earthquake events.
Part I Ionosphere and applications.
Ionosphere and practical applications.
Physics of the ionosphere. Effects of solar activity and Earth magnetic field.
Ionosphere effect on radio.
Ionosphere effect on GNSS.
Ionosphere effect and weather.
Ionosphere and earthquakes.
Unproved hypotheses related to ionosphere.
Part II Models.
Information derivable from ionospheric measurements.
TEC models.
Scintillation models.
Low frequency models.
Part III Instruments.
Probes and ionometers.
Schumann receiver.
GNSS receiver. Receiver
pseudolite pair.
Ionospheric scintillation monitor.
Part VI Measurements.
Ground based measurements.
Network based measurements.
Airborne measurements.
Spaceborne measurements and occultation method.
Active measurements and upsetting effects.
Part V Case study: SDR ionospheric scintillation monitor. Ground based and airborne measurements.
TEC.
Scintillation effects.
Eclipse events.
Earthquake events.
Ionosphere and practical applications.
Physics of the ionosphere. Effects of solar activity and Earth magnetic field.
Ionosphere effect on radio.
Ionosphere effect on GNSS.
Ionosphere effect and weather.
Ionosphere and earthquakes.
Unproved hypotheses related to ionosphere.
Part II Models.
Information derivable from ionospheric measurements.
TEC models.
Scintillation models.
Low frequency models.
Part III Instruments.
Probes and ionometers.
Schumann receiver.
GNSS receiver. Receiver
pseudolite pair.
Ionospheric scintillation monitor.
Part VI Measurements.
Ground based measurements.
Network based measurements.
Airborne measurements.
Spaceborne measurements and occultation method.
Active measurements and upsetting effects.
Part V Case study: SDR ionospheric scintillation monitor. Ground based and airborne measurements.
TEC.
Scintillation effects.
Eclipse events.
Earthquake events.
Part I Ionosphere and applications.- Ionosphere and practical applications.- Physics of the ionosphere. Effects of solar activity and Earth magnetic field.- Ionosphere effect on radio.- Ionosphere effect on GNSS.- Ionosphere effect and weather.- Ionosphere and earthquakes.- Unproved hypotheses related to ionosphere.- Part II Models.- Information derivable from ionospheric measurements.- TEC models.- Scintillation models.- Low frequency models.- Part III Instruments.- Probes and ionometers.- Schumann receiver.- GNSS receiver. Receiver - pseudolite pair.- Ionospheric scintillation monitor.- Part VI Measurements.- Ground based measurements.- Network based measurements.- Airborne measurements.- Spaceborne measurements and occultation method.- Active measurements and upsetting effects.- Part V Case study: SDR ionospheric scintillation monitor. Ground based and airborne measurements.- TEC.- Scintillation effects.- Eclipse events.- Earthquake events.
Part I Ionosphere and applications.
Ionosphere and practical applications.
Physics of the ionosphere. Effects of solar activity and Earth magnetic field.
Ionosphere effect on radio.
Ionosphere effect on GNSS.
Ionosphere effect and weather.
Ionosphere and earthquakes.
Unproved hypotheses related to ionosphere.
Part II Models.
Information derivable from ionospheric measurements.
TEC models.
Scintillation models.
Low frequency models.
Part III Instruments.
Probes and ionometers.
Schumann receiver.
GNSS receiver. Receiver
pseudolite pair.
Ionospheric scintillation monitor.
Part VI Measurements.
Ground based measurements.
Network based measurements.
Airborne measurements.
Spaceborne measurements and occultation method.
Active measurements and upsetting effects.
Part V Case study: SDR ionospheric scintillation monitor. Ground based and airborne measurements.
TEC.
Scintillation effects.
Eclipse events.
Earthquake events.
Ionosphere and practical applications.
Physics of the ionosphere. Effects of solar activity and Earth magnetic field.
Ionosphere effect on radio.
Ionosphere effect on GNSS.
Ionosphere effect and weather.
Ionosphere and earthquakes.
Unproved hypotheses related to ionosphere.
Part II Models.
Information derivable from ionospheric measurements.
TEC models.
Scintillation models.
Low frequency models.
Part III Instruments.
Probes and ionometers.
Schumann receiver.
GNSS receiver. Receiver
pseudolite pair.
Ionospheric scintillation monitor.
Part VI Measurements.
Ground based measurements.
Network based measurements.
Airborne measurements.
Spaceborne measurements and occultation method.
Active measurements and upsetting effects.
Part V Case study: SDR ionospheric scintillation monitor. Ground based and airborne measurements.
TEC.
Scintillation effects.
Eclipse events.
Earthquake events.