Startseite On accurate time synchronization of multi-sensor mobile mapping systems
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On accurate time synchronization of multi-sensor mobile mapping systems

  • Charles Toth , Sung Woong Shin , Dorota A. Grejner-Brzezinska und Jay Hyoun Kwon
Veröffentlicht/Copyright: 19. September 2008
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Journal of Applied Geodesy
Aus der Zeitschrift Band 2 Heft 3

Abstract

This paper introduces a GPS time synchronization method intended for airborne and ground-based mobile mapping systems, where multiple sensors simultaneously acquire geospatial data, and accurate co-registration of the data in space and time domains is necessary. Although more and more sensors are coming with built-in GPS capabilities, which provides for ideal GPS time-tagging, and thus for spatial registration of the data, the great majority of the sensors used in mobile mapping still lack this capability. The proposed method offers an effective and simple solution to precise GPS time-tagging of sensors that are connected to a PC-based data acquisition system. Using a timer board and a GPS receiver connection, a time base transformation is established between the high-performance processor time and the GPS time, which results in the system level availability of the GPS time for any data acquisition process.

Keywords.: Time synchronization; GPS; mobile mapping; calibration
Received: 2008-02-04
Accepted: 2008-06-04
Published Online: 2008-09-19
Published in Print: 2008-September

© de Gruyter 2008

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https://doi.org/10.1515/JAG.2008.018
Schlagwörter für diesen Artikel
Time synchronization; GPS; mobile mapping; calibration

Artikel in diesem Heft

  1. A correlation based target finder for terrestrial laser scanning
  2. Determining uncertainties of correlated measurements by Monte Carlo simulations applied to laserscanning
  3. How well can online GPS PPP post-processing services be used to establish geodetic survey control networks?
  4. On accurate time synchronization of multi-sensor mobile mapping systems
  5. Land subsidence characteristics of the Bandung Basin, Indonesia, as estimated from GPS and InSAR
  6. Modelling of the 1986 Kalamata (SW Greece) earthquake faulting using geodetic data
  7. News Section
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