Remote Sensing (Aug 2022)

Wide-Area GNSS Corrections for Precise Positioning and Navigation in Agriculture

  • Manuel Hernández-Pajares,
  • Germán Olivares-Pulido,
  • Victoria Graffigna,
  • Alberto García-Rigo,
  • Haixia Lyu,
  • David Roma-Dollase,
  • M. Clara de Lacy,
  • Carles Fernández-Prades,
  • Javier Arribas,
  • Marc Majoral,
  • Zizis Tisropoulos,
  • Panagiotis Stamatelopoulos,
  • Machi Symeonidou,
  • Michael Schmidt,
  • Andreas Goss,
  • Eren Erdogan,
  • Frits K. van Evert,
  • Pieter M. Blok,
  • Juan Grosso,
  • Emiliano Spaltro,
  • Jacobo Domínguez,
  • Esther López,
  • Alina Hriscu

DOI
https://doi.org/10.3390/rs14163845
Journal volume & issue
Vol. 14, no. 16
p. 3845

Abstract

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This paper characterizes, with static and roving GNSS receivers in the context of precision agriculture research, the hybrid ionospheric-geodetic GNSS model Wide-Area Real-Time Kinematics (WARTK), which computes and broadcasts real-time corrections for high-precision GNSS positioning and navigation within sparse GNSS receiver networks. This research is motivated by the potential benefits of the low-cost precise WARTK technique on mass-market applications such as precision agriculture. The results from two experiments summarized in this work, the second one involving a working spraying tractor, show, firstly, that the corrections from the model are in good agreement with the corrections provided by IGS (International GNSS Services) analysis centers computed in post-processing from global GNSS data. Moreover, secondly and most importantly, we have shown that WARTK provides navigation solutions at decimeter-level accuracy, and the ionospheric corrections significantly reduce the computational time for ambiguity estimation: up to convergence times for the 50%, 75% and 95% of cases equal or below 30 s (single-epoch), 150 s and 600 s approximately, vs. 1000 s, 2750 s and 4850 s without ionospheric corrections, everything for a roving receiver at more than 100 km far away from the nearest permanent receiver. The real-time horizontal position errors reach up to 3 cm, 5 cm and 12 cm for 50%, 75% and 95% of cases, respectively, by constraining and continuously updating the ambiguities without updating the permanent receiver coordinates, vs. the 6 cm, 12 cm and 32 cm, respectively, in the same conditions but without WARTK ionospheric corrections.

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