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Applanix PP-RTX™ in Hydrographic Survey

Trimble Applanix

Applanix’ industry leading POSPac MMS GNSS Inertial software, and in particular the Applanix SmartBase (ASB) post-processed virtual reference station technique, has been widely adopted as a robust and reliable method of Direct Georeferencing multibeam data...

Introduction

Applanix’s industry-leading POSPac MMS GNSS Inertial software, particularly the Applanix SmartBase (ASB) post-processed virtual reference station technique, has been widely adopted as a robust and reliable method of Direct Georeferencing Multibeam data. New in POSPac MMS 8.0 is a unique PP-RTX™ GNSS aided-inertial module that provides centimetre-level post-processed positioning accuracies without using local reference stations. This new method integrates Trimble CenterPoint® RTX technology into POSPac MMS. RTX is Trimble’s approach to PPP with advanced ambiguity resolution, providing its ephemeris correction service, leading to integer-level ambiguities for accuracy approaching that of RTK. Applanix’s industry-leading POSPac MMS GNSS Inertial software, particularly the Applanix SmartBase (ASB) post-processed virtual reference station technique, has been widely adopted as a robust and reliable method of Direct Georeferencing Multibeam data.

Post-Processing using POSPac from Applanix

A global network of approximately 100 stations tracking GPS, GLONASS, BDS, QZSS and Galileo provide the raw data for analysis and processing to produce the PP-RTX corrections, which are then made available via the internet within one hour in real-time.

Compared to real-time PPP services, the PP-RTX post-processed approach provides some advantages:

Almost no Convergence Time

By processing the data in both the forward and backward direction, the already converged solution from the forward pass may be used as a “seed” for the backward direction.

Robust Acquisition of Correction Data

As noted previously, the PP-RTX data is available within one hour in real-time. This ensures a fast turnaround of the solution, previously unavailable for post-processed PPP services. In the context of a comparison to real-time PPP services, archiving the data on the internet ensures more robust and reliable access to the correction data. In turn, this improves availability and accuracy.

Performance Results

Performance analysis of 14 different datasets from various locations worldwide was done by comparing the PP-RTX solution to that from SmartBase. The results are presented below.

PP-RTX - ASB mean std rms 68% 95%
North 0.000 0.019 0.019 0.012 0.033
East -0.003 0.021 0.021 0.016 0.035
Down 0.018 0.046 0.049 0.043 0.086
 
Port of London Case Study

More recently, a new data set was collected by the Port of London Hydrographic Service on their vessel Maplin. Maplin is equipped with a POS MV™ OceanMaster GNSS-aided inertial navigation system for georeferencing the R2Sonic™ 2024 Multibeam sonar. Hypack™ was used for data acquisition, and Fledermaus™ was used to visualise some results.

The data was collected in the Thames Estuary, where Ordnance Survey OSNet GNSS reference stations provide the data necessary to compute a SmartBase post-processed VRS network. The Applanix SmartBase (ASB) technology allows the computation of a centimetric-accurate position solution, with distances to the nearest reference station on the order of 20-60 km. A comparison was then made between the ASB solution and that from PP-RTX. The results are shown below.

Post-Processing Position Difference for North, East, and Down.

The maximum difference in horizontal is approximately 0.04 m in horizontal and about 0.07 m in vertical. Both The ASB and PP-RTX SBET solutions were applied to the bathymetry, and the results were compared. An RMS surface derived from each SBET is shown below.

Post-Processing SBET solution with Applanix Smart Base. Post-Processing SBET solution with Applanix PP-RTX.

Differencing the two surfaces confirms the level of agreement, with no differences greater than 10 cm and the majority less than 5 cm.

Differencing SBET solutions: Applanix Smart Base and Applanix PP-RTX.

 

Summary and Conclusions:

POSPac MMS using PP-RTX aided-inertial technology:

  • has been shown to match the North, East and Down position computed using the ASB (Applanix SmartBase) network Carrier Phase DGNSS processing for 15 POS MV data sets to an accuracy of 0.019m, 0.021 m and 0.049 m RMS, respectively, which is sufficient to meet the accuracy requirements for a majority of mapping applications,

  • does not need local reference stations,
  • can obtain carrier phase ambiguity fixing in as little as 5.4 minutes and, on average, 20 minutes when clean GNSS observables are collected,
  • provides a convergence-free solution by combining the forward and backward solutions,
  • is available 1 hour after data collection,
  • allows for the Direct Georeferencing of a sample MBES data series in agreement with the equivalent ASB solution to better than 0.10 m, with the majority agreeing to better than 0.05
  • and is available to be used by all models of POS MV.

PP-RTX is available as a subscription to be enabled on any POSPac MMS licence currently under maintenance. Both 6 and 12-month subscriptions are available. Please contact Applanix or your local reseller for further details.

Acknowledgements:

Applanix would like to thank the Port of London Authority for their generous assistance in collecting the data used in this case study.

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