A dive into Galileo’s free corrections service, which places the “quad” in “quadband.”
A few of our current merchandise have been described as able to quadband reception, just like the RTK Postcard and LG290P Breakout board. What units these aside from our different multiband recievers? Like our different high-precision PNT merchandise, they’re able to L1/L2/L5 reception. Nevertheless, they take it a step additional by having the ability to obtain knowledge from the Galileo constellation’s E6b band.
In 2018, the European Area Company started a undertaking referred to as “Excessive Accuracy Service” (HAS). The aim of this undertaking was to make elevated accuracy GNSS out there globally by broadcasting corrections straight from every satellite tv for pc in real-time. Since then, new GNSS receivers have been designed which can be able to receiving and using these corrections, such because the Unicore UM980 and the Quectel LG290P.
Regular GNSS has a peak accuracy of round 1.5 meters, primarily as a result of uncertainty of adjustments to the provider section as indicators propagate via the ionosphere. So as to get higher accuracy than this, the GNSS indicators have to be augmented by “corrections”. HAS supplies corrections by transmitting them on the E6b band alongside their customary GNSS indicators.
So, how does HAS work?
HAS corrections are designed to be used in a Exact Level Positioning (PPP) algorithm; a typical use case for PPP could be establishing a really excessive accuracy place for a Everlasting Base Station. Conventional PPP works by having a community of floor stations monitoring satellite tv for pc broadcasts, computing the error in GNSS satellite tv for pc broadcasts (and different parameters), and creating corrections for these errors. To compute a corrected place utilizing PPP, a sequential estimation algorithm is used, equivalent to an Prolonged Kalman Filter, with the purpose of discovering the next output values:
- Receiver place (ECEF X, Y, Z)
- Receiver clock offset
- Tropospheric zenith delay
- Service-phase ambiguities
There are a selection of parameters that have to be corrected for after the bottom station community has noticed the GNSS indicators:
- Satellite tv for pc orbit corrections: These refine the published ephemeris knowledge to offer extra correct satellite tv for pc positions.
- Satellite tv for pc clock corrections: These enhance the accuracy of satellite tv for pc clock offset data.
- Satellite tv for pc biases: These embody code and section biases for supported Galileo indicators.
- Atmospheric corrections: Not at the moment out there; the complete service will embody atmospheric (not less than ionospheric) corrections, notably for the European Protection Space.
The drawbacks of PPP are the period of time and infrastructure it requires. The very best high quality PPP final result is barely out there 12-16 days after the one level knowledge has been collected. The CSRS Speedy PPP has centimeter degree accuracy just like RTK, however is just not out there till 12 hours after the top of the day the one level knowledge was captured on. For actual time, excessive accuracy operations, RTK continues to be the only option.
A novel characteristic of HAS is that these correction messages are computed for every satellite tv for pc within the Galileo constellation by a floor station, then uploaded to every respective satellite tv for pc the place they’re then broadcast alongside the usual GNSS indicators. This enables receivers to run the PPP algorithm in real-time, so long as they’re able to receiving the HAS E6b band, and so they have the power to run the PPP algorithm. Along with HAS E6-B satellite tv for pc broadcast, HAS PPP corrections will be obtained via their Web Information Distribution channel; this distribution channel capabilities very like NTRIP; you present credentials, and PPP corrections are piped to your system over the web utilizing NTRIP.
HAS is a tremendous achievement on this means; corrections out there almost worldwide, no base station or NTRIP community required. However, there are some downsides; the accuracy is comparatively dangerous in comparison with RTK (however nonetheless ok for a lot of use-cases), the method is considerably sluggish (5-Quarter-hour for PPP convergence), and it’s delicate to sudden velocity fluctuations.
What {hardware} is suitable with Galileo E6b-HAS?
SparkFun sells a number of merchandise which can be capable of obtain HAS corrections.
SparkFun RTK Torch
GPS-25662
SparkFun RTK Postcard
GPS-26916
Under is a listing of HAS enabled receivers.
| Producer | Mannequin | Section or Purposes | HAS channel/s |
|---|---|---|---|
| ANAVS | Multi-Sensor RTK/PPP Module | Automotive, robotics, maritime, railway, mining and surveying | E6b |
| ANAVS | AROX-PPP | Autonomous automobiles, Robots, UAVs and Vessels | E6b / IDD |
| Past Gravity | PODRIX | Area navigation, Exact Orbit Willpower (POD) | E6b |
| Past Gravity | NavRIX PinPoint | Area navigation, Exact Orbit Willpower (POD) | E6b |
| EOS Positioning | Arrow Gold+™ | Surveying and mapping | E6b |
| Hemisphere | Vega | Agriculture, building & mining, machine management, marine | E6b |
| Hemisphere | Phantom | Agriculture, building & mining, machine management, marine | E6b |
| Hello-Goal | iRTK5 | Surveying | E6b |
| Hello-Goal | VRTK | Surveying | E6b |
| Kongsberg | Seapath® 385 | Maritime / hydrographic surveying | E6b |
| Quectel | LG290P | Surveying | E6b |
| Rokubun | SPEAR (SDK) | Highway navigation, robotics engineering, location-based providers, good agriculture, IoT | – |
| SinoGNSS | K803 GNSS OEM module | Surveying | E6b |
| South | Perception V2 | Surveying | E6b |
| South | INNO7 (1598) | Surveying | E6b |
| South | Galaxy G3 | Surveying | E6b |
| Spaceopal | HAUT | HAS validation, surveying, maritime, machine management, aviation | E6b / IDD |
| SparkFun Electronics | RTK Torch | Surveying and mapping, exact agriculture | E6b |
| Unicore Communications | UM980 | Surveying and mapping, exact agriculture | E6b |
| Unicore Communications | UM981 | Surveying and mapping, exact agriculture, clever driving | E6b |
| Unicore Communications | UM982 | UAV and precision agriculture | E6b |
