OpenStreetMap
RTK test, Aerial pictures accuracy, and OSM Database Accuracy
Zapsal StephaneP 11. 9. 2017 v jazyce English. Naposledy aktualizováno 2. 6. 2024RTK accuracy
Since 1 or 2 years, I’m testing some low-cost GNSS receivers with RAW output. The goal is to get a cm accuracy. One way is to store the raw data, then post-process it with the open-source software RTKLIB.
I had various fails and success and I finally find a point to place my own reference station, my “base”:
One test was to put the “rover” on my car go back to my home. RTKLIB gave me a solution with “FIX” for a big part of the record :
orange is “float” and green is “fix” (best accuracy)
An interesting part is a new roundabout, too new to see it on any aerial picture :
Ok, but what about the accuracy ? So, zoom in, zoom in, ….. zoom more !!
Each square is 1 cm. Yes, the accuracy is about 1.5 centimeters !!
RTKLIB gave me a very good accuracy, but is this real ? I can’t answer for this individual point, but with the results I got on surveys points from the French national geographic institute (IGN), I think I can say that the accuracy should be at about 5 or 10 cm, as my base coordinates are not perfect.
RTK vs Aerial Imagery accuracy
We are in September 2017, and the IGN just published new aerial imagery, and they usually do a very very good job. Finally I can see the roundabout I draw on OpenStreetMap 1 year earlier.
Let’s compare my recording and the pictures:
Hey ! Not bad !! Now I must train to drive with a centimeter accuracy :-)
OpenStreetMap database accuracy
I speak about gnss trace accuracy, aerial imagery accuracy, but what about OpenStreetMap accuracy ? I heard that with 7 decimals, the coordinates stored in the OpenStreetMap database get only a 10 cm accuracy. Don’t you think that It’ll be a problem sooner or later ?
Perhaps we should consider adding a 8th decimal ?
Diskuse
Komentář od tyr_asd z 12. 09. 2017 v 07:27
Very impressive!
Btw: 7 decimal digits already correspond to about 1.1cm.
Komentář od SimonPoole z 12. 09. 2017 v 07:47
Just a further note on increasing the possible accuracy: the 7 decimal digits are a consequence of using 32bit signed integers for the coordinates, changing that would be fairly involved.
In any case effects due to movements of the continental plates are larger (see https://en.wikipedia.org/wiki/Plate_tectonics#/media/File:Global_plate_motion_2008-04-17.jpg ) than the limits on accuracy due to our coordinate representation and if anything should be addressed first.
Komentář od StephaneP z 12. 09. 2017 v 08:29
@SimonPoole Yes, the plates are moving, but it’s a good idea to have a good relative accuracy. If a plate was moving at 10 meters each years, I still wan’t to know if an object is 1 meter distant from another.
But I’ve calculate some distances on http://www.onlineconversion.com/map_greatcircle_distance.htm and tyr_asd is right, with the about 1 accuracy, so there is no problem. I think we have some time before we need a millimeter accuracy :-)
Komentář od Rinaldum z 12. 09. 2017 v 15:00
Dis, j’aimerais pas te rencontrer a la sortie d’un rond point :-D
Komentář od StephaneP z 12. 09. 2017 v 15:21
Ah bon ? Pourquoi ?
Komentář od philippec z 12. 09. 2017 v 20:11
He would miss you just by 1 cm.
Komentář od philippec z 12. 09. 2017 v 21:08
Where is the button I must push ?
Komentář od zstadler z 23. 09. 2017 v 09:52
Which low-cost RTK GNSS receivers are you using?
Komentář od StephaneP z 23. 09. 2017 v 15:43
I use two Navspark NS-HP (gps + beidou). http://navspark.mybigcommerce.com/ns-hp-rtk-capable-gps-gnss-receiver/
Komentář od Geonick z 24. 09. 2017 v 14:31
I’ve also heard from low-cost RTK GNSS which use Precise Point Positioning (PPP). Using these type of GPS mice (e.g. from u-blox) you don’t need a rover/base station and they reach sub-meter accurracy – especially when post-processed with RTKLIB: See e.g. https://www.u-blox.com/de/precise-point-positioning-ppp .
Komentář od jcr83 z 25. 09. 2017 v 15:05
Broadcom has announced a new GPS receiver chip (BCM4775X) that uses two frequency bands. They claim a 30 cm precision. See: https://www.broadcom.com/products/wireless/gnss-gps-socs/bcm47755/
If true, this precision would be good enough for OSM.
Komentář od StephaneP z 25. 09. 2017 v 16:28
@Geonic,
PPP is usually used with dual frequency receiver (L1 + L2), and the RTKLIB dev doesn’t recommend to use it with one one frequency. I’ve tested it but the results were not very good. And more important, PPP should be used in static mode, so you can’t use it when you move. I’ve never read user reviews on this special “Ublox PPP”, if you find one, i’m interested to read it.
@jcr83 Yes I’m aware of this chip (https://spectrum.ieee.org/tech-talk/semiconductors/design/superaccurate-gps-chips-coming-to-smartphones-in-2018). I hope we will see it soon in a final product. And other medium-cost L1/L5 receiver are already available (Siwft Navigation, Tersus).
There is a very interesting blog on precise satellite localization, but I don’t understand everything : https://rtklibexplorer.wordpress.com
Komentář od Adrian 2 z 5. 10. 2017 v 22:04
The u-blox NEO-7P does precise point positioning. I wrote about it briefly on talk-fr https://lists.openstreetmap.org/pipermail/talk-fr/2016-March/080463.html I am impressed with it, provided that you have a good view of the sky; and provided that, after startup, you wait for ten minutes for it to reach the best accuracy, before recording tracks.
Komentář od philippec z 5. 10. 2017 v 22:27
OSM has gone no further as to make first of april jokes on this delicate subject. I cannot laugh with such stupidity. The other kind of jokes are about agreements with Google. I am waiting for Galileo and a Bluetooth device to obtain a 2 meter accuracy. It may cost something.
Komentář od StephaneP z 6. 10. 2017 v 05:26
@philippec Could you explain our stupidity and make us smarter ?
Komentář od philippec z 6. 10. 2017 v 07:28
Maps are no laughing matter. Sending fallacies about them into the world can have serious consequences, even lead to loss of life. That is what these harsh words try to convey.
Komentář od myozone z 29. 10. 2018 v 17:19
This might be helpful.
https://en.wikipedia.org/wiki/Decimal_degrees