Summary: We recently did an interesting test where we used NDVI imagery from one of our drones to detect improvements in plant health over a 10 day period.We found that the NDVI was sensitive enough to detect these improvements once the nutrition had been applied.
Main Discussion:
In September 2014 we launched our agricultural drone (www.agridrone.co) at the Agri Mega trade fair in Bredasdorp, South Africa. We are a small startup using PixHawk-based drones to map farms to provide timeous, high resolution RGB and NDVI imagery to farmers, agronomists and soil scientists.
Based on testing work we did the previous season, we were approached by an organic wine farmer and an organic plant nutrition developer to conduct a test of an organic plant nutrition product. The company, Agro-Organics from Somerset West, South Africa, has been working with organic wine farmer Dr Edmund Oettle, of Uplands Organic Estate. They wanted to see if the expected improvement in the vineyard could be detected by our NDVI.
We therefore planned 6 flights over a 10 day period. The plant nutrition was applied at the end of Day 1, after the first mapping flights were done. We then intended to fly on 5 follow up days and compare imagery. In the event, a mistake I made in planning the flights meant that the first day's flight was not usable for comparison, but we were still able to compare the subsequent days.
By flying the identical mission at the same time of day we managed to get comparable images. We were fortunate to get clear conditions on every day, but on some days we had quite strong winds to contend with.
Several images are attached - an RGB mosaic of the vineyard block, showing the 4 rows that were observed. A second image compares the NDVI of the four rows, clearly showing improvement in the treated rows relative to the untreated.
We also took chlorophyll content readings on a sample of the vineyard over the duration of the test, which confirmed the NDVI result.
Usually NDVI is seen as having value in early detection of stress, but I think our project shows that it can add value in identifying improvements too, within limits.
For those seeking more information on our drone, we provide details on our website.
Replies
If using Photoscan, they have a Fisheye removal. Or use the Ptlense (fairly cheap). I ordered the MOBIUS from http://publiclab.org, . They ship only towards end of March.
Thanks Dave, I'll give that a go. I just posted about my project that I'm using a NIR modified camera for http://diydrones.com/profiles/blogs/using-uavs-and-nir-photography-...
Thanks John! I'm about to try a DIY modification on a Canon S100, and so I may just give it a bash myself!
S100 was very simple.
Hi John,
Nice results !
Which Software are you using for NDVI calculations ? Which NDVI formuals used ? From which cameras were the images of the attachment taken ? which altitude/speed flown ? In you offer - which camera and software do you supply ?. Thx. Dave
Thanks Dave!
Our system packages PhotoScan, the standard version, which is adequate for generating these orthophotos. We used the original formula and Ned Horning's photomonitoring plugin in ImageJ to generate the NDVI images.
I believe your other questions are answered above - we use a modified Mobius camera with a red filter as the RIR camera and a standard RGB camera for the RGB orthophotos. We flew at 50m and 6m/s for this project but I'd recommend flying higher and faster to cover other crops.
Incidentally, for those who are interested in the results of the plant nutrition, this is the feedback from the farmer himself, Edmund Oettle:
"The harvest is in, it was a good one, and I could definitely see an improvement in both crop size and quality (less disease) on the blocks after treatment. Everyone else I've spoken to has had smaller crops than last year, whereas my crops on both red and white were larger. So I'm happy that I did the application"
wow very impressive! what camera is this? The gopro modified cam?
Hi Mike, thanks for the feedback!
We experimented with various cameras, including the usual Canons, GoPros and keychain cameras. We settled on the Mobius for various reasons - easy to change the filter and refocus, and also the ability to fix the white balance.
Our retail drone has a RGB and a red infra red (RIR) camera, to simplify processing for the user, but these NDVIs are 'true' NDVI that use the pure IR band and the red band, each from different cameras. The registration of the bands is quite labour intensive but in order to pick up these sensitive changes we needed to follow that route.
Hi John,
At what speed and altitude where these taken? How is the Mobius triggered?
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