As population growth, economic development and urbanization rise, our farmers
are under continual pressure to produce more
food. Currently, farmers
are using intensive, industrial processes to keep up with demand, including the
application of vast amounts of herbicides, pesticides, and fertilizers on crops.
These chemicals pollute the world's soil, contaminate water supplies and
threaten
biodiversity.
With climate change also supercharging the growth of certain weeds that compete
for nutrients, farmers must apply
more herbicides to control them — which will further contribute to climate
change; and thus, the problem will continue. Alongside the environmental issues
comes the huge financial losses associated with the deployment of large-scale
spraying; farmers must often spray 100 percent of their land to kill weeds that
only persist on 3 percent of it. With pressure for farmers to sustainably
produce enough food for a growing population, something’s got to give.
Enter: Canadian startup Precision AI — which has
developed an autonomous, AI-powered agricultural drone that can effectively
apply herbicides at plant level, at scale.
“As farms have evolved, they have consolidated — with farm sizes getting larger
and larger; and that creates more complexity because now there are more acres to
farm, more equipment to manage, and more decisions to make,” Precision AI’s VP
of Business Development, Warren
Bills, tells Sustainable
Brands®. “On top of this, there is also the issue with accessing laborers
— [with] urbanization, it's just harder to pull people into the rural areas
where the work is.”
Drones such as Precision AI’s could provide farmers with the labor they need
while providing real-time insights, making future predictions, and combining and
collecting data to better understand a farm’s crops down to the individual
plant. Overall, the technology could help farmers drastically reduce water use
and costs, eliminate excess chemicals, and promote soil health.
“Farmers don't wake up every morning excited to spend millions of dollars on
chemicals; but they have no choice because that's what is required to grow a
healthy crop and be profitable. So, over time, this has created inefficiency;
because they have to make large-scale decisions in a short period,” Bills says.
“Our solution is very much targeted around the annual overspend of chemicals
from broadcast spraying that we see occurring — real-time, edge-based,
high-speed AI for precision allows us to reduce that overspend.”
Image credit: Precision AI
Precision AI recently won the Rising Star
award
for its use of edge
computing
— an emerging model that allows the drones to function without an internet
connection or the cloud, mitigating problems with limited connectivity in the
field; the drones have their own data center and process most of their data
internally. This technology also enables the drones to provide near-instant weed
identification. The drones can fly at 70 km/h and can detect and classify plants
at an accuracy of 0.5 mm.
“When you think about the scale of this technology, taking a 20,000-acre farm
and managing every individual plant, it's kind of crazy to think about — but
that's what AI and computer vision can do,” Bills says.
Due to regional variations in crops and weeds, different AI models must be
developed for different areas. Once all the necessary data for the crop has been
received, Precision AI can build a model in close to six weeks.
“Once the model has got a standard data set in place and we’ve thrown some new
data against it, it starts to learn,” Bills explains. “Then, it goes through a
quality-control process; and we make some corrections, and it learns again. By
about the fifth iteration, the model is really self-learning based on the new
data that we give it from fields. Then, we have more quality-control procedures
in place to see if we need to make any adjustments. We're in the startup space,
so we continually have to question and make changes — but that’s because we're
pushing the limits of what’s imaginable.”
After landing $20
million in
equity and grant funding in 2021 and being selected for John Deere’s 2023
Startup Collaborator,
Precision AI has gained commercial traction and aims to be operational by 2026.
There are current legislation restrictions in Canada surrounding drone spraying;
but this should change as governments become more open to newer agricultural
technologies and after trials have taken place.
“In five years, I think our technology will allow us to have the best, most
accurate data set in broadacre row crops in the world,” Bills exclaims. “We aim
to be a leader in this space and expand into other types of applications — not
just herbicides. We're keen to look at insecticide reduction, fungicide
optimization, and biological use using drones. There's just so much more that
this technology could be used for outside of herbicide.”
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Scarlett Buckley is a London-based freelance sustainability writer with an MSc in Creative Arts & Mental Health.
Published Jun 8, 2023 2pm EDT / 11am PDT / 7pm BST / 8pm CEST