Carbon Robotics on a New Era of Farming with Robots and Sustainable Innovation – Ep. 270

0:00:13 Hello, and welcome to the NVIDIA AI podcast.
0:00:15 I’m your host, Noah Kravitz.
0:00:19 The history of agriculture is closely intertwined with the history of weeds.
0:00:24 As farms and farming techniques developed over human history, weeds evolved as well,
0:00:29 adapting and thriving as farmers employed ever more rigorous weed management techniques
0:00:31 from manual pulling to herbicides.
0:00:36 Seattle, Washington-based Carbon Robotics may have found a better way to weed through
0:00:39 a combination of farm machinery, lasers, and AI.
0:00:45 The company has destroyed more than 15 billion weeds on more than 100 crops to date, without
0:00:46 the use of herbicides.
0:00:51 They were recently named CNBC’s Disruptor 50 list of innovative companies.
0:00:52 They’re actually in the top 20.
0:00:58 And last fall, they closed a Series D funding round whose investors included Nventures, NVIDIA’s
0:00:59 venture capital arm.
0:01:04 Here to take us into the world of laser weeders and the future of farming is Paul Mikesell,
0:01:07 founder and CEO of Carbon Robotics.
0:01:12 Paul, welcome, and thanks for taking the time to join the NVIDIA AI podcast.
0:01:12 Yeah, you bet.
0:01:14 Thank you for having me.
0:01:15 So let’s start at the top.
0:01:21 You had an impressive, successful career as an engineer and an entrepreneur before founding
0:01:22 Carbon.
0:01:29 What inspired you to take on the fit of farming and technology and getting into this sector?
0:01:30 Yeah.
0:01:38 You know, so it really started when I was at Uber working on neural nets and AI systems
0:01:41 for vision and perception.
0:01:41 Okay.
0:01:49 And what I was really excited about at the time as an engineer was the ways in which computers
0:01:55 were being able to, for the first time ever, really understand the world around them.
0:02:00 And so through the use of neural nets and all these AI systems, and you know, this was back
0:02:06 in the day when this stuff was all pretty new and you wouldn’t find, you know, thousands
0:02:11 of people claiming to be AI experts at any, you know, at any random coffee shop or whatever.
0:02:12 Right.
0:02:15 And we were really, I was really excited about the technology.
0:02:21 And I found that in my, in my career, whenever you get that level of excitement about something,
0:02:26 you really have to dive in because there’s a good chance it might be the future.
0:02:29 And so, and so really just focusing on that stuff.
0:02:33 And, you know, we were working on self-driving cars and a bunch of other stuff at Uber, a bunch
0:02:34 of very interesting problems.
0:02:38 We were talking about global logistics in the broad sense.
0:02:42 And that was really a lot of what we were doing there beyond just the self-driving car
0:02:42 work.
0:02:49 So anyway, I got, I left, I left Uber after the IPO and wanted to go do something new and
0:02:50 interesting.
0:02:55 And I met some farmers and just nothing to do with technology.
0:03:00 Actually, the first farmer I met, I actually sold him an airplane and that was how, that
0:03:02 was where the connection came from.
0:03:06 That was pretty, and you know, it’s one of these things where sometimes if you just take
0:03:12 the time to stop and talk with somebody who has a completely different background and
0:03:18 set of perspectives and worldview and, you know, of course, experiences from you, you, you
0:03:18 learn a lot.
0:03:23 And I really got into understanding what’s happening in farming.
0:03:24 It was interesting about farming.
0:03:34 And the thing that shocked me was the level of innovativeness, inventiveness, curiosity, mechanical
0:03:37 intuition that farmers have about things.
0:03:43 And what I learned is that farmers are not what you might think if you had only lived in
0:03:46 any of the tech cities, you know, San Francisco, Seattle, et cetera.
0:03:49 In that they’re not afraid of technology.
0:03:53 They don’t, you know, want to hide from technology, certainly.
0:03:56 And in fact, they’re very much promoters of technology.
0:04:00 And it’s really anything that can help them with their job.
0:04:05 And their job is to produce food, healthy food, quality food.
0:04:06 They all care about these things.
0:04:08 And for people to eat.
0:04:13 And so just this came out of a long discussion with farmers about what was really their pain
0:04:14 points.
0:04:19 And weed control kept coming up as one of the top pain points.
0:04:22 You mentioned in your intro, you did a very nice job.
0:04:27 With that, it has been a combination of either just people out in the field physically pulling
0:04:29 these weeds out or spraying chemicals.
0:04:30 Spray, spray, spray.
0:04:36 And we got really addicted to spraying chemicals as the primary weed control method.
0:04:42 And there’s a lot of negative downstream effects, health effects to the consumer, long-term health
0:04:47 effects to the farmer, which is those are the people that really suffer from this long-term
0:04:54 chemical exposure, damaging to the quality of the produce, damaging to the land over long-term
0:05:00 things running down the stream, you know, so runoff going into the Gulf of Mexico, killing
0:05:01 a bunch of the sea life down there.
0:05:02 There’s all these problems with it.
0:05:03 Right, right.
0:05:08 We only do it because we kind of got into this spot where it was the only way to economically
0:05:08 grow food.
0:05:15 And so we combined our AI systems for weed detection and general understanding what’s going on in
0:05:17 the field with lasers.
0:05:20 And our AI finds the weeds.
0:05:27 The AI points the lasers at the weeds, keeps it on target, and burns them out with this high-powered
0:05:28 base.
0:05:33 And we discovered all this also along the path, talking to some of the folks at the University
0:05:38 of Washington, which is my alma mater, my computer science degree from the UW.
0:05:43 But I talked to folks at the plant sciences and the horticulture division there and really
0:05:45 learned about how plants grow.
0:05:51 And this is where we discovered all this sort of original research about undifferentiated
0:05:55 meristematic growth cells and using lasers to destroy plants at the meristec.
0:05:57 So that was where all this came from.
0:05:58 Okay, that last bit.
0:06:03 Can you unpack that a little bit for those of us without the scientific background?
0:06:04 Yeah, great.
0:06:09 So just like how people have stem cells, you’ve heard this term before, of course, stem cells.
0:06:09 Sure.
0:06:15 And that’s where everything comes from that your body is made from, right?
0:06:17 You have these stem cells that can become anything.
0:06:22 And then it’s through the proteins, the hormones, and your growth cycle that cause them to become
0:06:23 what they need to be, right?
0:06:25 Same thing in plants.
0:06:28 Plants have this area that’s called the meristem.
0:06:34 This is where the undifferentiated meristematic growth cells of the plant live.
0:06:38 And if you burn out all of those cells, you burn out the meristem, the plant dies.
0:06:41 So this is why laser weeding works, right?
0:06:44 We don’t go all the way down into the root.
0:06:45 We attack the meristem.
0:06:50 And that meristem is where it’s necessary for the growth of the plant.
0:06:54 And when you rip it apart with the energy like we get from the lasers, there’s a bunch
0:06:57 of intracellular fluid in there that leaks all over the place.
0:07:01 If you’ve learned anything about plant sciences, there’s this chemical in there called rubisco
0:07:04 that is part of the carbon cycle.
0:07:08 So when you rip these cell walls apart, what you’ve really done is just completely destroyed
0:07:11 the ability for the plant to photosynthesize.
0:07:11 Okay.
0:07:17 And all of that nutrient matter just goes back into the soil now and becomes fertilizer for
0:07:18 the crops that you’re trying to grow.
0:07:23 I’ve had a little bit of exposure just over the years of working with NVIDIA on the podcast
0:07:28 and then some other stuff I do to some, you know, machine learning, computer vision aided
0:07:30 farming systems.
0:07:36 I think there was a similar setup years ago that I worked on a project about, but there
0:07:36 were no lasers, right?
0:07:40 It was using computer vision to identify weed or not weed.
0:07:45 And then, you know, I think it probably had a blade or it pulled something like that.
0:07:50 But it sounds like the laser and the way you described wiping out those cells is the way to
0:07:51 just stop it from growing back.
0:07:52 Yeah.
0:07:56 And the laser is so fast to do.
0:07:56 Right.
0:07:56 I bet.
0:07:57 Yeah.
0:07:58 Target to try it.
0:07:58 Right.
0:07:59 So if you do a blade, sure.
0:08:05 But imagine, you know, trying to get a blade to move from plant to plant to plant versus the
0:08:05 laser.
0:08:05 Yeah.
0:08:07 We’re doing it with optics, right?
0:08:13 Our optics, our optical system controls the output path of that beam so quickly that it’s
0:08:15 much faster than a blade could do.
0:08:19 And the other thing is there’s a huge benefit to not touching the soil.
0:08:23 Every time you disturb the soil with something physical, it causes a bunch of downstream effects.
0:08:23 Right.
0:08:24 That makes sense.
0:08:25 It hurts the plants.
0:08:26 It spins the dirt up.
0:08:32 If you get dirt on top of some of these vegetables, it actually becomes a health problem, a food safety
0:08:36 problem. There’s a bunch of bad effects of just jamming blades.
0:08:37 Sure.
0:08:42 So the lasers are really nice because it doesn’t touch the soil and because we can move between
0:08:43 targets so quickly.
0:08:43 Yeah.
0:08:50 You mentioned before utilizing, it sounded like from data gathering, just kind of general
0:08:53 state of how the farm is, pest detection, things like that.
0:08:59 Can you talk a little bit more and then maybe we can jump into some of Carbon’s specific offerings
0:09:04 and innovations, but a little bit more about other ways AI machine learnings used on modern
0:09:05 farms?
0:09:06 Yeah.
0:09:10 I’ll tell you about the ways in which we do it and then I’ll extrapolate a little bit
0:09:11 in how other things are happening.
0:09:12 Perfect.
0:09:14 So the laser weeder, we talked a bit about that.
0:09:19 We use the AI on the laser weeder to also not just find the weeds and kill them, but detect
0:09:24 what the crops are, where they are, how many there are, how big they are, how healthy they
0:09:24 are.
0:09:31 And we show that data to our farmer customers through a thing we call the Carbon Operations
0:09:32 Center, Carbon Ops Center.
0:09:32 Okay.
0:09:34 Make a beautiful heat map.
0:09:36 You can see how your crops are doing.
0:09:39 You can see where the weeds are coming from, the weed type.
0:09:39 Yeah.
0:09:42 There’s a lot of interesting information in there.
0:09:48 When we get all of that from the AI system, the deep learning models we have, we also have
0:09:51 a second product that we announced this year called the Carbon Auto Tractor.
0:09:56 We’ll take an existing tractor, put a kit on top of the roof of the tractor, plug into some
0:09:58 of the electrical systems, and now it’s an autonomous.
0:09:59 Amazing.
0:09:59 Wow.
0:10:00 Yeah.
0:10:07 Carbon Auto Tractor has the ability to see the obstacles in the field, see what’s happening
0:10:11 around it, and not only that, but it detects where the furrows are.
0:10:17 So the furrows in a farming field is the area in between the crop rows where the tractor
0:10:18 tires are supposed to go.
0:10:18 Right.
0:10:19 Okay.
0:10:23 Tractor tires, because you’re going to plant, you’re going to harvest, you’re going to weed
0:10:26 control, and when you do that, you’ve got to have someone that drive the tractor.
0:10:27 Right, right.
0:10:28 Drives in those furrows.
0:10:36 So we use our computer vision models, our AI models, to detect the furrows as well, and then
0:10:42 we keep the tractor inside the furrows and driving on target completely visually.
0:10:48 So there’s no GPS laying things out and mapping the rows, we just do entirely visually.
0:10:50 And that works beautifully.
0:10:55 And then when we want to turn around at the end of the row, the machine is doing is figuring
0:10:59 out where that next set of furrows is, and then driving around and targeting it and driving
0:11:00 back up to the other side.
0:11:03 So all of that stuff is all an AI system.
0:11:07 It’s kind of like a self-driving car, but it’s more specific.
0:11:08 Yeah.
0:11:13 I was, as you were describing, I was wondering on a sort of, you know, technical level, what
0:11:18 the differences are in developing an autonomous car system versus an autonomous tractor.
0:11:24 Yeah, I mean, to me, the big thing is that a self-driving car is basically saying, use the
0:11:30 road system as defined to get from point A to point B, where a self-driving tractor has
0:11:31 some work to do.
0:11:31 Yeah, right.
0:11:33 And that work is very specific.
0:11:39 And it will mean, it’s not just go from here to here, it’s go up and down these rows and
0:11:45 make sure you touch every spot and follow the speed that’s required by the implement that you’re
0:11:51 pulling behind you, or depending on what you’re doing, sometimes it’ll be adjusting hydraulic
0:11:54 levels to move things up and down.
0:12:00 So there’s a bunch of very task-specific work that needs to go on, and the AI system is
0:12:02 what understands that and makes sure the job is done.
0:12:06 It is both more specific and less specific.
0:12:12 It is less specific in that we don’t have to worry about everything that might happen in
0:12:12 the world.
0:12:18 I don’t have to worry about baby strollers crossing in front of me, things like that, in the
0:12:21 crosswalk, et cetera, like you would with this self-driving car.
0:12:27 It’s also more specific because I have this very fine-grained task to do, drive up and
0:12:28 down the furrows, right?
0:12:30 Do this thing in this order.
0:12:32 Make sure you touch every part of the field like this.
0:12:38 And so those things are, you’ve got to get really deep into when the operation is in order
0:12:39 to make the AI system.
0:12:45 And then there are, of course, many other things that AI is being used for on the farm and things
0:12:47 that it could be used for.
0:12:52 Some of the things it is used for in the packing shed, where we do packing and sorting of your
0:12:55 food before it comes up in the grocery store.
0:13:00 Somebody puts it in a box, and that box gets filled with stuff that’s been checked for quality,
0:13:02 for size.
0:13:07 And all of that stuff is done with computer vision systems inside the packing sheds right
0:13:07 now.
0:13:09 And that is a very common use for AI.
0:13:15 I mean, there are many systems that are trying to do things where they’re gathering more crop
0:13:20 information, and we haven’t seen any real successful results of that yet.
0:13:26 But there have been some pilot programs from places like Driscoll’s to do berry, counting
0:13:29 in the field, things like that, quality of that.
0:13:34 I have seen many versions of different kinds of harvesters.
0:13:38 There are a bunch of different strawberry harvesters that have come out, some of which have done well,
0:13:39 some of which haven’t.
0:13:48 But it is a fast-moving field, and it’s one of the most interesting fields today for practical
0:13:50 deployments of AI systems.
0:13:54 Because really, everything that happens has a dollar value associated with it.
0:13:55 Right, right.
0:14:00 Every action you’re doing is because you’re going to get something to market with better
0:14:01 quality and better pricing.
0:14:03 And so it’s just ripe for innovation.
0:14:10 It’s a perfect environment for AI, especially since it’s all, you know, private land, right?
0:14:12 It’s constrained environments.
0:14:13 It’s a workplace.
0:14:14 You don’t have to worry about-
0:14:16 Right, those unknown factors, yeah.
0:14:17 Yeah, exactly.
0:14:18 Yeah, exactly.
0:14:21 You don’t have to worry about some, like a police car pulling up behind you and trying
0:14:22 to get around you or whatever.
0:14:23 Right, right.
0:14:24 things you do in a self-driving car.
0:14:26 It’s a much more constrained environment.
0:14:29 So it makes it, I think it’s a great area to be spending time.
0:14:35 What are some of the, I guess, most exciting or even surprising results and kind of impact
0:14:39 that you’ve seen, you know, using AI, deploying the tech out in the field?
0:14:46 When we first started with LaserWeeder, I thought a lot of what we were doing was killing weeds
0:14:51 in a manner where the dollar per acre for killing those weeds would be better.
0:14:54 That was the premise we started with.
0:15:00 What we learned along the way is we had a, we also had a surprisingly dramatic and positive
0:15:03 effect on the quality and number of the crops.
0:15:04 Yeah, okay.
0:15:13 I didn’t realize, and I don’t know that maybe nobody realized this, how bad the regular, call
0:15:18 it, common farm weed control practices, how bad they are for the crops.
0:15:25 Just everything from having people walk through the field, certainly spraying, but even driving
0:15:28 blades into the ground, these all have negative impacts on the crops.
0:15:33 And so it was something like LaserWeeding, because we don’t touch the ground, because we can kill
0:15:37 weeds right next to the crop without harming the crop, the yield increases were dramatic and
0:15:41 surprisingly dramatic in ways that we hadn’t even forecasted.
0:15:43 So that was, that was pretty interesting.
0:15:44 That was very surprising to us.
0:15:50 We have been through several versions of our AI models, our AI systems, and the ways in
0:15:52 which the neural net runs.
0:15:57 So I’m talking about now the, the structure of the neural net itself.
0:16:03 We’ve been through several different generations, model creation, innovation, and model architectures.
0:16:08 These things are, we try to pull the best that we can from academia, from industry, but we also
0:16:12 have some pretty interesting innovations that are very specific to our task.
0:16:18 And because of how many machines we have out in the field now, we get new images all the
0:16:19 time.
0:16:20 We’re always uploading images.
0:16:23 So our image corpus has grown very fast.
0:16:30 And I do remember the days back in the beginning, just being perpetually worried about how are we
0:16:32 ever going to get, you know, enough data?
0:16:33 Yeah, of course.
0:16:35 And that I think is everybody’s concern, right?
0:16:38 When you’re starting some AI project is how do I get enough training data?
0:16:45 But once the flywheel gets going, once your machines are useful enough to be sold and that
0:16:47 creates a market and they start getting into the field.
0:16:52 If, if you do what we did, which is set it up so that all of your machines are able to capture
0:16:57 data and send it back to your training set, then you wouldn’t really get the, getting this
0:16:57 flywheel.
0:17:00 At that point, you kind of reach escape velocity.
0:17:05 And we, you know, we crossed that threshold, you know, a couple of years ago.
0:17:12 And now I’m, I’m sure we have, you know, the largest number of labeled image data points
0:17:16 for agriculture in the world, just because of how many machines and how regularly we send
0:17:16 these things up.
0:17:24 And, um, that stuff is, is, you know, great for now running different types of model, uh,
0:17:30 architectures, trying different things out, comparing contrast results, performance versus
0:17:31 power requirements.
0:17:31 Yeah, everything.
0:17:32 Yeah.
0:17:33 Yeah.
0:17:36 So it’s, uh, all of that stuff is, it’s really, it’s really happening.
0:17:39 I’m speaking with Paul Mikesell.
0:17:43 Paul is a founder and CEO of Carbon Robotics.
0:17:49 Um, and we’ve been talking about the, the changing landscape, if you will, no pun intended
0:17:54 of modern farming and the use of computer vision, machine learning, everything we call AI these
0:17:55 days.
0:18:01 Paul, let’s dive in a little bit to Carbon Robotics, actual robots, if you will, right?
0:18:06 The laser weeder, you mentioned, um, kind of the retrofit kit that can go on top of a
0:18:07 tractor, auto tractor.
0:18:07 Yeah.
0:18:09 Talk a little bit about them, if you will.
0:18:09 Yeah.
0:18:10 Okay.
0:18:16 So laser weeder, Gen one laser weeder was a 20 foot machine that had, um, lasers all
0:18:17 the way across it.
0:18:21 20 foot was, is a pretty common layout for farmers.
0:18:29 Cause that comprises that’s, that’s three rows of 80 inches a piece, which is a common layout
0:18:29 format.
0:18:33 So when you’re developing, it’s a very task specific machine, it’s, it’s meant to fit into
0:18:34 the field.
0:18:36 And that was very successful.
0:18:36 Sorry.
0:18:37 When was Gen one?
0:18:45 Gen one launched in middle of, I think launched in, in February of 2022, but then the first
0:18:47 deliveries were middle of 2022.
0:18:47 Okay.
0:18:48 So about three years ago.
0:18:49 Yeah.
0:18:52 So, so in May of 2022, it was the first machine off the line.
0:18:53 Got it.
0:18:54 That was kind of amazing.
0:18:54 Yeah, I bet.
0:18:58 Cause it was, it wasn’t just, Hey, how do I get my AI system to do the thing?
0:19:05 It was also learning about manufacturing, starting to build for manufacturing at scale, combining
0:19:13 GPUs and cameras with large pieces of steel that are welded together with the intention of
0:19:14 being run in a farm.
0:19:15 Yeah.
0:19:20 How did you, did you have to like retrofit cameras or source special sensors?
0:19:20 We’re sourcing cameras.
0:19:24 They’re commodity, you know, vision cameras.
0:19:26 We’ve been through several different brands and vendors over time.
0:19:28 It’s all stuff you can buy.
0:19:31 There’s nothing really particularly special.
0:19:34 We are particular, but they are not unique.
0:19:34 Yeah.
0:19:35 Gotcha.
0:19:36 Boy, that was amazing.
0:19:39 You know, getting that thing up and running and shipped out to the farm.
0:19:45 And it was all of the, the failures of course, come from just environmental amount of dust
0:19:45 and things like that.
0:19:50 You’re dealing with temperatures, you know, negative 10 to 120.
0:19:50 Yeah, sure.
0:19:52 Oh God, these environments.
0:19:55 So that was a real learning for us.
0:19:57 And we spent a lot of time figuring those things out.
0:20:02 And the failures would be things like not the GPU failed or not that the deep learning model,
0:20:04 you know, had some issue running in a memory.
0:20:09 It was stuff like the chiller had a leak or the air conditioning unit failed.
0:20:09 Yeah.
0:20:09 Yeah.
0:20:10 Yeah.
0:20:11 It’s physical world stuff.
0:20:11 Right.
0:20:11 Yeah.
0:20:14 We got dust into an area where we’re not supposed to have dust.
0:20:17 It was all of that stuff, physical world stuff, exactly as you put it.
0:20:19 So that was, that was amazing.
0:20:20 So the gen one, okay.
0:20:25 So then we came out with the gen, generation two laser reader that just launched this year.
0:20:25 This is 2025.
0:20:30 And, um, the big innovation in that machine was really that we switched to a more modular
0:20:34 architecture that all that was to be different sizes now.
0:20:36 So I can build machines that are six feet.
0:20:41 Uh, we still have our commonplace machine that’s 20 feet, but now I have machines that are also
0:20:42 40 feet wide.
0:20:49 60 feet wide for different crops from some of the big Midwest, large acre corn and soy
0:20:49 stuff.
0:20:55 So the ability to go into a modular architecture that allows to build different sizes was very
0:20:56 important.
0:21:01 And then not just for the U S there’s large portions of Europe that need smaller machines
0:21:05 because they tend to have a lot smaller plots, more of them, but a lot smaller plots.
0:21:06 Right.
0:21:12 And, you know, planting inside of, um, they essentially have this hoops that are up over the top of
0:21:15 the crops and then we’ll put giant plastic over it.
0:21:20 And they use that for, um, protecting the crops from a lot of the environmental weather
0:21:23 damage, et cetera.
0:21:26 So you need a smaller machine to get in and get around those.
0:21:26 Yeah.
0:21:29 And that there’s a lot of that in Europe.
0:21:29 So we do it.
0:21:32 So the smaller machines were essential for making that work.
0:21:37 And then of course the auto tractor, that’s our autonomous tractor solution.
0:21:43 A lot of that really is figuring out where the camera should be doing the kinds of, I guess,
0:21:47 more classical computer vision stuff, which is stitching things together and figuring out
0:21:49 what a global view looks like.
0:21:50 Right, right, right.
0:21:51 And it’s perspectives.
0:21:57 And then the, the AI system, I think we built our, our architecture really nicely because the
0:22:03 AI that runs in laser weeder is the same AI as what runs in auto tractor.
0:22:09 It has different, it was trained in different ways, but the architecture is the same and the
0:22:10 software is the same.
0:22:13 That works really nicely for us because you’ll see things.
0:22:16 Things that we do on auto tractor that then we incorporate into laser weeder and vice versa.
0:22:23 Um, so for people trying to build architectures, I think it is, you know, it’s, it’s sort of
0:22:27 obvious to say it that having a unified architecture pays those kinds of dividends.
0:22:32 But I think people sometimes shortchange that or don’t really give it enough credibility.
0:22:38 And, but just having the same architecture that you use across multiple deployments really pays,
0:22:39 pays out.
0:22:42 And in, in, in the end, I encourage people who are trying to build systems like that.
0:22:44 They’re really focused on modular.
0:22:44 Yeah.
0:22:45 Modularity.
0:22:46 Yeah.
0:22:51 And then we built, and then we pulled, we were able to get at scale and get just generally
0:22:56 big enough, fast enough that now we’ve pulled manufacturing as an internal portion, an internal
0:22:56 function.
0:22:59 Our gen one was manufactured externally through OCD.
0:23:01 We manufacture internally now.
0:23:07 That was something I never really planned to have the opportunity to learn, but there are
0:23:09 all the obvious benefits from this.
0:23:13 You know, people care, you get better quality when people care about the product they’re building,
0:23:17 care about the product they’re building when they’re employees of the company, when they
0:23:19 get some equity in the company and they feel like they’re part of a mission.
0:23:23 And so that was really important, important to us.
0:23:29 So when we move manufacturing in-house that week, the quality went way up, the velocity went
0:23:29 way up.
0:23:33 But I do think I’m getting, I’m sort of dovetailing into some AI related topics here.
0:23:37 I would like to see more manufacturing automation.
0:23:43 I’m surprised, I think there’s a huge opportunity there for just manufacturing automation.
0:23:50 If you saw how much manual metalworking, you know, bending, folding, cutting, welding goes
0:23:51 on to make things.
0:23:53 It’s really surprising to me.
0:23:53 I think it was a big opportunity.
0:23:59 I would love to see some more AI systems get built, design deployed into, into manufacturing.
0:24:01 I think it’s a huge opportunity there.
0:24:08 So you’ve talked about this as we’ve gone, both in terms of, you know, farming being this,
0:24:12 this really good opportunity to kind of focus in on, you know, well, what, what am I getting
0:24:13 out of this?
0:24:16 What’s the, everything’s got a dollar sign sort of attached to it at the end.
0:24:19 And so you can kind of see where you’re making it back where you’re not.
0:24:26 And then also you talked about kind of the downstream effects, you know, the positive effects of
0:24:30 not doing negative things like spraying, like sticking blades in the soil, all that kind
0:24:30 of stuff.
0:24:36 Is the biggest impacts you’ve seen from what carbon robotics is doing, are they along the
0:24:37 lines of cost savings?
0:24:43 Are they along the lines of crop, you know, just the, the over time, your crops just get
0:24:43 better and better.
0:24:46 What are like the real big points of impact you’ve seen?
0:24:46 Yeah.
0:24:49 We, we think about it in terms of ROI to our customers.
0:24:55 So the question is when you buy a laser weeder, um, how long does the laser weeder take to pay
0:24:57 back for itself and then get dividends beyond.
0:25:04 And it’s a combination of savings in labor and chemicals for it’s a, it’s a savings in the
0:25:10 input costs and then the benefit you get, there’s really great what you said, the positive
0:25:12 effect, positive effect of not doing negative things.
0:25:13 I really liked that.
0:25:15 So the, that yield improvement.
0:25:19 So when you add both of those together, you get a really nice ROI.
0:25:27 So, and you gotta, you know, we have to remember as tech people, as founders, as startup folks,
0:25:30 that what we’re really trying to do is save people money.
0:25:34 If you’re a B2B like we are, at least what you’re really trying to do.
0:25:39 Produce a product in an industrial capacity that saves people money.
0:25:40 So that’s what we’re doing.
0:25:42 So we have to have that cost benefit.
0:25:45 The ROI has to be there and you have to follow that.
0:25:47 It’s not about the tech.
0:25:48 It’s about the ROI.
0:25:56 So what, what is the real trick is getting your AI systems and your tech to help move that
0:25:57 ROI forward.
0:26:02 And I think if you can do that, like we have, you wind up in a really good spot.
0:26:07 And so I, I, and I think there are more opportunities to do that down the road, but it is all about
0:26:08 ROI.
0:26:11 So all of these other things about, wow, look at how awesome that is.
0:26:12 It’s super fun to watch.
0:26:14 It’s amazing to watch it rip weeds with lasers.
0:26:16 That’s all candy.
0:26:20 But the, you know, the meat and potatoes is, do we save people money?
0:26:22 And so that’s the important point.
0:26:28 I’ve also learned a lot about the quality of our food system.
0:26:31 And I know that there’s lots of discussion about this.
0:26:33 Now we are becoming more aware of it.
0:26:38 The different herbicides are being banned in Europe, United States, et cetera.
0:26:42 We are learning about more of the long-term negative health effects.
0:26:47 Again, the ones who really suffer from it over the lifetime is the farmers who get exposed
0:26:52 to this stuff in much higher doses than the consumer, but even the consumer, you know, even
0:26:59 you right now are participating in some form of a multi-decade, maybe multi-generational science
0:27:00 experiment.
0:27:06 We all have glyphosate in our system at any, and so if you were, if you take everybody listening
0:27:11 into this podcast right now, if we all went and did a urine sample, you would find about
0:27:14 90% of us would have glyphosate in our system right now.
0:27:15 What’s glyphosate?
0:27:17 It’s the active ingredient in Roundup.
0:27:19 We know that it’s carcinogenic.
0:27:23 Like any carcinogen, it’s only a question of exposure over time.
0:27:29 So we should be able to, with the kinds of technology that are available today, with the
0:27:34 things that AI can do, we should be able to take a step back and say, do we really need
0:27:40 to be spraying this stuff on our food in order to grow it and survive as a population?
0:27:40 Yeah.
0:27:44 My answer to that question, I think it’s no, we don’t need to do that.
0:27:46 And we should be able to do things like laser baiters.
0:27:46 Yeah.
0:27:49 Without knowing a whole lot about the industry, I’m with you.
0:27:51 You know, no spraying sounds better to me.
0:27:56 So from the farmer’s end, you know, ROI, obviously, big investment.
0:28:00 Farming, not known for being an easy money profession.
0:28:01 I’ll put it that way, right?
0:28:05 So you’re looking at the bottom line, making this investment, paying back over the long
0:28:05 term.
0:28:08 How are farmers reacting?
0:28:13 Are they, you know, you mentioned up top that a lot of people probably have a false view in
0:28:16 their head of, you know, oh, farmers aren’t tech savvy, this, that, whatever.
0:28:18 You just spelled that up top.
0:28:19 But are they taking to it?
0:28:21 Are they worried about the cost?
0:28:24 Are they, you know, what’s the reaction?
0:28:29 The number of farming customers that have repeat purchased and have bought year over
0:28:33 year is what I really look to, to see, are we doing the right thing?
0:28:34 Yeah.
0:28:34 Yeah.
0:28:39 We have had customers repeat purchase over and over again and expand their use of laser
0:28:39 weeder.
0:28:41 So that tells me we’re doing, we’re doing a good job.
0:28:42 Doing something right.
0:28:42 Yeah.
0:28:48 Farmer, farmers have a varying level of external emotion expression.
0:28:54 And so sometimes it’s very hard to tell and, but, you know, you’ll have to talk to a farmer
0:28:55 who’s like, looks super grumpy.
0:28:57 And then they’ll tell you, I really love this machine.
0:28:58 It’s saving my farm.
0:29:00 So it’s very hard to tell sometimes.
0:29:06 Early on, we were trying to do this, this ICP exercise, you know, what is your ideal customer
0:29:09 profile that people do when they’re talking about go to market stuff?
0:29:13 And we had varying degrees of success with that.
0:29:14 It’s just an exercise people go through.
0:29:15 Maybe it was helpful.
0:29:16 Maybe it wasn’t.
0:29:21 But the joke that I had was that we could have, we could have this kind of two different
0:29:27 storyboards that said, this farmer is very skeptical of your product and doesn’t think it’s going
0:29:28 to work.
0:29:31 And this farmer loves it and thinks it’s the most amazing thing ever.
0:29:33 And the trick is that it’s the same.
0:29:37 So what’s next?
0:29:43 You mentioned, I think if I heard you correctly, Laser Weeder G2 hasn’t been out all that long.
0:29:46 G2 launched in February this year, 2020.
0:29:47 February this year.
0:29:47 Right.
0:29:50 So what’s next for Carbon Robotics?
0:29:55 Are you kind of, this is where you’re at and future things TBD, you have a roadmap you can
0:29:55 share?
0:29:56 We have, okay.
0:30:05 So Laser Weeder G2, we’re continuing to push that into new crops, big crop use cases.
0:30:11 We are continuing to evolve the software systems, the AI, it gets more capable.
0:30:15 I mean, right, it just gets better all the time, not to interrupt you, but it’s not like
0:30:16 product releases used to be.
0:30:18 Yeah, that’s right.
0:30:20 It’s not like a piece of metal that you buy and throw into your farm.
0:30:24 It’s, you know, we do regular software updates.
0:30:25 We’re always updating the software.
0:30:30 The AI system is always getting better because we’re training based on what we see on the farm.
0:30:33 Laser Weeder is a beautiful product.
0:30:35 You know, we’re very, very proud of it.
0:30:37 We just launched Auto Tractor.
0:30:41 Auto Tractor is probably in its infancy right now.
0:30:45 We’re really scaling and growing that basically now, right?
0:30:51 Auto Tractor has been running since February, running some farms 24-7, doing various tasks,
0:30:55 a lot of laser weeding with Auto Tractor, but other things as well.
0:31:01 And we’re going to continue to invest in that platform because Auto Tractor allows farmers
0:31:05 to scale their tractor operations without having to scale their labor.
0:31:11 And it really is, when you think about farming, one of the most fun things is driving the tractor,
0:31:11 right?
0:31:12 It’s this fun, big machine.
0:31:13 You get to drive them.
0:31:18 But try doing it, you know, 24-7 for six months out of the year.
0:31:20 Now you’ve got a fleet of 20 of them.
0:31:20 What are you going to do?
0:31:26 And so just like with most of the agriculture, most of the agricultural tasks and activities
0:31:30 in this country, it’s almost entirely remote workers.
0:31:32 It’s almost entirely migrant workers, I should say.
0:31:35 And so they’re on an H-2A labor program.
0:31:40 It’s the way that we guest workers come into the country and can work on things like farms.
0:31:45 But it’s a real strain on the farmers to find these people, you know, validate what they
0:31:46 need to validate about them.
0:31:51 There’s more work needed than people available.
0:31:55 So you hear stories all the time about farms, fields going unharvested because they couldn’t
0:31:57 find workers, things like that.
0:31:59 And the tractor is a big part of that.
0:32:01 It’s a little higher, it’s a higher skilled task.
0:32:07 And so your available population of workers to fill that role is even smaller.
0:32:14 So the tractor is getting into autonomy in tractors, in farms has become a very urgent
0:32:15 task for us.
0:32:18 And we’re going to continue down that road.
0:32:22 Auto tractor, you know, we’ll continue to ramp and scale that.
0:32:26 And then we have some other things that we’re looking at, thinking about, working on the testing.
0:32:30 It’s all about AI systems, robotics, and farming.
0:32:32 And there are many different places we could be going.
0:32:38 At some point, we’ll move into some activities that are outside of farming, but still very
0:32:39 industrial AI capacity.
0:32:42 We’re probably not going to be a B2C company.
0:32:48 You know, we’re very AI robotics for work, right?
0:32:49 That’s very much what we do.
0:32:51 And so we’ll continue down that path.
0:32:52 Excellent.
0:32:59 Paul, for listeners who want to learn more about carbon robotics, about your own background,
0:33:03 maybe about some of the technical stuff, you were talking about the AI systems and whatnot,
0:33:06 best place to go, carbon robotics website?
0:33:08 Carbonrobotics.com.
0:33:11 We have a YouTube channel.
0:33:12 We have an Instagram.
0:33:12 We have TikTok.
0:33:17 You know, I described it as candy, meaning like it’s not, that’s not an ROI that’s just
0:33:20 whizzing and interesting, but I still love to see it.
0:33:21 Yeah, it’s so cool.
0:33:22 It’s really fun.
0:33:27 We do have some videos on our YouTube where we get a little deeper into the technology.
0:33:32 We did some where I was walking around showing how the scanner system works that targets the
0:33:32 lasers.
0:33:37 We’ve done some walkarounds inside the office showing how things are built, what we’re doing.
0:33:41 We try to do more of those.
0:33:44 We will try to do more of those and we’ll continue to do those, you know, over time.
0:33:49 So yeah, our YouTube channel, we try to have a lot of content on there to show people
0:33:51 what we’re doing because it’s fun and interesting.
0:33:51 Awesome.
0:33:54 Carbon Robotics, Paul Mike Sell.
0:33:55 Again, thank you so much.
0:33:56 This was a lot of fun for me.
0:34:00 I appreciate you taking the time to come on the podcast and all the best in all the work
0:34:01 you’re doing.
0:34:02 Yeah, thank you.
0:34:03 Thank you very much for the talk today.
0:34:04 I really enjoyed it.
0:34:26 Thank you.
0:34:27 Thank you.
0:34:27 Thank you.