Shawn Ryan Show - #258 Adam Bry - Why China Fears Skydio’s Rise in AI Drone Technology
Episode Date: December 1, 2025Adam Bry is the Co-Founder and CEO of Skydio, the leading U.S. drone manufacturer and world leader in autonomous flight technology, founded in 2014 to develop AI-powered drones for consumer, enterpris...e, and defense applications. A graduate of the Massachusetts Institute of Technology with a degree in aerospace engineering, Bry was an early team member at Google X's Project Wing, contributing to delivery drone initiatives before launching Skydio. Under his leadership, Skydio achieved unicorn status in 2021 with a $1 billion valuation after a $170 million Series D round and has since grown to a multi-billion-dollar company, securing contracts with the U.S. Department of Defense and international partners for autonomous systems like the Skydio X10 drone. Bry has testified before Congress on U.S. drone policy and national security, emphasizing innovation in aviation and electric vertical takeoff and landing (eVTOL) technologies. He advocates for American leadership in the next century of aviation, ethical AI in drones, and bridging public-private partnerships to advance critical infrastructure and defense capabilities. Shawn Ryan Show Sponsors: https://RocketMoney.com/SRS Cancel your unwanted subscriptions and reach your financial goals faster with Rocket Money. Go to https://RocketMoney.com/SRS today. https://lumen.me/SRS Head to https://lumen.me/SRS for 15% off your purchase. https://meetfabric.com/shawn https://trueclassic.com/SRS Upgrade your wardrobe and save on @trueclassic at https://trueclassic.com/SRS! #trueclassicpod https://helixsleep.com/srs Go to https://helixsleep.com/srs for 27% Off Sitewide Make sure you enter our show name into the post-purchase survey so they know we sent you! Adam Bry Links: X - https://x.com/adampbry LI - https://www.linkedin.com/in/adambry Skydio - https://www.skydio.com Learn more about your ad choices. Visit podcastchoices.com/adchoices
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Adam Bree, welcome to the show, man.
Very excited to be here, Sean.
Very excited to have you.
What do we have?
Oh shit.
Oh shit.
Ha ha ha ha ha ha.
We have a third joining us?
So this is the Skydeo R-10.
That's detected.
No way.
So this is our brand new indoor tactical drone designed to get into dangerous situations,
so you don't have to send a person.
And as you can tell, it's got a speaker on here.
It's detected a threat.
is somebody behind that or is that programmed in there so you can do two-way communication
so you can actually like perch this thing and establish two-way communication if you've got a
barricaded suspect or something like that or you can just have pre-recorded audio where
it says whatever you wanted to say no shit yeah that is that is bad so in case you haven't
figured it out we're talking about all things drones today you've found
founder of Skydeo and yeah you guys are doing all kinds of badass stuff with drones so I
can't wait to dig in so this one so this one is an indoor drone and we'll rove around
yeah whatever you put it in yeah I mean we basically built it because a lot of the most
dangerous work that our customers do happens indoors like in law enforcement you got a
barricaded suspect you don't know what's in there you don't know if they're armed or not
and typically you'd have to send a police officer in you know gun drawn they don't know what
they're heading into. And this is the root cause of a lot of tragedies. So if you can send a drone,
you get perfect situational awareness, you can de-escalate the situation, you can establish two-way
communication. So the general mantra is like send the robot, not the person. So this is a brand
new product for us. Dude, that is cool. Can you put a gun on that thing? I know you can. I know you can.
Well, in the U.S., it is illegal to put any kind of weapon on a drone. Well, that's dumb.
flight in civilian airspace.
Just kidding.
But you should talk to our friends at Axon about the possibility putting a taser on it.
Axon.
I think we have talked to them.
Maybe.
Yeah, they're the inventors of the taser and the body camera.
Dude, so nobody's seen this yet?
Well, this product is brand new.
We just announced it about a month ago, and it's just getting into customer hands now.
So it'll be a steady build, but it's actually flown real missions in the hands of
some of our early access customers.
Congratulations.
Who is the market for this?
Is this going to be in all the, everybody's home?
So initially, shopping malls.
Yeah, the, initially it'll be heavily law enforcement.
And right now, drones are used by SWAT, like indoor drones like this,
would be used by like high-end SWAT teams.
And we certainly expect that the R-10 will be used by SWAT teams
in high-stakes situations.
But our real goal with this is to build something that's much more accessible for kind
everyday patrol officers because they're the ones that oftentimes find themselves in the most
dangerous situation. They don't have backup. They're out there by themselves. And so this thing
really becomes like a flying robot assistant. So we expected to be heavily adopted in law
enforcement. But we also are seeing incredible interest in critical infrastructure inspection. So we
work with energy utilities that have all kinds of gnarly indoor infrastructure in generation
plants and so on, where they have to do really dangerous, slow, expensive inspections.
You know, they have to shut the whole plant down. They have to build scaffolding. Somebody has to
go and, like, climb around to look for cracks and defects. And so for then, just being
able to put a drone in the air, fly around, see this stuff super quickly, super efficiently
is a total game changer. And then over time, we also expect this to be adopted by the military
for confined space type situational awareness work.
Wow. Wow. Wow.
Man, your customer, I mean, we had talked about this off camera right before the interview,
but my old buddy, Jake Johnson, who apparently did some work for you guys.
I mean, he was, he was, he gave me a little bit of inside baseball on everything you guys are doing.
Your, your customer is pretty much everyone and anyone, seems like.
I mean, from inspecting naval ships for rust to power lines, to cell phone towers, to SWAT teams, to clearing buildings.
It's crazy, man.
Yeah, I mean, you have so many markets.
The thing that is exciting to me, like, the way that I think about it, we really serve the critical industries that our civilization depends on.
And historically, Silicon Valley has generally been oriented towards, like, you know,
tech and finance and social media, and that stuff is all important.
But I think there's really something very special about building technology to serve the
hardcore physical industries and the people that do hardcore physical work.
And that's really what our products are all about.
You know, it's the most basic sort of fundamental piece is digitizing the physical world,
like putting sensors in really important places, get useful information to help people make
better decisions and get better outcomes.
And that applies across a very broad range of,
of sectors. And it's just an amazing set of people to get to work with that I think have historically
been underserved by technology and we're in a position now where we're building this cutting
edge AI robotics. I mean, really like the bleeding edge of tech, but we're deploying it to
these like these traditionally slower moving physical industries. And it's just a super fun thing
to get to work on. Man, I love what you're doing. I love what you're doing. I appreciate it.
Everybody gets an introduction here. So let me give you yours. Adam Bree.
co-founder and CEO of Skydeo, America's leading drone company revolutionizing autonomous flight
technology, visionary engineer who turned a passion for robotics into a unicorn enterprise valued
in the billions, a former Google X innovator contributing to Project Wing, testified before Congress
in 2021 on autonomous drones' role in national security and in 2024 on countering China
strategy and semiconductor ship building and drones driving force behind drones that fly themselves
making them safer and more accessible from military public safety and commercial applications
you've been building stuff that can fly since you were five years old quite the intro here and um
you know and later later on in this intro in this uh interview we're going to have some some pretty
badass show and tell which we already did there's already did lots of lots more
more flying to come. I always like to say that, you know, the flying robots are the real stars of
the show. So we'll, uh, lots of flying robots. Apparently I'm a, I'm a threat now.
So I think your crew suggested that that was a, that's how we should address you. Yeah, well,
they might, they might not be wrong about, I'm just kidding. But, um, dude, that thing is
super cool. Yeah. So, all right, I got a couple of things to knock out, uh, before we get two in the
weeds on the interviews. So, one, everybody gets a gift. I got you a couple here, Adam.
First, those are vigilance elite gummy bears. Made in the USA. Still legal in all 50 states.
Awesome. Awesome. Good to go. And you're in California, right? I am. All right. We got you
a special model sitting here. All right. California compliant. Go ahead, open it up. It's not loaded.
Good. You like firearms, right?
It's been a long time since I've shot a firearm, but I was very into it in summer camp.
Good deal.
All right.
So that is the Sig P365 Legion. It's all metal. It's got those little slits up front, the barrel up top, up top.
There you go.
For gas dispersion, it helps you with the muzzle flip.
It's actually the normal version has 17 rounds in the magazine.
Plus one. I don't know what the California compliant model has. I think it might be 10. But it's got a little cut there if you want to put an optic on there. Anyways, that is like the latest and greatest everyday carry gun. That's the rage everybody's going on about. And so we thought you might like. That's amazing. I thought you might like one. Yeah. I really appreciate it, Sean. This is fantastic.
I'm allowed to take this back to California with me. Well, yeah. At least right now you are.
All right, but great.
And then I have a Patreon account.
It's a subscription account we've turned into quite the community.
They've been here with me since the beginning,
and they're the real reason that I get to sit down with you today.
So one of the things I do is offer them the opportunity to ask every guest a question.
So this is from Leland King.
What kind of range or flight distance do drones like Sky?
IDO 10 or X10D have during autonomous missions.
I'm curious about this because I often consider how challenging it would be to have a swarm of
drones launching and landing at your position while attempting to conduct reconnaissance
on a nearby enemy force without being detected.
Yeah.
So the military variant of our product, the X10D, is what's called a short-range reconnaissance
system.
So the typical range is out to six, seven miles, kind of like max flight distance, max flight time.
Most of the missions are shorter than that.
Most of the missions tend to be in the kind of like one to two mile range.
In the civilian sector, our drones fly with LTE modems on them.
And so they can basically go anywhere that you have LTE coverage.
No kidding.
And we've done flights that are 10, 15 miles in LTE conditions.
Wow.
Yeah.
Well, before we...
These are all autonomous?
I mean, nobody's controlling this?
So you can fly them in a bunch of different ways.
You can fly them quite manually.
You can, you know, you can hold a controller.
You can push around the joysticks.
Or you can operate them autonomously.
You can give them a mission.
They'll fly out and do waypoints.
You can give them a task, like follow this person or thing, inspect this area, map this structure.
So there's a whole bunch of different ways that you can control the drone.
The thing that we've really invested heavily in,
And what we really see is the future of the industry is just more and more autonomy.
We kind of say, you know, the drone should work for the person, not the other way around.
So one person should have like five, 10, 50 drones doing useful work on their behalf.
And the only way you're going to get there is with AI and autonomy, making the things smart enough to fly itself.
And so that's what we're really focused on.
Right on.
I was going to say, before we get too deep into it, I have a gift for you as well.
I love gifts.
So what you see here is the R10, which is a new drone.
This is our flagship drone.
This is the Skydeo X10.
So this thing is out there kicking butt at scale in the world today.
But this is a very special X10.
This is not a normal X10.
So you see that there?
Yeah.
So that's a bullet hole.
And this X10 was shot in the line of duty.
So this was used by the Oklahoma City Police Department.
And it was shot serving a homicide warrant.
No kidding.
So it kept flying.
it completed the mission.
But honestly, when we see stuff like this,
when we see a drone that's been shot,
that is great news, right?
Because it's better the drone gets shot
than a person.
So we thought you might like to have this.
This is fucking awesome.
Throw them with a purple heart.
Dude, this is cool.
So what was this doing?
So it was, they were serving a homicide warrant.
So they were going out to arrest.
somebody. And it's actually surprisingly common that our drones get shot at in the context of
law enforcement because oftentimes you're going after a bad guy. Bad guy's got a gun. They say the
drone show up and they start shooting at it. But as I said, from our perspective, it's all good news.
That's the whole point of the drone is that it can take the risk and get the awareness rather than
having to put a person in harm's way. Man, that is cool, man. Thank you. Yeah. It's being here.
I guess we'll hang it from the ceiling. Yeah. This is awesome. Put it wherever you.
lot thank you very cool very cool and this is the x-10 yeah this got you x-10 man that's cool thank
you all right so i want to do a little bit of a backstory on you see what what what captured your
interest in drones and stuff anyways and you know and and talk about all the products that you
guys are coming out with what they do and all that kind of stuff and then you know and then there's a lot
of discussion about you know what's going on in ukraine with the drones and especially china yeah
so i'd love to uh probably end with a with a with a with a decent chat about where china's at with
with drones and in kind of what drone warfare it looks like in the coming years yeah they're getting
all of it cool so where did you grow up uh so i grew up in denver colorado um my mom grew up in
colorado springs uh and her father served in the air force so he was stationed in colorado springs
So she wanted to have kids in Colorado.
And I've really been obsessed with stuff that fly since I was a very young kid.
I think some of it came from my grandfather, my mom's dad, but really from as early as I can remember,
I was building the little balsawood airplanes, the rubber band powered stuff.
And then I got into radio-controlled airplanes, which were really the predecessors to drones
when I was 10 or 11 years old,
and I was just obsessed with it.
I mean, I spent most of my childhood
in my basement building the things
and then out at the flying field, flying them.
I took it way too seriously.
I traveled all over the country.
You won some national championships, right?
Yeah, most people don't even know
that this world exists.
I didn't know.
It's kind of a niche hobby within a niche hobby,
but it's pretty cool.
I mean, you're basically, you're building aerobatic airplanes
and then you fly set sequences and maneuvers
and you get judged on how precisely you do everything.
And it's a little bit like NASCAR where it's like,
it's a combination of how good is the machine
and then how good are you at flying it?
And so I got very into optimizing every little detail
of building these things.
And then I also, I mean, in order to be good at it,
it's like anything else, you spend a lot of time practicing.
So I got very good at flying these systems.
And I, you know, I wasn't doing it at the time because I thought it was going to be a career.
I thought it was just, like, fun, cool stuff to be working on.
How old were you when you started that?
So I was like, I think I probably first flew when I was eight or nine years old.
And then I, like, they call it soloing, like being able to fly completely by myself.
I think I was maybe 10 or 11.
And then I started competing when I was 13 or 14 and then won national championships.
I think when I was 16 and 17.
Holy shit.
So I was like, in that world, I was kind of a little bit of like the child prodigy, you know, like kind of coming up, coming up, flying these things.
But I think I was just, I was super fortunate because I got exposure to this stuff at a very young age and really developed, before I had a formal engineering education, I developed like a really deep intuitive sense for how these things work and how flight dynamics work.
And, you know, when you're flying it yourself, the control system is all in your head.
But that kind of like deep intuitive understanding is one of the things that I think has enabled me to do, you know, both the research that I later did as a grad student and then do some of the things that we're doing at Skydeo.
Like one way that I think about what we're doing is we're building the skills of an expert pilot into the drone.
And the foundation of that for me really started with like my skill as a radio control airplane pilot.
Wow. When did you start thinking about autonomous drones versus, you know, versus RC planes?
So it was pretty obvious, like, basically from the beginning that I was going to be an engineer.
I mean, I loved building and flying RC airplanes, and I also loved kind of physics and math.
And I had some formative experiences in high school, really, where I first got exposure to this idea that you can do kind of like theoretical analysis.
analysis and math and optimization that results in something cool happening in the physical world.
So, you know, everybody does like the high school physics bridge competition where you like, you know, you build the bridge out of popsicle sticks to see how much weight it can support.
And, you know, I had some experiences on that, like figuring out how to optimize this thing and make it really efficient.
I think probably in undergrad and engineering was the first time that I got to write software.
that does something in the physical world,
which I at the time and still today find it just be a magical experience.
When you sit there and write code, you give the computer instructions,
and then you see those manifest in real world with the behavior and action of a robot.
So the first robot that I worked on was a tractor.
It was an autonomous tractor that could drive itself around in an orchard,
which is a very fun project, and I learned a lot doing that.
And then I was a grad student in the computer science and artificial intelligence
lab at MIT, which is where I met my co-founders for Skydeo, and that's where I really got exposure
to writing software for autonomous systems.
And this was like the research program in the lab that I was in, started in like 2007.
I got there in 2009.
So it was before drones were really seen as a major technology category.
The only drones that really existed at the time were the very high-end expensive military
systems.
And that was just completely addicting to me.
I mean, writing software and transferring a lot of the kind of intuition that I built as a human pilot into AI systems that could fly these things and then seeing what that could create in the physical world is just amazing.
Like the main output of my master's project at MIT was an airplane that could fly itself around in a parking garage, which the culmination of that was kind of 2012.
So it was still before the drone industry really existed.
Wow.
So you started flying that you said eight or nine years old.
Yeah.
And then took maybe a small detour with the tractor and then right back into flight with autonomy, right?
Yeah.
That's, that's, that's pretty, my hope.
There's not that many people that focused.
I'll say that much.
Well, it's one of these things, you know, in hindsight, it all lines up perfectly.
And look, I'm, I'm super lucky in a bunch of ways.
Like, my dad, my dad had wanted to do radio control.
when he was a kid, and his parents just weren't that into it, and they didn't really support him in it, so he didn't get to do it. And so he had a ton of pent-up energy of, like, wanting to do radio-controlled airplane stuff, which he took out on me, which was incredible. You know, so I did it with my dad growing up. Like, you know, we spent a ton of time building and flying these things together. And then I was just fortunate to be starting grad school right around the time when you could take radio-controlled airplanes. I mean, a lot of the hardware that goes into drones really grew out of the radio-control airplane, the RC,
helicopter, kind of the toy industry. So I was starting grad school, basically when you could take,
you know, radio control airplanes and the computers and sensors were getting light enough and
cheap enough and powerful enough that you could put them on RC airplanes. And then the big unlock
once you do that is you can write the software to get the thing to fly itself. And so, you know,
I think it was like just a fortunate kind of series of timing and exposure at the right moments
to be into this stuff that's enabled now what we're doing at Skydeo.
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How did you, I mean, so how did you meet your co-founders?
So our CTO, our chief technology officer at Skydeo, Abe was my lab made at MIT,
and he was the senior person in the lab when I got there. So he'd already been at it for three years.
So he was one of the first people I met when I was starting in the research lab. And it's actually,
So he is, I mean, he is the most gifted problem solver I've ever met in my life across any domain, hardware, software, radios, cameras, anything.
I mean, he's one of these people that can just intuitively, like, figure out how the system is working, how it needs to work, how to fix it.
And he's also an incredibly nice guy, but he has kind of a rough edge.
And so my first experience with him in the lab was feeling like, you know, who is this guy?
And I don't know what I'm doing.
and he's kind of like scary and intimidating.
And so it was kind of like a rough first intro.
And it's actually funny now because I get to see this play out constantly at Skydeo.
Like every time we hire a new engineer, they're like, they're kind of freaked out and scared of Abe.
And I'm like, yeah, yeah, it's fine.
Abe is wonderful.
You'll get used to it.
And so I can empathize with him, though, because I've been on the other side of it.
And then our third co-founder, Matt, was actually in the MIT Media Lab,
which is adjacent to the computer science.
and artificial intelligence lab.
And so he was working on a lot of, like, human computer interaction stuff.
And the, you know, the bet for the company was just kind of a combination of, like,
the hardcore science and robotics combined with, like, different user interaction paradigms
would be an interesting recipe to kind of try to build the next chapter of what drones could become.
Damn.
So, all you guys share obviously a fascination with drones.
Yeah.
So how did the, so what was the original concept of SkyD?
So the original concept, so we were, Abe and I were lab mates together through 2012.
After that, we got the opportunity to go and start Google's drone delivery program, Project Wing.
So the two of us, along with our professor, our advisor from MIT, moved out to California, started working on the drone delivery stuff.
This was like 2012.
And that 2012, 2013 were kind of the era where people were starting to think about, like,
maybe there's this new category of drone thing emerging, you know, like electric propulsion,
autonomy, it seems interesting. And we were then in Silicon Valley working at Google. And I think
we just started to look out there and see that there was a, there was a lot of excitement around
drones for all kinds of different applications, for capturing cool video, for doing critical
infrastructure inspection, for delivering packages, for public safety, sort of maybe a new wave
of drones for defense. And we felt like the possibilities of what the tech,
could do were incredible, like the impact that could be had was amazing, but none of it was
going to work the way that people really wanted if you needed to have expert drone pilots flying
the thing the whole time. It's just a very high barrier to entry. And I knew this because I was one.
You know, I grew up and I spent thousands of hours becoming a skilled pilot, but it's just not,
that it's not accessible and it's not going to be useful in the way that you want it to be.
And we knew a ton about the autonomy technology from our research at MIT, and it just, it felt
like that was going to be a foundational layer, kind of a big unlock to move the industry
forward. And that was really it. I mean, the big bet that we made was that computer vision,
AI, autonomy would be kind of a foundational tech layer that would make the products more
useful to more people in more places. The first product that we built was a consumer product,
basically like a flying GoPro that could follow you around and weave its way through obstacles
and capture amazing video. And we did that because we felt like,
the consumer market was probably going to develop the first because there's just, there's
kind of less that has to come true.
Like you don't have to convince a big enterprise to change the way they work and adopt some
new system.
You can just say like, hey, there's a cool thing that you can go and buy and capture some
cool video with and it's going to be fun.
So it's a little bit of like a lower friction entry point.
And then we also felt like the consumer product ethos of small and light and integrated and
easy to use rather than kind of like big and complex.
plunky and complex, would be the right foundation to serve other industries as well.
And, you know, I think we were, like, right about some of that, maybe wrong about other pieces of it.
But the vision, I was actually reading the, you know, the blog post that I wrote when we announced the company in 2014.
I would say that, like, the vision has really stayed exactly the same since the beginning of, like, make these things super smart to make them more useful to more people.
you know, it's always hard to imagine when you start, like, where you're going to end up.
But the, like, the central kind of bet was the same.
Yeah.
So, I mean, how did you, I mean, how did the customer phase develop into what it is with, I mean,
actually, before we get to, before we get to that question, I mean, how many other drones were out there at this time period that were, you know, able to follow people and dodge?
Well, so this is, this, one of the interesting aspects of the drone industry.
is that it's always very easy to imagine the concept
of like, it would be great to have a drone that does this.
And it's typically pretty easy to make some kind of marketing video
that shows what that might look like.
And so at the time and still today,
there's always a ton of companies that are talking
about various aspects of this.
So when we started, there were probably like 30 other companies
out there that were talking about, like,
sort of a follow-in film type drone.
And I think like a fair assessment is like basically none of it worked.
Like we were the only ones that were able to like solve the hard technical problems.
Oh shit.
That it actually took to make this thing come together in a reliable, scalable way.
And the technology foundation that we developed there has served us extremely well as we expanded to serve other markets.
So, you know, we started in 2014.
We decided we were going to do the consumer product first.
It took us four years to develop the first product.
I mean, one of the things that I think people don't understand about this stuff is it really is a cutting-edge aerospace device.
I mean, it's small, but it's got aerodynamics and propulsion and vibration and thermals.
And we've got the whole computer vision and AI system.
Like a lot of the software and hardware is similar to what you find in a self-driving car.
We've just had to shrink it down to something that weighs a couple of pounds, which actually makes it even harder because you have less margin to work with.
So it's a very hard technology build.
It took us four years to get to our first product, the Skydeo R1.
which was kind of the first instantiation of a consumer follow film drone.
And I kind of described the R1, like it was a, it was a technology success, but a commercial failure.
Like, everybody that saw it said, like, that thing's amazing.
I can't believe you guys pulled that off, but nobody bought it.
So it was.
Why do you think that is?
It's too expensive?
It was too expensive.
So it was $2,500, which is a lot for a consumer product.
And it also had too narrow of a feature set.
Like, we basically, and we, this was an intentional decision.
We focused very narrowly on, like, the autonomy system on this thing needs to be mind-blowing and awesome and do things that nothing else in the world can do.
But the wireless range was not very good.
The camera that went on it that actually recorded the video was not great.
The, like, breadth of different things you could do with it was pretty narrow.
And all these things were intentional choices.
And honestly, I would probably make the same trade-offs again.
Because, like, when you're a startup, when you're doing something new, unless you can break through,
in some way and do something that is really like better and different than everything else out there,
there's just no reason for anybody to care at all about what you're doing. So we had this kind of
huge spike in autonomy capability, which we use to raise money, venture capitalists, and, you know,
attract the team and kind of get the whole flywheel spinning. And then, and then, you know,
it's a period of years afterwards to kind of build out everything else that has to be great to have
a great drone, like the radios, the cameras, the form factor, the propulsion system, and so on.
But yeah, we were in kind of an interesting position in 2018 because we launched this product.
Everybody thought it was amazing.
Nobody bought it.
We had just enough money in the bank to develop a second version of it, which became the Skydeo2.
And so we really had our backs against the wall there for like 18 months or so where it's like just enough money to get through, take one more shot at this, take everything that we've learned, and turn it into a better version of the product.
And this was also when we started to get a lot of inbound interest from enterprise customers.
You know, it's kind of been a steady build in enterprise.
Like in 2014, the big companies were talking about using drones, but very few of them were actually doing anything.
It was all kind of slideware.
By 2018, more of them were kind of starting to poke around and actually had started some drone programs.
And so when we launched the R1, even though it was a consumer product, I think a lot of the leading enterprises in law enforcement, defense, as well as, you know, energy utilities and so on, they kind of saw this and said, like, that's, you know, that thing isn't designed for us, but the technology in it looks like it could be very.
relevant for us. And so we started to get a lot of inbound interest, uh, which, which started
to impact what we were doing from a product perspective. So when we launched guide O2, it was still
mainly aimed at consumers, but there was more kind of enterprise thinking built into it.
Who, who, what enterprises were reaching out? What do they want? Um, well, we started to, um,
we started to hear from the DOD. Um, and that was, uh, that was, you know, one of the,
the big opportunities that, that got a lot of attention.
and that we spent a lot of focus on.
You know, that's a, we could talk about that whole trajectory.
So that was a big one.
You know, there were insurance companies that wanted to use the drone
for inspection of houses and other assets.
There were, our first law enforcement kind of interest came inbound
because they saw the capabilities of the R1.
And I think they probably imagine, like, if you could, you know,
if you could take the R1 and make what has become the R10,
like that would be an incredibly powerful thing for us.
So it was very broad, which was actually,
actually great because it just having this kind of core technology that got a lot of people's
attention exposed us to a lot of the needs and opportunities that people had and were wanting
to do with drones. Man. So, I mean, what specifically are they asking for? I mean, are they
asking like when you're talking about, so here's what comes through my mind. When you're talking
about you know and in a drone that does inspections for an insurance company i'm thinking like
roofing inspections after hurricane shit like exactly i mean i wouldn't think you would have to make
very many modifications uh to the drone to be able to do that i mean it's um it's just here's a drone
with a camera on it yeah i mean it it depends on you know how you want to do it and how well you
want to do it um but it's true and one of the one of the the cool things about drones is that it's
really a technology platform. You know, it's like a laptop or a phone or something where you can
use it for a ton of different stuff. And with different software, you can specialize it for different
tasks. So one of the general patterns is that, you know, the hardware is very general purpose. And
if you're flying it manually, you can do a lot with it because the adaptation for the application
basically comes from the pilot. You know, the pilot's like, okay, I want to inspect this thing. And so
I will, I will do the things that I need to do flying it manually to inspect this thing. If you want to
automate it, you typically need to write more custom software for different applications.
And so we did both those things. Like, we would enable our customers to operate it manually to do
whatever they wanted to do. But we'd also, as they were operating it manually, we'd learn, like,
all right, what are they actually doing? What kind of algorithm is running in their head?
And how can we turn that into autonomy software such that we can do it in a more reliable, scalable way?
So one of the examples of this, we have a product called 3D scan that we built because we basically
saw that one of the fundamental kind of primitives that many of our inspection customers were doing
was basically digitizing a 3D structure. And it could be a bridge, could be a cell tower,
could be a crime or an accident scene even. And so we built a piece of software where basically
you just say, like, here's the thing that I care about. And then the drone will autonomously
explore and map and capture high resolution imagery of the whole thing. And so that was kind of an example
where you could do it manually, but the better way to do it is autonomously, and it took us a little while to, like, to write the custom software to do it autonomously. You can almost think of it like apps on your phone, right? Like, the phone is general purpose, and then you get specialized software to do different specialized tasks.
Makes sense. Actually, it makes a lot of sense. So how many, I mean, how many different models of drones do you have?
So right now we have three major products. We've got the X-10, which is the flagship.
And we're huge believers in that category of drone.
The kind of medium-class quadcopter,
it's small enough that you can take it with you anywhere,
but it's big enough to be super versatile, super powerful.
It carries great sensors, so it's got a thermal camera,
it's got a Zoom camera that can read a license plate at 800 feet.
At 800 feet?
Yeah, it's got, so for that size of drone,
it's crazy the level of like optics that you can get in there.
So the X-10 is kind of like the workhorse platform.
But now that we've done that, and for a long time, our product strategy in the enterprise is like, we need to nail that thing.
That's going to cover the most applications for our customers.
It's going to deliver the most value.
We've got to get that thing great.
It's got to be awesome and reliable.
And we'll probably look at some of this stuff later.
There's other accessories around it that enable even more exciting capability.
But now that we've got that amazing core of technology and it's out there in the world operating at scale, we can kind of take a lot of the core piece.
pieces of it and reconfigure it into different form factors.
So the R10 is the next major example of this, where we've basically taken a subset of the hardware from X10 to get it into a smaller, lighter, less expensive package.
So this is designed for indoor operation.
And then maybe I'll leave it till we see it live.
We've got another thing that we're working on, which is still in prototype form that unlocks much longer range, much longer endurance kind of missions.
of missions. And I really, I think those three together, we think of as sort of the family of robots
that solve the vast majority of the data capture needs that our customers have. Wow. So can we go
through, can we go through each one and what all of the purpose of each application for these
drones are? Sure. So the X-10 is really the workhorse. And it's used,
I mean, it depends on the industry that we're serving.
So for law enforcement, it's used in two major modes of operation.
One, we call kind of drone in the trunk where you put these things in patrol cars.
And if somebody's out there and they run into a situation where aerial situational awareness would make a difference,
they can take it out of the trunk, launch it in the air, and just kind of get real-time awareness of whatever they need to see.
The other mode of operation, which is really the future where all this stuff is going,
is having the drone live in what's called a docking station, which we'll see here in a bit.
And the dock turns the drone into a fully autonomous device.
So the dock is a network-connected charging base station.
It's got a whole H-FAC system in there, so it can be out in any kind of weather
and basically keep the drone ready to fly at a second's notice.
And it's super powerful.
And this is a big part of autonomy
and making these drones useful to more people
because you can have somebody
who's just in an op center somewhere
and say like, oh, there's a 911 call here.
I want to send a drone. They just click a button.
The drone autonomously launches,
gets there in a few seconds
and can oftentimes
change outcomes.
So are these,
so are these,
what cities are using these?
A bunch. I mean, all over the U.S. at this point.
So, like, New York City, Philadelphia, San Francisco, Oklahoma, Albuquerque, I mean, most major cities in the U.S. are in some stage of deploying Skydeo drones as part of law enforcement.
Are these cameras?
They are, yeah.
So the hardware there, yeah.
So the thing on the front is the gimbal.
So we call those the user cameras.
So those are the cameras that capture the data that our customers are going to see.
That's like there's a thermal camera, there's a zoom camera, and then there's kind of a wider field of view camera, and it's on a, if you, you can pop off that red clip.
Yeah, so the gimbal, you just, you can kind of wrench it out of the gimbal there.
You can pull it out of the red thing out of the, yeah.
So the gimbal is three-axis stabilized, so there's three motors that keep it perfectly stable.
So even as the drone is moving around, those things are stabilized, they'll stay locked on to whatever you want to look at.
But then the other cameras, good observation, there's three on top, and then there's three on bottom.
So those are navigation cameras.
And this is the part, this is basically like the self-driving car part.
So those are fish-eye cameras.
They have a 200-degree field of view.
So the top three, see the whole top hemisphere of the drone.
The bottom three, see the whole bottom hemisphere.
So the drone has, you can basically think of it's got eyes that see everything in every direction.
It's got a very powerful NVIDIA, CPU, GPU, on board, which is running.
all of our AI software, and it's basically doing, like, what a self-driving car does.
Like, as it flies, it's constantly mapping the space around it, predicting into the future,
avoiding obstacles, and doing all the things that, like, a skilled pilot would do.
So when these, so do these cities, I mean, so obviously they are connected to law enforcement
dispatch.
Yeah.
So do they have these staged all over the city in various locations?
Yeah, so we actually, we have some examples we could look at if you're up for it.
Yeah, I would love that.
What this actually looks like.
Let's do it.
So the way this works is you have the drones in the docking stations, and then as you say, you distribute these all over the city.
Typically, they go on the roof of fire stations because fire stations are kind of nicely spread out for faster response time.
And they typically are installed in what we call hives, where you.
you have like three docks on one rooftop because that gives you capacity to respond to more
calls.
Like it ends up being driven very similar to just how you staff an agency with officers based
on the call for service volume.
That's how you staff it with drones too.
So if you have a high crime area or a high density area, you need a lot of drones in that area
to respond to all of the incidents.
And it just becomes part of the 911 dispatch flow.
How do you make that determination of how many drones a precinct would need?
Yeah, it's a great question.
So this is actually something I'm very passionate about.
So I have come from an engineering background.
I love data and algorithms.
And so I don't get to do as much engineering on the drone itself anymore.
But we got asked this question all the time by cities.
Like how many drones do I need?
Where should I put them?
And so I actually wrote a simulator where you can ingest historical 911 call data.
So you get like time, location, priority.
And then we can simulate through it, like literally second by second.
in and say, like, all right, if we had a drone here,
here's how long it would take to respond.
And that's become a useful tool for us to work with our customers
on like, here's where we could put them in the real output
that we care about is the response time curve.
Like, what percentage of calls are we going to get to how quickly?
And so based on the crime patterns and the call data,
we can sort of optimize that whole thing.
So are you just going off of, I shouldn't say just,
are you going off of previous 911 calls?
or population size, mixture of both.
So 911 calls are the primary driver
because that's the primary job of the drone
is to respond to calls for service
and respond to incidents.
Even though I love the data and the tool,
at the end of the day,
the judgment of the experts of the people
who live in that city is the thing that matters most.
So we kind of use that as a starting point,
but there's always just infinite kind of local knowledge
within the police department of like,
oh, yeah, this is a tough neighborhood.
And this is, you know, if we put this here, we'll be able to respond to this kind of incident.
And so that ends up being, in most cases, kind of the primary factor at the end when we're fine-tuning these things for what the deployments look like.
What kind of, what kind of 911 calls are they responding to?
So we should look at, so it's all different times.
And it's basically as diverse as 911 calls are, which cover a huge range of things.
So if we look at a couple of examples here, so this is from the Oklahoma City.
police department.
Is this the, is this my gift here?
This is not the one that was shot.
So this was a situation where there was a train operator that called 911 in a panic,
afraid that they might hit somebody who was on the tracks.
So they launched the drone.
They get there in a few seconds.
They can fly up and down the train.
This is like a multiple mile long train.
So it would have taken like 15, 30 minutes, an hour maybe with the drone.
They saw, unfortunately, there was a homeless person asleep on the tracks, but they found
them in just a couple of minutes.
And because they found them so quickly, they could.
guide in first responders and they save this guy's life because of the drone because in these
situations the seconds matter so that's kind of one example we've got another one here this is from
the san francisco police department so same situation drone is launched from a rooftop this was one
where there was a stolen vehicle so they had a report of a stolen vehicle they launched the drone
and now they can just go out and follow a stolen vehicle from the air and this guy has no idea that
who's being followed.
So they knew that oftentimes these folks would steal license plates.
It's called cold plating, but they never actually caught anybody in the act with the
drone.
They see him like pull up, steal the plates off the vehicle.
And then, you know, once he's got the new plates, he's going to put him on the car.
He actually holds the plate up here so you can read it from the drone.
Holy shit, man.
So he puts the plates on.
Now he's window tinting it.
So he went down a dead end street and he's putting window tint on.
And this is, like, this is the beginning of bad news, right?
This is a crime spree.
It's a stolen vehicle.
He's cold-plated it.
He's tinting the windows.
Like, he's going to go off and do a bunch of bad stuff.
But they know exactly where he is.
They know exactly what he's doing.
They send out a plane-close unit.
They roll a spike strip.
So now his tires are flat.
And it's basically game over.
He can't go very far.
They go in and, and pick him up.
And videos like this, I find just, like, deeply satisfying.
Yeah.
Where the criminal is just kind of screwed.
You know, it's like, there's just a huge asymmetric advantage that the officers have.
And it's safer for everybody.
I mean, it's safer for the officers.
It's safer for the community.
It's honestly even safer for the perpetrator
because there's a much lower chance
that the officers are going to need to use force
when they get to pick the time and the place
to intervene.
So it's like for me and for our customers,
it's pretty awesome to see this stuff.
And like the impact in San Francisco is incredible.
I mean, San Francisco has had a rough run
over the last three or four years.
Unfortunately, the voters voted to allow drone technology.
And since they've deployed this, along with like some license plate reading cameras around the city, I mean, the statistics are staggering.
I think crime is down overall like 30%.
No kidding.
Yeah, property.
How long of a time frame?
Like, less than a year.
Holy shit.
I mean, you just can't get away with it, right?
Like there's, there's, they, they will find you.
They will follow you with the drone and they will stop you before you can do anything, anything more.
So it really just completely changes the game.
We hear this, they like game changer.
We hear that all the time from our law enforcement customers.
Like, you know, we had people say it's the biggest change in policing
since the invention of the radio because it just totally changes the nature of first response.
Man, I mean, any, is this another example?
Yeah, we've got another example here.
So this was really like a tragic situation.
This was in Albuquerque.
So these are a couple of nine-year-olds.
in their parents' backyard with a gun.
And they were, you know, the neighbor basically reported
that there were shots fired in the backyard.
So they sent the police out because they have the drone,
they know exactly what's going on.
So they can see that it's a couple of kids rather than adults.
They can use the information from the drone
to de-escalate the whole thing.
So you'll see they do a couple things here
to distract the kids and kind of pull their attention away.
And there's just no mystery.
for them, right? Like, they're watching this live feed the whole time. They know exactly what they're
dealing with. And they can use that to make better decisions. Like, rather than guessing they know
exactly what they're dealing with, so the officer goes in there, grabs the gun. And the sheriff
actually said, if not for the drone, they probably would have to shoot these kids because they
wouldn't know what they were dealing with. But with the drone, it's just a completely different
situation. Man, I mean, what about, what about violent crime?
Violent crime like, I don't know, some type of a, you know, domestic call.
I mean, yeah.
He's responding to stuff like that.
They're responding to everything.
Like I, you know, this isn't public, so I probably can't say the customer, but I was, I was visiting a customer a couple weeks ago where they had, there's a guy in kind of a low-income apartment complex.
He was drunk.
His neighbor was playing ping pong in the parking lot.
which was pissing him off, apparently, and he shot the guy.
Fortunately, he didn't kill him, but he shot him.
Everybody heard the shots.
They called 911.
The drone got there in 20 seconds, and it got there.
20 seconds?
Yeah, it got there just in time, just in time to see the guy with the gun walking back towards his apartment,
putting it away and walking into his apartment complex.
And so the difference in response here is transformative, right?
Without the drone footage, all the officers know is that somebody got shot.
They have no idea who did it.
They have no idea where he is.
They have no idea if he's still armed.
So they probably need to lock that whole place down.
They probably need to go door to door, guns drawn.
The chances of something tragic happening is non-trivial, right?
But because of the drone, they knew who it was.
They knew where he was.
They knew that he was still armed.
So they basically can just surround his apartment complex, yell at him, tell him that he's busted.
He has no options.
And he eventually came out and surrendered himself.
And stuff like that is happening all the time.
So we, by the end of this year, we will be doing close to a million flights per year rate.
So close to 100,000 flights per month.
And so it's literally like almost every minute something like this is happening somewhere
in the country where the drone is responding to an emergency.
I mean, I just feel like these, I mean, well, one, this would have totally alleviated
the Charlie Kirk assassination.
Yeah.
Yeah, it'd be great if, you know, was it Salt Lake?
Was Salt Lake?
In Utah.
Yeah.
Is it Salt Lake or Park City?
Yeah.
I don't know which one.
But, yeah, it'd be great if they invested in Skydeo for the next, you know, outdoor event.
Yeah.
But, I mean, I just see so many uses for the stadiums, shopping malls, outdoor parking lots, police stations, soft, any military unit that's going to clear a building.
or a ship or, yeah, I mean, yeah, it's, you're 100% right.
I mean, you've got exactly the high speed chase goes too long.
I mean, what's the, what's the flight time on these?
So, max flight time is up to 40 minutes, practical real world conditions.
It's closer to 30 minutes.
And then the top speed is 45 miles an hour.
So it can keep up with cars in kind of urban and suburban areas, but it's not going to
keep up with a car on a highway.
It's not, it's not fast enough for high speed chases.
But that is one of the motivations for the kind of the other form factor that we'll look at in a bit here to fly much faster, much longer range, much longer endurance.
Because the only stories that I don't like when we're looking at what's happening in public safety is where the guy gets away.
And the cases where we see that happening now is where somebody just gets on the highway and speeds away.
And so we're building another drone to take care of that.
Right on, man.
I mean, and then, I mean, these, so these can just switch each other out, too.
Yeah.
If it's taken too long.
Exactly.
Switch each other out in the middle of the chase or whatever.
With the autonomy, it really, one of the ways that we think about it is historically
flying a drone has been like playing like a first-person shooter video game or something, right?
Where you're like, you're in the character, you're driving it around.
And we want to make it more like playing a story.
strategy game where you know, you've just got a lot of assets and you can say, like, I want to look at this thing here. I want to inspect this thing at this time of day. And the drones just, they just figure out how to do it. So you can kind of, the humans can operate at a higher level of abstraction, at a higher level of judgment. And that's exactly what we see happening now. So this whole concept is called drone as first responder, using drones to respond to emergencies. DFR is what people call it kind of in the law enforcement world. And DFR is at the leading edge.
of all of these themes of like using AI and more automation.
And it's, it's honestly, it's, it's, it's kind of surreal to see it.
I mean, it's something that we've held as kind of the focal point of our product vision
for like the last six or seven years.
And it's really only in the last 18 months or so that I've seen, we've really seen it,
it take off.
Man, I mean, so are these, are these, are these just responding to calls or are they, is
Are there a presence in some of the cities?
It's 99% just responding to calls.
It's ultimately up to the discretion of the agency and different agencies have different
policies, different states have different rules on this.
You will see sometimes where if there's going to be a parade or a demonstration or something,
they will do some proactive work around that.
You know, I am one of the things that I think is fundamental here is transparency around
operations because, you know, the idea of having, like, AI-powered drones flying all over
U.S. cities is kind of crazy, right? And honestly, like six, seven years ago, I thought that public
acceptance of this stuff was going to take a very long time. And I actually thought this was
going to be one of the last markets to develop. This is one of the big things that I was wrong
about. I thought all the other, like, infrastructure inspection stuff would happen at much larger scale
before we had drones responding to 911 calls because it does sound kind of nuts that we're going to have
like AI powered flying robots with cameras flying over cities, I think the thing that has really
made it work and the credit goes to our customers is just the investment in transparency and
community communication around like what they're doing and why they're doing it. And it's one of
those things where, you know, when you see these examples of what the drone can do, it's very
difficult to argue with it. You know, it's very difficult for somebody to say like, no, I wish they
didn't have a drone in that situation. And I wish that guy got away. Or, you know, I wish that
they couldn't tell that those were nine-year-olds rather than adults and de-escalated. I mean,
when you see these specific examples, it's, I feel like it's basically just irrefutable that it's
providing incredible positive impact. Well, I mean, we're all under surveillance pretty much 24
hours a day anyways, right? So what's the difference, whether they're just static cameras or
roving cameras? This is something that I think a lot about. You know, I really knew this is
my life's work. You know, I've been working on this stuff since I was a little kid and I want
to be working on it for the rest of my life. And I don't want to be a part of building this kind of
like dystopian future where we've got, you know, drones falling us around all the time.
And so I think there is a balance to be struck. And I think the best way to do it is through
very aggressive transparency of, you know, like here's when we're flying, here's why we're
flying. And drones, I think, are actually, they're visible and they get people to
tension because, you know, everybody's like, oh, man, there's like a drone. What's it doing?
But I actually think they're one of the least invasive forms of surveillance because it's very
reactive to emergencies. Like, rather than just blanketing a city in cameras that are going to
capture everything, you're just putting the camera exactly when and where you need it at, like,
the most important moment in time in a very targeted, precise way. And I actually, I think that this
is sort of a general theme, but I, you know, there's always this tension between like public safety
and privacy and civil liberties
and technology, I think, is the thing
that enables us to make better and better tradeoffs
of like protect privacy and civil liberties
while also improving public safety.
This is one of the thought experiments I do.
Like, if you imagine a world with extremely primitive technology,
like you could achieve high degrees of public safety
by basically just locking everybody in their house all the time, right,
with no technology.
And inventing better stuff like Autonomous Drones
enables you to, I think,
actually have, like, extremely high levels of public safety, while also protecting extremely
high levels of civil liberties and, and, and, and, and, and, I mean, with the rise of crime
in some of these cities, I think people would be, I would, I would think some, some of these
cities would be begging for you guys to show up.
This has been, this has been probably the most positive surprise that I've had in building
the company is the, the generally extremely positive public reception. And we see this all over
the place where, you know, it's not to say there aren't like some folks with concerns,
and I think in general there are reasonable concerns to be had, but there's a huge amount of
enthusiasm, typically, for bringing this kind of technology to a city or a community because
of the impact that can have. And especially when people see the examples. You can kind of be
concerned about it in the abstract, but once you see the specifics, it's almost hard, it's almost
impossible to argue with. Are any cities using these as like a roving,
presence patrol?
To my knowledge, no.
More of like a deterrent.
Like, hey, we see you.
I haven't seen that.
It could be happening in some places.
And I think there could be positive impact to be how there.
I just think you want to be careful with it.
And, you know, whatever you're doing, I think you want to, like, you want to be transparent
with the community about, like, what you're doing and why you're doing it.
One of the things that, that, so, you know, the, the highest, highest impact.
for the examples that we looked at,
where it's like a life or death situation,
the drone gets there, changes an outcome.
The reality of policing is that it's like, most of the time,
it's pretty fucking mundane, right?
It's like somebody called, you get there,
there's nothing really happening, it's kind of a waste of time.
And one of the real beauties of this
is that it also enables you to take care of all that stuff.
So, you know, we've had situations where there were like,
you know, there were a couple of youth,
like hanging out at a car dealership
and loitering and annoying them.
and they shouldn't be there and rather than having to send an officer and taking like an hour
of an officer's time they send a drone it's got a speaker on it you can talk to him through the
drone tell the kids to like go do something else and the whole thing is taking care of in five
minutes and so it saves the officers time to actually be doing something that's like that's really
high impact um and so there's a huge efficiency piece to it as well on just sort of like
the more mundane calls of like somebody's parked in the wrong spot or there's like a noise
complaint from a neighbor or something yeah you can clear a lot of that stuff from the air
without maybe I get something down the ground.
I get these things.
Yes, I get the privacy concern,
and I don't want to, like, you know, pretend like it's not there.
I know people, you know, I mean, look, if there was a drone
flying around my house every day, I'd be like, what the,
I would shoot it down to.
You put another bullet hole in it.
I would, I would put a couple of them in there.
Yeah.
But, I mean, you know, when you think about, I mean, everything,
I mean, there's ring cameras on,
probably at least 50% of the homes in America at this point.
Yep.
You know,
but I mean,
when we're talking about,
you know,
car dealerships,
like you were just,
car dealerships,
stadium,
shopping malls,
just all,
you know, gas stations,
anywhere where there's,
you know,
where you see theft,
crime, all these things.
I mean,
it seems like,
I don't know what these things cost,
but if these are landing in a,
in some type of base station,
recharge, weatherproofing, all that kind of stuff can come back out and rove around.
I mean, it seems like every car dealership, every stadium, every shopping mall, every Walmart,
Target, grocery store, I mean, you name it, should have these just 24 hours a day,
seven days a week, 365 days a year, roving their properties.
Yeah.
You know, not only as a, you know, we got you, but as a deterrent.
Yeah.
Because they'll chase, they will chase a criminal.
Yeah, I agree with you.
I think that the...
Is anybody doing that?
It's, you know, the future's here, it's just not even lit distributed.
So we have customers that are, like, everything you just described is happening.
It's just not happening everywhere all the time yet.
But we have retailers that are installing these things for security and patrol.
You know, we have, like, military bases are using them for security.
patrol. So, you know, data centers are using them. These, like, massive facilities with
really high security stakes. So, yeah, I mean, I think we're headed for a world where these
things. So one of the ways that I think about this stuff is... I would think high net worth
individuals with properties as well will be using this stuff. Yeah. Yeah. I've got one of my...
Who is your biggest customer? Our single biggest customer, that's actually pretty close.
Historically, it's been the U.S. Army. And just using the...
the kind of ISR, intelligence surveillance, reconnaissance drones on the battlefield,
although they are starting to do more dock stuff now.
Although the big cities are getting close now to the U.S. Army in terms of, like, you know,
the scale that they're deploying drones.
Man, I mean, so why do you, it sounds like that you are not, you're wanting more people
to express interest.
What do you think is in the way of that?
Is it marketing advertising?
I mean, the bottleneck right now is how quickly we can install them.
Really?
Yeah, the demand is very, very high.
Very, very high.
And it's basically how quickly can we build and install these things.
Wow.
And I think it's pretty, it's a good problem to have.
Yeah.
How quickly can you build an install?
We're ramping up.
I mean, we have the, we have what I think is the largest drone factory in the U.S.,
Certainly for this class of drone, we've always built our stuff in the U.S., which is a whole other.
I mean, I'm very proud that we're doing this.
A lot of people thought it was impossible 10 years ago.
So we're cranking.
That's awesome, man.
I love hearing that, too.
So these are 100% manufacturer of the U.S.?
Well, we have global supply chains.
We're getting parts and components from all over the world with a couple notable exceptions like China.
But, you know, we work with companies in Taiwan and Japan for, for,
different parts and components, but all the manufacturing assembly testing is done in the U.S.
in our facility.
Yeah, that's awesome.
It really is awesome.
It's like when we started in 2014, the conventional wisdom at the time, especially
in Silicon Valley was like, one, you probably shouldn't do hardware to begin with because
like hardware is hard and it's dirty and expensive and all this stuff.
And then two, if you are going to do it, you should just outsource it to a contract manufacturer
Asia. And we actually, honestly, started down that path. You know, we started down the path of
working with a contract manufacturer. It was a great company based in Taiwan. But basically,
what became clear was that we didn't know how to build a drone yet. They didn't know how to build
a drone. It was fundamentally new technology, and it just wasn't working. Like, we didn't know
what to do. We didn't know how to tell them what to do. And the only way to do it was to pull it in
house and just figure it out ourselves and just get like the really fast iteration cycles of having
engineering and manufacturing basically right next to each other. And so at the beginning,
it was really just a practical thing of like, this is the way that we're going to get the best
product the fastest. And, you know, in the back of our minds, we probably thought at some point
at some level of scale, we're probably going to have to to outsource this. But a couple of things
happened. One, like we got better and better at it. And then two, it's really become clear that
these things are like, they're critical infrastructure. I mean, when you're installing these things,
in docs and they're talking to the network and they can fly themselves anytime that they need to
and they're taking instructions from the cloud.
I mean, these are incredibly powerful robotic devices.
And even when we're selling to civilian customers, I think the national security stakes are
extremely high.
And I think there's increasingly broad recognition of that, that there's, you know,
this is among the most critical technology in the world.
And so being able to manufacture it in the U.S. has become a massive strategic imperative
and at this point, I mean, we're all in.
Like, we just keep investing in our factory
and making it bigger and better and more automation.
And it's an awesome thing to get to be part of it.
I mean, it's really, I kind of think of Skydeo as like a,
you know, we kind of have like components and raw material comes in one end
and autonomous drones come out the other end.
And we do all the design and manufacturing and write all the software
and sell them ourselves and support them ourselves.
And it's very cool to have all those things under one roof
because it basically means you can do anything.
You know, you can, any crazy product concept that we come up with,
there's nobody to tell us no.
You know, we can just, we can do all the engineering
across all the different disciplines, build it ourselves,
and get it out there in customers' hands.
Yeah, that is awesome.
How does it know, how does the system know how to respond to different scenarios?
So, I, so I'm a big believer in,
AI and autonomy. And I think we're, I think this is like the most exciting moment in human
history. I mean, I think the technology that we're building and where it's going. As much as I
believe in AI, I also believe that there's really no substitute for human judgment. So we're not trying
to, uh, we're not trying to take the human completely out of the loop. We're basically just
trying to give them the tools to like really efficiently exercise their judgment. Um, so there's still
a human in the loop today of deciding to send a drone. Like they have all the context in our
software. So we integrate with what's called a CAD system, computer-aided dispatch. So all the calls
show up in our software on a map. So you can see location, priority, description, and we're
actually integrating now. There's some really interesting companies doing kind of 911 innovation
to make that even faster and have AI insights from the call. So all that stuff comes into our
software. It's still a human judgment that says, I want to send a drone to this. For this kind of call,
this kind of incident, I think it's worth getting real-time situation awareness. But all they have to do is
click one button, and away it goes.
You know, I think at some stage, we might get to the point where we would provide
customers the option to automatically launch.
Like if you hear certain keywords, like, you know, shots fired or fleeing suspect or
something on the 911 call itself, you could automatically dispatch a drone and then still
have the people kind of like consume the video stream and make decisions on it.
I mean, why not?
It wouldn't hurt anything, right?
No.
I mean, it's just an extra asset involved in a, in a unfortunate situation.
Yeah, I agree.
And I think the part of the beauty of these things is that the, you know, the marginal cost per use is basically zero.
Like, it costs nothing to, and if, you know, the worst case scenario, it's like a false positive or something, you just send the drone back.
And so I think that there's also an adoption thing, right?
Like, law enforcement's been doing things one way for, for 40 years.
It takes some time to adapt the way that you do it.
But I think we're headed towards a place where there's kind of a default expectation that any call of any kind of significance, you're going to send a drone just in case.
And one of the things that we hear all the time from our customers, actually, all over the country, is once they've been doing this for a little while, the officers hate responding on the ground without a drone because they feel like they're just going in blind.
They have no idea what they're headed into.
they don't feel as safe they're not as confident and so i think we will we will get towards a place
where it just becomes kind of a default expectation i have just random questions that don't
really fit in anywhere this this indoor drone yeah so i mean let's say i'm i'm like hey i want to buy
this for my personal residence or right here in my studio i buy this drone how much set of
Is there involved? How much, how much do I need to learn? Or is it just, here's the base station,
set it over on the counter, put the drone on it, and it just figures it out? So you'll get the chance
to fly these here. Our goal is to make it so that anybody who can use an app on a phone
should be able to very quickly feel comfortable flying one of these systems. And the autonomy
system is a huge part of that. Like they see everything in every direction, they avoid obstacles.
So it's, it's pretty darn safe and easy to get up and running.
But like anything, there are, you know, there are different depths of skills that can unlock different things.
And, you know, like, for example, are the San Francisco PD drone pilots are, no offense to any of other customers.
The SFPD ones are the best that I've seen.
And they have some guys that are just wizards flying these things.
I mean, they're like, they're video gamers and the things that they can do and the speed with which they do it.
is incredible. So like anything, the barriered entry is extremely low, but the people who are great at it
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I partnered with this production company called Ironclad,
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Who's pulling the strings?
Who's pulling them?
All right, we're out here.
This is the X-10.
Yep.
So this is the flagship drone.
This one doesn't have a bullet hole in it.
So it's good to fly.
And we'll get to show you what it can do.
So I just put it down on the ground here.
And then I'm holding the controller.
So this is how we fly.
So I'm just going to swipe up to take off.
So this is kind of like the typical manual flight experience.
So I've got joysticks.
I can move the joysticks around and it'll just respond to my commands.
Now the fun part here is with the autonomy system.
So I've got it lined up at a tree there.
and I'm just going to jam the joystick forward.
So I'm going to go full forward,
and it's just going to weave its way through the trees.
So this is basically autonomous flight.
All I'm telling it to do is go forward.
Holy shit. It's just doing all that on its own.
Doing all that on its own.
So now I'm going to go backwards.
I can't even look where I'm going, right?
And it's just going to weave its way through, keep itself safe.
So it comes up to the tree wall here.
It'll find its way through that gap.
And this is just a huge,
difference of what it's like to fly a drone, right? Like normally, the normal
experience of flying a drone is like, I'm looking at that thing, I'm trying to figure
out where it is in relation to the tree, I'm worried about crashing it. And here, just don't
give a fuck. Just full stick forward. Uh, holy shit, dude. We can turn around here. So this
will give you a sense of what the cameras can do. So here we are looking at ourselves.
Um, so right now I'm on kind of the wider field of view camera.
If I punch in, so you'll see a transition here to the zoom camera, so I can like...
Wow.
And it shows the thermal right next to it.
Exactly, yeah.
So there's my Scottio logo.
You can punch back out.
We've got the thermal feed.
So we're obviously going to pop on thermal.
I gotta be honest, I don't like see it myself.
It's not your best angle.
Looks like an AC 130 Specter Gunship is targeting us right now.
Yeah.
What's the thing sticking out of the side?
Yeah, so the thing on the side is an attachment that's a speaker.
So we've got four attachment ports.
You can put anything you want on there.
So we've got a spotlight.
We've got Night Sense, which gives it the ability to basically have night vision.
And the speaker enables you to talk to people on the ground.
So, for example, if you want to like, you know, get somebody's attention.
Attention, attention.
Please exit the area immediately.
I repeat, please exit the area immediately.
I think we've got...
Oh, nice.
Nice.
Always a fan favorite.
We actually, so Miami Beach Police Department.
They requested that?
They're one of our great drone of source responder customers.
They deal with like huge drunk crowds around spring break.
And this has become a very useful tool for them to communicate with the spring break folks.
So if you want, you can fly it here.
So it's a little bit like playing a video game.
You were asking about how hard are these things to fly?
So the right stick is going to move you around.
So the first thing that get familiar with,
if you push that right stick forward, that'll push you forward.
And then back will go back.
And then you can go side to side.
And I always recommend to get comfortable with the autonomy
system, just jam the stick forward into some trees
and see what happens.
So that's how you turn, left stick.
Do that comfortable, just, just get, just do it.
Here we go.
Yeah.
Get the fuck out of here.
It's going to go through all that shit.
I mean, it has a tolerance for how close it'll let you get.
But yeah, I mean, so you're like, you're how far into flying it, like one minute
and you're flying it.
This is like world-class drone pilot stuff, like flying.
like flying at high speed through obstacles and with the autonomy system it's just
look at that shit it's a piece of cake and the you know the real point of it is like
it's fun to watch it we through obstacles but the point of it is that you can focus on the
mission so like if you know if you were a cop or an energy utility worker like you'd be
looking down at the screen right because you'd be wanting to do an inspection on something
and you can totally comfortably fly just looking down at the screen with
without worrying about where the drone is or crashing into anything.
So it's actually, so like if you look down, so you can, like, you can see what it sees.
You've got the left wheel here will control the gimbal.
So if you, you can look, you don't have to look at the drone because it's not going to crash.
So you can push the wheel, it's down below.
See this thing?
Oh yeah.
So if you, so that controls gimbal pitch.
And then on the right one it controls zoom, so the right wheel will zoom you and
in and out.
And this is the point is you just focus on the mission.
Like, I want to inspect a damage conductor.
You can just perch yourself next to it and zoom in and see whatever you need to see.
And then when you're done, if you want to land it.
Or you want to keep flying it.
Yeah.
You can test the obstacle avoidance on yourself.
That's wild, man.
Yeah.
All right, here we go.
Let's play some chicken.
Make sure you get it properly lined up.
In the crossairs there.
So you've got a bunch of telemetry here telling you what's going on.
Like you've got your altitude, your heading, it's estimating the wind speed.
It's flying over what we call connect fusion.
So right now it's got a point-to-point radio.
So there's an antennas here that are talking to the drone, but it's also got cellular built
in. This has a cellular mode a minute. The drone has a cellular mode a minute. It's using
Connect Fusion to fuse both those two things together. So the quality of the video link
is basically the like the sum of the point-to-point radio plus the cellular. And it can fly
on either. So, you know, you could fly this thing out 10 miles. The point-to-point radio
connection would go away, but it would just keep going based on cellular. You can,
I'm sure with your background, you can imagine this being a useful capability on the battlefield.
Like, from a soldier's perspective, it basically just removes the mystery of what's happening around you.
You know, you can go out a couple miles, get real-time awareness, know exactly who's coming, what they've got, where they're moving.
And this, so this is actually a good example.
You see these power lines, like this is the kind of work that our energy utility customers would do.
Like, they would inspect those things.
They would stop at every tower and zoom in or out and look for damage, or if there was an outage or something,
they could find what the issue was and direct the responding folks on the ground.
So when you want, so typically what I would do here is you can just, when you want it to come home,
if you tap that button there.
Okay.
So just tap, I can do it, you tap that and say return to launch, so if you tap launch.
So it'll now autonomously come back home.
It uses a thing we call Pathfinder.
So basically it has its own local map that it's built.
local map that it's building but it also has access to global data about where the
buildings are where the terrain is and it uses all of that to plan like the
safest autonomous path autonomous path to come home no way it's actually it'll
show up here in a second where is it probably coming back oh shit it's way up
there
How fucking sick is that shit?
So the other thing we can do, can I, uh,
yeah, go back here for a second?
So it will recognize people.
So if I turn and face it here,
I can go into the skills mode here.
So activate subject tracking.
So it's now showing me on screen all the people that it sees.
Yeah.
So if I'll zoom in a little bit.
So if I tap on you, so it's now following you.
So if you run out that way.
It is?
Yeah.
So I don't have it.
I could set it to move, but right now I have it.
What does it do if I go inside?
It'll basically just like sit there and look at you.
And then when you come back out, it'll re-identify you and keep tracking.
So you can see on this screen here, so it's locked onto you.
And, you know, like if you move over there, like it'll just keep staring.
We're about to ship a feature where it'll actually like move itself to follow you.
Oh, really?
Yeah.
So then when we're done, I can just hold down on that button.
that button it'll find itself a safe landing place so it's using computer vision to find a good
safe place to land and it just sets itself down and that's it dude that's awesome yeah that is awesome
it's an amazing set of uh technologies that come together to make all that possible what's this thing
what's this robot thing over here yeah so everything that we just did i kind of think of as like
the classic experience of flying a drone like you've got the controller you're on the ground you can do
some incredible stuff and the autonomy system makes it much easier you know like you'd never
flown a drone of this class before literally a few seconds you were comfortable flying at high speed
through the obstacles so it's great but the next chapter is dock and remote operations and uh
and that's what we've got here so this is really the future this is where the industry is going
so this is the skydeo dock uh this is basically like the network connected charging base station
for the x10 uh so it's got a wind sensor rain sensor on top uh it's got everything it needs
to keep the drone ready to fly 24-7.
So it's got a heating system, a cooling system.
It can melt snow and ice off of it.
And it's basically designed to operate
in as extreme weather conditions as possible.
So it opens up here.
It's got the X-10 inside.
Dude, what?
So this is what turns the drone into a fully autonomous device.
So this is what's staged all over all these cities.
Exactly.
Just tough.
Yeah.
Ones of these things.
Installed like infrastructure.
And, you know, it kind of turns the drone into like a cloud server or something where the people that use it never have to touch it, right?
It's just out there ready to do useful work.
You guys can kick off the mission whenever you're good to go.
So we've programmed an autonomous mission here.
So this could just be running on a schedule.
Like if you had a security patrol that you wanted to fly, you just say these times a day, I want it to take off and do its thing.
And then the drone will just in the background fully autonomously run this mission.
So, you know, it's up there now, and the person who's controlling it can be 100 miles away, 1,000 miles away.
Anybody with an internet connection can access it and fly it.
Wow.
That's awesome.
So if we come over here, so this is what the drone is seeing.
So this is, you had the controller experience.
This is basically the web flight experience.
So this is just a standard normal web browser.
Anybody with an internet connection and of course the security credentials to access it can fly the drone.
And it's flying this mission where we've given it like a set stuff to go and look at.
So we've got a good shot of the American flag there.
So for example, our utility customers are using this to inspect all of their infrastructure continuously.
So they'll say like these transmission lines, these distribution poles, I want to go and see from these angles on this schedule.
And the drone will just go off and capture the data.
And then, you know, you were mentioning all the kind of security patrol use cases at corporate campuses and so on.
Same deal. Like you can say, these are the locations that I care about. The drone will go, you know, take the same shot from the same location.
And one of the ways that I think about the drones is it basically enables you to simulate having as many cameras as you want in as many different locations because it's fully software defined.
So you just tell it what views you care about and it'll go off and get them.
So let's say, let's say I have a...
one of these for this property here and goes out in the middle of the night, it's using thermals
and it sees, I don't know, a couple of people hiding in the bushes.
Yep.
Then what happens?
So this is still stuff that we're working on, but basically it has the ability to detect people, right?
So you saw like the tracking technology.
So anybody, any person or vehicle that it sees, it'll detect.
And then our software has APIs.
So now it's finished its mission.
It's going to come back and do a landing sequence.
We should go and check out the land.
But basically, it'll just send a push notification out to any system that you want to send an alert of like, hey, here's, you know, here's what's happening and here's what you've got.
So now the dock has opened itself up, the alignment slides, and so the drone is using computer vision to detect the dock.
The yellow and blue QR codes there.
So it'll come down.
It does a precision landing.
you can see the slides come in to align it and then right at the back there there's a charging
pin that'll insert as the roof is closing over the top and that's it dude that is awesome
it's pretty wild yeah yeah and it's a i mean to me the exciting it's it's amazing technology i mean
it's incredible stuff to get to work on and build but the point of it is the work that it can do for
our customers and the capability for them to be able to deploy these things anywhere that they
need sensing and then to be able to run it remotely and autonomously.
I mean, it's just a paradigm shift in the way all these physical industries operate.
Wow.
It gives them, I sort of think about it, you know, our identity as a company is building flying
robots that give people superpowers and this is a superpower.
Yeah.
You've done it.
Yeah.
Wow.
So everything you just saw, like these are products that are currently at scale in the wild.
What we're going to show you here is still a prototype, but we were talking earlier about
high-speed chases and long-range response.
We see this really intense need from our customers to have something that can cover much
longer distances at much higher speed, which is the motivation for building this thing.
And we figured the best way to sort of show it in prototype form was to integrate it into
a cyber truck.
So this is the Skydeo cyber truck.
And in the back of the truck, we've got a robotic arm that can pick up a fixed-wing vehicle.
Dude, what?
So it's all the same core technology that goes into X-10, but now we've got it in a fixed-wing drone that's launched by a robotic arm.
So that thing's got a gripper on it, and it can pick it up out of the truck.
Holy shit.
Look at that thing.
So the beauty of the robotic arm is that you take all of the complexity of launch and land and you put it on the ground.
So the vehicle itself can be as sleek and light and aerodynamic as possible.
So the vehicle itself is literally just a flying wing, like the most efficient shape you can possibly.
get and it's just got a fin sticking off the bottom of it so it's using the same
computer vision technology to detect the cyber truck here so it's got those same yellow and
blue QR code looking things so historically people talk about
take-off and landing. And we think of this as kind of a whole new category of robotic take-off
and landing where the launch and the land is robotically assisted. And eventually our goal is to be
able to do this at speed. So have the drone be or the arm be able to throw it just like you
throw a paper airplane or something and then catch it in an autonomous way. And when it's done,
it stows it back in there.
Wow.
So right now we've got this integrated into a cyber truck, but we're building a dock for
it.
So just like we've got a dock for X10, there will be a dock for F10, which is a fixed wing drone
that'll probably hold three of them.
So you've got three of them in there and then one robotic arm to launch and catch them.
And it's going to be an incredibly powerful capability because this thing will have 100 mile
an hour top speed, over an hour of endurance.
So with one dock and three wings in there, you will be able to have two drones in the air continuously
24-7, two flying, one charging with, you know, 40-50-mile an hour, or 40-50-mile coverage
radius from that, which we're we're super, super excited about.
That's, so, so would these be in the back of patrol cars all over the city?
So these, these we anticipate, you actually don't need that many of them because they have
such long coverage range. So I think most of our cities would probably have, you know,
like dozens of the X-10 docks across the cities and maybe just like one of these in one location
for high-speed chases. But the other thing that this does is it opens up the possibility of
drone as first responder to much sparser population areas. So, you know, like rural counties where
you couldn't afford to have docks everywhere, but because this can cover so much more land area,
you can have a few of these things. And then same thing for our infrastructure customers,
like being able to inspect long power lines, you know, these folks have thousands, sometimes tens of
thousands of miles of transmission line.
And it's not feasible to put docks everywhere along that
for with the X10, with the quadcopters,
but with the fixed wing it is.
So you can have like one of these things
that covers a shit ton of infrastructure.
So we got the full family of robots.
We got the R10, the X10, and then the F10,
which is coming next year to cover long range, high speed,
fully robotic launched land system.
Dude, awesome, awesome innovations.
Thank you.
Congratulations.
Thank you.
Super cool.
It's a huge team effort.
Hundreds of people that's got you working to make this stuff come to life.
Very cool.
Thank you.
Thank you.
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All right, Adam, we're back from the break, and that was an awesome break, by the way.
But so we flew the X-10, the F-10.
Yep.
And so when you sit, F-10's a prototype.
Yeah.
How long do you expect for that to take?
before it's mainstream.
So we have made super fast progress on it
to get to where we are now.
So everything that we just flew was about six months of work.
The team is incredible, and they've just been absolutely blitzing in it.
My goal is end of next year to have that thing starting
to scale up in customer hands.
I think we're going to be pretty close to that.
We'll see.
The most important thing really is getting the product right.
And so we move as quickly as we can.
But these things need to be reliable.
They need to have all the right capabilities.
and you can't rush that.
But it's moving pretty quickly.
And one of the great things about the position where it now
is we can do collaborative development alongside of our customers.
I mean, we're already showing our customers these prototypes,
getting their feedback and what they want to do with it.
And it oftentimes really feels like we're just on the same team
with them trying to solve these problem, which is super fun.
So will that, I know we talked about it out there a little bit.
I can't remember if it was on camera or off camera,
but will the F10 replace the X10?
No, definitely.
I think that the quadcopters are just beasts in terms of their versatility and capability.
And, you know, with our public safety agencies, they'll fly X-10s out at 200 feet to respond to a call.
But then if need be, like we had one in San Francisco the other week where the guy went down to the pier, jumped into the water and was hiding under the pier.
And they got that X-10 down to literally like five feet off the water, staring under the pier to figure out where he was and guide in the responding officers.
And so the versatility to do that is just incredible, you know, all the way from 400 feet down to, like, negative 2 feet if needed.
And that's the kind of thing you can only really do with the quadcopter.
So I expect the X-10 will remain kind of like the workhorse platform.
But it's, we think of them as really complementary systems.
You know, if you have something that's like going to become a high-speed chase or you need to cover a really large area, that's a job for the F-10.
How fast did you say the F-10 will move?
100 miles an hour 100 miles that's an FAA limit there's a you know for this class of drone
there's a regulatory limit at 100 miles an hour so that's what we'll develop towards gotcha and the other
the X10 is 45 miles up to 45 miles an hour yeah man man what so where do you see where do you see
the F10 being deployed um initially we're gearing very heavily towards public safety because we just
see a really acute need there for these high speed chases which are super dangerous you know
Agencies, they call them pursuit policies, and every agency is a little bit different, but they have rules about when they're allowed to follow a suspect and when they're not.
And it's a terrible set of tradeoffs because oftentimes you've got somebody who could be a violent criminal who's getting away from the cops.
But because high-speed chases are so dangerous, oftentimes the policies will say they're not allowed to pursue under XYZ conditions.
And when they do pursue, they're taking a ton of risk.
And so it's just one of these situations where it's a terrible set of tradeoffs.
And if you can just send a drone, I think you can basically eliminate the need for high-speed ground pursuits because if the, you know, the drone's in the air. In most situations, the person won't even know that it's there following them. And you can follow them for as long as you need to to end the thing. So that's a major motivation and then large area coverage. Like in urban and suburban areas, the X-10 is unbeatable for coverage because you have enough incident density that you can justify having multiple docks in different locations.
But if you need to cover like a 2,000 square mile county, as many of our customers have,
you're not going to be able to put docks over that whole thing.
And so you need something that's got longer range.
So those are the two initial areas that we're quite focused on.
But then the long linear inspection stuff we're also very excited about.
So rail lines, roads, power lines, you know, the areas where oftentimes now people are flying helicopters,
which costs a couple thousand bucks an hour and are also quite dangerous.
you should be able to do all of that with with with with f tens wow you know when you when you when
we're talking about you may have answered this already but when we're talking about you know
when it does a roving patrol and you had the x10 you had had me targeted out there that little
great i wouldn't say targeted i would say you know yeah followed followed followed so is the so
i think it's i'm fairly certain that you are the ones that you are the ones that
made me the target or the follow.
Yeah, I just tapped on the thing.
And so kind of what I'm asking is, is let's say I bought one of these for this property.
Somebody came on the property left.
Would it follow them?
Would that be, would that be a human decision for them to follow them?
Or does the brain tell it to do?
Yeah.
So it's basically all defined through software.
And you can kind of do whatever you want.
I think a typical workflow for the kind of security patrols is going to be you basically give the set, you give the drone like rules of engagement kind of.
You know, it's like I want you to like follow this area.
And if you see anything that matches this description, which could be a symbol is like any person or vehicle, I want you to look at them, ID them, follow them around and send me a notification so that I can decide if I want to do anything else based on that.
I think that's going to be like a very typical kind of workflow for the security patrol kind of stuff.
And all of that is very easy to build on software.
And we've got all the sort of building blocks there.
And we can do it.
We also have third party developers that are building on top of the platform and enabling capabilities like this.
And that stuff, frankly, is like relatively easy to do.
The hard part is like making the drone reliable and autonomous and having the AI to detect
the stuff.
It's relatively easy once you have that to compose it into different kinds of capabilities
different mission sets.
Mm-hmm.
Would,
man, I just, you know, I, I just can't seem, I can't think of anybody that wouldn't want
this.
Yeah.
I mean, it's just there's so many businesses, venues, events, stores, parks, neighborhoods.
I mean, you know, and I know that there is a, you know, and I know that there is a, you know, you
You know, I know there's like a, there's a concern, there's a privacy concern, but I mean,
man, I can, I could just think of a lot of places where there isn't a privacy concern.
I mean, every, every grocery store and department store parking lot, I mean, yeah.
How is that a privacy concern?
A stadium.
How is that a privacy concern?
A mall, a park.
The privacy stuff can also be managed, I think, in really sophisticated ways with the technology.
I mean, you can do things, like, this stuff already exists.
You can blur out, in recorded Dio, you can blur out faces and license plates and any kind of identifiable information.
So there's all kinds of controls that you can put in place to make it such that it's really just targeted towards whatever the particular security objective is.
And I agree with you.
I think that we're everything you just described is happening today in some form with, you know, one or two customers in some cases.
Like, you know, we have a customer that is using these for major events and venue overwatch.
security and they're having incredible success. I mean, they have, when you get these big events where
you have fucking schools? Yeah. I mean, school, school, active shooter every, every other week in
this country. Yeah. I mean, the school could just deploy one or two of these things to rove the
campus. We have, I mean, we have a number of college campuses and some high schools that are
customers today. I, you know, I think that it's, again, it's all, it's all there kind of,
some of the stuff is getting a larger scale. Like, law enforcement is getting up to larger scale. I
think a lot of the other applications are still relatively nascent, but the value is just so obvious
and so strong. I mean, one of the things that we see over and over again is that oftentimes the
drone pays for itself on like the first mission. You know, there's like one incident where somebody
stole something worth $50,000 and the drone is there and interdix. Or Caltrans, California's
Department of Transportation, they had a great one where they installed it at a bridge. And literally the
first inspection that they did from that drone would have cost them probably like 50,000 bucks of
scaffolding and manual time to go and inspect that bridge.
And so I think it's, there's an inevitability to it.
It's just kind of a speed of adoption kind of thing of like how quickly can organizations
figure out how to adapt themselves to the tech and how quickly can we.
I feel like even farmers could use this.
I mean, I'm serious.
Yeah, yeah.
We have a, we have some investors that own a lot of property and have ranches and whatnot.
And they're on the leading edge of using these to like count cattle and things like that.
but yeah anywhere you know the fundamental thing is like anywhere anything anything where you care about
what's happening in the physical world and you just want to be able to with very low friction
deploy sensors to figure it out the autonomous drone is just an unbeatable platform for that
because it can be anywhere it's network connected uh and it's all automated so it's all software
defined man can i what is the cost of these things if you don't mind me asking uh so there's
we have a few different packages the the dock um it really depends
It depends on like what you're doing with it and like what hardware and software configuration we're doing.
It's on the order of like tens of thousands of dollars per year for everything for like the dock, the drone, the software, installation, maintenance, support, like everything it takes to just give you sort of a complete solution that's up and running.
The drone by itself without the dock is more affordable.
But because the dock is a more expensive thing for us to build, and also it delivers quite a bit more value.
The R10 is our least expensive product right now.
And for the hardware, it starts at $6,000.
So it's $6,000 for the drone and the controller to fly it.
And that will autonomously go inside of whatever structure you put it in.
Yeah, you can fly it around in any indoor environment.
And we'll keep adding more software capability on top.
So, you know, these things are not yet, I mean, there's a whole other category of consumer groans, which we used to be in, which are consumers, understandably, are very price sensitive.
You know, they're looking for things that cost like 500 bucks or 1,000 bucks.
We don't have anything today in that price range, but the more scale we get up to, the lower our costs are and the more market we can reach.
And I'm very interested in, you know, for example, making a dock for this thing and to have something that rather than tens of thousands of dollars a year for a dock solution is thousands of dollars.
a year. And I think that's when you can start to get into, like, you know, more of the, like,
private security and every store, everywhere where one of these things could be useful. And
eventually, I think it will come down to, like, residential security. We just need to keep, you know,
making the tech better and better and making it more and more affordable. So it's more accessible
to more people. I mean, tens of thousands of dollars a year doesn't sound terrible to me when
you're talking about schools, businesses. I mean, it's not.
Yeah, and as I said, I mean, the demand is...
A lot of people spend that on home security systems.
Yeah, and the demand is faster than we can keep up with right now.
I mean, the bottleneck is how quickly can we build and deploy them,
especially with the docs, because the value is just so high there.
And, you know, as I said, there's many instances where it pays for itself on literally the first mission.
Because it can do things you can do any other way.
when you guys are making recommendations for for for for customers with the x10 in the dock
how many i mean so what are what are your suggestions are your suggestions that there's a drone
in the air 24 hours a day or is is your suggestion i mean how fast does it recharge when it
it's got a 40 minute runtime up to 40 minute flight time typical flight time is more like half an hour
And that it right now charges in about 20% longer than flight time.
So if you fly for 30 minutes, it will charge for like 35 to 40 minutes.
We have a hardware update, which will retrofit into all of our existing docs and all the new ones will ship with it.
That'll take it down to 20% less than flight time.
So you fly for 30 minutes, you charge for like 20, 25 minutes, which is a really big deal
because that means the percentage of time you can spend into the air is that much higher.
So it depends on the industry.
And one of the things that I actually really enjoy about what I get to do, what we get to do now, is really getting into the details of, like, you know, how does a Department of Transportation work and what are their mission sets and what are the key cost drivers to them and what matters to them from an efficiency standpoint?
And then how can we best tailor our products and then also how we deploy our products to meet those missions.
So in law enforcement, for example, one dock drone can respond to roughly two to three thousand calls.
per year as you know rough rule of thumb and so you can use that as a guidepost and on average
there's roughly one call per citizen per year so the u.s population you know whatever 330 million
there's roughly 300 million 911 calls in the u.s per year and so you can basically for any
city do quick back of the envelope math of like you know all right it's a 100 000 person town
they're going to get about 100 000 calls for service per year if we want to respond to
to the, you know, the most important, say, 20% of those, so 20,000 calls for service per year,
you're talking, like, roughly, 10 docs.
For a big city like New York, you're talking hundreds of docks.
And so it scales like that.
And so, you know, there's rules of thumbs like this, but every, you know, every customer
and every city and everything's always a little bit different.
So one of the things I've learned is you never want to be contributed on these things.
You want to be very adaptable to, like, the particulars of a location, a geography, and the needs there.
How long do they, how long do they last?
The docks are designed for a heavy, heavy life, five-year lifespan.
Heavy, heavy-use, five-year lifespan.
Okay.
So typically, when we're deploying these there, we're doing five-year contracts.
We're flexible on this.
We can do different things, but typically it's a five-year contract.
And then we'll replace the drone actually halfway through.
The drone at heavy use has a two-to-three-year lifespan.
So you get a new drone halfway through.
But the dock should last five years.
right on so okay wow that's pretty fucking good yeah nice nice well let's i know you um
so let's move on just drones in general you're i mean you are the drone guy so you know i know
you guys went over to ukraine yeah what is what does drone warfare look like today where's it
going yeah what did you guys learn over there um i mean there's a lot in there i think uh
the, so even before Ukraine, like the U.S. Army I mentioned is our biggest customer and was actually
our first kind of non-consumer big customer. So we kind of went from being a pure consumer
company to like consumer plus the U.S. military as of the rest of the enterprise stuff
filled out. I mean, the first thing I would say is that what the Ukrainians are doing just
in general is incredibly impressive. And the, there's a sense of, which makes sense, but there's a
sense of kind of national unity and purpose there that is really awe-inspiring to see,
especially coming from the U.S. and the West, where I think we're lacking that in many ways.
Now, it's a tragic set of conditions that's created it for them, but it's still incredibly
impressive to see.
And look, the, like, the macro headlines are all true.
I mean, drones are everything there.
Like, at this point, the majority of the strikes are carried out by drones.
all the reconnaissance and surveillance is done by drones.
And the pace of innovation is just wild on both the Russian and the Ukrainian side.
I mean, it's just a continual back and forth hardware and software.
And I think the Ukrainians have done just an incredibly impressive job in an incredibly scrappy way of building some incredibly impressive systems that do all different kinds of things.
One of the really obvious and I think really important things that you can see there is just the inherent dual-use nature of the technology.
Especially for reconnaissance drones, the vast majority of what they're using at the small scale is basically consumer quadcopters.
And unfortunately, most of them are still coming from China, but it's just an incredibly dangerous dependency for them because they're essentially at the whim of the.
these Chinese companies. And there's a back and forth there where the Chinese companies keep
locking them down in ways to try to make them not useful for the Ukrainians. The Ukrainians
have to keep like cracking them. And there's constant fear that, you know, flying a Chinese drone
is going to give away your location and the Russians are going to use that for targeting.
So I think there's a bunch of different lessons to be learned there. And we've had a journey
ourselves. So we, you know, we won a program in 2021 to be the Army short-range reconnaissance
drone. It was a program of record. There's a big competition. We basically went all out to try to
win this thing. We were a consumer company at the time. It seemed like a great opportunity,
both from a business perspective and from an impact perspective. And we were very naive. I mean,
we didn't know anything about working with the military. We didn't really understand kind of the
different user needs landscape at the time. And so we basically built our first enterprise drone
X2 largely informed by the requirements of this program, the Army Shortenger Reconnaissance
Program, and we did a bunch of customization, the hardware, and the software to meet the
requirements.
When the conflict in Ukraine started, you know, everybody needed drones, and we sent a bunch
of X2s, and they basically didn't work on the front lines.
And the painful thing was like, not only were the things that we did to meet the U.S.
Army spec not helpful, in many cases, they were, like, on.
It, like, actively made the system worse.
Like, we integrated a radio that operated basically on one very narrow set of frequencies.
It turned out to be extremely easy to jam.
There was nothing in the requirements about being able to navigate without GPS, even though
that turned out to be critically important.
And it was a super painful, I mean, one, it sucked for that the drones didn't work.
And it was a painful moment for us as a company to just be facing this situation where, you know, we were selling drones to the military.
the U.S. military, which is great, but when it turned out, the situation where they actually
needed to be used, they weren't meeting the need. And ultimately, that's what led me to
visit myself a couple of times to just kind of see firsthand, like, what's going on here,
what technology needs to exist. And we built all of that into X10, which is the successor
to X2, and got to a place where the system performed extremely well in the harshest conditions.
and, you know, electronic warfare, GPS jamming, all the different things that matter.
And now through mainly European partners, we've deployed thousands of these systems into Ukraine,
which is still relatively small scale compared to the like-to-scale of drone use that they're going after.
But I think is pretty unique among Western companies in our class to have systems that are actually, like, meeting the need on the battlefield and surviving electronic warfare.
Yeah, I mean, are all of your drones surviving electronic warfare?
Are these the ones that are just sending over there?
So, they all have this capability?
It's, there's some variations, there's some differences between the X10 and the X10D.
In general, a lot of this stuff, you know, you'll hear this term like dual use, which I don't know if you're familiar with, but basically it means that something that can be used for civilian purposes or for military purposes.
In this class of drone, a lot of the stuff turns out to be strikingly dual use in nature.
So one of the things that we've really focused on is GPS to night navigation, being able to use computer vision to fly the drone autonomously such that if GPS is jammed, it can still be stable, it can still return on, and so on. So that really matters on the battlefield. It also matters flying through the urban canyon in New York City, because GPS is oftentimes completely unreliable when you're flying in urban settings. And so there's a lot of things like that. I would say the biggest difference is the radio. So we integrate a different radio for X10D, which is the defense variant.
which operates on a wider set of frequencies now
and can do frequency hopping
and we've done a bunch of innovation there.
And then we've also done a bunch of software work on top
to be able to do automated missions
and intelligent missions in the face of like jammed
or partially jammed communications
and jammed or partially jammed GPS.
So we went through kind of a philosophical shift
as a company where we went for our defense business
from being oriented towards the Army's requirements
to frankly kind of put.
putting less weight on that and putting a lot more weight on like, what's the reality on the ground in Ukraine?
Let's make it awesome for that with the bet that one, the mission there matters.
And then, two, whether they realize it or not, that's what all of our defense customers are eventually going to need.
And that's been a journey.
We, you know, we have lost some major programs in the U.S.
Because we weren't sort of going after the specs that they were putting out there.
But we've actually then come back and over time been pulled back in because our drones were the
ones that like actually work and and meet the need and deliver the capability in the
situations that they care about.
And at this point, I have a very deep commitment to that.
Like I, you know, philosophically for us as a company, we want to make systems that really
work and really meet the need of the end user.
And we're willing to like take business risk on particular military programs to, you know,
to potentially risk losing them in favor of just building the thing that we think is actually
going to work and meet the need.
And it's frustrating to have to make those.
But I think for our identity as company, and ultimately I think it's the right thing to do, that's the way that we approach it now.
I mean, what what capabilities are the US Army interested in?
So you mean that like might be divergent from?
So one of the things, I mean, a lot has been said and written about like military acquisitions and what works and what doesn't.
The thing that I find is that it's, fortunately, we are not in like a large-scale active conflict today, which is great.
But it also means that all this stuff is a little bit theoretical, and it's very easy to get wrapped around the axle on things that don't actually matter that much.
I mean, one of the things that I like selling to our civilian customers, like law enforcement and others is that it's very real, you know, you sell drone to a cop, they're going to fly it later that day on a real mission.
And if it doesn't work, they're going to call you and be pissed.
And like, you know, you better fucking fix it or you're out.
And that kind of immediacy doesn't really exist.
It's not the default state in the military because fortunately, we're not at war.
So, you know, one example of this is they're very interested in having kind of like common hardware and software to control any drone, which in theory I get.
You know, it's like it'd be great to have like one remote that can talk to any drone and stand interface to the whole thing.
but if you imagine
kind of like a
imagine if like
every TV had to work with
like a government design universal remote
control like the chances that
that would be like a good reliable experience
is pretty low
even under the best of circumstances
universal remote controls are not very good
and when they're dictated by government
requirements the chances of it being good is even
lower and so this is
it seems like a small thing but it's a real thing
it's like that's how you interface with the drone
and if you have to work through third
party hardware and software, it's just harder to make a really awesome, reliable experience.
And so, you know, that's one of the things where, and I understand where it comes from.
Like, in theory, it kind of makes sense.
I think in practice for the way technology works and what it takes to build good reliable
systems, it's not the best way to get there.
So we do a bunch of work to make it so that our system can play nicely with third-party stuff,
and you can get all the data you need out, and you can fly it from a third-party controller,
which sometimes some people are going to need to do.
It's just, you know, it's not the default way to get the best experience.
So there's a lot of stuff like that that I think kind of looks good on paper,
It seems like it makes sense in theory, but in practice is not the way that you're going to get the best capability to the end user.
And at this point, we're really just focused on that.
And we will, you know, we'll try to work with anybody to steer things in a direction that's going to result in great capability.
But we're also less afraid to sometimes just say like, sorry, we don't think that's really going to work and we don't want to put a system in somebody's hand that's not going to do what they needed to do.
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let's move into the competition with china yeah what's move into the competition with china yeah
drone warfare what what what what what who's ahead right now well um look
um look i think historically china especially at the lower end of the market
in consumer drones is dominant.
And, you know, when we started in 2014, a lot of people thought the prospect of trying
to build a U.S. company at all to compete with Chinese companies was insane.
I think the, if you think about what goes into a drone from a hardware standpoint,
you can sort of think of it as like a mobile phone, like processors, cameras, radios,
combined with a radio control helicopter.
You know, at the most basic level from a hardware standpoint, that's what you're talking about.
And both of those devices, radio control helicopters and phones, consumer electronics have been built in China.
And it's not an accident that that has happened.
I mean, it's a result of very intentional policy actions on the part of the Chinese government
to favor local manufacturing and build up their industrial base and, you know, do things that make it very difficult for other countries,
not just the U.S. but other countries to compete based on on some of the things that they do to kind of like favor of their own companies and subsidized manufacturing and so on, which, you know, you can't necessarily fault them for. They've got their strategy and they're going to, they're going to do it. I just think we, everybody in the West has to be aware that this is what's really going on. So they, from a hardware standpoint, they had the right ingredients. And DGI, which is the leading Chinese company that we compete with in civilian markets, has,
done a phenomenal job from an engineering standpoint of like capitalizing on that and building
incredible hardware systems at extremely low cost. Now they're doing so with quite a bit of government
support both explicitly and implicitly. But from a technical standpoint, they are, especially
on the hardware, they are formidable. And the vast majority of U.S. drone companies over the last 12
years have just not been able to survive in the market. The reason why I think we have been able
to get to where we are is because we weren't, our strategy was not to try to kind of like copy
what they were doing or just compete head to head with like the same thing. We really focused,
like we think of the drone as more of a flying robot. It's got a bunch of sensors. It's got
AI. It's got autonomy. It's going to be smarter. It's going to be able to do more stuff.
So we really focused on that as a core differentiating technology and really the direction the
market was going. And I think that's how we've been able to survive and now thrive by
building products that are differentiated.
It's, you know, it's where the puck is going, it's not where it's been.
And then we are also the beneficiary, I think, of just a ton of momentum in this country
towards realizing this is a critical industry.
So, you know, a lot of our customers are, they like buying from a U.S. company and they're
willing to pay more for a U.S. product, which we deeply, deeply appreciate and benefit from.
And increasingly now at the federal government level, there's a recognition that
this is critical technology depending on China is is is untenable um and uh you know we're
we're beneficiaries as well of the political will to kind of push back against china um there's an
increasing series of kind of like restrictions on on chinese drones it started with federal
government some of that has trickled down to state local government um there's a potential ban now
on the whole consumer market as well oh kidding yeah dGI yeah we're going to ban dGI drones
That it's a possibility.
Wow.
Which is a very, so this is a whole, you know, this is obviously a big deal in the drone world.
And it's become very polarizing for us.
And actually a lot of people, especially like kind of in the drone enthusiast community, now see us as like the enemy because we're, you know, they like blame the DGI ban on us, even though we really did have nothing to do with it.
I mean, we are everything that I'm saying now, I would say in any forum.
And I think the Chinese drones pose a real risk.
We've advocated for policies to restrict them, especially in critical markets.
markets, but DGI has kind of successfully turned us into like the boogeyman in many circles,
at least from a PR standpoint.
So nobody knows exactly how this is going to play out.
And honestly, I don't know exactly what the right answer is, but I think it's the national
security stakes, I do think are pretty objectively clear.
Like if you think about, I think it was Operation Spider-Web, the like the Ukrainian operation
where they snuck a bunch of drones into Russia and then use them.
to launch an attack.
I mean, like, without sounding two kind of...
Destroyed billions and dollars.
Yeah, destroyed.
Yeah.
It's like, I mean, we are willingly importing Chinese drones right now
that, like, are internet connected
and take instructions from the cloud.
Like, the threat surface area is, in the worst case scenario,
is really, really bad.
I mean, can you elaborate on that a little bit?
I mean, they're connected to the network taking direction from the cloud.
I mean, what could that look like?
Look, I don't, you know, I would kind of put like, so you saw the dock, right?
The dock drone.
So that thing can be flown remotely and autonomously.
And it's it's a network connected device.
So ultimately the, you know, we do a bunch of things to make that link as secure as it possibly can.
So you can't hack into it.
But ultimately, you have to trust the person that's making it.
DGI has a dock.
And, you know, I would sort of pose the question of like, does it see?
like a good idea to install docked drones all over our cities, all over our critical infrastructure
that ultimately are running software on the drone that is controlled by an adversary.
You know, the Chinese government at the end of the day has control over their companies
and whatever they tell them to do, they will do whatever the management of the company thinks
at the end of the day doesn't really matter.
And so I think the, you know, that's like kind of the worst case scenario.
But even aside from that, I mean, one of the things that I think about,
like historically, and this is much bigger than just drones, historically, like in the peak of the
Cold War in the 60s, the federal government kind of had a monopoly on cutting edge technology.
Like 70% of the R&D spending in the U.S. was directly funded by the federal government in the 60s.
And, you know, all the cutting edge stuff of like nuclear missiles and submarines and fighter jets.
I mean, that was the cutting edge technology of the day.
and most of it was funded by government research.
And today it's completely flipped.
Now it's like 80% R&D spend is funded in the private sector.
And generally, I think that's great because we all benefit from it.
You know, we're surrounded by technology companies that are spending tens, hundreds of billions of dollars a year
to build products that are basically just awesome for us and make our lives better.
But it also means that the government has kind of lost its grip on cutting edge tech.
And all the cutting edge stuff now tends to be kind of,
civilian or consumer first. And we need a strategy for that because it still matters from a military
perspective. I mean, something outside of drones like AI technology, large language models. I mean,
these things are incredibly powerful from a defense standpoint, from a war standpoint, national security,
but they're not originating in like a government-controlled company or a defense contractor. And so
there's different approaches that you can have there, like, you know, what Andrell is doing,
what Shield is doing, which I think is phenomenal. Like these companies, I sort of
think of. And I think they would probably say the same thing. Like, they're standing up defense
focus companies that are trying to harvest and integrate the best of the like the cutting edge
civilian technology. We're a little bit different in that we are pure, we are dual use ourselves.
I mean, the same kind of core drone that we sell to a energy utility is very, very similar to
like what a soldier needs on the battlefield. And so as a country, I think it's really important
that we have a strategy to harness the best of the civilian.
tech for defense purposes.
And then the other thing is that if all this stuff is going to be developed in the private sector outside of the government's direct grip, you know, where it's developed and the supply chains that lead into it are also incredibly important.
And it really is a technology.
I mean, I think that the technology battle with China, with China, I think is the number one battleground.
Like who's going to control the chips?
Who's going to control AI?
Where are the drones going to be made?
What servers are they going to call home to?
And even all the tech that's like developed and sold into civilian markets has enormous national security implications because if you like, you know, if you buy a Chinese drone, and I don't mean this in, you know, it's like there's nothing wrong with somebody going to Best Buy and buying a Chinese drone or, you know, police agency buying a Chinese drone.
But you are basically funding, you know, military technology of an adversary. I mean, that money is going to China to help them build better drones.
So that's one risk.
And then the other is they can cut it off any time that they want.
You know, so you can, there's just being able to maintain supply is not guaranteed.
And probably when you need it most is the time when they're going to like pull the rug.
They tried to pull the rug on you, didn't they?
They did.
Yeah.
So I have.
EGI specifically.
Well, the Chinese government.
The Chinese government?
Yeah.
So we, last year, we had the great honor of, I think,
And I think we were really like the first U.S. drone company to be sanctioned by the Chinese government.
Congratulations.
Thank you.
I was named personally.
So now I've been personally sanctioned by Iran and the Chinese government.
Nice.
So I haven't gotten Russia yet.
But yeah.
And they, so their stated reason for sanctioning Skydeo was that we had sold drones to Taiwan.
The only drones that we'd sold to Taiwan at the time went to the fire department.
So, you know, I think the stated reason is likely not the real reason.
I think the real reason is that we are now quite successfully competing against DGI, their leading company in the market, and we're taking market share away from them.
And then, two, the U.S. government is starting to restrict DGI.
And so I think it was kind of a retaliatory move against that.
And it's been extremely aggressive.
I mean, they have, so we knew that we had risk, right?
And we didn't start life as a military company.
So we didn't start life saying, like, all right, we can't get any components from China.
We started like saying we want to build like a really great drone.
We're going to build it in the U.S.
You know, we had a preference away from using Chinese components, but we still had a few of them in the drone.
The biggest of which was the battery.
So on the day that they announced the sanctions, they showed up at any component vendor we had in China.
Literally, government officials showed up and like shut them down, took the tools and equipment that they were using to build
Skydeo stuff. In some cases, they actually took people into custody.
No kidding. Yeah. And it's been a, and over the last year, they've basically been doing everything
they can to put us out of business in second and third level dependencies in our supply chain.
So if we work as a supplier, even if that supplier isn't directly using any Chinese material
in our component, the Chinese government will try to use it as leverage against them to, if that
supplier has any other dependence on China to get them to stop doing business with us.
And we're fortunate to have a bunch of, you know, a bunch of awesome suppliers that, that are going to do, you know, that want to do the right thing and are still working with us outside of China, obviously.
So China is very concerned with you.
Yeah.
Yeah.
I mean, it's a global, it's a battlefield for technology, right?
And they, DGI is a formidable company, like from a technical standpoint.
They're incredibly impressive.
And, you know, the Chinese government, you can tell they want to maintain that kind
of stranglehold on the market.
And the more it gets challenged, the more that they try to fight back.
We actually, so I haven't, I haven't told this story broadly, but we have some interesting
history here.
So when we started the company in 2014 and shortly after we started, we were
approached by DGI about wanting to license our technology to go into their drones.
And this was a different world back then.
I mean, this was really before the geopolitical tension had exploded.
And we were like three people in a basement.
They weren't as big of a company as they are now, but they were still a very big kind of
behemoth organization, certainly from our standpoint, like being three people in a basement.
So we, you know, we went and visited them.
and we we basically felt like there was there was just kind of a different vision of the future from what they had like they were very focused on building these manually flown drones and we felt like there was just an op this autonomy presented a fundamentally new opportunity it wasn't just sort of like a checkbox feature it was like a different paradigm you know it's kind of the shift from like a flip phone to a smartphone or something it's just sort of a different way of operating and we ultimately just felt like that that wasn't the direction they were going and that's really what we wanted to do
So we decided not to do it.
And when we decided not to do it, they made it very clear that they were going to try to crush us.
You know, they basically said, like, if you don't do this, like, we're, you know, we're going to come after you with everything that we've got as a company.
And they implied, you know, with the support of our government, we're going to try to kill you.
And they basically have been since we started, you know, since 2014.
How does that feel?
Well, it feels.
Are you proud of that?
You know, it feels awesome to be where we are.
I think one of the things, look, I'm super proud to be doing what we're doing in the U.S.
I think the national mission is incredibly important.
I'm also a very competitive person.
And so I'm, you know, there's lots of motivators for me.
I love the impact that we have with our customers.
I love working with our team.
I love building the product.
I also love competing.
And so I love the feeling that, you know, we've got competitors, we've got adversaries.
out there and, you know, they're going to try to beat us and we're going to try to beat them
and we're, you know, we're going to, for me personally, I'm going to do everything I can
to make this stuff as awesome as it can be and, and have it be the best in the world.
Do you, I'm just curious, do you see yourself going back to a consumer product?
Yeah, we get, we get asked this question a lot now.
I think that the impact and the opportunity for the,
the kinds of customers that we serve in critical industries
is just so big and so important
that it really demands our full attention.
And I think consumer drones, it's painful for me.
We had a consumer product, I used it myself.
I loved it.
Consumers did all kinds of amazing things with it.
But I just think that the work that we do
and the mission that we have with our enterprise
and government customers is just so important.
I mean, it's really life-saving stuff now on a daily basis
that people are doing with our drones.
that for the stage that we're at as a company,
I still think that deserves our full focus and attention.
Because I think it's still so early.
I mean, all the things, like, you get it.
You're talking about like these, you know,
you should have doctrines at every shopping mall
and every school and people can be using them
for personal security.
Like, I agree with all that stuff.
And we're like 1% of the way there today.
And so I think that's, that's, for where we are right now,
I think that's really where we need to be focused.
I would love to find some kind of way
where, um, you know, if DGI really does get banned, uh, we can enable somebody to build a great
consumer drone, maybe with some of our technology or something, um, because I do think there's a
need there. And how fast can you make these things? I mean, I'm, I, I, I want one. I'm being,
I'm not fucking around. Yeah. Yeah. So this, we're, take security seriously. Yeah. Well,
like how fast can we develop a new drone? Yeah. I mean, how, how fast can you pump out these X-10?
Okay.
Because when I was asking, you know, I think I had asked what the, what's the biggest hurdle?
And I believe he said, manufacturing.
So we're at about a thousand drones a month coming out of our factory today.
The docks are, the dock is like a more complex thing and we're earlier in the ramp cycle there.
So the dock is like hundreds a month, but we're ramping up there.
And we're getting better and better at it.
I mean, this, so this product, the R10, this whole thing from concept to what you see here,
like functioning, awesome drone was like six or seven months. It'll probably take us another
three or four months to get to the point where we're really ready to scale it from a manufacturing
standpoint. But as a company, we really got the flywheel spinning now. We're, you know, for any
sort of flavor of quadcopter, we can do really awesome stuff really quickly. And with this thing,
the demand for this has been through the roof since we announced it. Luckily, we decided to kind of
over-invest in automation for the factory line, mainly just because we knew we needed to get better at it.
And we wanted to use this as kind of like a trial balloon to deploy a lot more automation.
So the assembly of this thing will be by far the most efficient we've ever had.
Like our goal, my goal, which I'm pushing the team towards, I think we'll get there, is less than an hour total of human operator time to build one of these from like raw parts to all the way through, which if you get into like the details here is pretty remarkable.
I mean, if you were to do all this stuff manually, you'd be talking about, like, five or six hours of, like, gluing and screwing and stuff together.
So the assembly of this is going to be very, very automated for the level of complexity.
And we're going to, you know, every time we do a new product, we take step forwards on stuff like that to be able to build more of them and have them be more affordable.
And who are the main, who is the main customer for the indoor drum?
Initially, it'll be law enforcement.
Law enforcement and then indoor infrastructure inspection.
So, like, anywhere where you have to put a person into a confined space to, like, see if there's a crack or see if something's healthy.
a lot of energy generation stuff like a lot of power plant kind of inspections gotcha so in what would law
enforcement use these for uh they use these for hostage situation active shooter or will this be
i guess it wouldn't be law enforcement but i mean it's i mean why aren't these going to be roving around
in malls so i'm being serious it's just a it's a moving active deterrent yeah
Everybody knows your own camera in malls and casinos and stadiums and all the shit all the time.
But that is an active, like, we're fucking following you if you do anything.
I think eventually we'll get there.
One of the things with this, which is a very practical consideration, it's pretty noisy because there's one of the key sort of considerations in designing a drone is what's called the disc loading, which is basically if you, you know, so this thing's got four rotors.
And if you look at the area swept out by all of these rotors,
that's the disk area.
And then if you divide that by the weight of the drone,
that's called the disc loading.
And so the higher the disc loading,
that basically means you've got a very low rotor area
that's supporting a lot of mass,
which means that the rotors are going to have to spin really fast,
and they're probably going to be pretty loud.
So in order to make this thing small,
we've got a pretty high disk loading.
Over time, we'll figure out ways to make it lighter
and lower the disc loading, which will make it quieter.
And I think that's, for some of these applications,
Like, if you want the thing really operating around people, it needs to be a quieter system.
Like, another one, you know, there's a bunch of, in retail, there's a bunch of work you can do just counting inventory in a store.
I mean, stores, they call it shrinkage, but they lose, like, 5 or 10% of their stuff to, like, theft or being misplaced.
And having one of these every, like, day just fly around all the aisles of a store and just count what's there.
I mean, it sounds kind of mundane.
Wow.
But that's like that's kind of inventory too now.
Well, we've, I'd say we've, we've dabbled in it.
I think with R10, we've got a product that's decently well suited to it.
I think at really large scale, you need something that would be super quiet so it could operate around people.
But this is what I say.
I mean, I think this is why we're focused.
You know, I think we're still 1% of the way there in terms of all the things that these can be used for in an industrial enterprise government setting.
And, yeah, we've got a lot of work left to do to realize the full opportunity.
Man, how big is your team?
The company now is getting close to 1,000 people, including, you know, that's everybody,
that's people that build them, design them, sell them, support them, which is, people hear
that and they think it's either big or small.
For the complexity of what we do, it's an incredibly small team.
And I have a very, I have a very talent-centric view of business.
I think that if you have the right people, you can do almost anything.
And if you don't have the right people, you can do almost nothing.
You know, it's like you can have the grandest strategy in the world, but if you don't have amazing people, you're not going to make it work.
And you can have a shit strategy and have amazing people and they'll figure out that the strategy is shit, they'll fix it, and then they'll make it work.
And so from the beginning, we've amested a huge amount of time and energy into trying to really get like the best people in the world for all the different disciplines we cover under one roof.
And that's really the magical piece of it.
For where we are right now, that's one of the most fun pieces.
is we've just got an incredible team.
We've got engineers and engineering leaders that have been with us
since almost the beginning.
So folks that have spent the last 10 years at Skydeo
that have been through all the product cycles together.
And it's like any team.
Like you spend enough time together.
You know everybody's strengths and weaknesses
and we know what we're good at.
We've got a bunch of shared learning and shared history together.
And so because of that, we're able to just move faster
and faster on everything that we're doing.
Man.
and you have put something really special together.
I appreciate that.
It's impressive.
It's a big team effort.
I can see your team too out there.
Everybody's stoked to be here, excited, moving.
Yeah.
Look, I'm not neutral on this, but it's hard for me to imagine anything that would be more fun in the world to work on.
I think the combination of the technology and the customers that we serve and, you know, getting to the feedback cycles of, like, getting to build this thing and then put it out.
out into the world and see what people do with it and see the impact that it has.
Like, we've already had these deployed on some, some, like, actual indoor operational scenarios
just a month after we announced the thing.
I think that is a, it's a unique set of circumstances that we're in where we can move incredibly
quickly on cutting edge technology that's having incredible real world impact.
How are people finding you?
How are law enforcement agencies and is this word of mouth?
It's heavily word of mouth.
I mean, especially in the law enforcement community.
They all know each other.
They all talk.
We do the standard stuff.
I mean, we go to events.
We have a big annual event that we host ourselves.
We love having our customers out.
And that's where we unveiled all the new products a few months ago.
So we do all that kind of stuff.
And then we, in the new industries, it'll oftentimes start with a real innovator at the customer.
You know, there will be somebody at a concert events venue, for example, that recognizes like,
hey, I bet we could use, just like you had the insight.
Like, you know, I bet we could use drones for this.
And, you know, it oftentimes starts with somebody who's really innovative and forward thinking at a customer in an industry we're not even in reaching out to us.
And then that just kind of starts the cycle where, you know, we'll learn what we can about what they're doing.
If we think our existing products meet the need, you know, we'll typically like sell them or demo a couple.
And then we'll just get in there and start learning and working with them to figure out what do we need to do to make this thing like really scale and work for your.
application. And so we've got core industries that, you know, we've hired deep industry experts
into like law enforcement, military. We've got a bunch of former operators on our team,
energy utilities. We've got a bunch of folks that have worked in the energy industry in our
company. And so we have a deep level of expertise in focus. But then we also have kind of these
frontiers where, which are the new applications where we're working alongside innovators in those
industries to figure out exactly the right recipe. And then as we find it, it really starts to
scale. And, you know, we'll lean in behind it and we'll do the sales and marketing activities.
to go and get to, you know, every oil and gas company
or every college campus and so on.
Man, you've got a lot of work to do.
I agree.
You've got a lot of work to do.
It's all-consuming, but it's a fun set of stuff to work on.
How do you lead your team?
Well, there's different dimensions to it.
I think one of the traps that I fell into early on,
so when we started the company, I was 27 years old,
and I actually came to realize we hired our first 10 employees and we were all at lunch one day and I realized I was the youngest person at the company.
And I think I fell into the trap early on of, you know, my job as the leader is I need to have all the answers.
You know, everybody's looking to me.
They're betting their careers on this place and I better know the answer for everything we're doing in every situation.
And one of the ways that I feel like I developed as a leader is just the more I do it honestly, the more I feel like I get,
humbled by all the people around me and the speed with which we're learning.
And so I try to approach everything that we're doing with a great deal of humility.
And I'm just constantly learning.
I'm learning from all the people that we've hired.
I'm learning from our customers.
And I kind of see myself as just trying to be a conduit for the best information.
You know, there's always, at the high level, you think like, oh, the founder builds the company.
One of the things that I've come to believe is that the company also kind of shapes the founder.
And, you know, when I'm here showing you this stuff,
like i'm representing the work of a thousand people yeah you know the best ideas that i have are
oftentimes coming from other people on our team and so i really try to be like a conduit and an
amplifier for the best ideas anywhere that they can come from from a customer from internally
and then as i said i have a very talent-centric view of this stuff so i place enormous focus on
trying to get like literally the best people in the world for every function that we're going after
and i'm i'm fortunate enough and i think we're fortunate enough as a company now to have an
incredibly strong leadership team. And I've actually become more technical over the last couple
years. When we were in the basement together at the start, I was writing code. And I'm an engineer
at heart. And as the company has gotten bigger and we've gotten more operationally sound, I actually can
spend more time on the technology. And the two things that I really love doing where I feel like
I can add the most value is being in the field with customers, seeing what's working, seeing what's not,
making sure if something's not working, we're on track to fix it. But then also seeing what's possible
and feeding that back into our product development machine
and working with our engineering teams
to make it come to life.
And so it's a, you know, it's really an incredible thing
to get to be a part of, to have this great organization
that builds these things with the expertise that we have.
And I get to kind of float around, spot opportunities,
spot problems, and then dive in very deep
to either try to fix them or realize a new opportunity.
Man, I am.
like blown, I'm blown, I am blown away at like what you guys are doing.
And, um, and, um, I mean, it's just very cool, very, very cool.
I appreciate that. And it's, it is a huge team effort. And I think that that's,
it's true of every company. And I think oftentimes too much gets ascribed to like the founder
or the CEO, um, but it's, you know, all this stuff is possible because we just have an amazing
group of folks.
I mean, you can go anywhere you want.
I mean, there's so many people that are interested in this.
I mean, just in the couple hours that we've spent together here, I mean, you know,
I was thinking police, defense, you know, that kind of stuff.
But, I mean, the possibilities are legitimately endless.
I don't think you could scale this company fast enough to cover all this stuff.
I don't even know how you're picking which direction to go in.
It's a hard problem.
You're talking oil and gas, defense tech, law enforcement.
These are big, big, big, big, big.
Yeah, they're all problems.
They're big problems.
They're big industries.
And I think we are at kind of a transition moment in civilization.
Like, I think robotics is going to be really the most important industry ever, you know,
Having, having robots that can do useful work in the physical world, I think is going to be the biggest industry ever.
And flying robots are, are in many ways, the first instantiation of that.
They're the first robotics category to reach substantial scale and real world impact.
And it's very real today, but it's still very small compared to what it eventually will be.
And you're at the cutting edge on it.
Yeah.
Fucking awesome, man.
Yeah.
Congratulations.
It's sweet.
Yeah.
Well, Adam, I wish you the best look.
I hope to see you again.
And seriously, man.
Congratulations.
I love what you.
All right.
Thank you, Sean.
This is great.