Moonshots with Peter Diamandis - Building The World's Most Powerful Satellites w/ Will Marshall | EP #90
Episode Date: March 14, 2024In this episode, Peter and Will dive into satellite technology, what it takes to create a company like Planet, and its effect on ecosystems across the world.  11:56 | AI Revolutionizes Satellite ...Technology 21:47 | Will's Exponential Journey to Success 39:15 | Groundbreaking Rocket Launch Technology Improvements Will Marshall, Chairman, Co-Founder, and CEO of Planet, transitioned from a scientist at NASA to an entrepreneur, leading the company from its inception in a garage to a public entity with over 800 staff. With a background in physics and extensive experience in space technology, he has been instrumental in steering Planet towards its mission of propelling humanity towards sustainability and security, as outlined in its Public Benefit Corporation charter. Recognized for his contributions to the field, Marshall serves on the board of the Open Lunar Foundation and was honored as a Young Global Leader by the World Economic Forum. Learn more about Planet ____________ I only endorse products and services I personally use. To see what they are, please support this podcast by checking out our sponsors: Get started with Fountain Life and become the CEO of your health: https://fountainlife.com/peter/ Use my code PETER25 for 25% off your first month's supply of Seed's DS-01® Daily Synbiotic: seed.com/moonshots Learn about my executive summit, Abundance360 2025: https://www.abundance360.com/summit _____________ Get my new Longevity Practices 2024 book: https://bit.ly/48Hv1j6 I send weekly emails with the latest insights and trends on today’s and tomorrow’s exponential technologies. Stay ahead of the curve, and sign up now: Tech Blog _____________ Connect With Peter: Twitter Instagram Youtube Moonshots Learn more about your ad choices. Visit megaphone.fm/adchoices
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information is power data is the new oil it's the thing that's going to power all the industry.
We're building a system that makes humanity
able to smartly manage resources,
a bit like the eye system with the visual cortex
helps humans make smart decisions.
It's awe-inspiring, and it's important for people
to understand what's coming.
So I think of it as awareness to action. That's the phase change that we're going from and action requires detailed
tools and information that's timely and relevant to your day-to-day life. And just like the main
frame computer, the desktop revolution is going to change the whole dynamics of what's possible
in space. And this is just the beginning. Everybody, Peter here. Welcome to Moonshots. I'm here with
a dear friend. May I say an old dear friend? We've been friends for over a couple of decades,
Dr. Will Marshall. Will, good to see you, buddy. Great to be on. Yeah, no. So listen, you are,
you've got a massive moonshot. And it really, you know, When I think of you, I think about raster scanning the planet.
It's about being able to know anything I want, anytime I want, anywhere I want,
and really understanding the vibrancy, the problems, the opportunities globally.
Let's begin with a quick overview of what is Planet Labs.
And then I want to get into what is your 10, 20, 30-year vision for Planet Labs?
Because it's audacious and it truly is a moonshot.
Yeah, well, certainly.
Look, Planet in short is a company.
We have 200 satellites that image the entire landmass of the Earth every day.
So it's a bit like if you go into Google and
click on the satellite imagery layer, except that image is typically a few years old. We've
got today and yesterday and the day before and the day before and the day before, basically
2,500 images now on average for every point of the landmass of the earth, documenting
immense change going on and powering AI tools to sit on top that enable us to take smarter
care of the planet, resources upon it.
But in many ways, we started as a space company.
Now we're a data company.
And that's the cool thing that's going on now.
Space companies, it's less about the rockets and the satellites and more and more about
the data and how it can totally transform the Earth economy.
And that's the sort of exciting phase we're in.
And I guess, you know, as a public company now, the company's name is Planet.
It used to be Planet Labs back in the early days.
So I'll refer to it as Planet.
And it's amazing.
We're going to talk about the stories of how you went from literally a phone satellite
to now 200 satellites.
I think the largest private imaging collection of satellites.
Maybe the NRO has more.
I don't know.
Maybe they use yours.
Who knows?
You've got more than the NRO and more than the governments.
Yeah.
Amazing.
That's awesome.
And an incredible journey.
I mean, buying satellites from Google, getting Eric Schmidt and Larry Page and Sergey Brin
and the entire group there, and Steve Jurvetson, one of the most incredible venture capitalists
in the field, to back you as a 20-something- something year old. So I want to tell all that story. And it really, the ups,
the downs and the audacity of the moonshot you've not only planned, but built. But I want to go
someplace else first, because I've heard you describe this and it's awe-inspiring and it's important for people to understand
what's coming.
What is 10 years from now, 20 years from now, what's your vision of what Planet is doing
and what's possible for humanity with the tech that you're building?
Well, look, it's a big question, but I really think that we have
the tools at our disposal now to manage the planet in a very different way.
We've got a lot of challenges, the climate change, and we can talk about biodiversity loss and all
these things. But more broadly, we're on a spaceship hurtling around the sun,
We're on a spaceship hurtling around the sun, and we were taking data of it once a month,
once a year.
And how the heck are you managing that?
It's a bit like, I think we were having a conversation with our grandchildren.
Then they'll say, hey, how did you manage the planet before you measured it regularly?
Of course, the answer was not very well, you know. And you obviously can't
be a smart actor without data. I mean, as a space geek, I'll tell you a little space story, you know,
that when you put satellites into space, you obviously try to measure them faster than the
timescale they change. Like if they're spinning around once a minute, you better measure that spin
faster than once a minute. Like if you take a data point once a minute, you better measure that spin faster than once a minute.
If you take a data point once a minute, you ain't going to stop the spin, right? You need
to measure it faster. We are all on a spaceship, 8 billion astronauts hurtling around the sun,
and we have an impact on that planet on days and weeks timescale of human activity.
How do we manage that if we're not taking information,
if we're not taking data points on that sort of timescale? So it stands to reason that you can't
help the planet without that sort of data. As they like to say, you can't manage what you don't
measure. So the vision in many ways is to give everyone the tools that enables us to make smart
day-to-day decisions based on the physical
understanding of what's going on on the planet. I actually did a TED talk which extended it
just beyond just the imagery of the Earth. It's the AI on top that then enables you to
sort of have a query of Earth. This is in 2018., in modern parlance, it would be like Planet GPT.
You know, what is it that you should just be like you can text,
search the internet and text now in human readable form, if you like,
what's going on and give you human readable answers.
You should be able to do that for the Earth.
How many trees are there being
cut down in the Amazon? Where are those trees? What's the plot versus time? What's happening
in my neighborhood? Who's doing what? How are the parks doing? How do they need help?
What do we need to do to clear up the pollution? Where's the pollution come from? All these
challenges, humans should be able to have that at their fingertips and without
having to have a PhD in space satellite imagery processing in order to get that, right?
Just like we are doing again.
So AI companies have figured out how to turn the text of the internet first into a searchable
place, that was Google google and now into this
human readable way of interacting i love planet gpt it's a fantastic it's a fantastic term uh
you should put that out there more uh so i love the idea that at any time you can query what's going on on the surface of the earth and get an answer
and do it at a variety of spectral information and resolutions.
So you have 200 satellites today, roughly, yes?
Yep, we do.
What do you, you know, if you were, you're setting your moonshot entrepreneur a decade from now or two decades from now,
what do you imagine to create Planet GPT where you've got information at a regular basis at
high resolution? Where do you want to get to? What's your vision?
Well, on the data side, I think we're going to,
in the satellite piece, we're going to get more and more accurate data.
So higher resolution, smaller pixel size.
Yeah, what's the resolution today?
Well, our daily scan is at 3-meter resolution.
Our highest resolution imagery is at 50 centimeters.
So we have a fleet of 20 satellites that can zoom in anywhere.
And actually, it's kind of fun to think of it like how the human eye works,
which is you have peripheral vision
in much of your visual field.
You only have high resolution
in a tiny bit in the center.
And actually, it's black and white
beyond a certain point in your peripheral.
But you're very good at change detection.
And if there's something changes,
your visual cortex goes,
hey, guys, get that high res over here. And then you turn your eyes to your head, right?
So we have the scan, which looks at the whole peripheral at three meter resolution,
the whole planet. And then we have the high res that can zoom in on any particular piece
that changes. So we call that system phobia, a bit like inspired by the eye.
And the visual cortex is, of course, the AI that looks at the scan, finds the changes, finds what's interesting in the changes, blocks out everything else, and then coordinates what we should do as a result of that, including taking higher resolution imagery, but also making decisions day to day, right?
Oh, that's a threat.
This is just a cloud.
You know, no big deal.
And so think of it that way. I think we're building a system that makes humanity able to smartly manage resources
a bit like the eye system with the visual cortex helps humans make smart decisions.
Do you remember calling me during COVID one night, really excited?
I think I just had a power outage in the home.
And you're on the phone giving me your your vision of where i guess now
calling it planet gpt where it was going um and i was just it was the most compelling vision i've
heard about both giving our children the tools to manage the planet but it's also a multi-trillion
dollar business opportunity
can you dive in a little bit more so so do you think we'll have thousands of satellites do you
think we'll have higher resolution yeah i think i think it will get more and more real time and
higher resolution so maybe you know we'll definitely get sub meter daily scan but i think
we'll get more like hourly maybe less um um We'll also have other spectral bands. So we talk
about going up in spatial resolution, temporal resolution, how frequently, and spectral
resolution, how many spectral bands. And that's less useful for the human eye, but it's an absolute
field day for the algorithms because they can use different colors to distinguish between things.
We're just about to launch some hyperspectral satellites that have 400 spectral bands
that enable us literally you can tell not just that it's a green car it's a green car that comes
from this factory over here because that's the only factory that produces that shade of green
you know and you can also look you can also look at what the oil reserves are of a country by virtue of the thermal heating of the oil tanks.
Well, you said the levels of the tanks, we can even do that today.
I mean, one of the most wicked problems of the earth is where's all the life?
What different forms are where?
We can actually tell species type of the trees or the grasses or the coals underneath the sea down to you know a
certain depth and so on all automatically and so this and this is a field day as i said for for ai
because it can pull out all of these things right and and help us understand again the planet so
it's it's we're both trekkies and And so when the Starship Enterprise sort of goes into
orbit around the planet and Captain Kirk tells Spock to scan the planet and he says, we got
these many life forms here. I mean, that's basically what you're enabling. Totally. Totally.
Now, I mean, talk about the idea of what industries and businesses this enables.
So can I just paint the picture one second?
So thousands of satellites, yes?
Yeah, I think that's right.
Thousands of satellites with each satellite
has how many sensors on it?
Yeah, a few.
I mean, this doesn't need to be many.
I mean, it's mainly through one telescope
but different spectral regions. Yeah.
And all of this is being fed into a data layer that's being able to, is constantly being
analyzed by AI. Right. I mean, so this is about early detection of disasters. It's about early
detection of opportunities. It's about discovery. It's science. It's definitely industry. It's about early detection of opportunities. It's about discovery. It's science.
It's definitely industry. It's hedge funds, managing hedge funds.
It's everything. I mean-
Go give me an understanding of how big this opportunity is and how does it change the way
we do business today? Because it's massive. Well, I mean, information is power. I mean,
the economist said data is the new oil.
It's the thing that's going to power all the industries.
By the way, a little fun fact, if you look at all the tech giants and what they're doing
with AI, they're all open sourcing the AI code.
They're all open sourcing exactly zero of the data because the asset that they have
that's unique is always the data, not the algorithms or less the algorithms than the data because the asset that they have that's unique is always the data, not
the algorithms or less the algorithms than the data.
And that's why there's the, you know, so when you think of AI, where to invest in an AI
company, who's got the interesting data?
Because that's going to be where you feel.
So data is the new oil.
It powers all the industries.
Hopefully it's not dirty like oil, but it is analogous in the sense that it powers all
these different industries. Oil powers all these different industries.
Oil powers all these different industries. Data is going to power all those industries as well.
If you're in transportation, it's going to make more efficient transportation. If you're in
agriculture, it's going to make more efficient agriculture. If you're in government, it's going
to make more efficient government. You just race across all the things. Yes, hedge funds,
insurance. And I can get more concrete. Let me give you a couple of specific examples.
I think of the world as broadly undergoing three transformations today.
One is digital transformation.
That's the transition of industries to help them digitize, bring their systems into information
world such that they can then be more efficient.
The second is sustainability, and we've got to transition to have a sustainable economy
that doesn't blow up the boundaries of the planet.
It obviously does so in a way that we don't further heat the planet and so on.
And the third is we've got to do all of that with having good peace and security geopolitically.
And what we need for all three of those factors is transparency and
accountability of what goes on. So everyone needs to know and understand their supply chains for
supply chain risk, for security, for sustainability. But let me get a little bit more concrete.
Digital transformation, take agriculture. We image every farmer's field on the earth every day. That's roughly a quarter of the
land mass of the planet is agricultural land. Every single farmer's field, we can tell in
each three by three box, what crop is it? Is it corn, wheat, soil? How well is it doing?
What practices the farmer use? And what they
should do next? Whether they should add water, the soil is
too dry, we can actually tell the soil moisture level, is the
crop in need of fertilizer herbicide or not? If they put
in too much so that is causing runoff that you could then save.
In total, we think that we can improve crop yields by at least
20% and decrease use of
fertilizer and other things and other inputs by 20% as well.
A 40% increase to efficiency of a trillion-dollar sector, that's a big deal.
I could go through industry on digital transformation.
Then there's sustainability transformation.
Here, we need to help ourselves to manage the plant.
I'll give you an example from just last year.
Brazil, we do a weekly image of a scan for new road starts in the Brazilian Amazon, the whole Brazilian Amazon once per week.
And if we find a new road, it's an early sign of either illegal deforestation, because they put in these logging roads before they then get a treat, or illegal narcotics, or illegal mining.
We provide these weekly alerts to the federal police in Brazil. They sent last year 3,000 expeditions based on our alerts and they in total reduced
deforestation in Brazil by 55% in one year on the back of this system. And they confiscated
$2 billion worth of assets. I hope you got a commission on that.
Well, we kind of did. Yeah. I mean,
that was hard sale. It wasn't actually done like that, but I mean, there's great ROI.
And so that's sustainability transformation. And then peace and security is where we help
countries like what's happening in Ukraine right now. We did a building damage assessment across
all of Ukraine, helping everyone to understand what's it going to cost to rebuild.
We did an assessment of where the crops and how well the crops are doing for food security for that country and also for the world, because it's a breadbasket for the world.
We did an assessment of how the Russians are stealing grain, where they're taking it to.
You know, there's all this stuff that we can help operationally and in certain broader humanitarian sense. And finally, also in terms of hearts and minds. Every time
Russia says, oh, we don't bomb civilian targets, we have shared with the New York Times where they bomb civilian targets, the schools and the hospitals. It's accountability that we can
share this because it's not a classified system owned by the NRO, you know, we can share that data with news media where it's appropriate
to shed light on what's going on and hold those actors accountable. This is transparency equals
accountability. And so these are the three sort of major areas we can help on a couple of specific
I love that. I speak about the fact that people behave differently when they're being watched.
That, you know, you put a camera in front of the dictator
and the dictator changes their behavior.
You put drones over poachers going after rhinoceros
and the poachers go away.
And so this is complete and total transparency
and forced accountability.
I remember you speaking about a vision of the future
of like brand new layers of Google-able data
or, you know, Gemini-able or Chet-GPT-able data
where a school kid can literally can go
and discover whatever they want can you can you speak a little
bit about that information layer on top of the planet and what that means i mean i think that's
right um the way i've already think about it actually and you've taken it more into the sort
of consciousness realm i mean when humans went to the moon and looked back and saw the earth, we helped up level human spirit to say,
hey, we're on a planet, it's fragile. It made to a phase change in human consciousness,
a thin layer of atmosphere protecting us from the vacuum of space, the coldness of space.
That's, you know, it was daunting, but it helped sort of give birth to the green movement.
I think we're on the verge of living. We've got a big mirror to look at ourselves in the face.
That webcam is more of a mirror back to ourselves, right? And with that,
we're already aware that we're on a planet that now it's enabling us to take smarter action because everyone can
see everything, right? So I think of it as awareness to action. That's the phase change
that we're going from. And action requires detailed tools and information that's timely
and relevant to your day-to-day life. Anyway, going to your journey for a child,
look, think about the exploration that can be done on this planet.
I love sci-fi like you do.
You're talking about Star Trek.
But sci-reality is fucking amazing.
It's right.
I barely get time for sci-fi because there's so many sci-facts that I just get boggled by.
The Earth is full of those.
You look around, our planet is constantly changing. I look at our imagery every day and
you see rivers changing. You see people harvest things. You see boats move. You see all this stuff
happening. The Earth is dynamic. We have this false impression the Earth is a static place
because we were used to maps, whether it's online or physical.
That's not how the world works.
The earth is dynamic.
What an exploration.
Go pile in.
Everyone, it's Peter.
In a few weeks, I'm gathering an incredible group of AI leaders, including Ray Kurzweil,
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Okay, let's go back to the episode.
Enjoy.
For everybody listening, Will is an extraordinary moonshot entrepreneur, an exponential entrepreneur,
and we met each other in the space community.
God, when were the SpaceGen conferences?
It was-
I think we met in 1999 in that vienna conference and then 2001 2000 2001 2002 i don't know we definitely
met and i think 1999 was when yeah 25 years ago yeah that's pretty ancient at this time i don't
know i still feel like a kid uh and you're and you're still playing with toys so but they're
world-changing toys and i want to dive into the journey. I keep on reminding people that these moonshots that entrepreneurs are taking are not overnight successes. They're typically overnight successes after 10, 11 years of hard work.
Exactly. And I want to go back to your story.
I'd like you to share the story, the ups and the downs, and those pivotal moments.
And just to put some numbers on it, Planet was founded circa 2010, I think.
And then you went public in 2021.
So you can go and find Planet.
Planet's on the top of my ticker list on my phone. You can go
find planet on the NASDAQ. And it's now 2024. So it's been a 14-year journey from startup to today
and amazing what you built. But let's go back. So you and I met each other again, back on the campus of NASA Ames
at Singularity University. And what was that formative moment like for you and your co-founders?
Yeah. I mean, look, the thing that had happened was that my colleague at NASA had kept on holding up his phone. This is an early smartphone in 2000.
Was it a Google phone?
I don't know.
In his specific case, I don't know.
But he would say, look, this has got most of what a satellite has.
If you think about what's in a phone, it's got cameras, it's got GPS,
it's got rate gyros, it's got accelerometers. It's got processors, radios.
I mean, it's just crazy, all the stuff.
And it's stuffed in here, and it costs $500 or $1,000.
Meanwhile, NASA is building these huge satellites.
They also have roughly the same list of things,
but they cost $500 million or $1 billion.
And the quick thing, we were like,
what are those extra six zeros doing for us
and i'm not saying they're not nothing no one was saying is nothing it's lower risk it's a bigger
you know telescope it's a better sensor but it's kind of remarkable how much stuff is bit into this
little box and we wanted to leverage that in nas NASA was very much in the mindset of inventing everything for itself
because, you know what, it had to.
Send a man to the moon.
Well, we didn't have computers, so we had to invent microcomputers.
We didn't have, you know, solar panels, so we had to invent solar panels.
You know, all that.
We have to build everything from scratch.
Well, guess what?
The top R&D dollars aren't at NASA anymore.
They're at Google, Samsung, Apple, Microsoft, all the rest. And so this is learning to follow for the space industry, not a comfortable place for the space industry.
For sure. idea of having to follow. But the fact is that the billions of dollars that have gone into miniaturization of electronics was super useful for space. So this is learning to take those,
stuff them into much smaller satellites, much lower costs, but have much higher cost performance,
that is data per unit dollar. And, you know, we estimate that that has changed orders of magnitude
because of ours and others' efforts. I mean, at least three orders of magnitude. And that is a bit like the mainframe computer to desktop computer revolution, but for
space. And just like the mainframe computer to desktop revolution, it's going to change the
whole dynamics of what's possible in space. And this is just the beginning. We're seeing
communication satellites and earth imaging satellites take off, right? But there's going
to be others as well. Better GPS navigation systems.
You're going to see better radar systems.
So many things are going to take off because of the fact that you've got much more capability per dollar.
Also, launch costs have come down about 4x in the same period.
So that has helped as well.
Although a common misconception, I think, is that that's the dominant So that has helped as well. Although a common
misconception I think is that that's the dominant thing that's led to this. Actually, it's kind
of the other way around. Satellites miniaturizing has enabled us to put much more capability
per kilogram that's going up. And that has changed the demand for going up, which enabled
us to bring the cost down. I would say it's much more that way around than the other way
around. We still benefit and they add on to one another.
But, you know, the thousand X in the space industry,
this happened is not to do with the launch.
It's to do with the miniaturization
and increasing capabilities performance of satellites.
Per unit dollar, per unit kilogram.
Yeah, exactly.
Yeah.
The specific performance of satellites
has gone through the roof.
That phase change enables lots of different applications,
and most of them in the field of some sort of data.
Because you're remote, it's all about collecting data or transmitting data.
And just in the last five years, we've seen more than a tenfold increase
in amount of data from space, and more than a tenfold increase
in the amount of data around orbit because with
communication satellites enabling communication from one side of the planet to the other.
That's a total revolution there.
10x in both of those areas.
So the upshot of the space revolution is a data revolution.
So but there was that moment.
Was it Robbie who was your co-founder at that time?
Robbie and Chris Boschhausen.
Yeah, and both great, amazing.
How old were you guys when you were? Um, so we were late twenties, um, when we started that and, and we were like, okay, so phones, they work in,
let's put them in a vacuum. Let's stick them on the side of a rocket. I remember that conversation.
I remember you were saying, we should take this thing in the vacuum chamber and see if it still
works afterwards. Yeah, we did. It was funny funny because i mean that's like going back to the womb for these guys because actually the the all the
electronics are made in a vacuum you know that's what people don't appreciate and they're made
like i mean little uh like brick shithouses these things you can drop them they still work
they fall out of airplanes they land i mean they're kind of robust so we stuck it on the side of a rocket
it also still worked we eventually put three into into orbit um i almost got fired by uh pete uh
warden because i hadn't really got all the things in a row um to to do that i i remember that didn't
know that we were doing this and kind of freaked out when they found out but we were like no
that's uh this is going to be cool.
We're going to show that consumer electronics can work in space
and that can change the whole cost equation here.
So, yeah, we launched three phones into space.
They worked.
They were tumbling around.
So I want you to back up a second here.
So you have the idea.
You and Robbie and Chris start.
Was it Planet Labs at the beginning?
Yeah. Well, no, this phone
project was at NASA. This was
an internal NASA project.
Government funding just to see
and by the way
yeah
stolen work hours if you would
nights and weekends
and so you send up three
and it works. They were
and then they're tumbling around taking
pictures we got yeah people with yagi antennas all around the world picking up the packets because we
don't have ground stations they send us the packets we reconfigure these pictures and like
okay we take pictures from space for a few thousand dollars not a few bazillion dollars so
okay this is kind of interesting um maybe we should leave nasa and do something like this
i mean the cameras on this wasn't the right kind of images it was more proof of principle it's a
proof of principle that this technology could work in space so then yeah we left nasa to start planet
um actually it's initially called cosmogia a few years in um And we launched then-
So where'd you go first? Was Steve your first investor then?
Yeah. So it was. We started building and launching our first satellite. We put the
deposit down on a rocket with our own pocket money.
Which rocket was that?
There was an Antares rocket. And we actually put them two, one on Antares, one on a Soyuz.
Wouldn't be popular these days.
We're not meant to use the Russians.
But then we could, and we did.
And so we put the deposit down,
but there was no way we were going to afford
the main cost of the launch.
And so we were like, oh shit, we need to get some money.
That was when I was reminded,
because one of the times we were launching
one of these phone sats,
it was in the Nevada Black Rock Desert,
right in the way of Burning Man.
And when there's not Burning Man,
there's sometimes amateur rocketeers go up there and launch things into space
because there's a very high airspace.
So they can do that.
And of course, there's no one around.
So we were up there and
and steve was helping us to put our rocket together or something i didn't know who he was
but he blogged about what we did the next day and that was when pete found out about our phone
set project and almost fired me because he was like i just read you guys are putting phones in
space and we're like, okay, calm down.
It's going to be fine.
For those who don't know, Pete Worden was the head of NASA Ames.
He was a general in the Air Force.
He was part of the Strategic Defense Initiative back in the 80s under Reagan.
A dear co-conspirator in the entire space flight revolution.
And a dear friend. And because I'm a bit of a peace loving hippie
that prefers peace in space not sdi in space i think i won because he was working at nasa he
says he won because i work for him or something like that anyway but yeah uh robbie chris and i
said at this point let's spin this out as a company. We took our core spacecraft team.
We replaced everyone at NASA first because we wanted to do good by NASA.
And we took our core team.
Steve kindly, having routed us out, he went to him and said, come on, you've got to give us some money for this.
And he was like, OK, you guys are just crazy enough.
I've only done one space investment before.
Just a year or two earlier
invested in spacex uh first money into spacex and steve jervison one was a brilliant um
venture capitalists on the board of spacex had been on the board of tesla um and has the most
magnificent space collectibles collection of russian and nasa components and hardware and meteorites and
everything yeah he's great how much did you get in the first round you remember
oh that was um yeah three million c then he led also the a which is another 12 million i want to
say um and um but then also had some participation from other people so did the seed. He led the first two and then the B was led by
Yuri Milner, 50 million put in, no he put in 30 or
50 or something and then the C round
was data collective and international finance corporation and a
bunch of others and then D round was essentially instigated because we bought the
satellite arm of Google Google then became
Slow it slow it down. So during a second. It's the nature of satellites
So, you know
in that window time, this is a
2010 the
2016-18 timeframe both of us were
16, 18 timeframe. Both of us were close friends with Larry and Sergey and Eric Schmidt. You were on the campus there of NASA Ames, which is where Google keeps their airplanes. And I had Singularity
University there. And talk about sort of the first time you connected with the Google guys
and started talking about orbiting satellites and things like that?
Yeah. I mean, well, it was a little bit random. In 2006 or 2007, when I first got to Ames,
I like hiking on the weekends. And I hiked from my house where we started planning and did the
first satellite in the garage to the sea, which turns out to be quite a hike. And I haven't really
exactly planned it out with my girlfriend at the time, about an 80
kilometer, 50 mile hike, um, two day, um, from there to the sea.
So basically over the mountains, uh, to big basin and then down to the sea.
Um, by the time we got there, there was no, um, there was only one bus a day and it left.
We just missed it.
Cell phones didn't work there cause we're in the middle of nowhere.
So we get to this beach and we're like, damn, how exactly are we going to get out of here?
And my girlfriend was basically divorcing me at this point. So that's a bad plan. Anyway, so
we're coming down to this beach and I say, well, I hope these guys are friendly because there's
three people on the beach kite surfing. And one of them
turns out to be a friend of mine called Don Montague, who is a wonderful guy and helped to
teach Sergei and Larry to kite surf. And it was the other two people were Sergei and Larry. And
when they came in off their boards, I was like, oh, hi, Don. Great to see you. Can you give me
a lift home? And he was like, no, I'm not not going your way but these guys are um i'm in the car with my girlfriend and sergey
and larry on who are giving me a ride home now and they're like can you stop can we stop for
dinner i was like of course sure let's let's stop for dinner and we get chatting and and and my
girlfriend's like what do you guys do and And they're like, we work at Google.
That's how they put it.
And I was like, wait a second.
Their name's Larry and Sergey, and they work at Google.
Okay, I think I know who this is.
And she's like, well, what do you do exactly at Google?
And they're like, well, you know, set wars,
I'm kicking around to the table going,
I think these are the guys that started it. Anyway, became friends with those guys early on,
and they got very interested in space
and came around to see our lunar lander demo
to see some of the missions that we were,
like the one we slammed into the South Pole of the moon
looking for water.
They came around for it,
even though it was landing in the middle of the night,
2 or 3 a.m., and they came.
Yeah, so they were interested in that stuff,
so they followed what we did.
This is where sometimes serendipity and good luck plays a hand.
Yeah, no kidding.
So you start Planet and Steve invests.
And when do you start sniffing around the fact that Google had satellites?
Well, they bought a Terra Bella or or sky skybox imaging which became terra bella um
um i want to say in 2015 um and so they bought that to start a satellite arm and they actually
were sniffing around us too at the time and we we wanted to stay separate and they um bought this
arm and well we thought it was fine and they were
going to do that of course it's a little bit competitive um skybox at that time was was the
sub one meter resolution images are a larger much more expensive satellite i was saying at the zoom
in because then subsequently google decided not to continue that investment and spin that out, they came and approached us. And Eric, who was then an investor,
had suggested that we have a discussion on that,
and we did, and then one thing led to another,
and we ended up buying their satellite arm,
not for cash, Google has plenty of cash,
and we had very little.
So it made more sense for us to give stock
in exchange for those assets and
then Google became a shareholder. Hey, everyone, I want to take a quick break from this episode to
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All right, let's go back to the episode.
Do you still call the smaller satellites doves?
Yeah.
I love that.
And describe those small satellites.
Yeah, they're about this big.
They weigh about 5 or 7 kilograms, so 10 or 15 pounds.
They spread their wings out to close to the meter.
Their solar panels.
Their solar panels, exactly, yeah.
And they chirp a little bit from there.
Actually, we get data rates of two gigabits a second over a
thousand kilometer range from our little radios now that's amazing what altitude are you flying
at i mean people need to know the lower the altitude the better the resolution the better
com rate but the degradation you degrade in orbit yeah that's right because what's your trade there
yeah our trade is we choose about three year life Our thinking is that just like you don't want a three-year-old phone in your pocket,
you don't want a three-year-old satellite in space.
It starts to become obsolete.
And just the same, actually.
Really, we've launched on average four times.
We've launched 35 rockets, over 500 satellites.
We launch on average four times a year.
And every time we're iterating the
technology to make it better and better, just like every time you buy a new phone, it's got the
bigger camera, better hard drive, whatever. We're doing the same. And we call that strapping space
to Moore's law to make it better and better in that place of data per dollar, which is the
which is the metric we're trying to optimize.
So we've seen a 10,000-fold increase from our first satellite to our satellite today in terms of data per dollar.
Wow, that's incredible.
I mean, that is a Moore's law.
And are you mostly launching on SpaceX these days?
SpaceX, we've launched 35 times on 10 different rocket vehicles.
But indeed, SpaceX and the PSLV,
I think SpaceX has been our most common one of all.
PSLV is India, right?
And we've launched on other vehicles as well,
the European Vega, the US Atlas, others.
And when Starship starts uh i mean you could launch
all 200 at once no we could launch like 10 000 at once uh it's crazy yeah yeah no it's crazy i mean
you know i do worry about the a380 problem with that like it's not clear that there's yet a market for that vehicle
it's not impedance matched with people's ability to build satellites yet the only satellite fleet
that can fill it up at the minute is really starlink itself but then that doesn't help uh
you know they're only their own customer you know uh do you feel do you feel um i mean it what planet used to have the biggest baddest
most satellites and orbit had the largest satellite fleet but elon came over and did more
yeah i know it's uh kind of annoying they're bigger satellites and he's got more of them i
it's i'm pretty outraged by this no it's good look we're all obviously trying to do uh things
to help the planet and i commend what they have done with
Starlink it's and the rockets of course the reusability I was a doubter on that
I thought the reusability was too hard and he did it I mean you and I have both
been for the last 25 years space cadets and it was always the holy grail of
reusability yeah it was we pulled it off. Yeah. And he pulled it off. Yeah. Incredible. We always think of this as Elon, of course, is a huge team. But Elon,
of course, has been an inspiring leader for them to do that.
You know, this past three years, we got Elon to fund $100 million gigaton carbon removal XPRIZE
Gigaton Carbon Removal XPRIZE. They try and stem the tide of the environmental destruction.
And you have become an extraordinarily outspoken individual on the environment. And I think part of what you're trying to do with Planet is give us the tools to measure the planet in a way that allows us to hold companies,
individuals, dictators, nation states responsible for the impact they're having because despite the
borders that exist, they don't prohibit the free movement of pollutants and CO2. So talk a little bit about that.
So if people listening are not convinced
or need some persuasion on the state of affairs,
give us your best shot.
No, I mean, look, from our 10,000-foot view, or in our case, 400-kilometer view, we see the whole planet, and I see it evolving.
The facts are stark.
And humans have obviously manipulated the planet.
We've got two big problems, the one that everyone knows about and the one that everyone doesn't.
problems. The one that everyone knows about and the one that everyone doesn't. The one that everyone knows about is climate and how we are emitting too much CO2 and it's warming
the planet. And obviously we're having extreme weather events now. That's exactly what the
scientists have said. It's the first thing you get is that and of course, sea level rising, whole nation states being wiped out.
The second is biodiversity loss.
And this is where we're wiping out ecosystems of life.
And you might think,
well, why does that matter to humans?
I mean, they're just up there,
some whatever, some animals in the jungle.
Why does it matter for us?
It matters for us because
it is estimated that half our economy depends upon what they call nature services,
which is that the trees and the soils and the mycelium and the plants clean our water and they
clean our air and they do all these things. And we don't have the industrial capability to replace that. We don't have the technology.
We are fully, fully dependent on the rest of life.
And in the last 40 years in my lifetime, we've wiped out 70% of the life on the earth.
82% of wild mammals, gone in 40 years.
75% of fish in freshwater rivers and lakes gone in the last 40 years 70
of insects gone in the last 40 years 70 uh 66 of birds over half the coral reefs over half the
forest all gone and we think irretrievably gone and we think we can do that without there being consequences for us. We are so naive. And what is driving that is deforestation, overfishing, it's human pollutions from agriculture into rivers. It's all these sort of things. And that is just as big a problem as climate change. And they couple,
of course, to make things worse. Now the Amazon is not any longer a net CO2 sucker because of the
climatic events. And then that means it's more likely to fall over as an ecosystem.
We are dealing with a complicated system. Humans need to reforest a lot of the
land. We need to stop our overfishing. We need to do these things. And there's things
humans, individuals can do for this, right? We've got to reduce our intake of meat, which
is what drives 70% of deforestation is for cows.
We've got to reduce, of course, use of fossil fuels and those things.
And there's things we could do to help as well, like helping in our local parks to plant trees, to help rewild local parks.
wild local parks. I'm involved with a project that is just rewilding an area about a thousand hectares north of here in San Francisco to try and bring back the native ecosystems after over
usage, both mining and over cattle usage of an area that wiped out most of the natives.
It's hard work. And I wanted to understand what it takes on the ground because we're trying to
help people with satellite imagery all over the world to do this conservation effort. But yeah,
the situation is somewhat tragic. What I would say is we have wicked problems and we have wicked
tools to go help them. And our aim at Planet is to help provide everyone those tools.
Let me give you an example. We are trying to switch to a sustainable
economy. For that, we basically have to measure nature and carbon and put it into our economic
system. At the end of every year, every company and every country on the planet is going to need
to balance its carbon books, just like you balance your finances. And just like doing that, of course, the first step
is measuring where all the carbon is. Where is it all in your supply chain? You can all do a personal
carbon budget. You'll find that flying around is probably the worst bit, as I did. But you need to
balance that budget. Well, how do you offset your carbon of your flights or whatever? Well,
you can grow trees, you can change, transition farms
to sustainable farming practices. Well, how do you know that's happening when you do that?
Well, you need satellite data that can do that. We just launched just a few weeks ago,
one of my proudest launches for Planair, proudest moments, not a rocket launch, but a launch of a data product called Forest Carbon Planetary Variable. We are
measuring the carbon across the whole forest of the earth and helping to quantify how much
carbon is in the trees. And we're actually doing it at three by three meter level
every quarter and then going back 10 years. And that means pretty much that each tree will be
able to say how much carbon is in the tree. Why does that matter? Well, it matters because if we're going
to have carbon markets where Microsoft says, I want to offset my carbon of all my execs flying
around. And some people in the Amazon say, well, we'll plant some trees or stop deforestation in
my area. Somebody needs to act as the bridge that says, indeed, they have done that. And how
much carbon has increased, right? You need a carbon economy. And we've been lacking that.
But it all depends on this core measurement. So you make possible actually an XPRIZE I've
wanted to do for a while. I've wanted to do, for lack of a better term, the Trillion Trees XPRIZE, which is any team
can register and can claim a plot of land where they're going to plant trees.
They've got to have permission from the land owner.
It could be a government location and so forth.
And we measure, and hopefully there are thousands of teams in 100 plus countries around the world, and we measure who wins.
Now, one wins by getting the most, but there's this massive long tail over the course of a decade.
You know, I'm a big fan of your prizes because I think they incentivize innovation as well as much more capital in than the prize givers give.
It's kind of amazing what happens.
Yeah, I think you could even do it by carbon. much more capital in than the prize givers give it's kind of amazing happens um yeah i i think
you could even do it by carbon of course you have to restrict it by and there was a mistake a little
bit in new zealand where they they tried to do this based on carbon and then everyone planted
pine trees which turned out to be fastest at adding carbon but they were not native they hurt
a lot of the other species and then when the wind blew they all fell down and look so you have to do
the right kind of trees but yes subject to certain caveats you want to incentivize people to do that
also to restore existing forest you people are taking a few trees out or so yeah we can the
idea is to be able to measure that to underpin carbon markets or carbon prices kind you're just
saying love it well we have a lot of moonshot entrepreneurs, people who've
got big ideas, what I dare call exponential entrepreneurs. Could you mind sharing some of
your lessons learned? Some of the challenges or problems or what was it that led you to this extraordinary success of building this?
And now as a public company CEO and a company, frankly, that has 100X growth potential as you
measure the world, it's huge. It's a data company. It's an AI company that uses satellite technology.
But the journey could not have been easy. What were some of the lessons learned? What's the advice you have for entrepreneurs out there?
Well, look, I think the biggest thing is that it takes time,
grit, and endurance.
A lot of people list all the things that differentiate
good startups and bad startups,
the right idea, the right timing, all these things.
I'd say by far the biggest one is endurance.
As you put it to me once,
and it's one of the sagest pieces of advice I ever received,
and it was to do with your project and the first XPRIZE,
the Ansari XPRIZE.
You said for eight years,
no one noticed what you were doing, basically. No one even
figured it out. I remember you showing me a little clip from the LA Times that was like
this big on page 40, how proud you were that somebody had... It was something like that.
And I was like, wow, Peter's great. And then two years later, it was front page of every headline on the
planet. And the exponentials are hard to understand and humans don't have good intuition for it,
as you've explained many times. And so towards the end, you get a big effect.
So you could do, and as the Silicon Valley adage goes, you always underestimate what you could do you know as and as the as the silicon valley adage goes you you always
underestimate what you can do in a year sorry overestimate what you can do in a year and
underestimate what you can do 10 it takes 10 no but the safe piece of advice i should say
is the thing you said it take because of that experience it takes 10 years to do anything
meaningful in the world 10 years yeah you hadn't, you had 11 years from coming up with the idea
until the company went public.
X Prize was 11 years for me too.
Yeah, it's 10, 12 years.
If you're tackling a problem
that's actually going to have serious impact on the world,
not just a frivolous thing,
and it's not going to happen in a year.
It's going to happen in 10.
So, wow, you know, that's just a reality, I think.
And there's huge rewards for it, but you have to stick with it.
And the number of people that told me no, you know, I can't even count, right?
I mean, no, you can't do it.
No, you can't have money.
No, there's no business.
No, you can't build those satellites.
So, you know, I'm going to have to keep going, you can't do it. No, you can't have money. No, there's no business. No, you can't build those satellites. So I had to keep going, you know, and our team had to weather through that. Right. And that's it takes a certain sense of endurance as well as as idea and timing and all the rest of it, which obviously you need two but um and luck a whole heap of luck right i mean um you know i mentioned the sergey and larry thing i mean what the heck right place at the right time like so some of that
just one would say luck comes from uh perseverance as well like you stick around long enough totally
totally and to take risks right um so so nothing ventured, nothing gained and all that. So I definitely would say
you've got to stick with it. The other thing I would say is
tackle something that's meaningful in the world. Life's
too short. Don't ever start the strategy that looks like this.
I will do this thing, which doesn't sound that interesting,
cool tech. But really, the main thing is I'll get rich, and then I'll be
a philanthropist to give the money away. Such bullshit.
I agree. It's ridiculous.
It's a vote with your feet, do something useful every day.
Don't wait a few years until you're rich enough to then do
cool stuff. Do cool stuff with your feet. You know, there's,
you know, I gave a talk at Stanford, so I have a basic test for that. If you
should be able to whatever your idea is, you should be able to
look at the UN development goals, sustainable development
goals, and check a few that that goal that project helps. And if
you can't, if the answers are null set,
you should be looking seriously at that idea.
And let me be honest, there's a lot of apps in Silicon Valley
that maybe are building companies.
No more photo sharing apps, please.
Yeah, exactly. What the heck?
That may make money.
And it is perfectly a waste of time.
And I used to
think of this as like, okay, well, that's cool. Different people do different things
and that's helpful. Except when you think about all the challenges of the planet, we
can't waste loads of the best engineers. This is what gives me pain about a Facebook right
now. And I don't mean to pick them up, but like, I don't see, it's not clear it's net
positive to the world. And again, you could say, well, it doesn't matter.
Cool stuff, cool tech.
I'm sure some interesting tech will come out of it.
There's definitely good, but there's definitely bad in terms of ruining our information ecology
with, you know, echo chambers and stuff.
But I think it's much worse than that.
You are putting 40,000 or whatever it
is, engineers who aren't solving the world's problems. They're just helping us to share
pictures. What the fuck? I mean, there's people starving on the planet. I'm sorry. Just not where
we need to be putting our time and resources when we have a half a billion people that are
undernourished, a climate change challenge, a biodiversity loss, all the problems that we have, you know, a half a billion people that are undernourished, a climate change challenge,
a biodiversity loss,
all the problems that we have in the world.
So life's too short.
If it doesn't hit one of the big goals
of the planet, don't do it.
Yeah, the way I put it is
if you want to become a billionaire,
help a billion people.
And the world's biggest problem
is the world's biggest business opportunities.
Absolutely.
Absolutely.
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All right, let's go back to our episode.
You know, I'll close out with something else.
We just landed on the moon, which is fun.
First commercial, private commercial vehicle to make it.
And you and I have been lunites for quite some time.
And you and I have been lunites for quite some time.
You were involved with Pete Warden on a few, shall we say,
undercover unusual lunar missions.
Area 51 lunar missions, yeah. Yeah, to crash into the South Pole and image the lunar poles
looking for ice in permanently shadowed areas,
because ice is the Saudi oil fields of the moon,
liquid oxygen and hydrogen. I just announced on a podcast, I went back with Bill Gross
from Idealab and we talked about the blast off lunar mission we had worked on for a number of
years. And of course, Google Lunar XPRIZE that you were
familiar of, we had 26 teams, three made attempts and Intuitive was the fourth team that made an
attempt and they pulled it off. They stuck the landing. It was the heart of it.
Yeah. Amazing. Makes you proud. Now, it wasn't quite the lunar rover in 1972 bouncing around with humans, but just like your phone sat has evolved, the evolution of what we'll see, especially as Starship gets to the moon, is going to be awesome. Are you still a lunite over a Mars guy?
night over a Mars guy? Oh, God. Yeah. Yeah. It's not only, it's like a thousand times easier to put a settlement on the moon than Mars. Look, I mean, I think we've mainly got to pay attention to this
planet, but I mean, the moon is inspiring to me. I think that it's a place where I would love to
visit there and look back at how big the earth is in the sky, four times wider than the moon is in the sky four times wider than the moon is in our sky and see the continents and um and get
that perspective that i think that helps um people to understand our place um i it but but but
practically and technically it is just far easier than mars because mars had has the annoying thing
of an atmosphere which for for spacefaring species is really annoying right it's only useful
if you can actually breathe it which you can't on mars if you can't breathe it then it just makes
landing and taking off much harder you still have to wear a spacesuit you can't land take off
and the moon is one and a half or two days or three days travel time whereas ours is eight
months and you can go any day of the week uh which makes a big difference 2.4 second round
trip by the speed of light you can have a conversation exactly you can have a conversation whereas you can't
i mean just the difficulty delta is orders of magnitude orders of magnitude i think you know
we did this estimate um there's workshops um uh when we're um at ames where we estimated even
with star uh with with falcon 9 forgethip, we, and by the way, Falcon
9 is perfectly adequate for this, you could put a settlement on the moon that we think
would be self-sustaining, being able to do its core things of being able to mend everything
that would break, that would be life system critical for a couple of billion dollars.
What the heck? That seems like a reasonable, why wouldn't we do that? I mean, it's something an individual can do,
right? Elon or Bezos. Yeah, some of our friends can do that and they wouldn't even know it
disappeared from their bank account. Yeah. Yeah. I mean, look, again, most of our energy has got to be on Terra Firma. We've got so
many challenges, but it's inspiring. And I think it makes sense at that sort of scale
to have backup plans for humanity. So yeah. Yep.
Yep. The same structure.
Perfect.
Exactly.
If I could just riff off that,
it's a tool, but it's an ecosystem for sure. There's no way we can do all the applications as one company that have held to help use this data to help make smarter decisions or help make lives better around the planet. There's just a billion companies
that could be built off the top of this, and applications. So yeah, AI makes it easier as well. So you don't have to have, again, a PhD in satellite imagery processing to get to grips
with this. This is a standard API. You say your AOI, your area of interest, your time of interest,
your TOI, and then we'll just give you the data. Or eRun will give you analytics feeds, like how much carbon is in all the trees, or where are the
shits, or whatever, and we'll just give you lat-longs and these things. This is getting easier and easier.
And so I think we're successful only, not only we can enable that, we're only successful as a planet
if we help companies to do that
as an ecosystem. This is like the iPhone app store, but for building solutions to help
the planet.
I was going to say that, yep.
I want thousands of ecopreneurs, as Mark Benioff likes to say, of entrepreneurs that are focused
on helping the planet, building off of the top of planet's data. I mean, let me say one other thing. Look,
we do have real, as I said, we've got wicked problems, wicked technologies to help solve them.
I'm going to disagree with your abundance thing a little bit here. Some of those problems are
so acute that I think that we're going to need technology solutions like renewable energy and better data solutions.
And we're going to have to consume less material resources because there's no, that you can
get more digital resources, but you can't consume more than we're presently consuming.
It's eating the planet.
That's what we're seeing.
The mining, even if you swap the renewable energy, for example, we're seeing all the mining for lithium for more batteries.
In the end, we also just need to eat a little less, waste less.
You know, we waste 45% of our food.
We need to conserve a little bit more on electricity and things.
That combination is what we're going to need to get out of here.
out of here it's a matter of smart use of our present staff smart technologies like renewable energy and smart use of our present staff including a personal behavior level we're going to have to
change our behavior a little bit i i respect the reduction in waste and i respect the increase in
efficiency and uh i think for the first time ever we've got the tools to begin to think through that and to do that.
So listen, if you're a moonshot entrepreneur and you're trying to figure out your next gig, what would you do with an incredible information layer on top of the earth that is getting deeper and richer and accessible through APIs and AI engines. I can start imagining a whole slew of
different startups I'd be doing. So maybe it's a little bit of inspiration. Again, thank you to you,
Will, to Robbie, to Chris for founding Planet. A real pleasure to have you as a friend and so
proud of what you built. Thanks a lot, Peter.
It's been a pleasure to have this conversation with you today.