The a16z Show - Why Every Satellite Needs Earth | Northwood CEO on a16z
Episode Date: March 23, 2026Bridgit Mendler, Co-founder and CEO of Northwood, joins a16z’s Erik Torenberg to discuss the critical but overlooked bottleneck in space: ground infrastructure. Northwood is building the systems tha...t connect satellites back to Earth, enabling faster, more scalable space missions. They cover Bridgit’s unconventional path to founding a space company, why vertical integration matters in hard tech, and how modern ground networks could unlock the next wave of innovation in the space economy, from national security to new commercial applications. Resources: Follow Bridgit on X: https://x.com/bridgitmendler Stay Updated:Find a16z on YouTube: YouTubeFind a16z on XFind a16z on LinkedInListen to the a16z Show on SpotifyListen to the a16z Show on Apple PodcastsFollow our host: https://twitter.com/eriktorenberg Please note that the content here is for informational purposes only; should NOT be taken as legal, business, tax, or investment advice or be used to evaluate any investment or security; and is not directed at any investors or potential investors in any a16z fund. a16z and its affiliates may maintain investments in the companies discussed. For more details please see a16z.com/disclosures. Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.
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Every satellite requires a connection point back to Earth.
If you don't have it, you don't have a space mission.
It literally is just like a rock in space.
You just won a $50 million contract with Space Forest to help modernize.
At Northwood, you want to take space missions further faster.
We're looking for a categorical outcome, not just an incremental outcome.
Today we're talking about one of the most overlooked bottlenecks in the space economy, ground infrastructure.
My guest is Bridget Memplar.
co-founder and CEO of Northwood, a company building the systems that connect satellites back to Earth.
If launch gets things into space, ground is what actually makes those missions useful.
In this episode, we cover Bridget's unconventional path into space, why ground has lagged behind the rest of the industry,
and how a more modern, vertically integrated approach could unlock the next wave of innovation in space.
Bridget, welcome to the podcast.
Thank you.
So we're here to talk about Northwood.
We're here to talk about space, but first, I want to talk about how you got here.
Unconventional career paths, some may say.
When you look at the arc of your career, what are the threads that tie it together?
How do you make sense of your path?
Following curiosity, I think curiosity becomes the most organic motivator for people.
And that's definitely the case for me.
I think my home environment growing up was really cultivating that curiosity.
And my parents also really encouraged excellence, which I think is great.
So if you're curious about something, it's not just something you dabble in.
It's something you try to take to, like, the nth degree and really try to understand what excellence looks like in that domain.
Yeah.
And so that kind of has led me to a lot of different places.
I've said this some other places before.
My mom is also an incredibly determined person.
And so that's something that I think I was influenced by.
And so follow what you're curious about.
Do it to the greatest capacity you can and don't take no for an answer.
And then you kind of wind up doing a bunch of different things.
and some really interesting experiences.
So I feel very grateful for that.
It's fascinating because sometimes people frame it as either or either like you got to get just,
especially for kids, like just straight A pluses or it's just do whatever you're curious about.
But the combination.
Yeah.
Do what you're curious about, but also just absolutely crush it in it.
Yeah.
It's an interesting combination.
Yeah.
Sort of in your early career, did you think it would be forever or like at one point where you're like,
I'm bored of this?
I want to go into academia.
Yeah.
How did you make your true decisions?
It's interesting because like I would analogize to how.
a lot of people that we bring into our company think about their career past.
Like a lot of the incredible people that we bring in,
people who are like totally rock stars in their career,
they're not thinking on like a 20 year time scale about their career.
They're thinking like more incrementally than that about what am I interested in?
What's that next thing that I'm going to tackle?
Yeah.
Next in my life and kind of maybe there's not a definite timeline attached to it.
It's like as far out as you can see on the horizon and just like worrying about that far.
because otherwise you constrain yourself too much.
Yeah.
And so that has really been how I've approached my career.
I would have definitely not expected I would be running a space company.
Yeah.
But like also why not?
Because all I could see in the future as an actress back then was maybe like five years in the future.
Right.
So you were like actress until it no longer became fun anymore or until academia or something became more interesting.
And then you were just chasing your curiosity.
When did the company idea come into class?
Yeah.
I think being in entertainment, I got to the,
be a spokesperson for a lot of different things. And I tried to align what I felt to be impactful
with what I was speaking up for. So as an actor, you wind up being able to have a platform to
contribute to a lot of different causes. And that was something that I prioritized. But I think I
wanted my impact to go deeper than that. And so I always kind of knew in the back of my mind,
I wanted to create my own thing, although I didn't have a concrete idea of what that was. And as a
child of millennial era, I got to see the internet coming to life and I got to see cellular
networks coming to life and like what a profound shift that was on the world before versus the
world after. And so I think when the problem set around space networking came up and when that
was something that I started digging into, it connected on that deeper level where it's like,
wow, this is like an opportunity to make an impact on an industry that could be as fundamental
at that kind of level of internet and cellular,
that felt like such a unique opportunity
to get in at an industry
when it was at that early stages
just seemed kind of like the perfect thing.
And you started it with your husband?
Yeah.
Was he always on board from the beginning
or how did that emerge?
And I should say my parents also started a company together
and ran it for 15 years.
Yeah.
I'm definitely inspired by the mom.
That's super cool.
Yeah.
I mean, it's so funny how people are now like,
oh, you start a company with your husband,
but people have been doing family businesses
like since the dawn of time.
And I think for both of us,
we're just both ambitious
and kind of curious about how the world works.
And we were both passionate about building businesses.
And so it was like, all right,
let's align our efforts towards something.
Like there's a certain utilitarian aspect to it
where it's like we have a certain amount of energy and time
and we want the most like net outcome from this.
So that was definitely like a part of my thought process too.
But it's been awesome.
Yeah, I think it's been a really great experience.
Let's get into Northwood, what you're trying to achieve, and what's the why now for it?
Yeah. So what we do, we're ground infrastructure, kind of end-to-end for space companies,
so all the way from the time when they're first coming up with satellite mission,
what the space operators want to do, all the way to when they're actually streaming data,
delivering that data to the end customers.
Yeah. The problem that we're solving is for every satellite,
it requires a connection point back to Earth so that they can,
control the spacecraft. It is kind of like a remote control car where it needs some mechanism
to make sure that's going where it's supposed to go and a way to actually bring that data back to
the users on Earth. Because that's where the users are. So that point of contact on Earth is called
the ground infrastructure. And super basically, if you don't have it, you don't have a space mission.
It literally is just like a rock in space you're doing nothing with. So ground infrastructure,
it's completely fundamental.
And for us, we were observing the space industry
how launch cadence was increasing.
You could put a satellite up into space way faster.
And you could build satellites way faster
because there was this whole boom around spacecraft manufacturing.
And interestingly, what started becoming the longest pole in the tent
was just getting the point of contact on the ground to connect with.
So, you know, you could build a satellite and launch it
faster than you could actually connect with it from the ground,
which just seemed absurd.
And so we're like, why is that?
This kind of critical third component was not modernizing
because you'd seen all this modernization happening elsewhere.
And when we started pulling it back,
it was kind of like a classic value chain problem
where there was just not like the incentives aligned
with each stakeholder in the value chain to modernize and innovate.
So you had antenna manufacturers that were responding to a call from a customer
and delivering them a point solution.
They weren't sinking holistically.
about how you build better ground infrastructure.
You were having a software integrator layer
where they were basically just dependent
on whatever infrastructure
was being laid by somebody else.
And so we realized, like,
this is really holding back innovation
and like a complete thought
on what this should look like on the ground side.
And so really the only way to address
fixing the ground segment
was to do the whole thing.
And when we say the whole thing,
like it includes a lot of disparate disciplines
and activities.
So it includes things like R&D of antenna hardware.
So the antenna on Earth that is physically receiving RF signals from space, interpreting them into one zeroes, sending them back to the users, popping them back up to the spacecraft.
That includes actually procuring land and doing development at a site to be able to put that antenna hardware somewhere in the world because satellites orbit the Earth.
You need to connect with them as they orbit the Earth.
that includes the networking layer, that includes the actual software API that you have to connect with to give commands at that ground site.
And so it was kind of a daunting task.
It's like realizing you have to do this really massive undertaking, this big risk, in order to experience the big reward on the other side, which is unlocking this critical third pillar of infrastructure for the space economy and really enabling it to go to new heights.
And so I was kind of like our venture scale problem
or like this is going to require a lot of money,
a killer team across many different disciplines,
and it's going to require a ton of orchestration
of all of those different pieces converging together
to deliver something that is really better end-to-end
as well as something that you can turn around quickly.
And so that's kind of the undertaking that we've been on.
When did you realize,
and how did you realize that space and person,
structure was broken. Like, what was the idea maze? Was this your first idea that you guys decided
to pursue or how did they come to be? Yeah, and we've been doing antennas ever since that Home Depot run
during the pandemic. Yeah. That made us ground nerds. Yeah, so we started working on the antenna
designs during the pandemic. That was our summer project. And yeah, we'd just describe ourselves
as ground nerds. It was just cool. At first, it was just really cool to be able to receive signals from
hundreds of miles away. Like I said, that's the RF waves. They're like fainter than the power
on a flashlight that you're getting from space. And you get to interpret that into, for us,
it was an image, but for other folks that use satellite data, that's our missile warning
system. That's how we find out like about any missile going off around the world. That is our
GPS infrastructure. You know, for a lot of people, that's their one source of internet. And it all
comes through a ground infrastructure that is able to interpret those faint signals and make it work.
So it was just kind of like, you know, one of those magic moments where you just become really fascinated with the technology.
And then we started peeling it back further.
And we did this market study where we looked at all the commercial operators.
We looked at, you know, U.S. government use cases as well for how that they were resolving their ground.
And it was at that point, really from the point of first, just being curious about the space that we realized that a big bottleneck was coming.
Yeah.
And is this an idea that couldn't have existed five years?
ago because there was just not enough of an economy around or like yeah talk about the timing of it.
Yeah, I think it really does influence the timing because previously if you're not as concerned
about a three-year timeline between, you know, concept of a spacecraft and launching it, then
it's not a big deal if the ground segment can't keep pace. I also think like the ideas for how to use
space have changed a lot both. So, you know, pace as well as
the ideas around it.
So the mission sets that we're talking to folks about now
are a greater level of proliferation.
They're talking about way more spacecraft
being in communication at the same time than they used to.
They're also talking about missions sets
where satellites are moving in new ways.
They're moving really dynamically in and out of different orbits.
You know, previously you could think about space missions.
It was a pretty static world.
Like think about old school space where it's,
It's kind of like science missions, one satellite parked over a certain location,
not moving anywhere, sending very small amounts of data to now, it's this whole circus
of a bunch of different missions needing to coexist, transmitting way more data,
and having like constantly changing parameters.
So I think that has really, you know, flipped the switch for some of the, you know,
government customers that we talk about, like, their missions just would not be able to.
able to be resolved without a new ground architecture.
And same on the commercial side, frankly.
Yeah.
Your system is able to deploy in three months, whereas a traditional ground station
deploys in three years.
What enables you guys to have that level of suite up?
It really comes down to the vertical integration.
And what we mean by that is kind of like what I mentioned of being able to
stitch together all of the different pieces in the end-to-end system so that they inform
each other.
So, for example, when we say three years before, what did that timeline look like? It looked like an
antenna vendor who, you know, gets a phone call. After they get the phone call, they pressed the order on
the supply chain. They got to wait X number of months to actually get the parts to arrive. Then they
assemble them all. It's a bespoke manufacturing line because it's, you know, it's a bespoke system.
They're just, you know, they're doing it one-off. And then they ship it and they're shipping a giant
piece of equipment. So it probably has to go over, you know, ocean shipping methods. And
And then it arrives at site and you have to put together a giant construction project because the size of many of these antennas, they're like multi-story buildings.
So you have to do permitting.
You have to lay a concrete foundation.
You have to have whole construction teams in order to put them together.
That adds up into a three-year timeline.
Whereas for us, because we're thinking of all of those things at the same time as we're doing that development, we get to say, we need our antennas to fit in a standard shipping container that can go on a commercial United Airlines flight.
And so it gets there the same day.
We need our system to be able to fork off of that shipping container
and land on a patch of dirt with no concrete and just plug into a standard 240 power bolt.
We need to be able to have that telemetry run across our entire system
so that we know how to fire it up in a matter of minutes.
So being able to coordinate all of those things is really what's transatlmitry.
to that outcome of shaving off the time.
And when did you realize that vertical integration was just where you're at to go?
Do you know from the beginning or is it something you learned over time?
And what have you learned about hard tech in the process of doing that?
Yeah.
I think it was a bit of appealing back the problem space where initially you think,
okay, great, we want to put more capacity, we want to make more capacity available.
how can we optimize the ground system to do that?
But then there's so many dependencies in, you know,
what the site actually looks like,
in what the software integration looks like.
And we just realized that the way to deliver the best solution
that actually aligns our incentives with the customer
was to do the whole thing.
So our incentives are aligned when our measure,
of success is their mission success.
And you don't have that
if you're just solving part of the equation.
Yeah. Yeah. SpaceX was able
to bring launch costs down by an order of Madnitude
from what came before.
Why hasn't the same thing happened in ground?
Yeah, I think it does come down.
Like, I hate to be a broken record on the vertical integration,
but the reason why that matters
is that what SpaceX has done
is they've really streamlined their product, right?
Like, they're not trying to build
a ton of different bespoke products.
they build one thing and they make it super efficient and effective.
They get the economies of scale and everything.
And so for us, if we were, you know, just being an antenna vendor,
then we would probably need to build a bunch of different types of products.
But because we get to see across so many different solutions,
we can think, and we invest our R&D in building a solution that works commonly across the industry.
So that means that, you know, we're account.
for commercial missions, government missions,
allied missions, all within the same system.
And that makes our costs lower and more efficient.
And when we're able to do it as a shared service,
that's really the difference for us.
Like we view ourselves more so as a platform, right?
So it's not like a one-to-one sale where you're trying,
you know, get all of your value off of that single sale.
Our platform is such that many missions can benefit from the same infrastructure.
So we make our investment, and then many customers get to benefit off of that single investment
that we make.
And then what's great for customers on their end with that is that they're able to take advantage
of all the learnings and all the investment that we've made across a bunch of different concepts.
And so it winds up being more beneficial for them.
They don't have to do like a big one-off capital expense.
on the system, they get to, you know, smooth out their costs and everybody's happy.
Starlink is working on direct optical inner satellite links.
How much of that is a threat to the ground station business model?
I view it as like a zero percent threat.
And the reason why is if you are banking on, you know, any of the space infrastructure,
it is about the direction of data volume.
And so for us, anything that supports growing the trend of,
data volume through space is great.
Like, we're all on board with the same objective there.
And so for intersatellite links, what's great about that solution is that it's reducing
the latency.
It reduces the friction of how you can actually transmit data through space.
And so think about, like, all the use cases that that opens up when, I mean, I think
Starlink is a great example of this, you know, talking about matching or in, and at certain
time beating internet latency speeds.
Like, that would be.
heard of in space before and look at the value of that business. And so I think technologies that
align with that trend are really positive. Yeah, that makes sense. In a potential Taiwan scenario,
there's a version where ground stations can become targets. How do you think about resilience?
I think that's a, it's a great question. And it actually is both a commercial question and a government
question, like both commercial and government care about resilience. And I think like you can look at,
a lot of different companies that have tried to address this,
we take the similar path of proliferation.
So making things like cheaper, faster to deploy,
more volume manufacturing is kind of the solution to that
so that when a single site location goes down,
that's, you know, it's not a catastrophe.
It's actually interesting for some of our teammates
that did come from Starlink.
That was their similar model.
So they consider resiliency in the same way,
where they have multiple ground sites
in a region so that if one goes down, it doesn't totally take their service off offline.
So I think a similar concept applies here.
Yeah.
A lot of people analogize the space economy to the early internet.
I say, you know, a lot of infrastructure being built, you know, lots of companies will fail
and lots of applications, you have very successful applications will be built on top.
Do you, does this analogy hold for you?
Yeah, for sure.
I get really inspired by the analogy, especially thinking about, you know, for folks that
were early with the internet, like, there's no way they would have foreseen what the internet is
today. But they were betting on a direction and they were setting up a model that would, that would
basically like unlock a lot of innovation. And they were like, they were developing principles
and building aligned with certain principles that would support that innovation and look what we
have today. Yeah. I mean, I think.
think like things as simple as like TCIP protocols, for example,
like trying to make different layers as easy and supporting for innovation as possible.
So I think we're in a similar moment with the space industry where we don't know what is going
to be built.
Like a year ago today, would we think that everybody would be talking about orbital data centers?
No way.
But it's captivated the public imagination and who knows what's going to come next.
And so for us, we are directionally aligned with that movement.
and we are building to principles that will support innovation.
Like the whole thing that we're about is taking companies further faster,
taking space missions further faster.
And we do that, you know, by our model, which I've described.
So if I were to like look forward into the space industry,
I think, you know, if you analogize to the internet,
like you have a couple of kind of platform infrastructure plays
that really wind up becoming enmeshed across,
the internet and you know it's not like you have a thousand different companies that stand to
benefit from them but there are a few that wind up becoming really uh influential and fundamental um
you know cloud is one that we analogize to a lot and we were inspired by um and we want to be one of
those companies yeah what is the right way of mental model for thinking about the relationship between
the public sector and the private sector in terms of growing the space economy and
industry and sort of technological capabilities is it kind of like the internet where a lot of
the early work was either done by or funded by government and then the private sector sort of,
you know, took the ball, so to speak, or is it more in parallel? How should we think about that?
Yeah, I think it's very analogous. I think it's interesting how the venture ecosystem fits in
now in a deeper way than it did back then. Yeah, I think a lot of technology innovation does
tend to take place at those fringes that the government use cases are solving for.
And I think that's happening now.
And I think the benefit that we have, which hopefully will lead to like a shorter cycle
in reaching the kind of infrastructure scale with the space industry is with venture absorbing
some of that risk.
When we talk to government, you know, they're looking for partners to absorb that risk.
And frankly, when we talk to, you know, some of the things,
commercial companies as well. They're really excited about Venture's role in absorbing some amount of
risks so that they can pursue bigger ideas faster. Yeah. So help us outline a little bit of the
space economy right now. Is it how should we think about if we were doing the market amount,
like the different, you know, types of players, is it, and then maybe the attributes to the market
is it like very fragmented? Are there, you know, a couple big winners to kind of aggregate? Like,
what is the right way of thinking about?
Yeah, I think the infrastructure plays are really important for space.
Like there's a couple of, there's a number of fundamental things that can be those underlying components that make a big difference.
So for space, things that matter is obviously launch.
Like you need to have a way to actually get mass into orbit.
Power is another big thing to solve for space.
You need to have propulsion.
That's another critical thing for space, being able to actually maneuver once you're up.
there and then that connectivity back to earth is really critical and being able to kind of
orchestrate and network all of that connectivity is really important. And so I think we are in an
interesting moment where that infrastructure is being built out to enable a different set of
capabilities. Like if you look a few years back, you had the small satellite boom where there were
a whole generation of companies that were built off of, you know, doing a smaller level of
infrastructure to unlock different capabilities. It feels like we've involved into a higher
threshold of infrastructure that's going to unlock a whole other layer of capability.
Same way. Here's what you think are the biggest bottlenecks to, you know,
sort of unleashing a wave of innovations. Like if in a few years, the economy, you sort of,
you know, accelerate significantly or there's a whole wave of startups that emerge or accelerate
in their growth, what would it?
needed to happen. Why could that be? I mean, like our biased answer is that ground is really
critical for that. Obviously, it's not the only thing. Like, I think, you know, to unlock the
innovation, like, you know, power is a huge constraint for space. And so, you know, being able to do
more in space is influenced by that. But also the amount of data throughput you can get from
space. So, like, power improves, you know, how much data you could generate in space. And
space, but then ground impacts how much data throughput you can have through space, which is critical for being able to actually deliver those missions to users.
I was just listening to the Elon John Collison, Dorkash podcast on Data Center Space, which is, you know.
I haven't listened to it yet, so apologies that I don't know.
I just say it was the first time I've heard of it.
what is your thinking on it, the feasibility of it,
we'll compute to orbit?
Yeah, what do you think about?
So our mentality at Northwood is we want to take space missions further faster.
Like, we want to enable the most ambitious missions
and translate them from dream to reality as fast as possible.
And so, like, that is the exact kind of juicy problem
that gets the nerds at Northwood excited is,
You know, here's this super ambitious concept for space.
I think what's captivated a lot of people is thinking about, you know, how it pushes society,
how thinking about kind of limitless power from space pushes society.
Like, it gets a lot of people excited and inspired.
And so we want to be supporters of willing that into existence through taking that further faster.
So I think a lot of people raise a lot of really valid concerns about it, things that require
or things that mean there's going to be long timelines to bring it into existence,
whatever it is.
Are we talking training?
Are we talking inference, et cetera?
Like, you know, there's a lot of different, there's a lot of different details.
But I think our interest in it is how can we understand the space so that we can enable it
to go faster towards that outcome.
What are some examples of companies or use cases that don't exist to,
that you could envision, like, dream for us.
Yeah.
What could some examples look like?
Yeah, I think it's like what are the vertices scenes that you're tracking?
So, like, one verticine might be altitude.
Right now when we talk about space missions,
you're thinking of, like, low Earth orbit through to geostationary orbit.
You know, it's a certain distance away from Earth.
What if you could stretch that?
What if you could have missions that go even deeper into space
and have new exploratory capabilities
or, you know, different planets and the like,
I think being able to stretch the tether further and further away from Earth,
I think is really interesting for what that could unlock.
Another, another vertices is data throughput.
So right now, like the concept of matching the volume of data from the Internet
to what's being done in space deals pretty preposterous,
But what if it wasn't?
Like, what if you could actually surpass the throughput of data on the internet in space?
What kind of applications could you unlock with that?
I think, you know, the whole interest with compute in space is kind of like attached to that concept.
So, yeah, I think there's a lot that you can do.
I think we have like a massive treasure trove of data about our planet that has not really been capitalized.
So I think that is like a huge amount of latency.
potential in my mind. So I'm excited to see where, you know, some of the other advancements
going on with technologies such as AI will lead to really unlocking the benefits of that.
You just won a $50 million contract with Space Forest to help modernize. What does it mean to
say that the Pentagon would rather, you know, buy commercially than build themselves? Yeah. I think it's a
pretty fundamental switch that represents the timeline urgency.
and, you know, the change in a ground paradigm that we're confronting,
like you can't have the same models of procurement
if you're talking about proliferated systems
where you need to just have such a huge increase in ground infrastructure
in such a short period of time.
You need to look at different models.
And so, yeah, we were fortunate to be aligned with some of the great thinkers
over on the Space Force side.
that are really developing what that model would look like.
And really fortunate to be entrusted with such a significant program so early in our company's lifetime.
And to the whole, you know, taking missions further, faster point,
like being involved in missions of national significance is something that, you know,
that's what we're all about.
So I think it's very aligned with that satellite control network.
That is a common resource for U.S. government where, you know,
every launch runs through satellite control network.
It tracks missions across a really wide set of U.S. government use cases,
ranging from, you know, GPS to NASA missions, you know, our missile track systems and the like.
So it is a great opportunity for us to kind of demonstrate the cross-cutting capabilities that we are working on.
Yeah. There are 13,000 active satellites right now. Is that accurate?
Sounds about right.
And I think you said that they're collecting millions of data that can't be captured because there's not enough ground capacity.
How bad is it bottle net?
Yeah.
So, you know, you can think of a satellite as basically, like, as soon as it launches into space, it's just a depreciating asset.
It's just a really expensive depreciating asset.
And you're trying to maximize the value that you can get off of that asset.
And the way that you do that is by sending data,
because that is like the economic value of the spacecraft
is the data that can produce.
And the data that can produce is directly proportional
to the amount of ground connectivity that you have.
So ground is quite literally how you increase the ROI of your spacecraft.
It really matters for both commercial and US government missions,
you know, for US government missions to launch a spacecraft.
And like literally there have been a bunch of missions
that have been launched with no ground plan.
And so that's like, A, you might just lose your spacecraft,
which could be a very consequential loss of an investment.
Or you just miss out on being able to make good use of those taxpayer dollars.
And same for commercial missions.
You know, we've heard from a number of different commercial companies.
Like, we are throughput limited.
We're limited in how many customers we can serve
because we don't have a big enough ground footprint.
Yeah.
We just talked about the contract.
What's the next big milestone as you think about your guys' development?
Yeah, I think building upon the use cases that we have,
I think we've been fortunate to find a lot of aligned customers
with the product that we are currently putting out.
There's other products that we also have in the works.
I think people know us as a phase-drey company,
but with announcements we'll have coming out before too long,
We are more than that.
We are kind of thinkers across the whole ground solution space.
So I think it's both that, you know, product maturation as well as product development
that will continue to be doing.
While like I said, it's orchestrating a ton of stuff.
We're also building a global ground network.
We have five international entities now across the world.
We're like, we'll be the United Nations of Northwood.
And so, yeah, we're doing,
We're currently on two continents.
We'll be on a number of others before the end of the year.
And so got to do it all at once.
Yeah.
With that, you know, I'm sure there are a lot of space nerds listening to this.
Say more about the company, the size, you know, the transition from a one product to a
multi-product company.
Say more about, you know, the company itself.
Yeah.
I mean, so like I mentioned before, there's a lot of disciplines that need to come together to
make Northwood successful.
And so we really tried to pull from the best to the best in each of those disciplines,
the folks that have done it before, you know, a lot of folks that have experience with
building out sites globally.
You know, like I mentioned, that's the Starlink team, but that's also how can we be
creative about other industries that we can source from?
Think about like, you know, AT&T cell towers.
How are they doing that with such like global presence?
What about Tesla supercharger stations?
So just kind of looking at diverse talent bases for things like that.
We have a really robust supply chain team because you have to be able to source in all of the components
and make it timely and make it resilient, especially our customers relying upon that.
The engineering team, we have a huge amount of software actually.
So we're known again for the hardware of our system, but the software is actually,
like very extensive across like you know networking we have embedded we have um you know the actual
front end of what we're building so it's it's an extreme multidisciplinary company um and so what's
important for us is that we really you know value the different disciplines i think that's something
that probably i um philosophically contribute to the company um as well as just you know making sure that
we're coordinated and operating effectively as a team.
So, yeah, we have done a lot of scaling.
We've doubled in size a number of times already,
and we'll hopefully double again in size this year, if not more.
So, yeah.
And the size right now is?
Around 75 employees.
Cool.
Talk a little about how you think about culture at Northwood,
what types of people you're trying to bring on.
How do you think about team building?
Yes.
I'll give a little window into my expectations that I share with people
when they interviewed for Northwood.
The first one is that we accomplish unreasonable things
on unreasonable timelines.
They surface level like, sure, okay.
Everybody, you know, everybody can kind of get on board with that.
But, you know, it's not just a matter of like applying more force to the problem.
It's about taking smart risks.
So it's not just force.
It's also cleverness.
It's like understanding the problem deep enough to know what the trades are
that you can afford to make.
And so people that are able to do that kind of mental calculation,
kind of like take big leaps is really how you can actually move quickly.
The second one is the end-to-end ownership of your work.
And for me, really, what that translates to is, you know,
people who are going to be bought in in a deeper way to the outcome
beyond just checking some boxes off the list.
I've, like, kind of been reflecting on, like, where does that come from for me?
Like, why is that something that matters for me?
And I think, you know, it traces back to when I was, you know, pursuing my first passion growing up as a kid,
my mom was a huge supporter of me in a way that kind of went beyond just demonstrating that she supported
what I cared about, but actually enabling me to do it in a way that went beyond reasonableness.
So I wanted to be an actress.
She's a full-time working mom.
Sometimes, like, I mean, breadwinner and, like, literally could not step away from her job.
Like, a lot of parents would have probably, like, put me in an acting camp and just been, like, good luck, cool.
And then maybe just thrown up their hands.
but she like, you know, was on the phone coordinating travel and like caretakers and, you know,
booking me plane tickets and, you know, figuring out how to get any of their resources to
accomplish my dream in a way that was, you know, pretty ridiculous at times.
And I think that that's been like something that has really stuck with me is the amount of care
that she had investment in my dream and where I was.
wanted to go is something that, you know, I get inspired by from a mission perspective,
like the amount of care that people on our team have invested in the outcome that goes so
far beyond, you know, the description on, on their job description. And, you know, that means that,
like, on our North Dakota trip where we were, you know, back deploying our first antenna,
people, like, stayed up, you know, more than 24 hours on multiple occasions and, you know, a span of
a week where we just needed to get the system running.
And then the third one is we're looking for a categorical outcome,
not just an incremental outcome.
And I think, like, what that comes back to is, like,
if you want to do something that moves the world forward,
you need to have a team.
That's something that I learned back from my time in entertainment.
You know, like I was working on a TV show,
and I'm just like one cog in this really big operation.
Like there's no way you could get a TV show on air
without a whole coordinated team of people
to make that possible.
And then if you want to function effectively as a team,
you need a lot of trust.
And so what's really critical to me
in having teams that trust each other
is, you know, basically like a low ego environment.
Like when people come in the door,
they need to be able to admit their faults
in a way that like is just,
purely pursuing understanding what the problem is, understanding what the goal is, and also be bold
enough to raise flags when there's issues in a problem set. So yeah, I think that teamwork,
the amount of care and the ability to be clever and take smart risks is kind of like the foundational
pieces of our culture. That's a great note to wrap on. The story by your mother is particularly
inspiring. Thanks for sharing it. Bridget, thanks so much for coming on the podcast.
Yeah, thanks for having me.
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