Mentioned in Video:
- 🤯 More Data Than Tesla?! Palantir's Partner in Auto (PLTR + WEJO): https://www.youtube.com/watch?v=nq3N_V5xvaA
- 🚀 12 Stocks That Could 10X Thanks to Palantir (PLTR): https://www.youtube.com/watch?v=5r3fEl6_e_c
- 🏆 Tesla Stock | Tesla's Huge Data Lead Game Over for Car Companies: https://www.youtube.com/watch?v=VxHwgJXqZI4
- Wejo Makes Its Data Available in First-of-its-kind Operating System for Electric Vehicle Infrastructure, Available Through Palantir Foundry: https://www.wejo.com/press/wejo-makes-its-data-available-in-first-of-its-kind-operating-system-for-electric-vehicle-infrastructure-available-through-palantir-foundry
- Wejo Announces Wejo Neural Edge™ Processing Platform Streamlining Connected Vehicle Data and Driving Autonomous Vehicle Reality Forward: https://www.wejo.com/press/wejo-announces-wejo-neural-edge-processing-platform-streamlining-connected-vehicle-data-and-driving-autonomous-vehicle-reality-forward
- WEJO Stock Investor Presentation & News: https://www.wejo.com/presentations
- Support the channel and get extra member-only benefits by joining us on Patreon: https://www.patreon.com/tickersymbolyou
🚗 #Palantir (#PLTR) is just one of many awesome companies partnering with #Wejo. But in a volatile market that punishes high-tech growth stocks, is @wejo a good investment? To answer that, I sat down for another interview with Wejo's CEO and Founder, Richard Barlow. We talked about connected vehicle data as well as their relationship with @Palantir, their updated business model, unit economics, and path to profitability. I think this would be a no-brainer for #CathieWood to hold inside #ARKQ, the #ARKInvest fund focused on the autonomous revolution, as well as #ARKW, @ARK Invest‘s fund themed around the next generation of internet applications. In fact, I'm starting to think Wejo stock could 10X from here and be one of the best stocks to buy now. Disclaimer on forward looking statements: https://www.wejo.com/forward-looking-statements
Video Transcript:
00:00
the world is changing our devices are
00:02
becoming more connected and data is
00:04
driving nearly every aspect of our daily
00:06
lives from our time at home to our time
00:08
at work and everything in between that
00:11
in between is where a company called
00:13
wejo comes in wijo is a newly publicly
00:15
traded company focused on connected
00:17
vehicle data wijo works with palantir to
00:20
organize trillions of data points from
00:22
over 11 million vehicles on the road
00:24
today then they use that data to help
00:26
their clients make strategic and
00:28
tactical business decisions imagine
00:30
being able to look at the driving and
00:32
charging patterns of electric vehicles
00:34
to figure out the best places to build
00:36
new charging infrastructure imagine
00:38
seeing the flow of traffic in real time
00:40
and managing traffic lights to shorten
00:42
everyone's commute based on what's
00:43
actually happening on the road imagine
00:45
using every car's temperature sensors
00:47
fog lights windshield wipers and even
00:49
their braking patterns to identify bad
00:51
weather and individual hazards on the
00:53
road well you don't have to imagine
00:55
these things because they're exactly the
00:57
kinds of capabilities that we joe is
00:59
building on top of palantir's foundry
01:01
richard barlow is wijo's founder and ceo
01:04
the last time we spoke was about a
01:06
quarter ago right before their business
01:08
combination with virtuoso acquisition
01:10
corp since then the market for high-tech
01:12
growth stocks has been incredibly
01:14
volatile and as a newly publicly traded
01:16
company wejo stock has certainly felt
01:18
that impact so given the harsh market
01:21
conditions of today why should investors
01:23
believe that wijo is a good investment
01:25
to answer that question i sat down for
01:27
another exclusive interview with richard
01:29
and we caught up on everything that we
01:31
joe has been up to including some big
01:33
developments that they're working on
01:35
with palantir and microsoft if you watch
01:37
until the end you'll gain a solid
01:38
understanding of connected vehicle data
01:40
and you'll also learn about we just
01:42
newest offerings with palantir their
01:44
other avenues for growth and the future
01:46
of connected mobility full disclosure
01:48
i'm not a financial advisor and nothing
01:50
in this episode is financial advice i
01:52
took no compensation for this interview
01:54
but i am currently a ouijo shareholder
01:56
and may increase my position in wijo in
01:58
the near future based on this research
02:00
your time is valuable so i've cut out
02:02
all of the fluff and timestamps are
02:04
enabled for your convenience so let's
02:06
get right into it richard it's great to
02:08
see you the last time we spoke was right
02:10
before your reverse merger with virtuoso
02:12
acquisition corp you know the markets
02:14
have gone wild this year how have you
02:16
been how's wejo been it's been an
02:18
interesting start we're like any tech
02:20
stock i think one thing i'm really happy
02:21
about and we're really excited about is
02:22
we've got a good trading volume we'd all
02:24
love for the share performance to be
02:27
better but we are reflective of of the
02:30
growth tech tech stocks more broadly
02:33
we've had some great news flows since we
02:35
last met so you you'll have seen the uh
02:37
palance evos announcement last week we
02:40
made our announcement with neuroledger
02:41
microsoft at the beginning of the year
02:43
at ces we made an announcement of our q3
02:46
results in december we gave a business
02:48
update where we announced our first uh
02:50
more than a million dollar contract
02:51
where we licensed software to a motor
02:54
manufacturer in the us
02:55
so it's been an interesting three months
02:58
really excited this year we're excited
02:59
about some announcements we're going to
03:00
make
03:01
really excited by the support we've had
03:03
from your from from some of your
03:05
followers um yeah it's been good
03:08
that's awesome yeah i'm really excited
03:09
to get into it with you over the course
03:11
of this interview i can't wait looking
03:12
forward to it for the investors who are
03:14
watching now who didn't catch the most
03:16
recent interview with wijo you work with
03:18
connected vehicle data what does that
03:20
mean and what opportunities is uijo
03:22
chasing in the market exactly well we
03:24
work with both autonomous vehicles
03:26
electric vehicles and connected vehicles
03:28
and our overall sort of pool of data we
03:31
have we have about 12 million vehicles
03:32
live on platform what what a connected
03:35
vehicle is is which which encompasses av
03:37
and ev as well is that the vast majority
03:40
of new vehicles sold globally every year
03:43
have embedded connectivity they have
03:45
they have communication devices called
03:47
the tcu
03:48
embedded in fabric or the network of the
03:51
car whether the car's a modern car
03:53
running something called an ethernet or
03:55
whether it's running a more more
03:56
historic network called can these
03:59
networks in the car are a circular
04:00
network and every sensor in the car so
04:04
you know there can be a every button in
04:06
the car
04:07
there might be a sensor in the window
04:09
detecting if something's stopping the
04:10
window closed
04:12
there'll be a sensor in the in the
04:13
windscreen in the windshield wiper
04:15
there'll be a sensor measuring
04:16
temperature outside
04:18
you catch my drift there are thousands
04:20
of sensors in the car
04:22
um typically a seat can have up to 35
04:25
sensors in it so there can be sensors on
04:27
the buttons of the seat
04:29
so what we do is we work with motor
04:31
manufacturers industry term oems
04:34
and we receive access to up to 220
04:37
sensors in vehicle
04:39
so we get the live location of vehicles
04:41
with consent of the driver and we see
04:44
seven set of vehicles driving around new
04:45
york for example we see 20 of all
04:47
vehicles driving around detroit you can
04:49
imagine wise you know when we're working
04:50
with some of the world's largest oems
04:52
where they have their headquarters in
04:54
detroit that will explain why we have 20
04:55
of all vehicles on the road but it's
04:57
quite surreal walking down the streets
04:59
of detroit and seeing one in five
05:01
vehicles and i'm thinking when i walk
05:03
down there
05:04
i'm getting from that vehicle from that
05:06
vehicle from that vehicle so we get live
05:08
location and that's helping smart cities
05:10
understand about emissions and cities
05:12
understand about the weight of vehicles
05:13
and how that can affect how it can
05:15
affect the the the deconstruction of
05:17
roads but then we're also getting
05:18
powertrain data so we know uh engine
05:21
temperature
05:22
i previously had a vehicle where i
05:24
actually sent the ceo uh a spreadsheet
05:26
tracking the temperature raising rising
05:28
on my on my engine and i i'm a geek
05:32
and i wanted to understand why uh why i
05:34
was losing so much oil in the vehicle
05:36
and i showed in a 20-minute period this
05:38
rising of temperature
05:40
and that's that's sort of the example of
05:41
some of the live data from vehicles you
05:43
know so we get powertrain we get battery
05:45
status
05:46
and later on we can talk about palantir
05:48
and our announcement we're there with
05:49
what we call evos but we're getting live
05:52
battery data from from vehicles so we
05:55
know how batteries are performing we
05:56
know we know when a vehicle's parked we
05:58
know he's got in park we know if it's
05:59
then being charged or not so we've got a
06:01
huge amount of data and we process over
06:03
17 billion data points a day we process
06:06
over 13 trillion today
06:08
so it's a broad array so if you think
06:10
about any button in the car any any any
06:12
moving anything mechanical in the
06:14
vehicle anything involves the vehicle
06:16
moving there'll be a sensor and that
06:17
data is potentially available for
06:19
analysis which we receive wedo just
06:21
finished their first quarter as a
06:23
publicly traded company what makes wejo
06:25
stand out in today's tough market
06:27
against other young companies that
06:30
investors should be thinking about right
06:31
now we are the in terms of live vehicles
06:34
on platform in terms of scale scale
06:36
revenues we are the market legend from
06:38
connected vehicle av and ev data
06:41
um we built incredible relationships
06:43
with likes of microsoft who don't tend
06:45
to do public equity investments we've
06:48
we've built an incredible relationship
06:49
with palantir
06:51
and they've been not only a great
06:53
investor but also a great commercial
06:55
partner and also we've had we have the
06:57
private backing or private company
06:59
backing from general motors for three
07:00
years we've continued to backers in the
07:02
public market as well where they're also
07:04
one of our pipe investors so we feel
07:06
with standout in terms of alternative uh
07:09
data data providers in in the connected
07:11
vehicle data space
07:13
in all key metrics
07:14
we're transparent about uni economics um
07:18
the and and then beyond that
07:20
what we found with the um being in the
07:22
public markets is that the inbound
07:23
demand is just has has been even greater
07:25
we're getting more and more demand for
07:27
more and more different types of
07:28
agencies different industries you want
07:30
to do more with with the data that
07:33
we control and represent i read your
07:35
investor presentations and so on and it
07:37
seems that one of the things that you're
07:38
getting into now is smart infrastructure
07:41
do you want to talk a little bit about
07:42
that as well as maybe your relationship
07:44
with palantir on this latest product
07:46
smart infrastructure is a broad
07:48
definition for industry but it's this
07:49
idea of having
07:51
more smarter data sources we just
07:53
announced with palantir something called
07:55
evos the ev operating system and it's
07:58
come from really that that that i was
08:00
working with until we was working with
08:02
palantir
08:03
and we we we so we've seen this myth
08:06
about about the industry it has around
08:08
range anxiety everyone worries about the
08:10
size of batteries in the vehicle
08:12
that's not the challenge the challenge
08:14
is is that is actually you know a
08:15
typical driver drives 40-50 miles a day
08:18
most cvs all evs now have more than
08:21
enough battery life to do multiples of
08:24
those journeys it on a day-to-day basis
08:27
so the challenge really is is that if
08:29
the vehicle can be plugged in at home or
08:31
can be plugged in where the vehicle
08:32
whether it was parked at night
08:34
then how can you actually provide
08:36
real-time management for the grid that
08:38
not all vehicles are sat trying to
08:40
charge overnight at the same time how
08:42
can you throttle that if a vehicle is
08:43
plugged in from saying
08:45
9 p.m to
08:46
7 a.m how can you throttle that a group
08:49
of vehicles and agree to charge from
08:51
9 00 pm to 10 p.m then another group are
08:53
going from 10 p.m to 11 p.m
08:56
if you can work with the grid and that's
08:57
what the evos is doing with palantir is
09:00
that we're providing a real-time dynamic
09:01
view so a grid then knows when when
09:04
actually they they they need to direct
09:06
more power to a particular area but
09:08
conversely we can then work with oems
09:10
who can then just you can then you can
09:11
then build apps within the car or the
09:13
vehicle that isn't just taking charge
09:14
all the time but it's always taking
09:16
charge it's plugged in but taking charge
09:18
when the grid can handle it that's going
09:20
to fundamentally reduce a lot of the
09:22
infrastructure budgets that have been
09:23
asked for the moment which is assuming
09:25
that everyone needs to be upgraded it
09:26
doesn't that's not the challenge the
09:28
challenge is to control the power to the
09:30
vehicles at the right time which doesn't
09:32
convenience the consumer doesn't mean
09:34
his inconvenience at the driver that's
09:36
what's exciting to me about evos is this
09:38
idea that that we can now help
09:40
power energy companies make more
09:43
intelligent decisions and truly give
09:45
some smart infrastructure sure that
09:47
makes a lot of sense and so the idea
09:49
there is to really optimize ev
09:51
infrastructure investment is that like a
09:53
fair way to
09:54
yeah and you know if you look at the
09:56
biden infrastructure act um there's
09:58
about eight billion allocated for ev
10:00
infrastructure so it's helped that you
10:02
know and that's and that's not a lot
10:04
really in terms of the spend
10:06
but actually we can help optimize how
10:08
that is spent how that's effectively
10:10
spent i get to get to get the best
10:12
coverage so that all consumers who want
10:14
to own a vv or drive drive and ev can
10:16
actually have an ev that's always on
10:18
demand always readily always charged
10:21
they don't need to worry about the fact
10:22
it was only charged from 2 a.m to 2 30
10:24
a.m
10:25
it's got enough charge to do their
10:27
typical journeys
10:28
they can always override they can always
10:29
say they want to the full charge but
10:31
actually most people don't need that in
10:32
their vehicle that's so interesting yeah
10:34
so it it sounds like this os with
10:37
palantir really focuses on ev
10:40
infrastructure optimization do you plan
10:42
on launching other os's that might uh
10:45
optimize for other things for example
10:47
infrastructure for traffic management
10:49
optimizing traffic lights and stop signs
10:51
and like things like that is there plans
10:53
for spin-offs for other versions of
10:56
optimization os's with palantir so in
10:58
terms of we just studio and we just
11:00
studios is is is now becoming more
11:02
powered by by foundry uh we built studio
11:05
before before before foundry and we're
11:07
now doing a a migration across and
11:09
leveraging all the power that foundry
11:11
gives to us we've built products now
11:13
where we know uh when traffic lights are
11:15
are red or green sometimes that's from
11:18
vehicles identifying that or determining
11:20
that the the traffic lights change from
11:22
red to green sometimes it's taking
11:23
third-party data sources in so and
11:25
that's another example of of how we can
11:27
how we how we can help smart city
11:29
infrastructure
11:30
but going beyond that
11:32
what we're now designing we announced at
11:34
the beginning of january is what we is
11:35
what we call our digital twin although
11:37
although palantiy gave it away and said
11:39
actually it's we're calling it meta twin
11:41
we see 77 million car journeys a day or
11:44
vehicle journeys a day in cities in the
11:45
us for example so we're seeing huge
11:48
amounts of data we've collected over 507
11:51
billion miles of data we can now
11:53
recreate that data and create a 3d
11:56
environment a a meta twin a digital twin
11:58
where you can see all those vehicles
12:00
driving around
12:01
but then the question leads us to a city
12:03
planner well what would happen if a road
12:05
was changed from two lanes to one lane
12:07
and actually i was talking to a
12:08
portfolio manager and that was his exact
12:10
question he said hey i live in austin
12:12
and on my road we we lobbied the city
12:14
planners go from two lanes to one lane
12:16
did that help mice did that help the the
12:18
congestion on my on my road and we could
12:20
actually show with wijo's studio in 2d
12:23
right now the benefits to an easier
12:26
flowing of traffic well now in in our 3d
12:29
environment which will be launching this
12:30
year you'll be a smart city planner will
12:33
be able to reconfigure a road and
12:34
actually see in real time vehicles
12:36
vehicles changing their behaviors
12:38
because we've learned from more than 11
12:40
million instances what happens when two
12:42
vehicles come together and we've had
12:43
data from both vehicles so it's really
12:45
exciting and it's hugely powerful and
12:47
shows the power of of of the data we've
12:49
collected and the power of what
12:51
foundry's not giving to us as a business
12:54
so that digital twin of both cars and
12:56
cities is something that's enabled by
12:58
foundry
12:59
they the first first alpha we built
13:02
in-house and now we're working through a
13:04
foundry to now we're now migrating all
13:06
that into foundry so we are in active
13:08
conversations planning that through
13:11
we're actively moving wijo's studio
13:13
within the foundry environment so
13:15
foundry so we built studio with it
13:17
within our own innovation lab and then
13:19
now we're migrating to foundry now we're
13:21
leveraging what foundry can now give to
13:22
us at scale so it's so we we sort of
13:25
innovate in house and then we work with
13:27
park with palantir to them to then super
13:29
scale out so yeah it's a great
13:30
partnership that was with with the uh
13:33
guys that uh guys and girls at palanti
13:35
all day yesterday in london and we you
13:36
know we've got some really exciting
13:37
stuff where we'll be doing this here
13:39
there's like so much to dig into here
13:42
digital twins and talking about things
13:44
like the metaverse uh have been on
13:46
everybody's mind lately but i think the
13:48
practical applications here are
13:50
something worth digging into a little
13:51
bit so you're building digital twins on
13:53
both the individual car level and a
13:56
hypothetical city level is that correct
13:59
every 3d game is a matter of some sort
14:02
so this is just another matter uh it'll
14:04
be a match environment for for
14:07
scientists for r d labs to understand
14:09
how vehicles behave how how they how
14:12
they will change with differing dynamics
14:15
it's great for the autonomous vehicle uh
14:17
industry community for example
14:20
um there's a there's over 40 dmv
14:22
licenses for oems who are doing av
14:24
trials in us
14:25
but you'll notice a theme they're all
14:27
focused in the same city
14:29
they're all folks in very small parts us
14:31
you know apart from tesla there's no
14:33
national approach for oems about how
14:36
they're going to make their cars make
14:38
their avs be performant for more than if
14:41
a few vehicles
14:42
so we will open and we will open our
14:44
meta twin that any oem with av can run
14:48
their own proprietary av algorithm
14:50
within our twin and understand about
14:52
what happens when they come across a
14:54
human driving a vehicle
14:56
you know we understand the outcomes
14:57
already of a human driving at 55 miles
15:00
an hour where the temperature is 2
15:02
degrees outside it's
15:04
2 30 a.m in the morning it's snowing we
15:08
know what happens next if a vehicle hits
15:10
another vehicle we've already pre-built
15:12
that or machine learning and we've built
15:14
this dictionary of understandings so
15:16
it's hugely powerful and that'd be a
15:18
great way
15:19
of bringing forward the the av
15:21
revolution
15:22
the evolution there's a lot of
15:25
but they're limited to san francisco
15:27
they're limited to arizona you know
15:28
there's the the the av community now
15:31
needs to know about how they can bring
15:32
all that bring forward and enable all
15:35
communities to have better access to all
15:36
these vehicles that'll only work in a
15:39
digital environment to start with
15:40
sure no that makes a lot of sense
15:42
so last year tesla talked a lot about
15:45
how one of their big reasons for going
15:47
to vision only was to be able to build a
15:49
simulation engine and be able to learn
15:52
from you know computer simulations video
15:54
game graphics you know this digital twin
15:57
of basically america and pull visual
16:00
data from that simulation space that
16:02
digital space back into the physical
16:04
space do you have any plans like for a
16:06
similar capability where now that you've
16:08
built this digital twin you can simulate
16:11
data and integrate that with your real
16:13
data streams or add value by simulated
16:16
data or is this strictly for
16:18
experimentation no i mean we we we want
16:20
to get to a point where any oem can log
16:23
in and they can go to any city
16:25
and they can they could they can put
16:27
their own defined algorithm of how their
16:28
av drives
16:30
and they can then drive around they can
16:32
and we and we already have videos
16:35
where which we're building a house where
16:37
we where we can see what's going on
16:39
what's happening next you know so we and
16:41
we we simulate
16:43
pedestrians crossing the road we
16:45
simulate bikes going down the road this
16:48
is all this is all built it's in alpha
16:50
we are not selling a date when we're
16:51
launching this
16:52
but this is our plan and this is why
16:54
when when we when we announced we are
16:56
going to market at the end of last year
16:58
we were very clear we are becoming the
17:00
communication and data stack of industry
17:03
we've collected a huge amount of data
17:05
we're working with multiple oems they're
17:08
trusting us with their data and we're
17:09
now showing the power of that trust
17:11
we're now showing and building some
17:12
incredible products they're going to
17:14
revolutionize smart cities make the av
17:16
revolution happen
17:18
make ev more feasible quicker rather
17:21
than the worry of range anxiety and this
17:23
is these these are some examples of what
17:25
we call data for good you know we're
17:26
thinking about where data adds value not
17:29
just cynically cell data but actually
17:31
how does data add value how does it
17:32
reduce the cost of your insurance how
17:34
does it reduce the cost of repair of
17:36
repairing the vehicle
17:38
as in other examples
17:40
no those are great yeah and so i think
17:43
that makes a lot of sense your core
17:45
mission with why you've partnered with
17:47
palantir who works with novel data
17:49
companies to enable a lot of these
17:51
things to happen right the amount of
17:53
data integration aggregation processing
17:57
and insights you generate require
17:59
something like a foundry to spin up in
18:00
less than a couple decades right can you
18:03
talk a little more about oh go ahead
18:04
please no i was going to i mean i i i
18:07
saw uh yesterday at pounds here where we
18:09
were giving some demonstrations
18:11
and what they did with the uh the uk
18:14
health service called the nhs
18:16
they integrated over 150 nhs trusts they
18:19
integrated hundreds of factories or
18:22
warehouses in in days to join during the
18:25
kovic pandemic and gave this real-time
18:28
view of how ppe was being distributed of
18:30
how of how of how and then eventually
18:32
how vaccines were being distributed and
18:34
it all then and it was only simplified
18:36
to us to a dashboard that the nhs ceos
18:39
could see the government could see and
18:41
it was a great example of actually data
18:43
for good for palantir the great example
18:45
of how foundry can can be can be super
18:47
scared to be skilled so quickly
18:49
in terms of why palin's and ouija work
18:52
together we've now got the same approach
18:54
we're work we work with oems and we have
18:56
access to their data we're now working
18:58
with what they call the tier one and
18:59
tier two supply chain the tier one tt
19:02
supply chain are the parts providers
19:04
that go into your vehicle whether it's
19:06
an engine manufacturer whether it's a
19:07
seat manufacturer you will find an oem
19:10
has hundreds of suppliers in their
19:12
supply chain
19:13
what the oems have never done is that
19:15
they've never shared
19:17
insights of the data from sensors back
19:18
with their supply chain after vehicles
19:20
have been sold that's where we're
19:22
working with foundry is that we have
19:23
this ambition
19:24
that the hundreds and thousands of tier
19:27
one tier two tier threes in the overall
19:29
oem supply chain will all be integrated
19:32
into foundry
19:33
and that's our ambition is and that's
19:35
what and that's and that's you know
19:36
we're applying the same idea that
19:38
parents have found you with with the
19:40
with the aerospace industry with with um
19:42
with airbus we're now doing the same
19:44
with them in the automotive space
19:46
and you know it's it's been an
19:47
incredible partnership we've uh you've
19:50
hopefully seen that we've done some
19:51
joint joint marketing or already with
19:53
likes of evos we're gonna have more to
19:56
be shouting out this year next year and
19:57
beyond
19:58
that's super exciting yeah so just just
20:01
to bring the wijo and palantir section
20:04
uh to a cohesive conclusion the way i
20:06
kind of imagined this building out is
20:09
you and palantir together are building a
20:11
digital twin at the macro level and at
20:14
the car level people are able to log in
20:17
and see everything going on you know car
20:20
by car but also this macro level traffic
20:23
you know what's going on in the city
20:24
let's change this road let's look at
20:26
what happens if we invest here and how
20:28
that affects everything going on as well
20:30
as make decisions using that digital
20:32
twin in near real time is that fair like
20:35
one of the things that we joe often
20:37
talks about is being the communication
20:39
wear between vehicles is that vehicle to
20:42
vehicle is that vehicle to cloud to
20:44
vehicle is that vehicle to digital twin
20:46
to vehicle where does the decision
20:48
making actually take place and how does
20:51
that work at like a detailed data level
20:53
so the capsule is v2x so it's vehicle to
20:55
anything so whether it's whether it's
20:58
vehicle to vehicle whether it's vehicle
20:59
to cloud we're we're working and we we
21:02
can talk in a second about what we're
21:03
doing at the edge with terms of vehicles
21:05
and
21:06
edge um but it's vehicle to anything
21:09
it's this idea that the vehicle
21:11
vehicles um today have not been
21:14
have not had um ai or or ml sort of
21:18
focus around around data leaving
21:20
it's been quite a a it's been it's been
21:23
quite sort of formulated in terms of
21:25
what data should or should leave the car
21:27
in our vehicle in what sort of speed
21:29
or and
21:30
which data points it is we then provide
21:33
the intelligence at the cloud we're now
21:34
empowering vehicles to actually have
21:36
more that power more of that
21:37
intelligence back in the vehicle but but
21:39
ultimately right now we enable vehicle
21:41
vehicle to vehicles anything sharing of
21:43
data so vehicle to anything does that
21:45
mean literally things like a vehicle can
21:48
if a vehicle is waiting at an
21:50
intersection it's three in the morning
21:52
there's no one coming and a light is red
21:53
the vehicle can connect or communicate
21:56
to the traffic light and say hey dude
21:58
turn green i'm the only one here or what
22:00
exactly does it mean vehicle to anything
22:03
yeah so vehicle to infrastructure is is
22:05
um is is is exactly that it's this idea
22:08
that you know
22:10
we're already getting traffic light data
22:11
whether it's traffic light data from the
22:13
traffic lights themselves or whether
22:14
it's inferred from other vehicles this
22:16
idea of a more effective infrastructure
22:19
uh and communication to infrastructure
22:21
is is part of our remit it ultimately
22:24
then leads to better safety reduce
22:27
emissions on reduced emissions and
22:29
emissions is broad definition it's not
22:31
just think about combustion engines it's
22:33
all attributes for vic which could then
22:34
lead to emissions
22:36
so one of the infrastructure use cases
22:38
i'm often thinking about are which
22:40
chargers and which gas stations have
22:42
lines right that's not something we
22:43
really get to see today is that
22:45
something that emerges from being able
22:47
to collect all this data what charges
22:49
are open where it makes sense to put
22:50
chargers where it makes sense to you
22:52
know load up on gas is it more about
22:54
path planning is it more about
22:56
infrastructure where do you see
22:58
like the big picture net effect
23:00
happening so actually we've already got
23:02
winning running in in in our foundry uh
23:05
in our foundry installation at ouijo so
23:07
you can already see live dodging
23:08
availability with it within within
23:09
wijo's foundry environment so we're
23:11
already getting
23:12
data from both vehicles and data from
23:14
infrastructure so that's a great example
23:16
of we know when infrastructure is
23:18
failing we know when charges are failing
23:20
that that has got to be addressed as
23:22
well but we're already seeing that and
23:23
that's a great example of vehicle to in
23:25
vehicle to infrastructure communication
23:27
but infrastructure can be street lights
23:29
if there's no vehicle movements on the
23:30
street why do the lights need to be on
23:33
you know that that can say
23:35
so there's all sorts of benefits that go
23:37
from vehicles to infrastructure vehicle
23:39
to infrastructure can be a parking lot
23:42
can be curbside parking
23:44
anything that ultimately can lead to
23:46
more efficient use of a vehicle which
23:48
then always leads to better safety and
23:51
less congestion
23:52
anything that we that we class as day to
23:54
be good we we we are focusing on we're
23:56
thinking about as a business
23:58
so with all that data being communicated
24:01
between cars between cars and
24:02
infrastructure and between you know the
24:05
physical wear and the digital twin comes
24:07
a lot of issues with transmission
24:10
latency storing all that data how do you
24:12
guys handle that
24:14
so we so we process over 17 billion data
24:17
points a day at peak 500 000 data points
24:20
a second
24:21
um
24:22
right back in the cloud we we hold over
24:24
eight petabytes of data so you know so a
24:26
big amount of data
24:28
um and there's all sorts of challenges
24:30
around that so we we're continually
24:32
machine learning from that data asset
24:35
um so we needed a cloud partner that
24:37
could help us
24:38
help us be able to break that data down
24:40
and and microsoft azure has been a great
24:42
has become a great partner of ours
24:44
who've helped us
24:46
be better with data that's not to say we
24:49
don't have google bigquery instances
24:50
that's not to say we don't have aws s3
24:53
instances but when we but when we were
24:54
looking at the next five years
24:56
we looked we looked at the whole
24:58
industry of cloud partners and we and we
25:01
recognize microsoft as because is doing
25:03
really interesting things in automotive
25:05
and has built some really interesting
25:07
products that were very relevant to what
25:09
we were wanting to do
25:10
one of the biggest challenges in
25:11
industry and i mentioned to you
25:13
mentioned earlier on this podcast is
25:15
that vehicles right now haven't i'm not
25:17
we're not that intelligent about
25:19
determining when data should be sent
25:21
and there is a bottleneck the bottleneck
25:23
is
25:24
the 4g network or becoming the 5g
25:26
network
25:27
so and that and that bottleneck means is
25:29
there any there's only so much data that
25:30
can leave the car
25:32
and the high value the higher value data
25:35
the data that can help save the av
25:37
industry
25:38
um such as image data is is will use of
25:41
a big proportion of that of of this of
25:44
the size of the pipe or the bottleneck
25:45
that the communication channel
25:48
so
25:49
we're we we've already been faced with a
25:51
challenge of
25:52
we're here we're hitting a sort of a
25:54
critical amount of data leaving vehicles
25:56
and that means we don't need all the
25:57
data all the time and yet we can't
25:59
instruct a vehicle in real time to stop
26:00
sending us data so we end up taking more
26:02
and more data and even if we don't even
26:04
if we learn no get no more value from
26:06
that particular data field or data point
26:09
so we've so we've been working for the
26:10
last two years on how we can have
26:13
machine learning outcomes or when data
26:15
should or should or shouldn't be sent
26:16
from the vehicle
26:18
we've proven we can reduce the data
26:19
overhead by 80
26:21
and still have
26:23
a 100 percent intact data point at the
26:25
other end so by reducing the data
26:28
overhead by 80 that means you can have
26:29
more data out to the vehicle
26:31
which is going to be absolutely perfect
26:33
for av
26:34
the i av has not yet finished learning
26:37
everything needs to learn the whole
26:38
industry hasn't so we've developed a
26:41
developed approach where at the vehicle
26:42
level we can we can we can throttle the
26:45
data when it needs to leave the vehicle
26:46
leave the data so the dates easily
26:48
vehicle or not then on the cloud side
26:50
we're now working with microsoft and
26:51
we've learned we've launched a product
26:53
called neural edge where we're
26:55
leveraging edge-based expertise from
26:57
from the azure solar portfolio to
26:59
rebuild the data
27:01
and the idea that we can rebuild the
27:03
data and it's still being 100 in in
27:05
integrity
27:06
means that we can then have a much
27:08
bigger
27:09
data pool to then do even more enhanced
27:11
machine learning and then back to our
27:13
digital twin scenario earlier that's
27:15
going to be so important because one day
27:17
what we want is the 40 evs with dmv
27:20
licenses to have to to do av we want
27:22
every one of those different avs be
27:24
driving within our digital twin and then
27:26
they all learn together how they can
27:27
interact together in this new world
27:29
where there's going to be no one
27:31
proprietary av approach there's going to
27:33
be tens or potentially hundreds and
27:36
these vehicles are all going to need to
27:37
live together and they get there's going
27:39
to need to be a better way of handling
27:40
data rather than at the moment when a
27:42
navy is machine learning how to drive
27:44
around a city
27:45
the data stays within the vehicle all
27:46
day and then it's downloaded at the end
27:48
of the day well that can't happen when
27:49
you've got millions of vehicles driving
27:51
around there needs to be a real-time way
27:52
for data to be shared and that's what
27:54
we've been building is what we call
27:55
neural edge but this idea that we will
27:57
become the comstat that enables whether
28:00
it's evs or avs or connected vehicles a
28:02
real-time way a sub-millisecond a
28:05
low-latency way of dating leaving a
28:08
vehicle and going back to the vehicle
28:10
is that so is this just about you know
28:12
vehicles with four wheels on roads or
28:14
can this be expanded to flying vehicles
28:16
like evitals scooters you know urban
28:19
scooters in cities talk to me a little
28:21
bit about all of the other edge cases
28:23
that this can or can't expand to i mean
28:26
any any mobility um so micro mobility um
28:30
and you know i was looking at the
28:31
jackson one the other day which is a
28:33
single amanda uh craft flying craft yeah
28:37
anything that enables mobility anything
28:39
that's got smart mobility
28:41
we should be able to take data from it
28:44
in the in the new world of mobility
28:46
micro mobility or scooters will need to
28:49
know when vehicles are closed there
28:51
needs to be a much more effective a much
28:52
more efficient way of sharing data
28:54
between all types of mobility devices
28:57
vehicles sure and so one of the implicit
28:59
things that i think we haven't said
29:02
explicitly is this also works for
29:04
autonomous logistics right so we've
29:06
talked a lot about you know scooters
29:08
cars and then flying vehicles charging
29:11
infrastructure these are all things that
29:13
people tend to touch but you know
29:15
another thing that's really important to
29:16
optimize is you know trucks leaving
29:19
warehouses and getting to you know big
29:21
businesses right loading and unloading
29:24
between ports and other things like that
29:26
where how does wijo help you know
29:28
industrial players not just
29:30
uh you know citizens with
29:33
point a to b transportation yeah i mean
29:35
we've got we've got so many ideas we're
29:38
we're focusing on on our on our core
29:41
which is vehicles um absolutely future
29:44
i'm huge excited by say what bright drop
29:47
are doing um huge excited about about
29:49
about about the robotics that uh firms
29:52
like academia are doing um there's all
29:54
sorts of different ways of efficiency
29:57
around around logistics
29:59
for us we're stopping the vehicle level
30:01
for now whether it's micro mobility or
30:03
or whether it's trucks we won't go into
30:05
logistics but you but in terms of
30:07
platform we're building
30:09
it's it is it is it is like foundries
30:13
it's compatible with with almost any
30:14
data source sure
30:16
but right now our focus is vehicles you
30:18
know we are a connected vehicle an av
30:20
and a an a an autonomous vehicle and an
30:23
electric vehicle business got it no that
30:25
makes a lot of sense and it's great to
30:26
clarify you know what we joe does and
30:28
doesn't touch so we can you know better
30:30
understand the scope the unit economics
30:33
um so talk to me a little bit more about
30:35
the via the communications right so this
30:38
neural edge program sounds like it's
30:40
more than just you know toning down so
30:42
you only get one out of every five
30:44
points out of the vehicle and then
30:46
reconstructing it back on the cloud is
30:48
there any other like edge computing
30:50
going on at the vehicle level what else
30:51
does neural edge provide is it security
30:54
and standardization what else beyond you
30:56
know interpolation does neural edge do
31:00
it won't do standardization that's i
31:02
mean that that's there there are a lot
31:04
of tier one semiconductor providers who
31:07
have their own approach to to how data
31:10
is is is is um is is around the vehicle
31:14
so we we we're not doing that we're
31:16
working with semiconductor providers
31:18
we're working with the tier ones who
31:19
have their own approach about how they
31:21
want to have their own their own their
31:23
own data formats
31:24
we're providing a platform where we can
31:27
see the data in whatever format it is we
31:29
run something called a common data model
31:31
where we then standardize at the edge so
31:34
rather than actually forcing a standard
31:36
on anyone else we say
31:38
like foundry does we can take the data
31:40
in any format
31:41
let letters have any format at the edge
31:44
of the vehicle
31:45
let us use our our own proprietary
31:47
machine learning that when the data
31:48
showed or shouldn't leave the vehicle
31:50
will determine whether it needs to be
31:51
sent on a sub late and some latent base
31:53
a sub millisecond latent basis or
31:55
whether it should be set at the end of
31:56
journey at the end of the journey
31:58
there's not the necessity for the
31:59
real-time selling of data so that's the
32:01
intelligence at the edge that we that
32:03
we've been developing
32:04
and then and then and then when it's
32:06
rebuilt the other end if we've only
32:08
determined to receive some data now
32:11
um but we see other data in a journey we
32:13
need to rebuild that we need to make
32:14
sure that the integrity is still there
32:16
of the data the data for for further
32:18
machine learning in the future that's
32:20
that's our focus our focus is the
32:22
efficiency of data leaving the vehicle
32:24
where we're clear what we do we're clear
32:27
we're about being a data ecosystem and
32:28
com stack for industry
32:30
we we're that's our swim lane that's our
32:33
focus and our focus is ultimately about
32:35
about vehicles becoming more and more
32:36
efficient to ultimately drive to better
32:39
safety in the roads low emissions and
32:41
and less congestion uh it sounds to me
32:44
like what neural edge does is it enables
32:47
you to be able to say hey tone down the
32:49
amount of data we send in real time so
32:51
that we can reconstruct it on the cloud
32:53
you know reconstruct this incomplete
32:55
data set on the cloud and get all of the
32:57
data without having to transmit it is
33:00
that true
33:01
yeah so earlier when i was talking about
33:03
about the fact that the oems most
33:05
manufacturers are all wondering about
33:06
how they can get how they can get av to
33:07
scale
33:08
and one of the challenges they've got is
33:11
that is that at the moment in terms of
33:13
their their lab environment or their rnd
33:16
environment they have
33:17
maybe hundreds of cars driving around
33:19
cities if that
33:20
less than hundreds usually
33:22
ultimately
33:24
they're collecting huge amounts of data
33:25
in vehicle that they don't send back in
33:28
real time
33:29
they don't they can't do real-time views
33:31
they may they may all be machine
33:33
learning with it within the vehicle for
33:34
that driving today then they'll review
33:36
the vehicle they'll review the data
33:38
after the event
33:40
that's not scalable
33:41
if oems want to scale to millions of avs
33:44
they need to have a way
33:46
that of actually doing more real-time
33:48
learning of data backing cloud in a
33:50
real-time environment so what neural
33:52
edge does is it enables the real-time
33:54
sending of data and the real-time
33:56
processing of data at the edge
33:58
where we can then where we can then
34:01
share our own learnings
34:03
which we've had from other oems share
34:06
our share our own machine learning
34:07
outcomes provide access to our own
34:09
digital twin and that will enable avs to
34:12
become mass market rather than this ad
34:14
hoc approach to every vehicle doing its
34:16
own
34:17
storing its own data before after event
34:19
analysis
34:21
yeah you know one thing i just realized
34:22
is like usually what i think of is
34:25
palantir is sort of a huge player in
34:28
edge computing but you're leveraging a
34:30
lot of microsoft technology to make that
34:32
happen can you describe a little bit
34:34
more about you know when we think about
34:36
palantir and microsoft i naively think
34:39
about them as competitors but it seems
34:41
ouijo has a great working relationship
34:43
with both is it like
34:45
microsoft is your partner for computing
34:47
and palantir is your partner for data
34:50
analytics like how how have you managed
34:52
to bring these two seeming competitors
34:54
together and what
34:56
can you clarify their roles like for
34:59
wijo
35:00
no so you you can actually run uh
35:02
pounce's foundry with it within varying
35:04
cloud environments so we chose we chose
35:06
to up to what to run it within the user
35:08
environment um there's no competitive
35:10
issue there uh you need to choose a
35:12
cloud vendor you need to choose a vendor
35:14
that that that that provides you a scale
35:17
of of being able to process huge volumes
35:19
of data
35:20
so
35:21
there is not a competitive tension um
35:24
and i'm not i'm not something that that
35:26
we've experienced um pounds has been a
35:29
great partner microsoft's happy with our
35:31
relationship as well so it's been a
35:33
great triumvirate that we're leveraging
35:35
the best of foundry's distribution it's
35:37
best in terms of data analytics and
35:39
we're using the best of azure with the
35:41
ability to real-time process data and to
35:44
build and to build other tools with with
35:46
within within the user environment which
35:48
don't leverage foundry so for example
35:50
we've built a real-time consent engine
35:53
for um for for an oem or and privacy
35:56
engine
35:56
um and we've licensed that on that and
35:58
that was actually our first more than
35:59
million dollar contract where where the
36:02
oml now leverages our our expertise
36:04
within the user environment to anonymize
36:07
data in real time for millions of
36:09
vehicles so and that's not something
36:11
that that that you would do in the
36:12
foundry environment it's certainly
36:13
something you do within the zero
36:15
environment that's really exciting and
36:16
it sounds like you're getting both
36:18
low-level data like individual sensors
36:20
and high-level data enough to build
36:21
digital twins of not just vehicles but
36:23
all the way to smart cities is that
36:25
correct
36:26
yeah and you know it's really
36:27
interesting um you know we talk about
36:29
low level sensors and uh one of my new
36:31
one of my new favorite sort of case
36:33
studies is that we're getting there's
36:35
there's microphones in the wheel arches
36:36
of certain cars which are the low level
36:39
is there to detect a vehicle aquaplaning
36:41
so when when when the wheel is going
36:43
through rain and then it stops turning
36:45
so the vehicle is losing control
36:47
so the vehicle so the sensor was was was
36:49
was used to to measure this vehicle
36:52
aquaplaning and then and then the abs
36:54
the esp can be can be activated
36:56
accordingly
36:57
well we've repurposed so to speak this
36:59
this low level sensor
37:01
and now we're and now we're identifying
37:02
frequencies of so we can identify panel
37:04
damage in vehicles so we can identify
37:07
panel damage within 12 centimeters
37:10
so what four inches
37:12
um so we can identify within about four
37:14
inches where a panel has been damaged so
37:15
you think about the use case of
37:16
insurance
37:18
if an insurer or a carrier can can be
37:20
informed in real time where the panel
37:22
damage has occurred
37:23
before the vehicle's even even being
37:25
picked up tends to take for body shop
37:27
the insurer can already make sure the
37:28
parts are on order or if the body shop
37:30
is is prepped to repair say aluminum uh
37:34
compared to say um
37:36
plastic there's another example
37:38
so then and then you think about smart
37:40
cities um we
37:42
as i mentioned to you before we see 20
37:44
percent of vehicles moving around
37:45
detroit seven percent in in new york
37:48
and another cities including actually
37:49
six percent of the whole state of
37:51
california so having this
37:53
live data
37:54
in real time means that we see really
37:57
interesting things you know we identify
37:58
in real time where an intersection stops
38:01
stops taking traffic
38:03
that might seem obvious but we're
38:04
working with say one of the world's
38:06
largest e-commerce companies where
38:08
they've told us we've improved delivery
38:09
routing by 30
38:11
which means they can deliver more
38:12
parcels they can be like and their
38:14
trucks can have less emissions because
38:16
we're helping to be more efficient with
38:18
with their vehicles delivering those
38:19
parcels
38:20
so in terms of smart cities smart cities
38:23
is a broad definition and we and we're
38:25
leaders in what we call smart mobility
38:27
but it's about reducing congestion in
38:29
cities it's about reducing emissions is
38:31
about improving safety on the roads so
38:33
we're absolutely at the forefront of
38:34
powering all cities becoming smart
38:37
cities with this smart mobility data
38:38
that's super exciting i i have like a
38:40
ton of questions about that actually um
38:43
my so my first big question is all right
38:45
you guys see 20 of all vehicles on the
38:47
road in a specific city for example what
38:50
is the critical mass there is there a
38:51
point where it's like hey when we see
38:53
one in every three cars we can just
38:56
identify all traffic everywhere or is
38:58
that like a bad way to think about it no
39:00
i mean we so we so we've we've built
39:02
some really sophisticated models so we
39:04
so we so we know when we're when in fact
39:06
we're under indexing so
39:08
uh over the whole of the us we see about
39:10
1.2 percent of all vehicles and that
39:13
that as a statistic isn't isn't critical
39:15
mass
39:16
but we've then done uh trend-based
39:18
demographic analysis
39:20
so by virtue of a car being there could
39:23
be more modern it's probably going to be
39:25
more more prime it's less likely to be
39:27
say a a fleet track for example
39:30
so we we over index then um profiles of
39:33
vehicles where we haven't got critical
39:35
mass
39:36
so for us by by understanding by having
39:38
such intimate amount of detail and such
39:40
huge amounts of detail we then machine
39:42
that we've then over we've then indexed
39:43
accordingly so we can now give you
39:46
real-time views of the top 50 cities in
39:48
the us and be statistically relevant in
39:50
all those cities and beyond
39:53
wow that's super exciting and and it
39:55
sounds like so one of the questions i
39:57
was going to ask you was about
39:58
individual pieces of data and where
40:00
they're most valuable but i think the
40:02
question based on what you're saying is
40:04
actually a little different right it's
40:06
you know when you're thinking about
40:08
puddles on the road and sensors catching
40:09
hydroplaning that's useful at the car
40:12
level for things like insurance and
40:13
identifying damage and what happened but
40:16
it's also useful on this macro level of
40:19
in the city identifying where that
40:21
hydroplaning happened and saying hey
40:22
there's a hazard here a hydroplaning
40:25
puddle hazard watch out and send that
40:27
signal to other cars can you explain a
40:29
little bit about like
40:30
what types of data you find most
40:32
valuable in the sense that here's like
40:35
these are the 10 things that we use
40:36
everywhere and all these different kinds
40:38
of scenarios is that the right way to
40:39
think about it yes so we so well one of
40:42
the things we do is we we receive
40:44
nearly a thousand inbound inquiries a
40:46
month from from organizations whether
40:48
it's departments of transport whether
40:50
it's government agencies whether it's
40:52
insurance carriers
40:54
a whole sort of broad array of differing
40:56
industries want to understand about what
40:57
connected vehicle data ev data navy and
41:00
av data could mean for that their
41:01
organization
41:03
and we offer something called uh wejo
41:05
data labs which is a sandbox environment
41:08
and we we we we say look go into this
41:11
environment
41:12
and run queries
41:13
see what you think about the stage and
41:15
it's a trend basis so there's no
41:16
personal information data released but
41:18
it helps us understand about what the
41:21
what the what the recipients of data
41:22
want you know how can we prioritize our
41:24
product roadmap for example
41:26
so i can give you an example of of a
41:28
particular organization where
41:30
um they put four data scientists within
41:32
our within the within ouija data labs
41:34
the sandbox and they run something like
41:36
2000 queries over a four day period
41:39
you know so we got great understandings
41:41
about what how how that data benefit
41:43
that organization
41:45
that particular organization they want
41:47
to understand about whether they could
41:49
optimize in effect real time optimize
41:52
how to reconfigure uh stores based on
41:55
footfall based on based on story traffic
41:57
flow around their store you know should
41:59
they fundamentally change based on the
42:01
profile traffic on a per day on a per
42:04
day basis as to what is at the front of
42:06
the store and you can only do that with
42:08
real time data so fundamentally we start
42:11
with this data lab we let people log in
42:14
we charge them for it um they they then
42:16
run queries we then prioritize
42:18
accordingly as to as as as a broader
42:21
roadmap in terms of value the value of
42:23
data um
42:25
we have we have what we call preferred
42:27
partner status relationships with oems
42:29
where that gives us degrees of
42:30
exclusivity in in defined marketplaces
42:33
unless you or the auto manufacturer has
42:34
a pre-existing relationship in place
42:37
and we've we've determined where the
42:38
high value in data is so we've
42:40
determined that
42:41
traffic management which includes
42:42
mapping is a high value market and you
42:45
may have seen our our our
42:47
our ak
42:49
we talk about the uni economics per
42:51
marketplace per year and by 2025 traffic
42:56
management we talk about over three
42:58
dollars per vehicle per year being the
42:59
value in that traffic space alone remote
43:02
diagnostics rds we talk about that being
43:05
a three dollar mark per vehicle per year
43:07
marketplace
43:08
we then talk about insurance and we've
43:11
broken that into really great detail one
43:13
thing that we will be starting to report
43:15
in our 10 qs and our 10k
43:17
is is the unit economics per vehicle per
43:19
year per territory per marketplace so
43:22
complete transparency
43:24
so and it helps you understand you know
43:26
the people ask me what what's the
43:27
biggest risk for ouija and obviously
43:30
regulatory is always a risk but actually
43:32
our biggest risk is opex
43:33
it's are we getting the timing right for
43:35
the right marketplace in the right
43:37
territory for the right group of oems um
43:40
we have demand already to build
43:41
insurance products in japan is it right
43:44
to prioritize the rollout in japan
43:46
compared to say europe for insurance
43:48
well we've got the commercial
43:49
justification to do that but there's
43:51
still we're still front loaded in terms
43:52
of our opex i'll spend before before we
43:55
see it before we see a payback so it's
43:56
important we get that right and we
43:58
maximize ultimately the unique economics
44:00
per vehicle per year per territory
44:02
no that makes a lot of sense and you
44:03
know maximize that while minimizing your
44:05
risk so it sounds like the big lesson to
44:07
investors is what we joe is aggressively
44:10
tackling now is understanding at the
44:12
unit economics level what data is
44:14
driving the most value across a wide
44:16
variety of verticals for example looking
44:19
at hydroplaning data not just at the
44:20
micro one vehicle level but at this
44:23
macro you know smart city hazard level
44:25
and identifying which sensors contribute
44:27
to that
44:28
through you know the journey of the
44:30
entire data and focusing aggressively on
44:32
user using and optimizing those use
44:35
cases that's where the value is and
44:36
that's how that's how we try and
44:38
differentiate ourselves is by not saying
44:40
we can do everything today there's loads
44:41
of value in it today it's actually do
44:43
you know this is a long journey
44:45
but but over time as as we as we build
44:48
up that value that that value per
44:49
vehicle you'll see our unique economics
44:51
slowly scaling up which is a great
44:53
recurring revenue model and it's a great
44:55
compounding sort of value to the ibm's
44:57
where the typical vehicle has got a
44:58
lifetime of seven to nine years so even
45:00
though the stock market isn't favoring
45:02
high-tech growth companies right now we
45:04
joe is partnering with big players like
45:05
microsoft and palantir to solve some big
45:08
problems for over a dozen major car
45:10
companies today from ford and gm to
45:12
lucid and even bentley in my opinion
45:15
their path to growth is clear as
45:17
vehicles get more and more sophisticated
45:19
each one will have more data to provide
45:21
we joe that compounds with more and more
45:23
of them getting connected to wijo each
45:25
and every day add in smart
45:27
infrastructure micro mobility solutions
45:29
and digital twins of everything that we
45:31
joke connects to and you have a very
45:33
powerful end-to-end platform for
45:35
connected vehicle data all of that data
45:37
will unlock new use cases and ultimately
45:39
new markets for wijo to enter and use
45:42
their massive amounts of data for good
45:44
that's a future i'm really excited to
45:46
keep digging into so on behalf of ticker
45:49
symbol you a big thank you to ouijo's
45:51
founder and ceo richard barlow for doing
45:53
another exclusive interview as well as
45:55
the rest of the ouijo team for making
45:57
this happen during such an exciting time
45:59
in the stock market and as for you stay
46:01
long stay strong and thanks for watching
46:03
until next time this is ticker symbol
46:05
you my name is alex reminding you that
46:08
the best investment you can make is in
46:10
you
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