►
From YouTube: Filecoin Green Virtual Meetup-February2023
Description
A green, sustainable web3 ecosystem is the future. Our speaker this month is Akshay Aditya and Team from Ostrom - a protocol for community based development and environmental regeneration. Send in questions ahead of time to events@protocol.ai and we look forward to seeing you there!
B
Hey
everyone
I'm
Alan
from
Falcon
green
thanks
for
thanks
for
coming
and
watching
on
on
YouTube
if
you're
streaming.
What
we're
doing
here
welcome
to
the
February
falcoin
green
Meetup.
If
you
are
in
zoom-
and
you
want
to
introduce
yourself
in
the
chat
and
tell
us
where
you
are
optionally-
go
for
it.
B
So
we
we
have
a
really
awesome,
really
packed
agenda
today.
So
first
Oren
from
the
Falcon
green
team
is
going
to
talk
about
the
sustainable
blockchain
Summit
hackathon,
which
just
kicked
off
yesterday
and
all
the
the
really
exciting
activity
going
on
there
and
then
stuff
people
are
building
and
ways
to
get
involved.
B
If
you're
you're
interested
in
hacking
on
any
of
the
tools
from
Falcon,
green
or
hedera,
or
from
climate
Collective
and
hyphen,
then
we
have
El,
azeven
and
Akshay
who
are
going
to
be
talking
about
project
Ostrom,
which
is
a
falcon
green
and
Falcon
Foundation
Grant
recipient
and
are
doing
some.
Some
really
really
neat
work.
Looking
at
the
value
of
environmental
assets,
if
anyone
is
familiar,
Eleanor
Ostrom
is
a
Nobel
prize-winning
Economist
who
did
a
lot
of
work
on
the
commons
right.
B
So
this
ties
into
the
huge
amount
of
energy
right
in
in
web
3
and
especially
in
our
corners
of
web
3,
looking
at
how
we
fund
public
goods
right,
so
so
stick
around
for
that
then
I'm
going
to
be
talking
some
about
co2.
storage
and
what
the
underlying
sort
of
data
structures
are
for.
Co2.,
storage
and
what
the
architecture
looks
like
I
also
want
to
say
before
we
kick
stuff
off,
please
come
to
the
sustainable
blockchain
Summit,
which
is
going
to
be
in
Boston
in
the
middle
of
April.
B
So
a
little
under
two
months
away.
This
is
live
at
sbs.tech
right
now.
If
you
want
to
come
and
look
at
the
sort
of
things
we're
going
to
be
talking
about
what
we're
going
to
be
addressing.
If
you
want
to
speak,
please
hit
this
apply
to
speak
button
and
tell
us
what
you
want
to
speak
about
and
who
you
are.
There's
also
this
this.
This
hack
button
goes
to
the
hackathon
that
we
are
about
to
be
talking
about
right
now,
so
Ori
take
it
away.
C
So
this
is,
you
can
get
these
slides
at
tinyrl.com,
SBS,
Boston,
hackathon,
kickoff
and
then
you'll
be
able
to
join
the
Discord,
the
hackathon
website,
which
is
sbsboston.debpost.com
and
then
also
the
SBS
Tech
website
that
Alan
had
shared
earlier.
This
is
the
team,
and
so
this
hackathon
is
actually
a
two-stage
approach
that
we
are
going
to
have
in
ideation
phase
and
a
prototype
phase.
So
for
the
next
two
weeks
we
really
encourage
everyone
who
is
interested
did
in
sustainability.
Who
is
interested
in
web3?
You
may
not
have
a
strong
web
3
background.
C
You
may
not
have
a
strong
sustainability
background,
but
we
really
encourage
you
to
come
to
the
workshops
that
we're
hosting
come
to
the
matchmaking
sessions
meet
people
that
you
could
potentially
build
upon.
Who
may
have
some
strengths
that
you
may
not
have
and
then
during
the
Prototype
phase,
which
is
taking
place
mostly
in
March?
You
can
then
build
upon
your
solutions
that
you
have
come
up
with
in
your
team
and
then
also
our
sponsor
workshops
will
also
host
workshops
about
their
technology,
and
then
we
will
have
the
hackathon
finale
at
SBS
Boston
April
13.
C
Can
see
your
questions,
but
you
can
also
email
us
and
you
can
find
that
on
the
website,
and
so,
if
you
have
any
questions
about
the
hackathon
or
you
may
not
know
what
you
want
to
hack
on,
if
you
have
any
ideas,
I
also
encourage
you
to
come
to
our
Workshop
tomorrow
at
10
A.M,
or
is
it
9,
A.M
UTC
time
I
will
post
all
of
these
links
in
the
chat
as
well?
For
you
to
see
so
yeah?
Thank
you.
B
Awesome,
yeah
and
and
like,
or
he
just
said
we
wanted
to
underscore.
If
you
are
deep
in
sustainability,
if
you're
a
developer,
if
you're
deep
in
web3
as
a
developer
or
if
you're,
deep
in
sustainability
right
you,
you
may
not
know
the
other
one
very
well,
we
really
want
people
who
have
a
wide
range
of
experiences
and
expertise
and
interests
to
sign
up,
and
that's
why
we
have
this.
This
ideation
phase
at
the
beginning
is
that
you
know
we're
really
looking
to
just
help.
B
B
If
you
want
to
sign
up
with
to
talk
to
some
of
our
team
members
about
ideas
that
you
have
and
really
looking
forward
to
the
hackathon
I
think
there's
157
people
signed
up
now,
so
we're
we're
getting
the
word
out,
which
is
great
and
yeah.
If
anyone
has
questions
feel
free
to
to
drop
them
in
the
chat,
but
if
no
one
does
can
we
move
on
to
project
Ostrom
and
the
awesome
work
that
you
you
guys
are
doing.
D
D
Thanks
guys
for
inviting
us
I'm
just
going
to
share
my
screen,
if
that's
okay,
all
right
I,
hope
everyone
can
see
the
screen,
yep
awesome,
so
I'm,
Akshay
and
elzaphan
is
also
here
as
a
feel
free
to
like
just
jump
in
whenever
I'm
droning
on.
You
can
just
cut
me
off
we're
both
part
of
a
team
which
is
building
austrum
ashram
is
a
falcon
Grant
recipient.
We're
trying
to
build
a
holistic
natural,
Capital
valuation
methods
and
I'm
gonna.
D
Take
you
through
the
project
and
feel
free
to
jump
in
whenever
and
ask
questions.
So
at
its
core.
Awesome
is
a
service
based
natural
Capital
valuation
methodology.
It's
focused
on
understanding
what
ecosystem
services
are
provided,
what
sort
of
uses
an
ecosystem
provides
for
and
how
we
can
take
those
forward
and
value
them
better.
D
The
climate
action
trilemma
is
also
similarly
structured
that
you
can
solve
for
two
at
the
cost
of
the
Third,
so
you
can
create.
You
can
dedicate
a
lot
of
financing
for
climate
projects
and
you
can
have
events
like
a
really
fast
speed
of
action
and
the
cost
will
be
on
the
other
socioeconomic
development
work
that
is
happening
in
the
country
or
in
the
region
and
the
deal.
D
So,
typically,
we
think
of
climate
projects
in
this
little
beautiful,
perfect
cycle,
where
there
is
a
climate
project,
generates
credits,
businesses,
industry,
whoever
buys
it
there's
a
certain
Credit
Value
that
goes
back
to
the
climate
project
and
the
cycle
goes
on
and
on
forever.
In
reality,
it's
kind
of
like
this.
Where
there
is
a
climate
project,
we
calculate
some
amount
of
the
value
that
it
generates
in
the
form
of
carbon
credits
and
co-benefits
or
whatever
we
call
them
and
there's
a
whole
bunch
of
uncalculated
value.
D
D
D
So,
as
an
example,
let's
consider
this
ecosystem
asset.
This
ecosystem
asset
provides
carbon
sequestration,
air
filtration.
Whatever
all
this
entire
sort
of
slew
of
services,
the
ones
highlighted,
are
the
ones
we
actually
end
up,
valuing
or
measuring.
We
measure
carbon
sequestration.
We
measure
our
credential
tension,
sometimes
in
some
methodologies
that
are
vcm
methodologies,
but
otherwise
the
rest
is
just
not
accounted
for.
D
If
we
do
want
to
account
for
them,
the
first
piece
would
be
just
splitting
these
up
and
seeing
what
each
of
these
methodologies
do.
This
is
an
example
that
we've
taken
from
our
current
work,
which
I'll
come
to
also
later,
but
in
fact
there
is
a
series
of
ecosystem
services
that
this
particular
asset
provides.
There
are.
D
Methods
available
to
measure
these,
these
Services
their
specific
methodology,
valuation
types
that
are
available
for
them
and
there
are
units
in
which
this
gets
output,
eventually
at
the
where
we
want
to
arrive
at,
is
a
place
where
we
can
have
uniform
output
through
a
methodology
that
condenses
all
of
these
into
one
single
unit.
And
of
course,
there
will
always
be
multiple
measurement
methods
involved,
because
you
cannot
never
can
never
measure
this
thing
in
one
one:
sort
of
single
device.
D
So
the
way
we're
doing
it
is
by
working
with
the
site
in
Nairobi,
wherever
we're
sort
of
testing
this
and
implementing
it
simultaneously.
With
a
community-based
organization
in
Nairobi,
called
the
kec
they've
been
conserving
a
region
rating
this
asset
for
the
past
roughly
10
years.
The
kecc
stands
for
the
kamakunji
Environmental
Conservation
Champions
they're,
a
community-based
organization
they're
located
in
this
neighborhood
called
kamakunji,
is
that
you
want
to
jump
in
and
give
a
little
bit
of
background
about
KCC
and
about
the
site.
E
Yeah
sure
thing
yeah,
so
kcc's
community-based
organization,
that
is
actually
conglomerate
of
smaller
Community
groups
from
the
kamukunj
area.
The
kamukunji
area
is
the
low
income
area
of
Nairobi,
so
these
communities
come
together
and
try
and
really
Empower
themselves
at
the
Grassroots
level.
So,
for
example,
kacc
took
the
charge
of
repairing,
not
really
repairing
but
rehabilitating
the
area
that
is
now
come.
E
D
Awesome
thanks,
yeah,
like
as
I
said,
the
site
is
looks
like
this:
it's
two
Parcels
of
land,
split
by
a
smallest
or
a
small
Street
in
the
middle,
all
together,
it's
about
10
acres
and
the
Nairobi
River
cuts
through
in
the
middle.
It's
strange
condition
in
terms
of
what
happens
around
it
and
we'll
we'll
sort
of
start,
seeing
that
as
we
move
forward
and
I'll
also
sort
of
start
peppering
in
the
wavier
we're
measuring
things.
D
Now
as
we
go
forward
so
broadly,
you
can
you
can
sort
of
classify
the
site
into
three
three
distinct
zones.
This
is
the
reverse
Edge,
which
is
absolutely
this
real,
dense
forest
like
a
region.
The
river,
however,
is
in
a
in
pretty
bad
shape.
There's
a
lot
of
degradation
that
has
happened
and
you'll
see
it
in
the
images
as
they
come
later.
There's
this
Central
Open
Space
sort
of
situation,
which
was
in
the
earlier
image
that
you
saw
somewhat
like
this,
where
people
will
come
and
lie
down
under
trees.
D
They
will
you
know
this
small
little
farm.
They
have
a
bunch
of
flowers
and
plants
and
things
like
that,
and
then
there
is
the
streets.
Edge,
which
is
a
little
bit
more
amorphous,
it
doesn't
have
very
specific
form.
It
kind
of
changes
from
being
somewhat
informal
Edge,
which
is
unwilded
to,
in
certain
cases,
a
very
dense
sort
of
vegetated
area.
D
This
sort
of
doing
this
mapping
activity
on
site
to
understand
where
activities
happen
and
what
sort
of
activities
they
are,
what
sort
of
news
patterns
exist
and
the
central
open
space
becomes
a
sort
of
recreational
area.
There's
a
huge
wide
array
of
recreational
activities
that
happen
there,
and
there
is
a
curious
sort
of
washing
activity
that
happens
on
site.
Elsa
can
provide
more
background
into
it.
Also,
you
want
to
go
foreign.
E
E
That's
what
is
really
sold
there.
So
part
of
the
washing
activities
really
involves
the
reclaiming
of
these
products
before
they
are
taken
by
Street
vendors
for
further
resale
in
other
areas
of
Nairobi.
So
there's
a
watering
Point
here
that
is
used
by
the
by
the
these
vendors
to
really
clean
their
clothes
within
the
park,
but
then
also
towards
the
river.
We
have
just
cleaning
activities,
especially
of
shoes
using
water
that
is
collected
from
the
river
and
then
deposited
back
to
the
river
yeah.
D
D
Therefore,
it's
non-consumptive
people
who
sort
of
use
it
for
recreation
with
are
30
minutes
in
the
walking
radius
of
either
they
live
there
or
they
work
there
and
the
valuation
methodology
typically
for
recreational
users
is
something
called
contingent
valuation,
it's
more
like
colloquially.
The
word
that
is
used
for
it
is
called
a
willingness
to
pay
a
model
where
you
create
surveys
and
questions
that
you
ask
people
who
are
using
the
asset
to
tease
out
a
certain
value
of
that
particular
use
from
them
through
conversation.
D
These
are,
of
course,
sort
of
useless
unless
they
are
statistically
valid
sample
sizes
and
at
statistically
valid
sample
sizes.
They
tend
to
provide
really
almost
ideal
results,
sometimes
they're
employed
by
Park
systems,
very
often
in
the
United
States
I'm,
not
sure
of
how
popular
they
are
in
Europe
and
other
places.
D
So
habitat
grids
this
is
now
we
need
to
build
a
relationship
between
the
kind
of
habitat
that
the
site
has
and
the
kind
of
use
the
site
is
put
to.
So
we
kind
of
divide
the
site
into
this
abstract
rate
of
10
meter
by
10,
meter,
side
segments
and
understand
what
happens
within
each
site
segment.
So,
let's
assume
that
this
is
a
side
segment.
D
But
there
are
lots
of
individuals
of
within
that
10
that
10
by
10
square,
they
get
a
score
of
three
and
you
build
this
entire
table
for
each
of
the
grid
pieces
on
site.
And
then
you
correlate
that
with
the
kind
of
users
that
particular
brick
piece
is
put
to
it
helps
you
understand
what
kind
of
vegetation
structures
give
rise
to
what
kind
of
uses
which
then
reflects
back
to
the
survey
questions
where
people
value
assets
specifically
and
you're
able
to
understand
why
value
is
associated
to
particular
assets.
D
So
to
do
all
this.
There
is
this
in
this
massive
bunch
of
data
that
you
need
to
collect.
You
can
see
pictures
of
elsafar
on
site.
It
just
is
this
last
week
this
is
around
600
trees,
around
300
other
plants,
Reverb
samples
that
were
taken
at
10
meter
intervals
and
other
critical
data
points
that
we
collected.
We
worked
with
a
group
of
12
volunteers
from
the
KCC
and
we
spent
I
think
Elsa.
This
took
three
days
on
site
right
along
with
sort
of
all
the
prep
work.
D
It
took
us
a
little
bit
more
than
that,
but
I
was
talking
about
this
earlier
and
you
can
see
the
kind
of
degradation
the
river
has
gone
into.
It's
become
almost
a
narrow
channel
of
water
right
now.
I
do
not
have
another
image,
but
in
at
certain
points
it's
actually
flourishing.
So
this
is
this,
is
it's
a
very.
The
variation
happens
very
quickly.
D
D
There
are
certain
pieces
here
that
even
we
are
not
sure
what
the
ideal
method
of
measuring
them
would
be.
For
example,
let's
say
biodiversity,
there's
no
animal
biodiversity
on
site,
there's
only
bird
biodiversity.
There
is
a
it's
a
contingent
valuation
method
that
we
can
use
for
doing
this,
but
we
want
to
try
out
an
audio
AI
method
and
we
think
that
that
might
provide
us
data
that
we
can
then
convert
into
a
valuation.
D
So
we're
not
really
sure
what
the
method
will
be,
but
we're
going
to
sort
of
utilize
it
first
to
collect
the
data
and
then
see
how
we
can
utilize
it
I'm
just
going
to
go
back.
Okay,
so
up
next
we're
going
to
start
Gathering
data
from
the
Baseline
and
start
converting
those
tactic.
Those
data
sets
are
studying
them
to
convert
them
into
valuations
and
then
understand
how
recurring
valuation
can
be
set
up,
how
you
can
see
the
impacts
of
regeneration
over
time?
D
Where
do
you
go
next?
I
think
valuation
is
the
first
step.
It
opens
doors
for
other
means
of
utilization.
An
easy
example
is
like
there
is
a
possibility
to
create
Eco
credit
classes
right.
There
is
a
possibility
to
tokenize
them,
there's
a
possibility
to
create
communities
to
have
their
own
dials,
that
Steward
land
and
things
like
that.
We're
not
really
thinking
about
that
piece.
D
Yet
we're
really
focused
on
figuring
this
piece
out,
first
and
building
it
to
perfection
very
quickly
before
I,
wrap
up
and
open
for
questions
I'm
just
going
to
like
just
share
some
of
the
other
stuff
that
we're
doing
we're
working
on
locating
more
sites,
so
we're
working
with
the
rifa
India,
which
is
a
group
of
refi
projects
in
India
on
a
hackathon
and
Festival
in
gokarna.
That's
going
to
happen,
March
22
to
26th,
really
our
intent.
There
is
gokarna.
Is
this
beach
town
with
which
has
a?
It?
D
Has
a
key,
a
key
shaped
offset
into
the
river,
which
means
that
at
some
point
it
used
to
be
a
mangrove
and
it
is
not
anymore,
and
we
want
to
see
possibilities
where
we
can
apply
regeneration
processes
and
hopefully
get
in
touch
with
some
of
the
communities
that
are
working
on
we're
also
always
like
we're
really
interested
in
seeing
where
else
these
methodologies
can
be
applied,
because
we
are
really
building
it.
For
a
site,
but
it's
going
to
be
adaptable
and
it's
going
to
continue
into
different
pieces.
D
So
if
you
are
interested
like
reach
out,
if
you
know
of
community
groups
that
are
studying
ecosystem
assets,
please
do
let
us
know
we'd
love
to
work
with
them
and
support
them,
and
maybe
we
can
we'll
try
we're
thinking
about
it.
We
haven't
really
figured
out,
but
we're
going
to
be
doing
a
Bitcoin
and
give
a
thrown
very
soon.
D
So
if
you
please
look
out
for
us
if
you're
doing
that-
and
lastly,
this
is
very
recent
and
we've
just
started
working
on
it,
but
we're
collaborating
with
public
space
Network
Nairobi
to
help
them
implement
this
and
regenerate
a
24
kilometer
stretch
of
the
Nairobi
River
and
its
banks.
So
this
is
our
information
is
up
here.
Elsa
has
also
shared
them.
Elsa
and
Alan
have
also
shared
them
on
the
chat
and
feel
free
to
reach
out.
D
B
D
So
at
the
moment,
we're
really
focused
on
understanding
what
exists,
so
we're
not
really
considering,
as
the
sdgs
are
really
goals
for
what
towards
what
to
create,
whereas
we're
really
looking
at
what
exists.
I
think
the
sdgs
will
start
folding
into
the
process
when
we
start
developing
a
plan
for
degeneration,
we
just
say
now:
we
have
value.
Let
us
assume
that
I
we
have
a
baseline
value
of
ten
dollars
for
a
tree.
D
This
is
just
really
stupid,
but
I'm
just
saying
it
ten
dollars
for
a
tree,
and
we
figure
out
that
the
best
way
to
sort
of
maximize
the
potential
of
this
tree
is
by
providing
it
x
amount
of
open
space
so
that
it's
able
to
grow
wider
because
that
provides
for
shade
and
etc,
etc,
etc.
Then,
at
that
stage,
is
when
the
sdgs
will
start
to
flow
into
the
conversation
like
we
need
to
start
considering
them.
B
Good
that
makes
sense,
and
if
people
have
more
questions,
feel
free
to
to
type
them
in
the
either
the
zoom
chat
or
the
YouTube
chat.
We're
looking
at
both
of
them,
so
so
like
just
so
so.
I
can
understand
too,
like
so.
The
the
goal
is
you're,
applying
all
these
methodologies
and
like
using
that
to
assess
okay,
what
is
the
value
of
of
land
with?
You
know
different
levels
of
different
types
of
vegetation.
B
What
are
all
the
different
uses
really
try
to
capture
a
lot
of
value,
that's
outside
of
that
more
narrow,
like
just
carbon,
offset
plus
co-benefits
framework
which
is
sort
of
what's
what's
scaled.
So
far
and
like
you,
you
showed
that
really
neat
sort
of
cycle
looking
at
like
what
are
all
the
different
types
of
of
value
and
sort
of
public
goods
value
that
that
come
out
of
these
sorts
of
land.
B
So
the
idea,
then,
is
that
you're
gonna
get
a
lot
of
data
showing
that
these
these
different
types
of
land
and
vegetation
are,
are
valuable
right
and
get
an
idea
of
what
the
value
is
to
these
communities
and
then
then,
the
what
like?
What's
the?
What's?
The
step
after
that,
where
you
use
that
to
sort
of
presumably
drive
more
more
Capital
into
preserving
and
protecting
line
like
this.
D
So
there
is
a
piece
here
that
which
is
now
you
know
the
value
of
this
asset
so,
and
you
also
know
the
value
of
each
piece
of
this
asset.
So
when
you're
regenerating
it
you
have,
you
can
have
a
more
targeted
approach
towards
what
you
where
you
want
to
get
to.
The
hope
is
really
that
communities
with
Steward
land
are
able
to
financialize
their
action
of
stewardship
and
they're
able
to
sort
of
get
enough
income
to
continue
that
process
of
stewardship
right.
D
It
goes
back
to
that
cycle
that
we
were
talking
about
here,
which
is
that
socioeconomic
development
financing
and
speed
of
action
for
these
to
work
well
together
in
the
global
South.
There
needs
to
be
enough
of
a
variety
of
options
for
communities
to
be
able
to
choose
from
when
they're,
trying
to
regenerate
their
assets
and
also
I'm,
not
saying
that
communities
go
out
and
seek
to
regenerate
assets.
That's
not
really
how
it
works.
D
D
B
Yeah
yeah,
no,
that
that
totally
makes
sense
that,
like
for
where
this
is
happening
right,
it's
a
it's!
It's
something
that
people
are
doing,
even
though
they're
not
explicitly
paid
for
it,
because
they
they
understand
that
it's
valuable
and
like
people
who
live
in
a
community
understand
the
value
of
you
know
the
the
natural
systems
in
that
Community.
Hopefully,
but
if
you
can't,
if
you
can't
like
demonstrate
to
a
decision
maker,
look
like
this
is
a
good
thing
for
the
city
to
pursue
or
the
the
country
to
pursue
or
the
province
to
pursue
right.
B
D
It's
also
yeah,
it
becomes
almost
a
bargaining
chip
for
them
say
that
you
know
our
doctor.
The
government
comes
in
saying
that
we
want
to
raise
this.
We
want
to
build
a
nice
little
office
building.
Here.
Can't
really
do
that,
because
this
is
much
more
valuable
than
the
the
little
sort
of
immediate
benefit
that
you're
looking
at.
B
I
was
also
wondering
about
the
when
you
had
those
the
the
grid
where
you're
measure
measuring
vegetation
right
and
you
you
have
like
really
tall
trees
down
to
like
grass
and
like
a
bunch
of
categories
in
the
middle
there.
That's
so
you
said,
like
that's
a
methodology,
that's
being
used
for
national
parks
in
other
places,
and
you.
D
B
Got
it
okay?
So
that's
that's
a
pre-existing
methodology
that
you're
taking
and
saying.
Okay,
here's
like
a
really
good
way
of
measuring.
What's
going
on
in
this
land,
and
you
said
like
for
other
other
things
you
might
want
to
measure
like
biodiversity.
I
think
you
mentioned
a
couple.
Other
ones
like
there
are.
There
aren't
great
dmrv
methodologies.
D
Either
they
are
not,
they
don't
exist
or
they
exist
for
a
very
specific
condition.
So,
for
example,
we
were
discussing,
we
were
having
a
discussion
on
air
filtration
yesterday
as
a
team,
and
the
air
filtration
services
that
are
provided
by
by
an
ecosystem
asset
are
not
measured
for
in
most
places.
Finland,
however,
recently
did
this
study
where
they
published
it,
and
they
said
that
they
are
measuring
it.
The
reason
Finland
is
able
to
do
it
is
because
they
have
universal
healthcare.
D
So
have
this
enormous
amount
of
Health
Data
about
who
has
respiratory
conditions?
Who
doesn't
what
does
it
cost
and
all
of
that
information?
Not
everyone
on
the
planet
has
that.
So
you
really
really
need
to
build
something
that
can
be
used
in
every
place
instead
of
something
that
can
be
only
used
by
countries
which
have
universal
healthcare.
B
Yeah
totally
that
that
definitely
makes
sense-
and
that's
that's
kind
of
the
dream
of
bmrv
right
is
like.
Can
we
like
allow
people
to
contribute
whatever
types
of
data
they
have
access
to
right
and
then
use
that
data
to
back
up
these?
These
decisions
and
investments
in
you
know
preserving
the
natural
world
and
preserving
preserving
things
that
are
actually
sort
of
useful
and
contribute
to
the
the
societies
that
live
nearby
yeah.
D
B
C
B
So
now,
I'm
gonna
I'm
gonna
talk
a
little
bit
about
co2.
storage,
which
is
a
a
c,
a
portal
that
we've
been
building
at
Falcon
green
to
work
with
structured
data
to
solve
this
problem
right.
So
if
you
are
storing
data
associated
with
any
of
these
sorts
of
of
of
natural
Goods
right,
so
carbon
offsets
might
be
an
example
of
that,
but
tons
of
other
types
of
data
a
lot
of
times
people
use.
B
You
know
you
you'd,
really
like
to
be
able
to
use
on-chain
data
if
you're
trying
to
work
that
work
with
this
in
a
web,
3
native
way,
in
order
to
specify
what
that
asset
is
where
it
comes
from
all
the
data
associated
with
it
right
that,
like
mrv
data,
we
were
just
talking
about
or
dmre
data,
and
but
the
the
methods
that
currently
exist,
that
a
lot
of
people
are
using
are
just
pointing
back
to
a
legacy
registry
right.
So
like
pointing
back.
B
If
you
have,
if
you
have
that
data
in
Vera
or
gold
standard
or
one
of
these
other
registries,
just
just
pointing
a
URL
back
there,
which
is
not
a
very
web,
created
way
to
do
this,
and
we
we
don't
have
of
you
know
there
just
aren't
great
tools
that
exist
to
deal
with
this
data
in
a
structured,
principled,
sort
of
flexible
way,
and
so
this
is
the
question
right
is
how
do
I
handle
structural
carbon
offset
data
in
a
web,
3
native
foil,
so
the
next
layer?
On
top
of
that
right?
B
Why
would
we
want
to
work
with
web3
data
in
a
way
or
work
with
carbon
offset
data
in
a
way
that
is
native
to
web3?
Well,
so
one
of
the
things
we
might
want
to
do
is
transform
data
this.
This
carbon
offset
data
from
one
type
to
another
and,
if
you're
just
pointing
back
to
URL
that
data
can
change
to
that
URL.
You
can't
be
super
confident
that
the
the
computations
that
you
run
on
that
data
are
going
to
be.
B
You
know
are
going
to
be
valid
if
you
run
them
one
day,
you
can't
be
confident
they're
going
to
be
valid
the
next
day,
because
maybe
data
is
going
to
change
in
the
URL
right,
and
so
so
this
is
the
question.
Is
we
want
to
be
able
to
answer
all
of
these
different
types
of
questions
for
offsets
and
for
other
environmental
assets?
B
How
do
we?
How
do
we
build
structured,
principled
ways
of
working
with
data
that
enable
these
these
sorts
of
questions,
to
be
answered
right
so,
given
two
offsets
from
different
Registries,
maybe
they're
in
different
formats,
which
one
has
longer
durability?
Is
this
compliant
with
a
set
of
Standards?
How
do
individual
offsets
aggregate
gate
up
to
Regional
goals
or
national
goals
right,
and
so
one
of
the
problems
with
handling
this
data
and
sort
of
a
piecemeal
sort
of
web
2
type
way
is
that
we
may
build
code.
B
We
may
write
code
that
can
answer
some
of
these
questions,
for
individual
use
cases
right
and
if
we
don't
have
good
Data
Tracking,
not
only
what
is
that
data?
Is
it
immutable,
but
also
what
is
the
type
of
that
data?
So
what
Transformations
can
be
run
on
that
data?
Then
we
have
to
rebuild
those
code
bases
every
time
we
want
to
solve
a
new
problem.
However,
what
we
do
in
co2.
storage
is
we
want
these
transformations
to
be
reusable?
B
So
if
you
write
code
mapping,
Vera
data
to
Gold,
Standard
data
or
two
candidate
or
regen
data,
we
want
you
to
be
able
to
reuse
that
code
or
someone
else
to
reuse
that
code.
So,
ultimately,
you
should
be
able
to
ask
questions
that
can
be
answered
by
the
sum
total
of
code
that
people
have
written
to
operate
over
this
data
and
automatically
answer
answer
those
questions
right
so
take
all
of
these
all
these
different
functions.
B
People
have
written
and
construct
these
data
pipelines
to
try
to
answer
these
sorts
of
questions
on
natural
asset
data,
and
so
what's
the
solution
for
this,
how
can
we?
How
can
we
actually
build
tools
that
are
going
to
enable
this
type
of
work?
Well,
so
here's
the
so
so
the
idea
with
co2.
storage
and
I'll
come
back
to
this.
A
little
bit
later
is
that
every
data,
every
every
asset
that
you
store
on
co2.
storage,
has
an
explicit
data
type
as
well
as
the
data
itself.
B
The
idea
here
is
that
data
has
a
Content
address
so
in
web
3.
We
work
with
data
using
content,
addresses,
meaning
that,
rather
than
just
referencing
a
URL
which
is
ultimately
a
location
on
a
server,
we
reference
data
by
the
content
of
that
data
itself
or
like
a
fingerprint
of
that
data.
So
that
means
that,
even
if
the
location
on
the
server
changes,
anyone
in
the
world,
who
has
the
thing
that
you're
after
can
give
it
to
you.
B
If
you
request
it,
and
you
can
verify
that
it's
the
data
you
wanted,
so
that
it
hasn't
been
tampered
with.
So
it's
you
do
that
storage.
We
give
every
data
CID,
but
we
also
give
every
every
bit
of
data
or
every
every
piece
of
data.
Every
data
set
its
own
type
right,
which
is
a
what
we
call
a
template
in
the
co2.
storage
asset,
and
so
that
type
is
really
really
important,
because
that's
what
allows
you
to
say?
B
Okay,
in
you
know
this
view,
this
particular
function,
maps
from
type
A
to
type-
you
know
y,
say
here
and
because
every
asset
explicitly
has
a
type,
we
should
be
able
to
construct
these
transformation
pipelines
allowing
you
to
say:
okay,
if
I
have
a
and
I
need
to
get
to
Z
how
do
I,
how
do
I
build
these
pipelines
that
actually
get
me
there
and
so
I'm
going
to
show
a
little
bit
about
co2.
storage.
B
B
I'll
put
this
both
in
zoom
and
in
the
the
YouTube
YouTube
view.
So,
firstly,
you
can
sign
into
co2.
storage,
just
using
your
your
wallet
right,
and
so
you
see
these
buttons
at
the
top.
There
are
there's
a
dashboard
that
lets
you
see
what
are
all
the
different
assets
that
you're
working
with
there
are
templates.
These
are
these
data
types
I
was
talking
about
and
there
are
the
actual
assets
right.
So
those
assets
are
have
this:
have
this
structure
right,
there's
data
associated
with
them
and
there's
a
type.
B
B
This
is
just
a
way
of
of
you
know
it's
a
it's
a
place
for
you
to
create
different
assets
and
and
there's
a
there.
There
is
a
blockchain.
There
is
no
consensus
mechanism
on
this
blockchain
we're
about
to
publish
more
on
sort
of
some
of
the
the
implementation
details
here,
but
the
idea
is
that
this
is
just
a.
This
is
just
a
chain
that
grows
in
order
to
allow
you
to
track
or
index
the
assets
and
templates
that
are
associated
with
an
account.
B
So
we're
going
to
choose
up
here
we're
going
to
choose
just
this.
This
test
box
up
here
you
can
create
a
new,
a
new
chain
here,
if
you're
interested
in
that-
and
so
we
can
do
is
then
we
can
say:
okay,
let's
create
a
new
template,
and
so
this
template
is
just
going
to
hold
a
message.
So
we're
going
to
call
it
a
message
and
a
message
from
falcoin
green,
that's
gonna,
be
the
the
description
of
of
you,
know,
messages
in
this,
this
data
template,
and
so
here
we're
going
to
type
in
okay.
B
If
we
have
data
or
we
have
Assets
in
the
format,
so
right
we're
on
templates
in
the
format
of
message,
what
do
they
look
like,
and
so
this
is
just
going
to
be
like
a
Json
schema
if
you're
familiar
with
that,
so
it's
going
to
have
one
attribute,
you're
going
to
say
message
and
we're
going
to
define
the
type
of
that
attribute
right.
So
we're
going
to
say
type
is
string
actually
I.
B
And
mandatory
we're
going
to
say
a
message
has
to
have
a
message
in
it.
So
we're
going
to
say
mandatory
is
true,
so
here
so
we've
defined
this.
This
really
basic
just
message
schema
or
this
message,
data
type,
just
saying:
okay,
we
have
a
string.
You
need
to
have
that
string
for
it
to
it
to
conform
to
this
data
type.
We're
going
to
say
create
here
so
now,
what's
being
done,
is
co2.
B
storage
just
created
something
with
this
format,
so
you
have
a
you,
have
a
type
or
a
data
schema
that
has
a
bunch
of
different
attributes
or
Fields.
The
CID
field
points
to
this
schema
here,
and
so,
when
we
go
up
here
so
this
message,
template
was
just
created.
Actually
I'm
gonna
like
to
reload
this
yeah
okay.
So
now
there
are
these
two
content
addresses
here
and
so
this
content
address.
This
is
this
overall
data
structure,
so
this
is
this
first
content
address
that
has
the
the
little
Cube
by
it
we're
going
to
go
over
here.
B
So
it's
this
data
structure
that
has
it's.
You
know
what
we
call
a
type
data
structure
has
all
these
different
attributes.
It
points
to
a
data
schema,
and
so
you
can
go
in
here.
You
can
see
okay,
you
know
so
this.
This
has
all
these
different
attributes.
The
CID
field
points
to
this
data
schema.
This
data
schema
bafy,
Ray,
jn2,
b-a-f-y,
reha,
jantu
right.
B
So
this
is
this
is
the
actual
like
payload
in
this
type,
and
so
you
can
also
you
know
you
can
go
in
and
open
that
that
CID,
if
you
want
it,
should
just
be
a
Json
schema,
giving
us
this
this
message
here
or
this
this
template
here
wherever
it
is
this
thing
if
that
loads?
Sometimes
they
take
all
the
load
on
this,
this
Explorer.
B
B
We
went
to
select
an
environmental
asset
template
so
we're
going
to
select
the
template
we
just
made,
which
is
called
message
and
we're
going
to
put
a
message
in
here.
So
we're
going
to
say
hello
biosphere,
and
so
we
can
fill
it
out.
If
you,
you
know,
put
more
fields
in
that
that
template,
you
could
add
a
lot
more
different
types
of
data,
including
images,
video
PDFs,
all
sorts
of
things
or
just
you
know,
numbers
or
or
more
more
string,
Fields
we're
going
to
hit
create
here.
So
now
what
co2.
storage
is
doing?
B
Is
it's
created
a
environmental
asset?
So
we
can
go
if
we
see
or
we
can,
we
can
see
if
we
go
to
the
dashboard,
so
there's
an
asset.
It's
based
on
the
message
template
message:
template
appeared
here
when
we
created
it
in
our
dashboard.
So
this
side
is
the
templates.
This
side
is
the
assets
themselves.
We
can
go,
we
can
see
the
asset.
Has
this
same
structure
so
this
here
and
click
on
the
one
that
has
the
block
next
to
it
right.
B
So
this
is
this
asset
block,
and
so
the
structure
here
has
the
asset
block,
has
a
CID
that
points
to
the
data
that
says
hello.
Biosphere
has
a
name
as
a
parent,
all
these
other
things,
and
then
the
template
here
points
to
that
data
type
that
we
created
before
that
message,
data
type,
and
so
then
the
other
thing
that
we
can
do
here
and
you
know
you
can
you
can
load
that
within
co2.
storage
too,
if
you
want,
you
can
go
to
select
environmental
asset.
The
message
should
at
least
a
message
template.
B
It
just
says
hello
biosphere
here.
So
that's
that
message
that
we
added
and
let's
see,
is
this
loaded
yeah.
So
that
was
that
Explorer.
So
it
takes
a
bit.
So
the
other
thing
that
we
can
do
if
we
want
to
say
okay,
I,
am
the
person
who
signed
this
message
right.
We
want
to
add
some
amount
of
verifiability
to
these
templates.
B
Another
thing
that
we
can
do
is
we
can
go
and
say
we
can
click
on
this
button
which
allows
us
to
sign
assets
that
we
created,
and
so
this
is
useful,
say
if
we
are
interested
in
collecting
dmrv
data
from
many
different
sources
and
we
want
to
be
able
to
track
who
contributed
that
dmrb
data
and
do
that
in
a
really
structured,
principled
way.
We
can
say
sign
this
record,
so
something
just
popped
up
for
me.
B
A
metamask
saying
sign
this
so
I'm
going
to
assign
that
that
record,
I
created
and
now
it's
signed,
so
that's
cool.
So
so,
let's
see
so
we
can
look
at.
We
can
reload
that
so
there's
this,
so
we
used
ethereum
assigned
data
type
version
four
and
we
can
go
and
and
see
you
know
okay.
So
this
is
my.
This
is
my
wallet
I
signed
this
CID
I.
Think
if
we
look
at
this
CID
we
should
you
should
be
able
to
load
this
in
co2.
storage.
B
B
So
that's
a
quick
intro
to
co2.
storage
and
how
to
use
it
to
create
assets
and
templates.
Like
I
said
there
is
some
documentation
on
co2.
storage
now,
so
you
can
go
to
the
the
Falcon
green
get
book
which
I
will
put
in
the
chat
here
and
then
you
can
head
to
co2.
storage
docks
and
you
know
read
some
about
it.
We're
we're
updating
this
pretty
frequently,
there's
going
to
be
more
information
about.
B
You
know
these
data
types
and
how
to
work
with
them
up
here
pretty
soon.
So
if
people
have
questions
feel
free
to
type
them
in
or
ask
me
someone
from
from
YouTube
Right
guy
says
how
can
I
contribute
new
environmental
asset
types
to
co2.
storage,
and
so
what
you
can
do
here
is
the
way
you
can
contribute.
New
types
is
by
making
these
new
these
new
templates
with
this
structure,
and
if
you
go,
you
know
if
you
log
in
and
go
to
templates,
that's
the
process
that
I
just
showed.
B
B
You
can
use
that
CID
wherever
you
would
normally
use
a
CID
right.
So,
for
example,
if
you
want
to
Mint
like
an
nft
or
you
want
a
Min,
you
know
some
other
coin.
You
can.
You
know
you
can
just
use
the
Cid
in
the
the
data
payload
and
use
that
for
things
like
you
know
like
like
traditional,
like
erc721,
nfts
or
hyper
certs,
or
you
know,
wherever
wherever
you
have
content
address,
data
needs.
B
D
So
the
signature
for
for
the
message
is
that
so
right
now
this
this
was
for
an
example
asset
and
obviously
you
just
demonstrated
it,
but
when
I
am
signing
it,
it
obviously
can
anyone
sign
it
or
is
it
is,
what's
the
process
I'm,
sorry,
I,
don't
think
I
get
it
very
clearly
because
I'm,
not
very
my
brain,
doesn't
work
that
way
but
like
how
does
the
signature
process
work?
Can
you
explain
that
again,
please
yeah.
B
Yeah
100,
so
the
I
I
think
the
the
Paradigm
Shift
here
is
that
this
is
all
for
working
with
off-chain
data,
and
you
can
put
that
data
on
chain
if
you
want,
but
there's
nothing
about
this
data,
that's
inherently
on
chain
right.
So
there
is
this
data
structure
that
we
use,
that
is,
is
technically
a
chain
just
for
indexing
assets,
but
you
shouldn't
think
of
this
as
like
a
blockchain
that
reaches
consensus
about
like
who
owns
one
right.
So
these
are
just
these
assets.
B
Right
are
just
hanging
out
on
ipfs
they're,
their
own
data
structures
that
have
content
addresses,
but
they're
not
like
you
know
they.
They
there's
no
like
formal
ownership
or
anything
like
within
nft
they're,
just
like
they
exist
out
on
the
interplanetary
file
system.
Just
hanging
out
in
the
you
know
the
data
Galaxy,
and
so
the
idea
here
is
that
you
can
use
a
wallet
right
so
a
private
public
key
pair
in
order
to
just
sign
the
CID
of
this
asset
right,
and
so
that
could
have
different
interpretations
based
on
what
this
asset
is.
B
But
like
an
example
of
this,
is
you
know
if
I,
you
know
say,
say:
I'm
measuring
trees
right
and
say
my
template
looks
like
you
know:
here's
the
GPS
coordinates
of
this
tree.
Here's
a
photo
of
the
tree.
Here's
like
you,
know
the
circumference
of
the
trunk
of
the
tree
or
something
then
an
interpretation
might
be
when
I
sign
this
asset
I'm.
Just
using
my
public
key
pair
to
create
a
message
saying:
I
contributed
this
data
point
and
I.
You
know
I'm
the
like
source
of
Truth
for
this
data
point.
B
That
would
be
an
example
there
and
then,
if
you
want
to
do
something,
you
know
if
you
want
to.
If
you
want
to
use
that
data
in
some
sort
of
like
carbon
offset
that
maybe
is
traded
on
chain
or
some
other,
some
other
type
of
of
you
know,
asset
on-chain
asset.
That
has
value
right.
You
could
reference
the
signature
message
or
you
could
reference
the
CID
of
of
just
the
that
asset
itself,
and
that
would
be
a
way
for
you
to
track
what
the
data
is.
B
What
the
type
of
the
data
is,
so
you
know
how
you
can
transform
that
data
later
right.
Maybe
you
want
to
aggregate
data
from
many
different
tree
measurements
and
you
want
to
make
sure
that
they
all
have
the
same
type.
So
you
don't
like
crash
in
the
middle
of
aggregating
the
data
from
different
trees
right,
so
you
can.
You
can
track
all
of
that
all
the
data,
the
type
and
then
who
attested
to
that
data
so
like
who
contributed
that
data
point
separately
and
really
explicitly
and
use
that
in
your
own
project.
B
B
There's
a
question
from
the
chat
from
Meg.
My
question
is
about
the
beginning
of
the
life
of
record:
how
is
the
source
or
or
origination
verified
or
validated
as
authentic?
Oh
yeah
yeah?
Exactly
yes,
so
we're
we're
just
trying
to
say:
okay,
here's
a
set
of
tools
for
like
if
you
have
content
address
data,
that's
hanging
out
in
the
the
ipfs
data
Galaxy
right
here
are
some
tools
for
doing
a
really
sort
of
principal
job
tracking.
Okay.
What
is
the
data?