Robert Rankin, Professor of Physics and Astronomy at the University of Alberta, presented these slides as part of the Cybera Summit 2010 session "The Evolution of Collaborative Science." For more information please visit http://www.cybera.ca/evolution-collaborative-science
2. CI
projects
in
Space
Science…
CANARIE
Network
Enabled
Platforms
(NEP)
for
Space
Science
CSSDP
(NEP-‐I)
Canadian
Space
Science
Data
Portal
www.cssdp.ca
CESWP
(NEP-‐II)
Cloud
Enabled
Space
Weather
Data
Assimilation
and
Modelling
Platform
www.ceswp.ca
Cybera
provides
overall
project
management
3. Project
Involvement
Institutions
involved
in
the
CSSDP/CESWP
projects
CANARIE
(Network
Enabled
Platform)
Cybera
(Project
Lead)
CSA
(CGSM
and
e-‐POP)
Universities
-‐
Alberta,
Calgary,
Saskatchewan,
New
Brunswick,
Michigan,
UCLA,
Colorado,
Augsburg
College,
Peking
Missions
–
NASA
THEMIS,
CSA
e-‐POP,
CSA
ORBITALS
4. Defini7on…
A Virtual Observatory (VO) encompasses all forms of
network tools, databases and websites that are
utilized for collaborative research.
From
Oct.
2010
NSF
will
require data management
plans as part of all NSF funding proposals.
“This addresses the need for data from publicly-funded
research to be made public” (NSF Deputy Director)
5. Space
Data
challenges…
Technical
innovation
means
increasingly
sophisticated
instruments
are
being
proposed
and
deployed
Data
volumes
are
growing
exponentially
Future
experiments
are
expected
to
generate
upwards
of
1015
Bytes
of
data
!
Data
management
challenges
are
numerous
Data
is
stored
in
different
formats
across
heterogeneous
computer
environments
Standards
where
they
exist
are
still
rapidly
evolving
Appropriately
defined
meta-‐data
is
needed
to
find
and
access
relevant
“physical”
data
(e.g.,
SPASE)
Collaboration
is
key
to
making
advances
in
space
science
6. CSSDP
is…
A
“one-‐stop-‐shop”
to
discover,
gather
and
visualize
relevant
data
(using
CANARIE’s
high-‐speed
network)
A
gateway
to
make
data
available
to
other
researchers
An
environment
to
host
common
analysis
tools
A
place
to
collaborate
with
research
teams
A
workflow
engine
to
simplify
research
tasks
www.cssdp.ca
7.
8. Metadata…
Metadata
Description
of
data
sets
or
other
resources
Allows
catalogue
and
search
of
data
CSSDP
follows
NASA/SPASE
XML
standard
Usually
generated
from
data
file
path/name
Metadata
includes
Date/Time
Project,
Instrument,
Observatory
Data
Stream
SPASE
XML
-‐
resource
then
can
be
shared
over
internet
9. Canada’s
Geospace
Monitoring
Array
(CGSM)
a
Window
into
the
Magnetosphere
The
CGSM
Array:
Monitors
Ionospheric
Footprint
of
Space
Weather
10/25/10
9
10. CSSDP
Data
Sources…
e-SOC UofC
UCLA UofA
e-‐POP
CHAIN
VMO
CARISMA
??
SFTP
UNB
SuperDARN
SFTP CSSDP
Data
Store
NRC
F10.7
UofSask
FTP
THEMIS
CANMOS
UCBerkeley FTP
NORSTAR
Geological Survey
GAIA?
of Canada
UofC
MACCS
Augsburg College
11. Who
uses
CSSDP?
Data
Providers
Make
data
available
to
others
to
use
and
study
Researchers
Discover,
view,
download
and
analyse
data
from
multiple
sources
Collaborators
Teams
who
want
to
collaborate
online
in
a
common,
data-‐integrated
environment
12. Researchers
One-‐stop
shop
to
discover
and
download
data
from
multiple
sources
Data
availability
reports
Quick-‐looks
and
online
parameterized
plots
Annotate
data
Automate
repetitive
tasks
–
workflows
Access
data
directly
from
desktop
analytics
Integration
with
IDL
tools
Web
services
13. Data
Providers
Make
data
available
when
you
want,
how
you
want
Control
data
access
Track
usage
Determine
how
you
want
your
data
presented
Provide
quick-‐looks
and
user-‐defined
graphics
On-‐demand
plots
Share
other
analytic
tools
14. Collaborators…
CSSDP
features
an
integrated
collaboration
environment
Workspaces
-‐
notices,
calendars,
discussion
boards,
upload
documents,
version
control
Public
workspaces
-‐
project
notices,
RSS
feeds
Private
workspaces
-‐
sharable,
team
collaboration
Data
integration
(planned
enhancements)
15. Where
are
we
going?…
Sputnik
1
–
October
4
1957
to
January
4th
1958
No
instruments
Caught
everyone
by
surprise
The
“space
race”
was
on
–
battle
of
political
ideologies
16. (the
space
age)
Sputnik
2
–
November
3rd
1957
to
April
14th
1958
Many
scientific
instruments
Carried
Laika
Thermal
insulation
failed;
Laika
died
after
a
few
hours
Satellite
was
enormous
and
easy
to
track
17. (the
space
age)
Explorer
1
–
January
31st
1958
to
March
19th
1970
Several
science
instruments
Discovered
the
radiation
belts
(confirmed
by
Explorer
3)
Established
that
micrometeorites
were
not
a
threat
at
LEO:
100km-‐1000km,
e.g.,
Space
Shuttle
William
Pickering,
James
Van
Allen,
and
Wernher
von
Braun
18. (the
space
age)
Yuri
Gagarin
(1934-‐1968):
April
12th
1961
–
first
human
to
orbit
Earth
John
Glen
(1921-‐):
February
20th
1962
–
first
American
to
orbit
Earth
(3
times)
Neil
Armstrong
(1930-‐):
July
21st
1969
–
first
human
to
walk
on
the
Moon
19. Living
With
a
Star…
Living
With
a
Star
(LWS)
Understanding
the
effects
of
the
Sun
on
Earth
and
the
solar
system
The
Sun
is
coupled
to
planetary
systems
and
space
through:
-‐ Radiation
-‐ Charged
particles
-‐ Electric
and
Magnetic
Fields
The
Plasma
Universe
99
%
of
visible
matter
in
the
universe
is
in
plasma
state
Plasma:
an
ionized
gas
of
equal
densities
of
ions
and
electrons
21. Who
Cares?…
Solar-‐Wind-‐Magnetosphere-‐
Ionosphere-‐Coupling
drives
‘Space
Weather’
SW
affects
space
and
ground
based
assets
in
numerous
ways
22. Satellite
damage…
Geostationary
satellites
are
affected
by
Space
Weather
Surface
charging
by
keV
electrons
Internal
charging
by
relativistic
“killer”
electrons
>2MeV
energy
Solar
flare
protons
cause
phantom
commands
23. Radia7on
Belt
Storm
Probes...
RBSP–
2
spacecraI
to
understand
rela7vis7c
par7cle
accelera7on,
transport,
and
loss.
Implemented
as
the
Launch
2012
2nd
mission
in
Living
with
a
Star.
Perigee:
~700
km
altitude
Apogee
~5.5
Re
geocentric
altitude
Inclination
~10
degrees
Sun
pointing,
spin
stabilized
Duration
2
years
(expendables
4
years)
Old View: STATIC
New View: DYNAMIC
24. UofA
ORBITALS
Satellite...
• Planned
launch
2011-‐12.
Examine
wave-‐par7cle
interac7ons
in
Van
Allen
Radia7on
Belts
(cf.
NASA
RBSP)
• Partnered
with
NASA
“MORE”;
will
contribute
spacecraI
instruments
• 12
hour
orbit
with
very
long-‐las7ng
CGSM-‐ground-‐
and
GEO
conjunc7ons.
Canada’s
contribution
to
LWS
and
NASA’s
RBSP
Mission
25. CESWP
is…
An
environment
to
share,
run
and
collaborate
on
simulation
and
analysis
work
Involves
the
creation
of
a
Compute
Cloud
that
spans
Canada
and
several
countries
Involves
moving
computer
models
into
the
cloud,
and
making
them
available
Not
intended
to
replace
entities
such
as
WestGrid
www.ceswp.ca
26.
27. Integra7on
of
data
and
models...
Simulations
using
the
Space
Weather
Modeling
Framework
–
SWMF
Polar
satellite
observations
of
the
Auroral
Oval
in
UVI
–
the
poleward
boundary
is
called
the
OCFLB
41. CSSDP
does
the
rest...
CSSDP
nightly
processes
will
automatically
run
and
catalogue
your
data
(consume
SPASE
metadata)
As
new
data
appears
on
your
site
CSSDP
will
automatically
generate
new
SPASE
XML
metadata
and
register
it
New
data
streams
can
be
added
any
time
42. NASA
THEMIS…
MISSION
SCIENCE
GOALS:
Primary:
“How
do
substorms
operate?”
–
One
of
the
oldest
and
most
important
ques7ons
in
Geoscience
–
A
turning
point
in
our
understanding
of
the
dynamic
RESOLVING THE PHYSICS OF ONSET AND
magnetosphere
EVOLUTION OF SUBSTORMS
First
bonus
science:
“What
accelerates
storm-‐Lme
‘killer’
electrons?”
–
A
significant
contribu7on
to
space
weather
science
Second
bonus
science:
“What
controls
efficiency
of
solar
wind
–
magnetosphere
coupling?”
–
Provides
global
context
of
Solar
Wind
–
Magnetosphere
interac7on
FIVE PROBES LINE UP TO TIME ONSET
AND TRACK ENERGY FLOW IN THE TAIL