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NASA report to the CCSDS Management Council

October 2008Berlin, Germany

Mike KearneyNASA

256-544-2843

Mike.Kearney@nasa.gov

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NASA Strategic Plan NO

CHANGE

SOFT

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Agency Mission Planning Model (AMPM)

NO

CHANGE

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NASA SpaceData Standards

Program

NASA CenterSpace DataStandards

Offices

NASAEngineeringStandardsProgram

NO

CHANGE

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NASA Space Communications and NavigationNASA Space Communications and Navigation(SCaN) Office Organization(SCaN) Office Organization

Badri Younes

Bill Gerstenmaier

John Rush

Adrian Hooke

Barbara Adde

Pete Vrotsos

Karen Tuttle

Ron Carbery (Act)

NO

CHANGE

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NASA CCSDS ParticipationChairs and lead representatives

Group CCSDS Chair CCSDS Deputy Chair NASA lead repCCSDS Management Council M. Kearney/MSFC J-F Kaufeler/ESA Mike Kearney/MSFCCCSDS Eng. Steering Group A. Hooke/HQ N. Peccia/ESA Adrian Hooke/HQSYSTEMS ENGINEERING AREA P. Shames/JPL T. Yamada/JAXA Peter Shames/JPLSystems Architecture WG T. Yamada/JAXA E. Soerensen/ESA Peter Shames. JPLSecurity WG H. Weiss/SPARTA G. Kenney/BNSC Howie Weiss/SPARTAInformation Architecture WG D. Crichton/JPL   Dan Crichton/JPLSANA WG M. Blanchet/CSA   Kelvin Nichols/MSFCTime Code WG E.Greenberg/JPL   Ed Greenberg/JPLDelta-DOR WG R. Madde/ESA   Jim Border/JPLMOIMS AREA N. Peccia/ESA R. Thompson/BNSC  Data Archive Ingestion WG J.Garrett/GSFC D. Giaretta/BNSC John Garrett/GSFCNavigation WG D. Berry/JPL J. Fertig/ESA Dave Berry/JPLInfo. Pack. & Registries WG L. Reich/GSFC S. Hughes/NASA Lou Reich/CSCS/C Mon + Control WG M. Merri/ESA R. Thompson/BNSC Lindolfo Martinez/JSCDigital Repository Audit Cert. WG D. Giaretta/BNSC John Garrett/GSFCCROSS SUPPORT SVCS. AREA E. Barkley/JPL Y. Doat/ESA Erik Barkley/JPLCross Support Svce Mgmt. WG E. Barkley/JPL   Erik Barkley/JPLCross Supt Transfer Svcs. WG Y. Doat/ESA   Tim Ray/GSFCCross Support Service Arch WG F. Brosi/GST   Fred Brosi/GSTSPACECRAFT ONBOARD AREA C. Taylor/ESA S. Fowell/BNSC  Subnetwork Services WG C.Taylor/ESA G. Rakow/GSFC Glenn Rakow/GSFCApplication Support Svcs. WG S. Fowell/BNSC   Scott Burleigh/JPLWireless WG P. Plancke/ESA P.Fink/JSC Kevin Gifford/ CUOnboard Plug-n-Play S. Fowell/BNSC Glenn Rakow/GSFCSPACE LINK SERVICES AREA J-L. Gerner/ESA G. Moury/CNES  RF & Modulation WG E. Vassallo/ESA   Dennis Lee/JPLSpace Link Code/Sync. WG G-P. Calzolari/ESA   Victor Sank/GSFCData Compression WG A. Kiely/JPL   Aaron. Kiely/JPLSpace Link Protocols WG G. Kazz/JPL   Greg Kazz/JPLRanging Working Group E. Vassallo/ESA   Steve Levitski/GSFCHigh Rate Uplink WG G. Kazz/JPL   Greg Kazz/JPLLong Erasure Codes G-P Calzolari Fabrizio Pollara/JPLSpace Data Link Security Gilles Moury Craig BiggerstaffSPACE INTERNET. SVCS. AREA R. Durst/MITRE D. Stanton/BNSC Bob. Durst/MITREAsynchronous Messaging WG S. Burleigh/JPL   Scott Burleigh/JPLDTN WG K.Scott/MITRE D. Stanton/BNSC KeithScott/MITREIP-over-CCSDS Links WG G. Kazz/JPL   Greg Kazz/JPLMotion Imagery WG R. Grubbs/MSFC   Rodney Grubbs/MSFCVoice WG M. Peterson/JSC L. Kudrin/FSA Michael Peterson/JSC

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NASA IBEX mission launch

Interstellar Boundary Explorer (IBEX) launched Sunday Oct 19 To image and map the dynamic interactions at solar wind boundary Pegasus XL rocket launched from L-1011 plane over Pacific Very high altitude orbit (apogee 200,000 miles, 321,000 km)

Uses CCSDS TM/TC Note: In 2003, Voyager 1 passed this boundary at 8.7 billion

miles (14 billion km)

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NASA Mars missions’ status

Phoenix getting more soil samples into ovens Search for water in north polar regions Recently survived dust storm

Mars Odyssey Shifts Orbit To achieve better sensitivity for mineral detection Remaining propellant should allow mission until 2015 Will continue data relay services

Spirit/Opportunity recovering from Martian winter Opportunity heading for a larger crater (12km away)

Other future Mars missions: Mars Science Lab – 2009 Mars Scout – 2011 Mars Science Orbiter – 2013 More Scout missions – 2016-18 Mars Sample Return – 2020+

Image: Phobos 3D image from Mars Reconnaissance Orbiter

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Lunar Robotic Missions LRO and LCROSS launch Feb 27, 2009

Lunar Reconnaissance Orbiter provides imagery for future Constellation missions

Lunar CRater Observation and Sensing Satellite (LCROSS) will impact surface to look for water ice in the ejecta

Supports CCSDS TM, TC, CFDP

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One Last Time: Two Shuttles on pads Atlantis (foreground) on Launch Pad A

STS-125, Hubble mission Possible slip to Feb09 (?)

Endeavour on Launch Pad B Rescue capability for STS-125 mission Then moved to pad A for STS-126 to ISS

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Constellation Program Status

Program Goals: ISS capability by Return to the moon by 2020

Recent slip: Ares 1-X launch slip to Oct/Nov 2009 Due to Hubble anomaly STS-125 slip

Various Orion and Ares fabrication efforts underway Ares 1 J2X engine testing Orion Jettison Rocket engine testing Orion heat shield fabrication Orion capsule engineering unit fabrication Firing Room 1 at KSC now dedicated to Constellation

Lunar program: Ares V and Altair Lunar Lander requirements/design started

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Constellation Program Status

Orion Mock-up at Langley Ares IJ2X Engine part test

at Stennis

Orion Launch AbortRocket Test

Orion Heat Shield Fabrication

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NASA DTN update:

NASA Program for Disruption/Delay Tolerant Networking (DTN) Effort includes:

Includes flight experiments on ISS and Deep Impact missions Includes several simulations supported across multiple centers Includes CCSDS standardization as a key requirement

Expected to elevate the Technology Readiness Level (TRL) for DTN rapidly to level 8 or 9 by 2012.

Will keep closely in sync with CCSDS DTN WG by using common personnel

Buildup of DTN Experimental Network (DEN) is underway Flight experiments (BioServe and DINET) are on schedule NASA would welcome the active participation of other

CCSDS agencies in this effort.

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Deep Impact and DINET (Deep Impact Network Experiment)

Deep Impact main missions: Comet Temple1 flyby 2005 Comet Hartley 2 flyby 2010 Other experiments en-route

Flight Test of DTN protocols Replace Deep Impact flyby

spacecraft’s CFDP implementation with the DTN stack of BP/LTP

Insert new code into both flight (B string) and ground systems

Ground simulation of nodes with data flow through DI as a router with DTN

Breaking news: Success!

ajh-14

EPOXI = Deep Impact Extended Investigation (Dixi) +Extrasolar Planet Observations and Characterization (Epoch)

Page 1510 October 2007

SCaN (Space Comm & Nav) office at HQ is developing architectural definition for NASA Integrated Communications Architecture, supported by NASA centers. Priorities include: Manage ground & space-based facilities of networks

TDRSS, Near Earth Network, DSN, future Lunar/Mars Networks

Transition towards a single, unified mission support architecture Provide central portal for access to SCaN services Standards and technology development Build international cooperation through interoperability

Characteristics include: Utilize CCSDS Cross Support standards and protocols, including

the new Service Management and CSTS. Include space and ground support for packet, frame, and file

services and space internetworking (DTN & IP). RASDS used to describe the system architecture.

NASA Headquarters activities

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Mars¸

Venus

MercurySun

Uranus

Jupiter

Saturn

Titan

PlutoCharon

Neptune

SCaN Notional Integrated Communication Architecture in 2025 Timeframe

SCaN MicrowaveSCaN OpticalNISN

NISNNISN

SCaN Integrated

Service Portal

Antenna Array

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• Solar system wide coverage • Anytime, anywhere connectivity for Earth,

Moon, and Mars• Integrated service-based architecture• Space internetworking (DTN) • Leverages new technology (optical,

arraying, software radios, …)• Internationally interoperable

Moon

Cx MCC

ISS MCC

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Report from centers - JPL:

Disruption Tolerant Networking (DTN) activities JPL led development of the DTN Bundle Protocol, LTP reliable link protocol

RFCs and bundle security for DTN

Flight demo on Deep Impact spacecraft is now underway

DTN is planned for inclusion in NASA integrated architecture

CCSDS Space Communication Cross Support (SCCS, ex SLE) Leading Space Communication Cross Support--Service Management SCCS

-SM Red Book-3, Blue Book publication anticipated late CY 2008

Validated using prototypes developed by JPL, JAXA and ESA.

Developing approaches for AOS forward links and link layer security

Service Oriented Architecture (SOA) activity JPL has developed XML schema registries, data repositories and a RASIM

compliant framework using commercial products that is being infused into the DSN Service Planning Subsystem (SPS)

This is a proof of concept of the approaches defined in the IA RASIM and in the IA / IPR joint working group on registries.

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Report from centers - JSC

JSC completed implementation of SLE Transfer Services for the ISS Program Transitioned to Operations: June 2008

JSC developing prototypes for the CCSDS Spacecraft Monitor and Control Working Group Investigate potential application of SM&C for the Constellation

program Phase I of SM&C prototype expected to be complete by end of year.