1. “The Changing World
of Configuration
Management”
Presented by: Debbie Dusterwald
Computer Sciences Corporation
February 2008
2. OBJECTIVES
Define change and how change affects
Project Management
Define NASA and Goddard
Requirements for Configuration
Management
Define what are the In-House and Out-of-
House Projects at Goddard and how they
are organized
3. OBJECTIVES (Cont’d)
Define the four principles of Configuration
Management
Emphasize the affects of Change Control
Discuss if Configuration Management
just happens
4. What is Change?
Make or become different
Something put or taken in place of
something else
To substitute
5. How does change affect any
type of Project with NASA?
Successful integration, testing and
launch
Correct technical errors
More effective performance
More cost effective
Accommodate new requirements
Ensure the objectives of any type of
Project are met
6. NASA Requirements
NASA Procedural Requirements (NPR) 7120.5C
NASA Program and Project Management Processes
and Requirements (Non Space Flight Project
Management)
NPR 7120.5D NASA Program and Project
Management Processes and Requirements (Space
Flight Project Management)
7. Center Requirements
GPR 1410.2 Configuration Management
GPR 5330.1 Product Processing
Inspection and Test
500-PG-8700.2.5 GSFC Engineering
Drawing Standards
8. In-House Project
What is an In-House project?
A spacecraft and/or instrument built on-
site at Goddard with an understanding
between subsystems. The responsibility
of authority is with the designated Project
Office.
9. Out-of-House Project
What is an Out-of-House Project?
A spacecraft and/or instrument built off-
site through the contracting office. The
responsibility of authority is the Project
office or System Engineering.
10. GSFC In-house Projects
Formulation/Development
Lunar Reconnaissance Orbiter (LRO)
Solar Dynamic Observatory (SDO)
Space Environmental Testbeds (SET)-1
Global Precipitation Measurement (GPM) (part of the
project)
Solar Terrestrial Relations Orbiter (STEREO) (part of
the project)
Magnetospheric Multiscale (MMS)
Instruments: MSL/SAM, MMS/FPI, GLAST/ACD,
LRO/LOLA, SAC-D/AQUARIUS
11. GSFC Out-of-House Projects
Formulation/ Development
Gamma Ray Large Area Space Intersellar Boundary Explorer
Telescope (GLAST) (IBEX)
Global Precipitation Mission (GPM)
Geostationary Environmental Opera-
tional Satellite Series-R (GOES)-R Solar Terrestrial Relations
Observatory (STEREO)
Hubble Space Telescope (HST)-DEV
James Webb Space Telescope
National Polar-Orbiting Operational
(JWST)
Environmental Satellite System
(NPOESS) Preparatory Project (NPP) Aeronomy of Ice in the
Metrosphere (AIM)
Constellation-X (CON)
GLORY
Polar Operational Environmental
Satellites (POES - NOAA-N) STP Hinode (used to be SOLAR-B)
Landsat Data Continuity Mission Geostationary Environmental
(LDCM) Operational Satellite Series-O,P
(GOES)
Two Wide-Angle Imaging Neutral-
Atom Spectrometers (TWINS) Laser Interferometer Space
Antenna (LISA)
Wide-field Infrared Survey Explorer
(WISE) Thermal Emission Imaging System
(THEMIS)
Terrestrial Planet Finder-C (TPF)-C
13. Project Scientist LRO Project Manager Contracting 431-REF-000223
G. Chin C. Tooley Officer
600 200
Deputy J. Janus
Deputy Project Manager
J. Keller
C. Peddie Public Affairs
Science Data Mgmt. Deputy Project Manager / Officer
100
S. Scott Resources N. Neal-Jones
System Assurance B. Sluder
Manager Admin. - P. Gregory EPO Lead
R. Kolecki
300 400
600 S. Stockman Lunar
Financial
Deputy SAM
L. Lee Manager
D. Adamczyk
400
Mission System
Reconnaissance
Safety Engineer
J. Rezac Mission Business Mgr.
D. Everett
Quality Assurance
J. Smith 500
Deputy MSE Orbiter (LRO)
A. Lacks Resource Analysts M. Houghton
V. Martinez/L. Morales
S/W Quality Assurance
C. Taylor Project Support Orbiter Systems SW/HW Systems
Project
Manufacturing Manager M. Pryzby C. Wildermann
N. Virmani K. Opperhauser 400 Code 451
Flight Dynamics Safing
Materials M. Beckman S. Andrews
General Business
P. Joy J. Reid Avionics Systems Contamination Ctrl.
Scheduling P. Luers C. Lorentson
Risk Management
C. Peddie/K. Safdie A. Eaker/M. Campbell GN&C Systems Systems Analysis
EVM E. Holmes L. Hartz
Reliability
R. Hesenperger S/C Bus & LV Systems Mech./Thermal Sys.
L. Lee
MIS T. Ajluni S. Wasserzug
EEE Parts A. Hess/J. Brill
R. Williams
CM/DM
D. Dusterwald/D. Hall/
W. Schultzaberger
Spacecraft Orbiter Launch Vehicle Ground Systems Payload Systems
Bus I & T Lead Manager & Operations Manager
T. Ajluni 500 J. Baker 500 T. Jones 400 R. Saylor 400 A. Bartels 400
MOT Lead
Laser Ranging J. Murphy Payload Systems
Power Electrical
T. Spitzer P. Luers R. Zellar Engineers
GS&O System Engr. 500
ACS Mechanical Communications J. Clapsadle M. Reden
J. Simpson G. Rosanova A. Rodriguez-Arroyo L. Hartz
Propulsion C&DH Thermal
C. Zakrzwski Q. Nguyen W. Ousley/C. Baker CRaTER Diviner LAMP
H. Spence D. Paige R. Gladstone
Software
Boston University UCLA SWRI
M. Blau
Original Signed By:
LEND LOLA LROC Mini - RF
Craig Tooley Date I. Mitrofanov D. Smith M. Robinson S. Nozette
11/15/2007 Lunar Reconnaissance Orbiter (LRO) ISR, Moscow GSFC Arizona State Univ. ACT
Project Manager
14. Project Manager
Project Manager
Nick Chrissotimos
Nick Chrissotimos
Deputy Project Manager
Contracting Officer / /Julie Janus Deputy Project Manager STP Program Support Office
Contracting Officer Julie Janus Jim Adams STP Program Support Office
Jim Adams Configuration Management / /Debbie Dusterwald-CSC, Linda Hepler-CSC
Deputy Project Manager/Instruments Configuration Management Debbie Dusterwald-CSC, Linda Hepler-CSC
Deputy Project Manager/Instruments Planning / /Dennis Wicks-CSC, Jim Rogers-CSC
Planning Dennis Wicks-CSC, Jim Rogers-CSC
Mike Delmont
Mike Delmont Project Support / /Mandy Tatum-SGT
Project Support Mandy Tatum-SGT
Business Support
Business Support Deputy Project Manager/Resources
Deputy Project Manager/Resources
Rich Ryan
Rich Ryan
Financial Manager Secretary
Tracy Felton (acting) Secretary
Paula Wood
Paula Wood
Resource Analyst
Linnette Morales Mission Systems Engineering
Mission Systems Engineering
Systems Engineer / /Shane Hynes-Swales
Systems Engineer Shane Hynes-Swales
General Business Support Instrument Systems Engineer / /Steve Aloezos, Steve Wasserzug-Swales,
Instrument Systems Engineer Steve Aloezos, Steve Wasserzug-Swales,
B. Power-SGT, J. Arrison-OSC, D. Paugh-SGT, L. Wyatt-CSC Katie Barthelme-OMI
Katie Barthelme-OMI
Systems Engineering / /Joe Cerullo-ASRC
Systems Engineering Joe Cerullo-ASRC
Project Support Manager Contamination Engineering / / TereseErrigo
Contamination Engineering Terese Errigo
Kim Higgins-El -SGT S/W Systems Engineering / /Jerry Hengemihle-MTEL
S/W Systems Engineering Jerry Hengemihle-MTEL
Project Scientist
Project Scientist Mission Director / Steve Odendahl
Michael Kaiser
Michael Kaiser Mission Operations Engineer / Clay Deyarmin
Deputy Proj. Scientist STEREO Science Center
Terry Kucera Bill Thompson-EITI
System Assurance
System Assurance Observatory Management Instrument Management
Observatory Management Instrument Management
Systems Assurance Mgr. / /Laurie Kleppin (acting)
Systems Assurance Mgr. Laurie Kleppin (acting) Observatory Manager / /Mark Jarosz
Manuf. & Process. Mgr / Mike Jones/OSC
Observatory Manager Mark Jarosz
Manuf. & Process. Mgr / Mike Jones/OSC
QAE / Larry Gibb-SRSTE
QAE / Larry Gibb-SRSTE
JHU/APL IMPACT/ UCB
Parts Assurance Ed Reynolds, Project Mgr. Instrument Mgr. / Lil Reichenthal
Antonio Reyes-OSC
SWAVES/ UMN
Safety Instrument Mgr. / Paul Buchanan
Brian Smolnick
SECCHI/ NRL
Reliability
Instrument Mgr. / Bernie Klein
Matt Samuel-MUNIZ
Software Quality Assurance PLASTIC/ UNH
Vacant Instrument Mgr. / Paul Buchanan
23 March 2006
15. CONFIGURATION
MANAGEMENT (CM)
CM is a formal process of identification, control,
verification and accountability of requirements
to meet the overall objectives.
A process for the control of baselined
documents and drawings.
A process for the control of all proposed
changes to baselined documents and
drawings that may affect form, fit,
function, cost and schedule.
16. IN-HOUSE vs. OUT-OF-HOUSE
Requirements In-House Out-of-House
Project CCB Yes Yes
Mission/Sys Eng Yes Yes
CCB
SC/Subsys CCB Yes SOW
Instrument/ Yes / SOW Yes / SOW
Payloads
Drawing Control Yes SOW
Work Order Yes SOW
17. PRINCIPLES OF CM
Configuration Identification
Configuration Control
Configuration Status Accounting
Configuration Verification
23. DRAWINGS
Defines all mechanical and electrical
aspects for a spacecraft and subsystems
Defines all interfaces
24. CONFIGURATION
CONTROL
Systematic coordination, evaluation, approval,
and release of changes
Ensure changes are properly and completely
defined
Evaluate the cost, schedule, and performance
impacts of a proposed change
26. Configuration Status
Accounting
Recording and reporting of all project
documents and drawings
- Approved List of Configured Items
- Status of Proposed Changes
27. CONFIGURATION
VERIFICATION
Ensure all requirements are in
compliance for Configuration
Management
Ensure all proposed changes
have been implemented
and/or resolved