From ViRBO

NSF workshop on Small Satellite Missions for Space Weather and Atmospheric Research

George Mason University, Arlington Campus, VA

May 14-17, 2007

AGENDA

Contents Links Follow-up Documents PPT presentation/summary by NSF University Nanosat 5 Preliminary Design Review (PDR) Session on Mini Satellites at IFAC World Congress Student Collaboration opportunities within NASA’s SMD Format of the Workshop Logistics and Notes Introduction Tuesday May 15 7:30 AM 8:30 AM Welcome and Opening 9:30 AM Launch opportunities for small spacecraft 10:00 Coffee break 10:30 Launch opportunities for small spacecraft (continued) 12:00 PM Lunch break 1:30 PM Innovative technology developments for small satellite systems 3:30 PM Poster session & Coffee break 5:00 PM Discussion and Conclusions for Platforms and Launches 6:00 PM Adjourn Wednesday May 16 7:30 AM 8:30 AM Solar and Heliospheric Research 09:45 AM Coffee break 10:15 AM Magnetospheric Research 12:00 PM Lunch break 13:30 PM Atmospheric and Ionospheric Research 3:30 PM Poster session & Coffee break 4:30 PM Discussion and Conclusions for Research and Sensors 6:00 PM Adjourn Thursday May 17 7:30 AM 8:30 AM Identifying key space weather needs that can be satisfied by small satellite observations 9:15 AM Discussion and Conclusions for Space Weather 10:00 AM Coffee break 10:30 AM Using small satellites as an educational tool for science and engineering 12:00 PM Discussion and Conclusions for Education 1:00 PM Adjourn List of Posters List of Participants

1. Links

• The next deadline for proposals is now May 11, 2009. http://nsf.gov/funding/pgm_summ.jsp?pims_id=503172&org=NSF&sel_org=NSF&from=fund
• The next CubeSat Developers Workshop will be held April 22-25, 2009 at Cal Poly in San Luis Obispo. See http://cubesat.org
• Small Satellite workshop http://www.caneus2009.org/2009 March 1-6, 2009 at NASA AMES
• November 13-19, 2009: a new CubeSat related symposium at the 2009 ASME International Mechanical Engineering Congress and Exposition (ASME IMECE 2009), which will be held at Lake Buena Vista (Walt Disney World), Florida. Visit the 2009 ASME IMECE website at http://www.asmeconferences.org/congress09/CallForPapersDetail.cfm/
• Saint Louis University CubeSat Web Page cubesat.slu.edu
• 22nd Annual Conference on Small Satellites, August 11–14, 2008 · Utah State University · Logan Utah USA Meeting Information
• Small Satellite Working Group meeting in El Segundo, California, January 31-February 1, 2008 agenda.

2. Follow-up Documents

2.1. PPT presentation/summary by NSF

June 12, 2007: A brief PPT presentation (preliminary report from the workshop and immediate NSF plans) that will be shared with the various science communities (CEDAR, GEM, SHINE etc.) at meetings this summer ppt.

2.2. University Nanosat 5 Preliminary Design Review (PDR)

July 26, 2007: University Nanosat 5 Preliminary Design Review (PDR), held on-campus at Utah State University in Logan, Utah on 16-17 August, 2007 directly after the Small Sat conference. agenda pdf

Clements Jared W Contr AFRL/VSSV <Jared.Clements@kirtland.af.mil>

Dear Sir/Ma'am

I pulled your address off the attendees list for the NSF workshop on
Small Satellite Missions for Space Weather and Atmospheric Research.  If
you object to spam like this, I sincerely apologize.  However, as at
least half of our PI's were in attendance at the workshop I believe we
can make an argument that we have some relevance.

The purpose of this letter is to inform you of and invite you to the
University Nanosat 5 Preliminary Design Review (PDR), held on-campus at
Utah State University in Logan, Utah on 16-17 August, 2007 directly
after the Small Sat conference. There are eleven schools in Nanosat 5,
all of which have been involved with Nanosat in the past. The Nanosat 5
missions being designed are diverse and ambitious, so this meeting
promises to provide reviewers with unique insight into some
out-of-the-box engineering.  The format in this review will be a 45
minute official slide presentation, to include prototype hardware
demonstrations if the schools desire. As a reviewer your job would be to
comment in writing to the schools, and also provide feedback at the end
of each presentation. Your job is not to rank the designs, but to
provide design guidance and to direct the student design teams away from
potential pitfalls. 

If you wish to participate as a reviewer, please RSVP to me by Friday, 3
Aug 2007. Once I have confirmation of your attendance, I will send a
follow-up email giving logistical details, including how to access each
school's satellite design data so you can familiarize yourself with
their designs prior to the review. Please forward this announcement to
any associate that you think might have an interest in participating.
This is open to United States citizens and green card holders only. 

Schedule Details: 

Reviewers would be asked to meet in the meeting room on-campus at 1:00pm
on Thursday, 16 August, to go over meeting format/logistics.  The first
university presentation will begin at 1:30 on Thursday.  The review will
conclude by no later than 4:30pm on Friday, 17 August, to ensure
attendees have enough time to catch evening flights home.  The official
agenda is attached.

If you desire more information, I can be reached at the contact
information below.

Jared

-------------------------------------------
Jared Clements
Space Systems Engineer
Jackson and Tull
University Nanosat AFRL/VSSV
Jared.Clements_&_kirtland.af.mil
(505)853-6322

2.3. Session on Mini Satellites at IFAC World Congress

Dear colleagues in the Small Satellite field,

During the IFAC World Congress 2008 (http://www.ifac2008.org/) in Seoul
(South Korea) during July 2008,


                an invited session on "Mini Satellites"


will be organized. It is therefore my pleasure to invite you to take
advantage of this opportunity to present your work on
                          system design,
                          control aspects  or
                          operations aspects
of small satellites at this most prominent control conference.

If you are interested in this session, please submit your extended
abstract to me until
                          31. August , 2007
via email. The IFAC Aerospace Technical Committee will then monitor and
support your contribution during the selection procedure. Your final
paper must be submitted electronically using the IFAC Conference
Manuscript Management System (CMMS) by

                          8. September, 2007

at the latest. Please visit the IFAC World Congress 2008 web site for
more information http://www.ifac2008.org/   .


We are looking forward to your interesting submissions.


Yours sincerely,

                           Klaus Schilling

____________________________________________________________

Prof. Dr. Klaus Schilling
Chair Informatics VII: Robotics and Telematics
Julius-Maximilians-University Wuerzburg
Am Hubland
D-97074 Wuerzburg
Germany

2.4. Student Collaboration opportunities within NASA’s SMD

You are invited to attend community workshops at the upcoming AGU and AAS Meetings on Student Collaboration opportunities within NASA’s Science Mission Directorate

• AGU: Sunday, December 9th, 2007, 1:00-6:00 p.m., Marriott Hotel, San Francisco, CA.
• AAS: Monday, January 7th, 2008 1:00-6:00 p.m., Hilton Hotel, Austin, TX.

A Student Collaboration Definition Team (SCDT) was initiated by NASA in February 2007 to provide community perspectives to NASA's Science Mission Directorate (SMD) on participation of college and university students in NASA's science missions.

These Student Collaboration community workshops offer the opportunity for space and earth science community members and educators to learn about SMD Student Collaborations and provide further input to the SCDT. The specific emphasis during these workshops is to discuss the outcome and draft white paper of the SCDT pdf.

2.4.1. Format of the Workshop

1:00-2:30: Outline and Discussion of the Science Definition Team Progress and White Paper (Dr. Emily CoBabe-Ammann, University of Colorado and Dr. David Klumpar, Montana State University, chairs)

2:30-3:30: Short community-member presentations that highlight the wide variety of Student Collaborations.

3:30-6:00: Open discussion.

Anyone interested in presenting a 5-10 minute overview on a specific Student Collaboration should contact Emily CoBabe-Ammann (ecobabe@lasp.colorado.edu) or David Klumpar (klump@physics.montana.edu).

The NASA/SMD Student Collaborations Definition Team White Paper will be available by November 16th and circulated widely.

3. Logistics and Notes

• You will need to reload this web page to see updated content (including powerpoints)
• Hint: you may download all of the talks at once using a Firefox Extension
• A PDF version of the Agenda (this web page is the most current version). pdf
• If you would like a document posted on this page, email it to rweigel@gmu.edu. Or, if you know how, please post it directly to this page. The username and password is upload.
• You may email your talk to rweigel@gmu.edu or give it to the computer support staff on a memory stick in one of the breaks before your talk.
• All talks will be in room 244 of "The Original Building" on GMU's Arlington Campus. Two rooms will be available for posters and informal meetings.
• Wireless internet will be available. Access instructions will be given at the meeting.
• Hotel information
• Local GMU Arlington campus map
• Google map (If the Google map does not work, try Backup maps) showing both the Clarendon and Virginia Square metro stops.
• Parking map: (If the Google map does not work, try Backup maps) You may park in the Original Building lot for free if you tell the person at the gate that you are with the NSF Small Satellite Workshop. If nobody is at the gate, you may obtain a parking pass at the meeting.
• Food: local list 1 | local list 2 | local list 3

4. Introduction

In the recent report by the Assessment Committee for the National Space Weather Program, a key recommendation was for NSWP agencies to investigate immediately the feasibility of using micro-satellites with miniaturized sensors to provide cost-effective science and operational data sources for space weather applications (USRA Panel Presentation by Robinson at USRA's 2007 Annual Symposium). In response, NSF’s Division of Atmospheric Sciences is organizing a workshop with the purpose to explore the possibilities and benefits of utilizing small satellite missions to provide essential measurements for space weather and atmospheric research.

Program committee:

• Charles Gay, NASA HQ
• Michael Hesse, NASA/GSFC
• Robert McCoy, ONR
• Kent Miller, AFOSR
• Therese Moretto Jorgensen, NSF
• Howard Singer, NOAA/SEC
• Bob Weigel, GMU

5. Tuesday May 15

5.1. 7:30 AM

Continental breakfast

5.2. 8:30 AM Welcome and Opening

Chair: Richard Behnke, NSF

Keynote Address: Pete S. Worden, ppt, NASA Ames Research Center, Emerging opportunities for using micro-satellites with miniaturized sensors to provide cost-effective science and operational data sources for space weather applications

5.3. 9:30 AM Launch opportunities for small spacecraft

Chair: Kent Miller, AFOSR

Speakers:

Tim Hughes (for Gwynne Shotwell), ppt, Space X, The Falcon rocket program

Gerard Szatkowski, pdf, Lockheed Martin, Ideas and progress for secondary payload capabilities

5.4. 10:00 Coffee break

5.5. 10:30 Launch opportunities for small spacecraft (continued)

Speakers:

Luke Flynn, ppt, University of Hawaii, The Hawaii Space Flight Lab and the LEONIDAS project

John H. Campbell, ppt, NASA Wallops Flight Facility, Launch opportunities at NASA Wallops Flight facility

Robert Caffrey, ppt, NASA Goddard Space Flight Center, The GeoQuickRide Program

Sam Myers Sims, ppt, The Aerospace Corp., Space Test Program Mission Design DoD Space Test Program: Access to Space

Mike Marlow, ppt, STP-SIV Program Manager, USAF Payload Design Criteria for the Space Test Program-Standard Interface Vehicle (STP-SIV)

5.6. 12:00 PM Lunch break

5.7. 1:30 PM Innovative technology developments for small satellite systems

Chair: Charles Gay, NASA HQ

Speakers:

James G. Watzin, ppt, NASA Goddard Space Flight Center, Revitalizing small-sat based missions

Dino Lorenzini, ppt, SpaceQuest, NanoSat payload accommodation

Adam M. Baker, ppt, Surrey Satellite Technology Ltd, Enabling better space weather & atmospheric research through cost effective small spacecraft

Vassilis Angelopoulos, ppt, University of California, Berkeley THEMIS as a pathfinder for a microsatellite program

James A. Slavin, ppt, NASA Goddard Space Flight Center, The ST-5 mission

Pete Klupar, ppt, NASA Ames Research Center, Recent nanosat missions and plans for future developments at NASA ARC

Michael Hurley, ppt, Naval Research Laboratory, Operationally Responsive Space (ORS) and TacSat Overview

5.8. 3:30 PM Poster session & Coffee break

5.9. 5:00 PM Discussion and Conclusions for Platforms and Launches

Discussion Lead: Robert McCoy, ONR

Objective: Identify key issues and possibilities in regard to

• Providing launches for a small satellite research program
• What are the greatest challenges, e.g. cost, availability, regulations, and satellite integration?
• What are the most promising developments or opportunities, e.g. commercial launchers, partnering with other agencies, international partnerships, and standardized integration for piggy-back launches?
• Building or providing satellites for a small satellite research program
• What are the greatest challenges, e.g. development costs, integration of payloads, regulations, power, and communication/ground stations?
• What are the most promising developments or opportunities, e.g. standardized satellite systems, standardized payload integration, and technological progress on power and communications systems?

Session Notes

• Art Poland noted that a university in Germany has had success with thesis-to-launch small satellite missions. He has given us some slides from the Roeser at Stuttgart ppt
• Via email, Klaus Schilling has noted the only German Pico-Satellite so far in-orbit, UWE-1, has been developed at the University Wuerzburg and has provided a leaflet pdf
• Other session notes to be posted here.

5.10. 6:00 PM Adjourn

• Social Hour at Carpool's - map starting after the meeting.

6. Wednesday May 16

Advancing Research by means of measurements from small satellites & miniaturization of scientific payloads

6.1. 7:30 AM

Continental breakfast

6.2. 8:30 AM Solar and Heliospheric Research

Chairs: Jie Zhang and Merav Opher, George Mason Univesity

Speakers:

Robert Lin, ppt, University of California, Berkeley, High energy measurements for solar, heliospheric, magnetospheric, and atmospheric physics

Douglas Rabin, pdf, NASA Goddard Space Flight Center, Solar context observations from lightsats

Russell Howard, ppt, Naval Research Laboratory, Advances in solar imaging

Bernard Jackson, zip, University of California, San Diego, Development of a small Solar Mass Ejection Imager

A photo taken of the group with the small SMEI all-sky imager. Jackson is near the imager, and Bob Weigel of GMU is sitting next to me in the front row

6.3. 09:45 AM Coffee break

6.4. 10:15 AM Magnetospheric Research

Chair: Rod Heelis, University of Texas at Dallas

Speakers:

Harlan Spence, zip, Boston University, The MagCon Mission Concept

• Links to the MagCon Study Team web pages I mentioned in the talk: htm
• A direct link to the documents of relevance: htm

Craig Pollock, ppt, South West Research Institute, Plasma Instrument Miniaturization and Integration: Approaches and Limitations

David Klumpar, pps, Montana State University, Science requirements flow-down: Impacts on the capabilities of small satellites

James Clemmons, [Did not attend], The Aerospace Corp., Energetic particle measurements

James Spann, NASA Marshall Space Flight Center, Imaging Geospace and Auroras from small satellites

Marc Lessard, ppt, Universtiy of New Hampshire, Observing ion cyclotron waves

6.5. 12:00 PM Lunch break

6.6. 13:30 PM Atmospheric and Ionospheric Research

Chair: Ennio Sanchez, SRI International

Speakers:

Paul Kintner, zip, Cornell University, Utilizing small satellites to address mid-latitude ionospheric space weather science questions

Robert Pfaff, ppt,NASA Goddard Space Flight Center, Synergistic Scientific Measurements using Consolidated Instrument Suites on Small Satellites -- Experience from the FAST, DEMETER, and C/NOFS Missions

Gary Swenson, ppt, University of Illinois, Optical sensing of atmospheric emissions from Cubesats and Nanosats

Stephen Mende, pdf, University of California Berkeley, Tomographic airglow measurements from satellites

Charles Swenson, zip, Utah State University, Ionospheric Nano-satellite Formation (ION-F) and instrumentation

Kenneth F. Dymond, ppt, Naval Research Laboratory, The COSMIC mission

Andrew Nicholas, Naval Research Laboratory, The Atmospheric Neutral Density Experiment mission

6.7. 3:30 PM Poster session & Coffee break

6.8. 4:30 PM Discussion and Conclusions for Research and Sensors

Discussion Lead: Michael Hesse, NASA GSFC

Objective: Identify key science objectives and measurement technologies for a small satellite program

• Direct benefit
  • Which important measurements could be provided right now by a small satellite program, i.e. utilizing existing science instrument and satellite system capabilities?
  • What are presently available technologies or expected developments in miniaturized instrumentation that could be applied to small sat-based research?

• A vision
  • What are the exciting scientific goals that a small satellite program could help advance in the near future?

6.9. 6:00 PM Adjourn

7. Thursday May 17

7.1. 7:30 AM

Continental breakfast

7.2. 8:30 AM Identifying key space weather needs that can be satisfied by small satellite observations

Chair: Robert Robinson, NSF

Speakers:

Howard Singer, ppt, NOAA Space Environment Center, Space weather measurement needs and capabilities

Odile de La Beaujardiere, ppt, Air Force Research Laboratory, The PECOS low Earth orbit space weather satellites

7.3. 9:15 AM Discussion and Conclusions for Space Weather

Discussion Lead: Robert Robinson, ppt, NSF

Objective:

• Which important measurements could be provided right now by a small satellite program, i.e. utilizing existing science instrument and satellite system capabilities?
• What are the most exciting Space Weather goals for a small satellite program in the future, e.g., L1 monitor, ionospheric specification, geomagnetic fields and particles?

7.4. 10:00 AM Coffee break

7.5. 10:30 AM Using small satellites as an educational tool for science and engineering

Chair: Thomas Zurbuchen, University of Michigan

Speakers:

David W. Yoel, ppt, American Aerospace Advisors, Student space experiment access – a national imperative

Robert J. Twiggs, ppt, Stanford University, Using student space assets for atmospheric science research

Matthew McHarg, ppt, US Air Force Academy, The FalconSat program: space science

Timothy Lawrence, [Did not present. See McHarg presentation], US Air Force Academy, The FalconSat program: engineering

Heather Reed, html, University of Colorado, Best practices and lessons learned in Student Instrument Programs: The SNOE case study

R. Scott Erwin, ppt, Air Force Research Laboratory, The University NanoSat program

7.6. 12:00 PM Discussion and Conclusions for Education

Discussion Lead: Thomas Zurbuchen, ppt, University of Michigan

Objective: Establish key ingredients in making a small satellite program successful in promoting education and learning, in terms of:

• Educational opportunities for aerospace engineering, including general math, science, and engineering
• What are the pros and cons of university (or student)-built small satellites and/or subsystems, e.g. cheap but high-risk, and collaboration across university departments?
• Educational opportunities for experimental space science, atmospheric science, earth science, etc.
• What are the main opportunities that a small satellite program could offer that do not exist today, e.g. student participation in building payloads for large missions is limited/ unsuccessful?

7.7. 1:00 PM Adjourn

8. List of Posters

1. Justin Akagi, University of Hawaii, Self-Steering Antenna Arrays For Small Satellites
2. David Barnhart, University of Southern California, Opportunities for 24/7 coverage for small satellites in a specialized set of highly elliptical/inclined orbits, that would be of particular interest for space weather satellites for hemispherical coverage
3. Paul Bernhardt, Naval Research Laboratory, The Space-Based Calibration of NSF MF and HF Radars using the Precision Expandable Radar Calibration Sphere (PERCS)
4. Sven Bilen, Pennsylvania State University, Multipoint In-Situ Radiation and Plasma Sensing System (MIRPSS
5. Phillip C. Chamberlin, LASP, University of Colorado, Comparisons Between NASA Small Satellites, NASA Sounding Rockets, and a Proposed Small Satellite Program.
6. James J. Connell, University of New Hampshire, Measuring High Energy Ions with ADIS
7. James Cutler, Stanford University
8. Richard Doe, SRI International, Simulation of a Constellation of Small-Satellite-Based Photometers and GPS Receivers for Space Weather Applications
9. Norman Fitz-Coy, University of Florida, Microsatellites for Studying the Earth's Energy Balance
10. Lloyd French, University of Hawaii, Hawaii Space Flight Laboratory: LEONIDAS Mission Concept Architecture
11. Hanna Goldberg, JPL, The Micro-Inspector Spacecraft
12. Ray M. Haynes, news item Talk 1 ppt, Talk 2 pdf, Talk 3 ppt Northrop Grumman Corporation, Complexity of A-Train type approach (EOS, POES, NPOESS, etc.) vs small sats as gapfillers and significant opportunities for systems engineering trade studies that might be performed by students' projects
13. Albert Helfrick, Embry-Riddle Aeronautical University, The Embry-Riddle satellite that was the winner of the Florida University Satellite competition.
14. John Hughes, Embry-Riddle Aeronautical Univeristy, The Embry-Riddle Small Satellite Student Project.
15. Chris Koehler, Colorado Space Grant Consortium, University of Colorado at Boulder, A Low-Cost Small Satellite Program for Neutral Density and Wind Research
16. Scott Palo, Dep. of Aerospace Engineering, University of Colorado, A Hands-on Model for Teaching Space Hardware Design
17. Nick Paschalidis, The Johns Hopkins University, Applied Physics Lab, Advanced Detector and ASIC Technologies for Miniaturization of Instrument and Spacecraft Systems
18. Mason Peck, Cornell University, CUSat consists of a pair of 20 kg satellites built at Cornell University and is an example of the high-quality, innovative, but low-cost spacecraft that can be built within a university environment. Having won the University Nanosat 4 competition, CUSat will be launched in 2008 and will demonstrate close-proximity, high-precision navigation.
19. Milind Pimprikar, Centre for Large Space Structures and Systems (CLS3) and CANEUS, CANEUS and The CANEUS Small Satellite Working Group (CSS-WG): Challenges, Opportunities & Vision for the Small Satellite Developments
20. David Smith, University of California, Santa Cruz, Small-scale instrumentation (x-ray, energetic particle, optical, radio) for problems in upper-atmospheric electricity (physics of sprites, blue jets, elves, terrestrial gamma-ray flashes) -- examples of the French microsat mission TARANIS and other scenarios (for example multi-point measurements)
21. Ennio Sanchez, Michael Nicolls, Russell Cosgrove, and Hasan Bahcivan,Center for Geospace Studies, SRI International, The benefits of small, inexpensive satellites for scientific investigations of the upper atmosphere
22. Zoltan Sternovsky, LASP/University of Colorado, Development of space missions and instruments through education, Presented by: Scott Palo, Aerospace Engineering, University of Colorado
23. David Voss, Boston University, BUSAT: Boston University Student satellite for Application and Training
24. Hank Voss, Taylor University, High-Altitude Balloon Launches and Nanosatellites for Effective Education, Inspiration, and Space Weather Research
25. John J. Webb, Jr., President, Instarsat LLC Durham, NC, The utilization of next generation small satellite platforms for space weather and atmospheric research
26. Andrew Yau, University of Calgary, The Canadian CASSIOPE Enhanced Polar Outflow Probe (e-POP) Small Satellite Mission
27. Wolfram Lunscher, COM DEV Ltd., Space Astronomy at COM DEV, from Sub-millimeter to Ultraviolet and beyond

9. List of Participants

1, Adams, Charlie, Gray Research, Inc., 35806, charles.l.adams_$_msfc.nasa.gov

2, Adrian, Mark, NASA/GSFC, 20771-1000, mark.l.adrian_$_nasa.gov

3, Akagi, Justin, University of Hawaii, 96822, akagij_$_hawaii.edu

3a, Baker, Adam, Surrey Satellite Technology Ltd, ZIP N/A, a.baker@sstl.co.uk

4, Baker, Kile, National Science Foundation, 22230, kbaker_$_nsf.gov

5, Ballard, Perry, DOD Space Test Program, 77058, perry.g.ballard_$_nasa.gov

6, Barbier, Louis, NASA, 20771, louis.m.barbier_$_nasa.gov

7, Barnhart, David, USC/ISI, 90292, barnhart_$_isi.edu

8, Behnke, Richard, National Science Foundation, 20005, rbehnke_$_nsf.gov

9, Bellaire, Paul, NSF, 22230, pbellair_$_nsf.gov

10, Belte, Ed, Orbital Sciences Corporation, 20166, belte.ed_$_orbital.com

11, Beres, Kathleen, Orbital Sciences Corporation, 20770, beres.kathleen_$_orbital.com

12, Bernhardt, Paul, Naval Research Laboratory, 20375, bern_$_ppd.nrl.navy.mil

13, Bhattacharya, Subhashish, Dept. or ECE, NC State University, 27695, sbhattacharya_$_ncsu.edu

14, Bilen, Sven, Penn State University, 16802, sbilen_$_psu.edu

15, Braga, Carlos, INPE, 97110970, carlos_$_lacesm.ufsm.br

139, Bust, Gary, Astraspace, gbust_$_astraspace.net

16, Campbell, John, NASA, 23337, john.h.campbell_$_nasa.gov

17, Chafer, Charles, Space Services Inc., 77005, cmchafer_$_spaceservicesinc.com

18, Chamberlin, Phillip, U of Colorado/LASP, 80303, phil.chamberlin_$_lasp.colorado.edu

19, Cheung, Cynthia, NASA/GSFC Code 695, 20771, cynthia.y.cheung_$_nasa.gov

20, Choi, Srimal, Orbital Sciences Corporation, 20166, choi.srimal_$_orbital.com

21, Clemmmons, James, The Aerospace Corporation, 90009, james.clemmons_$_aero.org

22, Collins, Richard, University of Alaska Fairbanks, 99775-7320, rlc_$_gi.alaska.edu

23, Connell, James, University of New Hampshire, 03824, james.connell_$_unh.edu

24, Correll, Randall, Ball Aerospace, 22201, rcorrell_$_ball.com

25, Crabbs, Robert, Florida Space Institute, 32920, rcrabbs_$_mail.ucf.edu

141, Cutler, James, Stanford University, 94305, jwcutler_$_gmail.com

26, Dahlburg, Jill, Naval Research Laboratory, 20375, jill.dahlburg_$_nrl.navy.mil

27, Daniels, Mark, Space Services Inc., 20854, mark_$_markhdaniels.com

28, Demoz, Belay, NASA/GSFC, Greenbelt, MD, 20771, belay.b.demoz_$_nasa.gov

29, Doe, Rick, SRI International, 94026, doe_$_sri.com

30, Dutta, Gopa, Anwarul-Uloom College, 500001, gopadutta_$_yahoo.com

31, Dymond, Kenneth, Naval Research Laboratory, 20375, kenneth.dymond_$_nrl.navy.mil

32, Edmonson, William, NC State University, 27695, wwedmons_$_ncsu.edu

33, Erwin, Richard, Air Force Research Laboratory, 87117, richard.erwin_$_kirtland.af.mil

34, Esman, Ron, DARPA/BoozAllen, 22203, esman_ronald_$_bah.com

35, Fesen, Cassandra, nsf, 22042, cfesen_$_nsf.gov

36, Fitz-Coy, Norman, University of Florida, 32611, nfc_$_ufl.edu

37, Flynn, Luke, University of Hawaii, 96822, flynn_$_higp.hawaii.edu

38, Forbes, Jeffrey M, University of Colorado, 80309-0429, forbes_$_colorado.edu

39, Foster, John, MIT Haystack Observatoy, 01886, jfoster_$_haystack.mit.edu

40, French, Lloyd, University of Hawaii/HSFL, 96822, french_$_higp.hawaii.edu

41, Geisel, Frank, Draper Laboratory, 02139, fgeisel_$_draper.com

42, Gendreau, Keith, NASA/GSFC, 20771, keith.c.gendreau_$_nasa.gov

43, Goldberg, Hannah, Jet Propulsion Lab, 91109, hannah.r.goldberg_$_jpl.nasa.gov

44, Guhathakurta, Madhulika, nasa headquarters, 20546, mguhatha_$_hq.nasa.gov

45, Gunzelman, Mark, STC/OFCM, 20910, mark.gunzelman_$_noaa.gov

46, Ham, Chan, University of Central Florida, 32816, cham_$_mail.ucf.edu

47, Harvey, Lawrence, Center for Applied Space Technology, 32073, lharvey_$_c-ast.org

48, Haynes, Ray, Northrop Grumman Corporation, 90277, ray.haynes_$_ngc.com

49, Heelis, Rod, University of Texas at Dallas, 75083-0688, heelis_$_utdallas.edu

50, Hesse, Michael, NASA GSFC, 20771, michael.hesse_$_nasa.gov

51, Hickey, Michael, Embry-Riddle Aeronautical University, 32114, michael.hickey_$_erau.edu

52, Howard, Regan, Orbital Sciences, 20166, howard.regan_$_orbital.com

53, Huang, Tian-Sen, Prairie View A&M University, 77446, tshuang_$_pvamu.edu

54, Huang, Tian-Sen, Prairie View A&M University, 77446, tshuang_$_pvamu.edu

55, Hughes, John, Embry-Riddle Aeronautical University, 32117, john.hughes_$_erau.edu

56, Imma Reddy, Venkata Subba Reddy, National Central University, 32054, isubbareddy_$_rediffmail.com

57, Jahn, Jorg-Micha, Southwest Research Institute, 78238-5166, jjahn_$_swri.edu

58, Jirdeh, Hussein, Universities Space Research Association, 21044, hjirdeh_$_usra.edu

59, Kantsiper, Brian, JHU Applied Physics Laboratory, 20723, brian.kantsiper_$_jhuapl.edu

60, Kelley, Mike, Cornell University, 14850, mck13_$_cornell.edu

61, Kintner, Paul, Cornell University, 14853, pmk1_$_cornell.edu

62, Klumpar, David, Montana State University, 59717, klump_$_physics.montana.edu

63, Klupar, Pete, NASA, 94040, pklupar_$_mail.arc.nasa.gov

64, Koehler, Chris, Colorado Space Grant Consortium, 80309, koehler_$_colorado.edu

65, Koenig, Jesse, SpaceDev, Inc, 92064, jesse_$_spacedev.com

66, Korose, Marsha, NGIT/TASC, 22202, marsha.korose_$_osd.mil

67, Kumar, Kiran, irf, 75143, kovikiran_$_gmail.com

68, Lehmacher, Gerald, Clemson University, 29634, glehmac_$_clemson.edu

69, Lessard, Marc, University of New Hampshire, 03824, marc.lessard_$_unh.edu

70, Lin, Robert, Univ. of Calif.,Berkeley, Space Sciences Lab, 7 Gauss Way, Berkeley CA, 94720-7450, rlin_$_ssl.berkeley.edu

71, Lorenzini, Dino, SpaceQuest, Ltd., 22030, dino_$_spacequests.com

72, Lunscher, Wolfram, COM DEV Ltd., k2k 3j1, wolfram.lunscher_$_comdev.ca

73, Lynch, Kristina, dartmouth college, 03755, kristina.lynch_$_dartmouth.edu

74, Marlow, Mike, DoD/Space Test Program, 87117, mike.marlow_$_kirtland.af.mil

75, McCormick, Chris, Broad Reach Engineering, 80401, ccmcc_$_broad-reach.net

76, McFadden, James, U C Berkeley, 94720, mcfadden_$_ssl.berkeley.edu

77, McGuire, Bob, NASA Goddard Space Flight Center, 20771, robert.e.mcguire_$_nasa.gov

78, McHarg, Matthew, USAF Academy, 80840, matthew.mcharg_$_usafa.af.mil

79, Mende, Stephen, SSL University of California, Berkeley, 94720, mende_$_ssl.berkeley.edu

80, Millan, Robyn, Dartmouth College, 03755, robyn.millan_$_dartmouth.edu

81, Miller, Kent, AFOSR, 22203, kent.miller_$_afosr.af.mil

82, Moretto Jorgensen, Therese, NSF, 22230, tjorgens_$_nsf.gov

83, Myers, Steve, Naval Research Laboratory, 20375, steve.myers_$_nrl.navy.mil

84, Nicholas, Andrew, NRL Code 7669 Washington DC, 20375, andrew.nicholas_$_nrl.navy.mil

85, Noto, John, Scientific Solutions, Inc., 01863, noto_$_sci-sol.com

143, Opher, Merav, George Mason University, 22030, mopher_$_physics.gmu.edu

86, Palo, Scott, University of Colorado, 80309-0429, palo_$_colorado.edu

87, Papitashvili, Vladimir, University of Michigan, 20814, papita_$_umich.edu

88, Paxton, Larry, JHU/APL, 20723, larry.paxton_$_jhuapl.edu

89, Peck, Mason, Cornell University, 14853, mp336_$_cornell.edu

90, Perdue, Michael, University of Texas at Dallas, 75080, perdue_$_utdallas.edu

91, Pesses, Marl, SAIC, 20223, pessesm_$_saic.com

92, Pfaff, Robert, NASA/Goddard Space Flight Center, 20771, robert.f.pfaff_$_nasa.gov

93, Pilinski, Marcin, Colorado Space Grant Consortium, 80309, marcin.pilinski_$_colorado.edu

94, Pimprikar, Milind, CANEUS Small Satellite Working Group, H4X 2G6, mp_$_caneus.org

142, Poland, Art, George Mason University, 22030, apoland_$_gmu.edu

95, Pollock, Craig, Southwest Research Institute, 78238, cpollock_$_swri.edu

96, Rabin, Douglas, NASA Goddard Space Flight Center, 20771-0001, douglas.rabin_$_nasa.gov

97, Reed, Heather, CU/LASP, 80303, heather.reed_$_lasp.colorado.edu

98, Robinson, Bob, National Science Foundation, 20005, rmrobins_$_nsf.gov

99, Rodilosso, Thomas, Office of Naval Research, 22203, rodilot_$_onr.navy.mil

100, Rogers, Aaron, JHU/APL, 20723, aaron.rogers_$_jhuapl.edu

101, Rowland, Douglas, NASA Goddard Space Flight Center, 20771, douglas.e.rowland_$_nasa.gov

102, Sadlowski, Dave, Space Florida, 32920, dsadlowski_$_spaceflorida.gov

103, Sanchez, Ennio, SRI International, 94025, ennio.sanchez_$_sri.com

104, Sharma, Surja, University of Maryland, 20742, ssh_$_astro.umd.edu

105, Sims, Sam, Space Test Program / Aerospace Corp, 87198, eleni.sims_$_aero.org

106, Singer, Howard, NOAA Space Environment Center, 80305, howard.singer_$_noaa.gov

107, Slavin, James, NASA GSFC, 20771, james.a.slavin_$_nasa.gov

108, Smith, Billy, US Naval Academy, 21402, brsmith_$_usna.edu

109, Smith, Daniel, Broad Reach Engineering, 80401, dsmith_$_broadreachengineering.com

110, Smith, David, University of California, Santa Cruz, 95064, dsmith_$_scipp.ucsc.edu

111, Socker, Dennis, Naval Research Laboratory, 20375-5320, dennis.socker_$_nrl.navy.mil

112, Sojka, Jan, Utah State University, 84322-4415, sojka_$_cc.usu.edu

113, Spence, Harlan, Boston University/Center for Space Physics, 02215, spence_$_bu.edu

114, Suess, Dionna, NASA, 94035, dionnasuess2_$_aol.com

115, Swenson, Charles, Utah State University, 84322, charles.swenson_$_usu.edu

116, Swenson, Gary, University of Illinois/Electrical and Computer Engineering, 61801, swenson1_$_uiuc.edu

117, Szatkowski, Jake, ULA/Business Development, 80465, gerard.p.szatkowski_$_lmco.com

118, Szatkowski, Jake, ULA, 80465, gerard.p.szatkowski_$_lmco.com

119, Talaat, Elsayed, The Johns Hopkins University Applied Physics Laboratory, 20723, elsayed.talaat_$_jhuapl.edu

120, Thorsen, Denise, University of Alaska Fairbanks, 99708, ffdt_$_uaf.edu

121, Turner, Ron, ANSER, 22206, ron.turner_$_anser.org

122, Twiggs, Bob, Stanford University, 94305-4035, bob.twiggs_$_stanford.edu

123, Voss, David, Boston University, 02215, dvoss_$_bu.edu

124, Voss, Hank, Taylor University, 46989, hnvoss_$_taylor.edu

125, Walker, Shannon, HQ USAF/Directorate of Weather, 22209, shannon.walker_$_pentagon.af.mil

126, Watson, Bill, NASA, 20546-0001, bill.watson_$_nasa.gov

127, Webb, John, Instarsat, LLC, 27715, jwebb_$_instarsat.com

128, Weigel, Bob, George Mason Univeristy, 22030, rweigel_$_gmu.edu

129, Weigel, Bob, George Mason Univeristy, 22030, robert.sweigel_$_gmail.com

130, Wesolek, Danielle, JHU/APL, 20723, danielle.wesolek_$_jhuapl.edu

131, Worden, Simon, NASA Ames Research Center, 94035, simon.p.worden_$_nasa.gov

132, Yau, Andrew, University of Calgary, T2N1N4, yau_$_phys.ucalgary.ca

133, Yoel, David, American Aerospace Advisors, Inc., 19087, dyoel_$_american-aerospace.net

134, Yunck, Thomas, Jet Propulsion Laboratory, 91109, tpy_$_jpl.nasa.gov

135, Zhang, Jie, George Mason University, 22030, jzhang7_$_gmu.edu

136, Zhou, Yi, George Washington University, DC 20052, zhouyi_$_gwu.edu

137, Zugger, Michael, Penn State ARL, 16803, mez115_$_only.arl.psu.edu

138, Zurbuchen, Thomas, University of Michigan, 48109-2143, thomasz_$_umich.edu

139, Fish, Chad, Space Dynamics Laboratory, 84341, Chad.Fish_$_sdl.usu.edu

140, Bust, Gary, Astraspace, gbust_$_astraspace.net

141, Cutler, James, Stanford University, 94305, jwcutler_$_gmail.com

142, Poland, Art, George Mason University, 22030, apoland_$_gmu.edu

143, Opher, Merav, George Mason University, 22030, mopher_$_physics.gmu.edu

-

144, Aguero, Victor, SRI International, victor.aguero_$_sri.com

145, Caffrey, Robert, NASA, robert.t.caffrey_$_nasa.gov

146, Seitz, Jeremy, SAF/USAL, Jeremy.Seitz.ctr_$_pentagon.af.mil

147, Crain, David, ITT Space Systems, David.Crain_$_itt.com

148, McCoy, Robert, Office of Naval Research, MCCOYR_$_ONR.NAVY.MIL

149, Hauser, Joseph, Praxis Inc., hauserj_$_pxi.com

150, Hughes, Tim, Space Exploration Technologies

151, Basu, Santimay, AFRL (VSBXI), sbasu_$_ssd5.nrl.navy.mil

152, Basu, Sunanda, Boston University,sbasu_$_bu.edu

152, Mackey, Robert, Lockheed Martin, robert.j.mackey_$_lmco.com