The New Horizons Mission to Pluto–Ten Experts Who Worked Behind-the-Scenes On the New Horizons Mission and Who Teach for ATIcourses.

American astronomer Clyde Tombaugh discovered Pluto, the ninth planet in our solar system, on February 18, 1930. Many key questions about Pluto, it's moon Charon, and the outer fringes of our solar system await close-up observations. A proposed NASA mission called New Horizons, depicted in the artist's concept above, would use miniature cameras, radio science experiments, ultraviolet and infrared spectrometers and space plasma experiments to study Pluto and Charon, map their surface compositions and temperatures, and examine Pluto's atmosphere in detail. Image Credit: Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute

Applied Technology Institute (ATI) is proud to have several course authors, instructors and subject-matter experts that led portions of the New Horizons Mission and/or were directly involved in the project, which began in 2003.

This is the countdown time to the New Horizons Missions closest point of approach to Pluto; The spacecraft is on track toward an “aim point” approximately 7,750 miles above Pluto’s surface on July 14, but meaningful data is already streaming in to JHU/APL and NASA.

http://seeplutonow.com/

 

On Sunday, June 20, 2015, the “Washington Post” published a front-page and extensive article on the New Horizons Mission to Pluto:

 

http://www.washingtonpost.com/national/health-science/pluto-poised-for-a-star-turn-as-nasa-probe-races-toward-historic-encounter/2015/06/20/46ffd54e-0d1f-11e5-a0dc-2b6f404ff5cf_story.html?wpisrc=nl_headlines&wpmm=1

 

This is the original 2003 press release describing the New Horizons Mission.

Boulder, Colo. – April 9, 2003 – This week NASA authorized the New Horizons Pluto-Kuiper Belt (PKB) mission to go forward with preliminary spacecraft and ground system construction. New Horizons is led by the Southwest Research Institute(r) (SwRI(r)) and the Johns Hopkins University Applied Physics Laboratory (APL).

 

Neither Pluto nor Kuiper Belt Objects have ever been explored by spacecraft.

In July 2002, the National Research Council’s Decadal Survey for Planetary Science ranked the reconnaissance of Pluto-Charon and the Kuiper Belt as its highest priority for a new start mission in planetary science, citing the fundamental scientific importance of understanding this region of the solar system.

Read more at

http://pluto.jhuapl.edu/News-Center/News-Article.php?page=040903pr

 

ATI instructors who helped plan, develop and engineer the New Horizons Mission. These include the following engineers and scientists, with their bios and links to their related ATI courses

 

1. Dr. Alan Stern http://aticourses.com/planetary_science.htm

 

Dr. Alan Stern is a planetary scientist, space program executive, aerospace consultant, and

author. In 2010, he was elected to be the President and CEO of The Golden Spike Company, a commercial space corporation planning human lunar expeditions. Additionally, since 2009, he has been an Associate Vice President at the Southwest Research Institute, and since 2008 has had his own aerospace consulting practice.

 

Dr. Stern is the Principal Investigator (PI) of NASA’s $720M New Horizon’s Pluto-Kuiper Belt mission, the largest PI-led space mission ever launched by NASA. New Horizons launched in 2006 and is arriving July 14, 2015. Dr. Stern is also the PI of two instruments aboard New Horizons, the Alice UV spectrometer and the Ralph Visible Imager/IR Spectrometer.

 

2. Eric Hoffman

http://www.aticourses.com/effective_design_reviews.htm

http://www.aticourses.com/spacecraft_quality.htm

http://www.aticourses.com/satellite_rf_communications.htm

 

Eric Hoffman has designed space-borne communications and navigation equipment and performed systems engineering on many APL satellites and communications systems. He has authored over 60 papers and holds 8 patents in these fields. Mr. Hoffman was involved in the proposal (as well as several prior Pluto mission concepts).  He chaired the major system level design reviews (and now teaches the course Effective Design Reviews).  He was Space Department Chief Engineer during the concept, design, fabrication, and test of New Horizons. His still actively consulting in the field. He is an Associate Fellow of the AIAA and coauthor of the leading textbook Fundamentals of Space Systems

 

3. Chris DeBoy

http://www.aticourses.com/Satellite_Communications_Design_Engineering.htm

 

Chris DeBoy leads the RF Engineering Group in the Space Department at the Johns Hopkins University Applied Physics Laboratory, and is a member of APL’s Principal Professional Staff. He has over 20 years of experience in satellite communications, from systems engineering (he is the lead RF communications engineer for the New Horizons Mission to Pluto) to flight hardware design for both Low-Earth orbit and deep-space missions. He holds a BSEE from Virginia Tech, a Master’s degree in Electrical Engineering from Johns Hopkins, and teaches the satellite communications course for the Johns Hopkins University.

 

4. Dr. Mark E. Pittelkau http://www.aticourses.com/attitude_determination.htm

 

Dr. Pittelkau was previously with the Applied Physics Laboratory, Orbital Sciences Corporation, CTA Space Systems (now Orbital), and Swales Aerospace. His experience in satellite systems covers all phases of design and operation, including conceptual design, implementation, and testing of attitude control systems, attitude and orbit determination, and attitude sensor alignment and calibration, control-structure interaction analysis, stability and jitter analysis, and post-launch support. His current interests are precision attitude determination, attitude sensor calibration, orbit determination, and optimization of attitude maneuvers. Dr. Pittelkau earned the B.S. and Ph. D. degrees in Electrical Engineering from Tennessee Technological University and the M.S. degree in EE from Virginia Polytechnic Institute and State University.

 

5. Douglas Mehoke http://www.aticourses.com/spacecraft_thermal_control.htm

 

Douglas Mehoke is the Assistant Group Supervisor and Technology Manager for the Mechanical System Group in the Space Department at The Johns Hopkins University Applied Physics Laboratory. He has worked in the field of spacecraft and instrument thermal design for 30 years, and has a wide background in the fields of heat transfer and fluid mechanics. He has been the lead thermal engineer on a variety spacecraft and scientific instruments, including MSX, CONTOUR, and New Horizons. He is presently the Technical Lead for the development of the Solar Probe Plus Thermal Protection System.  He was the original thermal engineer for New Horizons, the mechanical system engineer, and is currently the spacecraft damage lead for the flyby Hazard Team

 

6. Steven Gemeny http://www.aticourses.com/ground_systems_design.htm
Steve Gemeny is a Principal Program Engineer and a former Senior Member of the Professional Staff at The Johns Hopkins University Applied Physics Laboratory, where he served as Ground Station Lead for the TIMED mission to explore Earth’s atmosphere and Lead Ground System Engineer on the New Horizons mission to explore Pluto by 2020. Mr. Gemeny is an experienced professional in the field of Ground Station and Ground System design in both the commercial world and on NASA Science missions with a wealth of practical knowledge spanning nearly three decades. Mr. Gemeny delivers his experiences and knowledge to his ATIcourses’ students with an informative and entertaining presentation style. Mr Gemeny is Director Business Development at Syntonics LLC, working in RF over fiber product enhancement, new application development for RF over fiber technology, oversight of advanced DOD SBIR/STTR research and development activities related to wireless sensors and software defined antennas.

 

7. John Penn http://www.aticourses.com/fundamentals_of_RF_engineering.html
John Penn is currently the Team Lead for RFIC Design at Army Research Labs. Previously, he was a full time engineer at the Applied Physics Laboratory for 26 years where he contributed to the New Horizons Mission. He joined the Army Research Laboratory in 2008. Since 1989, he has been a part-time professor at Johns Hopkins University where he teaches RF & Microwaves I & II, MMIC Design, and RFIC Design. He received a B.E.E. from the Georgia Institute of Technology in 1980, an M.S. (EE) from Johns Hopkins University (JHU) in 1982, and a second M.S. (CS) from JHU in 1988.

 

8. Timothy Cole

http://www.aticourses.com/space_based_lasers.htm

http://www.aticourses.com/Tactical_Intelligence_Surveillance_Reconnaissance_System_Engineering.htm

http://www.aticourses.com/Wireless_Sensor_Networking.htm

Timothy Cole is a leading authority with 30 years of experience exclusively working in electro-optical systems as a systems and design engineer. While at Applied Physics Laboratory for 21 years, Tim was awarded the NASA Achievement Award in connection with the design, development and operation of the Near-Earth Asteroid Rendezvous (NEAR) Laser Radar and was also the initial technical lead for the New Horizons LOng-Range Reconnaissance Imager (LORRI instrument).  He has presented technical papers addressing space-based laser altimetry all over the US and Europe. His industry experience has been focused on the systems engineering and analysis associated development of optical detectors, wireless ad hoc remote sensing, exoatmospheric sensor design and now leads ICESat-2 ATLAS altimeter calibration effort.

 

 

9. Robert Moore http://www.aticourses.com/satellite_rf_communications.htm
Robert C. Moore worked in the Electronic Systems Group at the JHU/APL Space Department since 1965 and is now a consultant. He designed embedded microprocessor systems for space applications. He led the design and testing efforts for the New Horizons spacecraft autonomy subsystem. Mr. Moore holds four U.S. patents. He teaches for ATIcourses and the command-telemetry-data processing segment of “Space Systems” at the Johns Hopkins University Whiting School of Engineering.

 

10. Jay Jenkins http://www.aticourses.com/spacecraft_solar_arrays.htm

 

Jay Jenkins is a Systems Engineer in the Human Exploration and Operations Mission Directorate at NASA and an Associate Fellow in the AIAA. His 24-year aerospace career provided many years of experience in design, analysis and test of aerospace power systems, solar arrays, and batteries. His career has afforded him opportunities for hands-on fabrication and testing, concurrent with his design responsibilities. He was recognized as a winner of the ASME International George Westinghouse Silver Medal for his development of the first solar arrays beyond Mars’ orbit and the first solar arrays to orbit the planet Mercury. He was recognized with two Best Paper Awards in the area of Aerospace Power Systems.

 

For more information on the New Horizons Mission, we encourage you to visit:

 

http://pluto.jhuapl.edu/Participate/community/Plutopalooza-Toolkit.php

 

About Applied Technology Institute (ATIcourses or ATI and ATII)

 

ATIcourses is a national leader in professional development seminars in the technical areas of space, communications, defense, sonar, radar, engineering, and signal processing. Since 1984, ATIcourses has presented leading-edge technical training to defense and NASA facilities, as well as DOD and aerospace contractors. ATI’s programs create a clear understanding of the fundamental principles and a working knowledge of current technology and applications. ATI offers customized on-site training at your facility anywhere in the United States, as well as internationally, and over 200 annual public courses in dozens of locations. ATI is proud to have world-class experts instructing courses. For more information, call 410-956-8805 or 1-888-501-2100 (toll free), or visit them on the web at www.ATIcourses.com and www.aticourse.com/atii

 

CONTACT: Jim Jenkins

Phone: 1-888-501-2100 (toll free) or 410-956-8805

Fax: 410-956-5785

Email: jim.jenkins@aticourses.com


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