Paul F. McManamon

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Dr. Paul F. McManamon, Chief Scientist (retired), US Air Force

Paul F. McManamon (born July 1, 1946) is an American scientist who is best known for his work in optics and photonics, as well as sensors, countermeasures, and directed energy.


Early life and education[]

McManamon was born in East Cleveland, Ohio. He attended St Ignatius high school, where he has been recognized as a distinguished graduate.[1] He received his BS in physics from John Carroll University. He received his MS and PhD in physics from the Ohio State University.

Paul delivering a newspaper while in 3rd grade

Government career[]

Dr. McManamon spent his government career at Wright-Patterson AFB. He started in electronic warfare and then moved into optical systems while he worked on his PhD. He moved from the Aeronautical Systems Division to the Air Force labs in 1979. Initially, he was in charge of the thermal imaging group of about 14 people in the Avionics lab. In 1995, he became the acting chief scientist for avionics, a position he held for 32 months. In 2001, he became Senior Scientist for Electro-Optical Sensors and, in 2005, he became chief scientist for Sensors, as part of the Air Force Research Laboratory.[2]

Dr. McManamon is widely recognized as the Father of the Optical Phased Array technology. Starting from 1987, he developed the technologies required to steer laser beams with no moving parts. He has both guided this effort and made significant individual technical contributions. He led in-house work at the Air Force research Laboratory, AFRL, authoring the IEEE WRG Baker award-winning paper in on this subject.[3]

He initiated the Phased Arrays approach to active electro-optical systems for laser sensing and laser weapons, and published the first papers in this area in the late 1990s. The Phased Array approach to active EO systems for laser sensing and laser weapons now dominates the beam control sessions at Directed Energy Professional society (DEPs) meetings. Dr. McManamon emphasized performance based sensing for combined sensor and processing development as chief scientist, AFRL Sensors to define an information goal, and develop the required sensors and processing to achieve that goal.

In the early 1990s, he initiated and guided 2D LADAR Lidar for long range ID. He had the vision to use the designator laser along with a near IR camera to identify objects at longer range at night than can be done with a thermal imager.[4] The 2D LADAR for long range ID that Dr. McManamon initiated, is now being deployed in the U.S. Air Force and Army. It significantly increases the object recognition range for U.S. aircraft. From the late 1980s until 2008 Dr. McManamon led the team at AFRL developing numerous LADAR technologies, including laser vibrometers, and synthetic aperture LADAR.

Dr. McManamon was an early advocate of pro-active Infrared countermeasures recommending a Defense Advanced Research Projects Agency program called medusa. The concept of pro-active IRCM has become prominent in the Air Force countermeasures community.

Later career[]

Dr. McManamon recently chaired a National Academy of Sciences (NAS) Study on Active EO Sensing. The published study was called “Laser Radar Progress and Opportunities in Active Electro-Optical Sensing".[5] Laser radar is becoming a significant sensor, with multiple sensing modalities. Shortly before that Dr. McManamon was co-chair of the harnessing Light 2 National Academy of Sciences committee, which published the study, “Optics and Photonics: Essential Technologies for Our Nation.” [6]

This study recommended a National Photonics Initiative, NPI, because optics and photonics is such a key enabler in the U.S. economy. The White House commissioned a fast-track committee to respond to the recommendations of the Optics and Photonics study.[7][8][9][10][11] The recommended NPI is proceeding with significant vigor, encompassing both Congress and the Executive Branch.

As a result of the study recommendations and subsequent photonics community activity, the U.S. Department of Defense has selected photonics as the focus of a new Institute for Manufacturing Innovation (IMI). This institute will be the largest to date of the National Network of Manufacturing Innovation Institutes and will comprise a total of $200 million public and private funding.[12]

Dr. McManamon was vice chair of the NAS study called “Seeing photons”, having to do with passive electro-optical sensors.

Dr. McManamon is president and CTO of Exciting Technology LLC and works part-time with the University of Dayton as Technical Director of the Ladar and Optical Communications Institute, LOCI, in the EO department

Uber vs Waymo lawsuit on stealing the self-driving technology[]

Dr. McManamon served as an expert witness on LiDAR (Light Detection And Ranging) technology, which helps self-driving cars see and navigate, in the Uber v. Waymo lawsuit. [13] [14]

Honors and awards[]

Paul McManamon at Photonics Asia 2007 conference.

Dr. McManamon was president of SPIE, the International Society for Optics and Photonics, in 2006.

He is shown on the right at Photonics Asia in 2007, when he was immediate past president of SPIE.

In 1998, he was awarded the IEEE W.R.G. Baker Award for best paper in any IEEE Journal or Publication.[15] This includes over 100 separate refereed journals, containing over 20,000 separate articles.

Dr. McManamon (3rd from right) along with other recipients of US Government Meritorious Presidential Rank Award, presented by Air Force Secretary Wynn (in gray suite in the centre) in Washington (2006)

In 2006, he was awarded the U.S. Government Meritorious Presidential Rank Award, presented by Air Force Secretary Wynn in a ceremony in Washington.[16] The citation reads, “The Meritorious Senior Professional Rank Award is presented to Dr. Paul F. McManamon for his dynamic and visionary leadership in the development of sensor and countermeasure technology for the United States Air Force, and for his international leadership of the optical engineering community.”

He has been made a fellow in many different technical organizations.

  • Fellow International Society for Optics and Photonic (SPIE), (1999)[17]
  • Fellow Air Force Research Laboratory (AFRL) (2002)[18]
  • Fellow Optical Society of America (OSA) (2007)[19]
  • Fellow Institute for Electrical and Electronics Engineers (IEEE) (2008)[20]
  • Fellow Military Sensing Symposia (MSS) (2008)[21]
  • Fellow (DEPS) (2012)[22]
  • Fellow American Institute of Aeronautics and Astronautics (AIAA) (2015)[23]

In 2003 the Dayton, OH section of the IEEE awarded him the Harrell V. Noble award for electronic devices for work having significant impact. In 2008, at the SPIE Defense Security and Sensing, DSS, symposium, he was awarded the best paper award in the Automatic Target Recognition conference.

Books authored[]

  • LiDAR Technologies and Systems, (2019), published by SPIE (The International Society for Optics and Photonics), Date Published: 10 July 2019, Pages: 520, ISBN 9781510625396, Volume: PM300[24]
  • Field Guide to LiDAR, (2015) published by SPIE (The International Society for Optics and Photonics), Published: 2015, PDF ISBN 9781628416558 | Print ISBN 9781628416541[25]

References[]

  1. ^ "Special Events - Alumni Awards - Distinguished Alumnus Award - Saint Ignatius High School". Ignatius.edu. 2014-03-31. Retrieved 2014-07-17.
  2. ^ "Dr. Paul F. McManamon, U.S. Air Force > Biography Display". Af.mil. 2008-05-02. Retrieved 2014-07-17.
  3. ^ "paul mcmanamon - Google Scholar Citations". Scholar.google.com. Retrieved 2014-07-17.
  4. ^ "Advanced Air and Surface Target Identification ATD, Defense Technology Objectives for JWSTP" (PDF). Retrieved 2014-08-16.
  5. ^ "Laser Radar: Progress and Opportunities in Active Electro-Optical Sensing". Nap.edu. Retrieved 2014-07-17.
  6. ^ "Optics and Photonics: Essential Technologies for Our Nation". Nap.edu. Retrieved 2014-07-17.
  7. ^ "Fast-Track Action Committee on Optics and Photonics: Building a Brighter Future with Optics and Photonics" (PDF). Office of Science and Technology Policy. April 2014. Retrieved 2014-07-17 – via National Archives.
  8. ^ "'The Promise of Optics and Photonics' Presented on Capitol Hill". PHOTONICS.com The latest on light research and applications from Photonics Media. Retrieved 2014-08-16.
  9. ^ "Official release of the National Academy of Science landmark report "Optics & Photonics: Essential Technologies for Our Nation". The National Academy of Sciences, Washington, DC". OSA: The Optical Society. 2013-02-28. Retrieved 2014-08-16.
  10. ^ "Special Seminar: "Presenting the recently released National Academy Optics and Photonics report (Harnessing Light II)", Paul McManamon & Stephen Anderson". The College of Optics & Photonics : University of Central Florida. 2012-09-27. Retrieved 2014-08-16.
  11. ^ Paul McManamon (2012). "Harnessing Light" study will be just a starting point. Retrieved 2014-08-11.
  12. ^ "White House press release 3-Oct-2014. President Obama Announces New Manufacturing Innovation Institute Competition". whitehouse.gov. 2014-10-03. Retrieved 2014-10-04 – via National Archives.
  13. ^ "Uber Says It Didn't Steal Waymo's Self-Driving Tech". BuzzFeed News. Retrieved 2019-07-29.
  14. ^ "Redacted version of 1st Declaration, April 11". Retrieved 2019-07-29.
  15. ^ "IEEE W. R. G. Baker Prize Paper Award" (PDF). IEEE. Retrieved 2014-07-17.
  16. ^ "Air Force civilians win presidential rank awards:". U.S. AIR FORCE. Retrieved 2014-08-13.
  17. ^ "Dr. Paul McManamon : SPIE.org Profile". Spie.org. Retrieved 2014-07-17.
  18. ^ "DR.Paul F. McManamon > U.S. Air Force > Biography Display". Af.mil. 2008-05-02. Retrieved 2014-07-17.
  19. ^ "Fifty-Four OSA Members Elevated to Rank of Fellow | News Releases | The Optical Society" (Press release). The Optical Society. January 14, 2008. Retrieved 2014-07-17.
  20. ^ "Fellows Directory". IEEE. Retrieved 2014-07-17.
  21. ^ "Fellow Listing". Sensiac. Retrieved 2014-07-17.
  22. ^ "DEPS Fellows". Deps.org. Retrieved 2014-07-17.
  23. ^ "AIAA Announces the Class of 2015 Fellows and Honorary Fellows : The American Institute of Aeronautics and Astronautics". Aiaa.org. 2015-01-16. Retrieved 2015-01-17.
  24. ^ "LiDAR Technologies and Systems". SPIE. Retrieved 2019-07-29.
  25. ^ "Field Guide to LiDAR Technologies and Systems". SPIE. Retrieved 2019-07-29.
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