Jump to content

Neil Siegel

From Wikipedia, the free encyclopedia

Neil Siegel
Born
Neil Gilbert Siegel

(1954-02-19) February 19, 1954 (age 70)
Alma materUniversity of Southern California
Known forBlue-Force Tracking
FBCB2
Hunter UAV
multicast communications protocols
low-data-rate networking protocols
Tactical Operations Centers
Command and Control Centers
SpouseRobyn Friend
MotherJudith Love Cohen
RelativesJack Black (half-brother)
AwardsUS National Medal of Technology and Innovation (2023)
US National Academy of Engineering (2005)
IEEE Simon Ramo Medal (2011)
IEEE Fellow (2011)
US National Academy of Inventors (2019)
Scientific career
FieldsEngineering, systems engineering, computer science
InstitutionsTRW
Northrop Grumman
University of Southern California
Doctoral advisorBarry Boehm
Websiteneilsiegel.usc.edu

Neil Gilbert Siegel (born February 19, 1954) is an American computer scientist, systems engineer, and engineer, known for his development of many key systems for the United States military, including the Blue-Force Tracking system, the U.S. Army's first unmanned air vehicle system, and the US Army forward-area air defense system.[1] Several of his inventions also found their way into consumer products, such as hand-held devices (e.g., mobile GPS devices, smartphones, etc.) whose map displays automatically orient themselves to align with the real-world's cardinal points.

Early life and work

[edit]

Siegel was born in Brooklyn, New York, to Bernard Siegel and Judith Love Cohen, and has lived most of his life in the area southwest of Los Angeles.[2] He has two full siblings, Howard and Rachel, and is an older half-brother of actor Jack Black.[3] He attended the University of Southern California, earning degrees in mathematics. During and after this time, he worked as a professional musician, mostly performing on the flute, and also playing folk and art music from the Balkans and the Middle East. Later, he earned a Ph.D. in systems engineering (also from USC), where his Ph.D. advisor was noted computer scientist Barry Boehm.

In 1976, he began work at what was then TRW (acquired by Northrop Grumman in 2002).

Career

[edit]

Starting in 1993, he led an organization at TRW that developed one-of-a-kind automation systems for the US military and (to a lesser extent) commercial companies. This organization achieved significant business success, growing rapidly every year during his tenure as leader (which continued until 2001). They created many new products whose general theme was automation support to decision-makers who operate in complex and stressful environments. In addition to the US Army and the US Air Force, customers during this time included the US steel industry and the movie industry.[1]

In 1993, his team fielded the US Army's first fully automated command-and-control system, the Forward-Area Air Defense C2 System. This system is still in use today.

In 1995, his team won the contract to develop the US Army's first "digital battlefield" system, called Force-XXI Battle Command Brigade and Below (generally known by the acronym FBCB2). This has resulted in a highly regarded capability for the US, now used by the Marine Corps, as well as the Army.

Also in 1995, his team delivered the US Army's first automated command post, which has been followed by a long series of related capabilities to the present time.

In 1997, he was given responsibility for "fixing" the Hunter UAV program, the US Army's first unmanned air vehicle. The program had suffered a series of crashes during testing, and was nominally "cancelled". During his tenure, the program became one of the US' most reliable unmanned air vehicles. The Hunter entered operational service in 1999 in the Balkans. unmanned air vehicles were unreliable novelties in 1997, but by the time he retired in 2015, unmanned air vehicles were in widespread use in both military and civilian settings.

His personal science and engineering contributions included many of the most-important techniques for transitioning the internet from wired to wireless operation. These include techniques for adapting the internet to operate over the slower and less reliable communications links entailed in wireless operation, such as a patent for performing routing in a constantly-changing network (ultra-low bandwidth intra-network routing[4]) and achieving acceptable dynamics through what he calls "force-structure-aware" networks.[5] He and his team also hold the first patent for having the display screen on a mobile device turn as the device is rotated, and they also hold the first patent for remote security administration of mobile devices that have been lost or stolen.

He has been a pioneer in large-scale deployments of GPS-enabled applications[6][7] (like the Blue-Force Tracking system). He has also been active in the field of structuring large-scale software developments so as to match the skill distribution encountered in real-world teams.

Since mid-2001, he has been the chief technology officer of TRW's Systems (now Northrop Grumman Mission Systems, and later, Northrop Grumman Information Systems). Prior to his tenure as VP / CTO, he served as VP / general manager of the Tactical Systems Division.

His work during this time has extended his earlier work in military networks, force-structure-aware networks, and large-scale system engineering methodologies. He retired at the end of 2015. He served as a VP and officer of the company for nearly 18 years.

As of 2016, Siegel became the IBM Professor of Engineering Management at USC.[8] In 2021, he also became a Professor of Computer Science Practice, and in 2024, he also became a Professor of Engineering Practice with Distinction. He is also an adjunct professor of engineering at UCLA.[9]

Awards and honors

[edit]
Neil Siegel receiving awards
National Medal of Technology and Innovation, presented by the President of the United States
IEEE Simon Ramo Medal for Systems Engineering and Systems Science
TRW Chairman's Award for Innovation; Dr. Siegel received this award 3 separate times

Siegel has received a number of awards and honors, including:

Consumer electronics, and the first wireless internet

[edit]

Siegel has had a major impact on the design and capabilities of many types of mobile consumer electronics, including smart phones, GPS receivers, and so forth. He is the documented earliest creator of a complete, operating adaptation of the internet to fully-routed wireless operation, and many important / related technologies that are widely used today in such wireless devices, including:

  • GPS-enabled mobile devices[18]
  • Automatic orientation of a map display to match the geographic cardinal points[19]
  • Optimizing unicast protocols (including TCP) for use on low-bandwidth, wireless networks[20]
  • Performing many security administrative and control tasks remotely[21]
  • Managing and administering a large network of wireless devices[22]
  • Increasing battery life on GPS-enabled devices[23]

Personal life

[edit]

Siegel is an experienced musician who plays the flute, târ,[24] ney,[25] and kaval[26] who has more than 1,500 concerts to his credit worldwide. He studied music with Iranian Sufi master Morteza Varzi for more than 20 years. He is a long-time member of Professional Musicians Local 47, American Federation of Musicians, AFL-CIO.[26]

He is married to Robyn Friend, a dancer, painter, writer, and singer, with whom he has performed all over the world during the last 30 years.[27]

He is on the board of several non-profit organizations, including the Providence Trinity Health Care Hospice Foundation, the Electric Infrastructure Security Council, and The Institute of Persian Performing Arts. Since 2013, he and his wife, Robyn, have operated their own charitable organization, The Siegel and Friend Foundation.[28]

References

[edit]
  1. ^ a b "Systems and inventions – Neil Siegel, Ph.D." neilsiegel.usc.edu.
  2. ^ Siegel, Neil (July 26, 2016). "In Memory of Judith Love Cohen: Mother, Wife, Friend, Author, Engineer". USC Viterbi School of Engineering. Retrieved June 13, 2019.
  3. ^ "Appreciations and photos – Neil Siegel, Ph.D."
  4. ^ "US Patent for Ultra-low bandwidth intra-network routing method Patent (Patent # 6,701,375 issued March 2, 2004) - Justia Patents Search". patents.justia.com.
  5. ^ "US Patent for Automated configuration of internet-like computer networks Patent (Patent # 6,212,559 issued April 3, 2001) - Justia Patents Search". patents.justia.com.
  6. ^ US patent 7,256,731
  7. ^ US patent 5,672,840
  8. ^ "Neil Siegel, Ph.D. – The IBM Professor of Engineering Management, Daniel J. Epstein Department of Industrial and Systems Engineering". neilsiegel.usc.edu.
  9. ^ "Faculty and Post-Doctoral Positions | MAE".
  10. ^ "Dr. Neil Siegel receives the U.S. National Medal of Technology and Innovation".
  11. ^ "NAE Members Directory – Dr. Neil G. Siegel". US National Academy of Engineering. Retrieved April 23, 2013.
  12. ^ "Fellow Class of 2011". IEEE. Archived from the original on April 30, 2013. Retrieved April 23, 2013.
  13. ^ "IEEE Simon Ramo Medal Recipients" (PDF). IEEE. Archived from the original (PDF) on June 19, 2010. Retrieved April 23, 2013.
  14. ^ a b "Awards – Neil Siegel, Ph.D."
  15. ^ "iCMG winners by category, 2011".
  16. ^ "Photo Release -- Northrop Grumman's Neil Siegel Honored With Government Contractor Chief Technology Officer (CTO) Innovator Award From Northern Virginia Technology Council/Washington Technology". November 17, 2011. Retrieved June 18, 2022.
  17. ^ "Neil Siegel Receives National Medal of Technology and Innovation". USC Viterbi | School of Engineering. Retrieved October 31, 2023.
  18. ^ FBCB2
  19. ^ U.S. Patent number 5,672,840
  20. ^ U.S. Patent number 6,701,375
  21. ^ U.S. Patent number 7,278,023
  22. ^ U.S. Patent number 6,212,559
  23. ^ U.S. Patent number 7,256,731
  24. ^ www.RobynFriend.com
  25. ^ www.neyzen.com
  26. ^ a b "Music – Neil Siegel, Ph.D." neilsiegel.usc.edu.
  27. ^ "About Robyn Friend, Ph.D."
  28. ^ "Service – Neil Siegel, Ph.D."
[edit]
pFad - Phonifier reborn

Pfad - The Proxy pFad of © 2024 Garber Painting. All rights reserved.

Note: This service is not intended for secure transactions such as banking, social media, email, or purchasing. Use at your own risk. We assume no liability whatsoever for broken pages.


Alternative Proxies:

Alternative Proxy

pFad Proxy

pFad v3 Proxy

pFad v4 Proxy