Robert J. Plemmons

Robert James Plemmons (born December 18, 1938) is an American mathematician specializing in computational mathematics.[1] He is the Emeritus Z. Smith Reynolds Professor of Mathematics and Computer Science at Wake Forest University.[2] In 1979, Plemmons co-authored the book Nonnegative Matrices in the Mathematical Sciences.[3]

Robert Plemmons in 2007

Education and life

Plemmons was born in 1938 in the small town of Old Fort, North Carolina, and grew up in rural Appalachia.[1] He attended Old Fort High School and graduated in 1957, having been the star athlete in both baseball and football.[4]

He attended Wake Forest University (WFU) on a full baseball scholarship.[5] Former athletic director Gene Hooks was his baseball coach.[6] In 1959, he held the record for earned run average.[7] During the years 1959–61, he held the record for victories, innings pitched, strikeouts, and complete games, and made All-Conference Pitcher all three years.[7] In the academic year 1960–61, he was awarded the WFU ACC Scholar-Athlete of the Year.[8][9] Plemmons graduated from Wake Forest in 1961 with a Bachelor of Science Degree in Mathematics.[1]

During the early 1960s, Plemmons played professional baseball for four years with the Baltimore Orioles' minor league clubs.[10][11] He played with the Tri-City Atoms, Aberdeen Pheasants, and Elmira Pioneers.[12]

In December 1963, he married Mary Jo Harris, also from Old Fort and a graduate of Old Fort High School.[3][4]

Plemmons attended graduate school at Auburn University from 1961 to 1965, receiving his PhD in Applied mathematics in 1965.[1] He then held research positions with Martin Marietta in Orlando, Florida, and the National Security Agency in Ft. Meade.[1] He served as a faculty member at the University of Mississippi from 1966 to 1967,[11] before moving to the University of Tennessee Knoxville in 1967.[1][11] In 1981, Plemmons moved to Raleigh, North Carolina, where he taught at North Carolina State University until 1990.[1][11] While there, he founded the University of North Carolina System's Center for Research in Scientific Computation.[13] Plemmons joined the faculty of Wake Forest University in 1990.[1] In 2013, he retired from teaching,[14] but still conducts research at WFU.[15][16] He was also the professor and mentor of former NBA and WFU basketball player Rusty LaRue.[11][17]

Academic work

Plemmons has focused his work on applied computational mathematics.[1] At Auburn in the early 1960s, Plemmons' work with PhD advisors Richard Ball and Emilie Haynsworth[1] was focused on finite semigroups theory.[18][19] He continued this research until the early 1980s at the University of Tennessee Knoxville.[20][21] In 1979, he co-authored the book Nonnegative Matrices in the Mathematical Sciences along with Abraham Berman.[3] The book has been cited over 7,500 times.[22] In 1994, it was revised and republished by the Society for Industrial and Applied Mathematics (SIAM).[23]

In the mid-to-late 1980s until mid 1990s, his research focused on numerical linear algebra,[24][25][26] specifically in Matrix Theory with applications in Markov chains and nonnegative matrices.[27][28] Plemmons has been recognized internationally for his significant contributions to the field, celebrated at the Linear Algebra: Theory, Applications, and Computations Conference held at Wake Forest University in 1999 in honor of Plemmons' 60th birthday,[1] and the International Workshop on Numerical Linear Algebra with Applications held in Hong Kong in 2013 in honor of his 75th birthday.[29]

Plemmons has been conducting research in imaging physics and applied optics at Wake Forest since the late 1990s.[1][30] He focused initially in biometrics, including iris recognition.[31][32][33] His current research is in space situational awareness, tracking space debris using optical methods to prevent damage to space assets.[30]

Over the years, he has received funding from the National Science Foundation, the National Security Agency, the Central Intelligence Agency, the North Atlantic Treaty Organization, the Air Force Office of Scientific Research, the Army Research Office, the Department of Energy, the Intelligence Advanced Research Projects Activity, and the National Geospatial-Intelligence Agency.[14] His research has been continuously funded by the Department of Defense since 1973.[34]

In 1996, Plemmons delivered a congressional testimony to the U.S. House of Representatives Committee on National Security,[34][35] in support of appropriations to the Department of Defense on behalf of the Joint Policy Board for Mathematics, including the American Mathematical Society and SIAM.[35]

The mathematics lineage of Plemmons can be traced back to the German mathematicians in the 17th century.[36] Among his current peers, he is a Fellow of the Society for Industrial and Applied Mathematics.[37]

He is the author of more than 250 publications on computational mathematics,[22] and has served on the editorial board of six journals.[5]

Books

  • Nonnegative Matrices in the Mathematical Sciences (1979), Academic Press, ISBN 1483260860[3]
  • Large scale matrix problems (1981), together with Åke Björck and Hans Schneider, North Holland, ISBN 0444005633[38]
  • Scientific Computing: Proceedings of the Workshop, 1997, Hong Kong (1997), edited with Gene H. Golub, Lui Shui-Hong, and T. Luk Franklin, Springer Science and Business Media, ISBN 9813083603[39]
  • Linear Algebra, Markov Chains, and Queueing Models (2012), edited with Carl D. Meyer, Springer Science and Business Media, ISBN 146138351X[40]

References

  1. Nagy, James; Ng, Michael (July 2, 2015). "Dedication to Robert J. Plemmons". Numerical Linear Algebra with Applications. 22 (5): 793–794. doi:10.1002/nla.2002. ISSN 1070-5325. S2CID 206314486.
  2. "Faculty – Department of Computer Science". college.wfu.edu. Retrieved August 9, 2018.
  3. Berman, Abraham; Plemmons, Robert J. (1979). Nonnegative Matrices in the Mathematical Sciences, 1st Edition. Academic Press. ISBN 9781483260860.
  4. Old Fort High School (Old Fort, N. C. ) (1957). The Arrowhead [1957]. McDowell County Public Library.
  5. "Math Dept History: 1980–1989". www4.ncsu.edu. Retrieved August 9, 2018.
  6. "Gene Says Deacs Set for Grind". The Gastonia Gazette. April 9, 1959. p. 11.
  7. "Wake Forest Baseball, 2002 Media Guide" (PDF). 2002. Archived from the original (PDF) on August 22, 2018. Retrieved August 21, 2018.
  8. "Wake Forest SASS – WakeForestSports.com – The Official Site of Demon Deacon Athletics". www.wakeforestsports.com. Retrieved August 9, 2018.
  9. "The Howler [1961] :: North Carolina College and University Yearbooks". library.digitalnc.org. Retrieved August 9, 2018.
  10. Terrell, Bob (June 4, 1961). "Orioles Sign Old Fort's Bob Plemmons". Asheville Citizen – Times (Sports).
  11. Collins, Dan (January 19, 2016). Tales from the Wake Forest Demon Deacons Locker Room: A Collection of the Greatest Demon Deacon Stories Ever Told. Skyhorse Publishing, Inc. ISBN 9781613218518.
  12. "Robert Plemmons Minor Leagues Statistics & History | Baseball-Reference.com". Baseball-Reference.com. Retrieved August 9, 2018.
  13. "Center for Research in Scientific Computation". www4.ncsu.edu. Retrieved August 9, 2018.
  14. "2013 Annual Report" (PDF). Office of Research and Sponsored Programs, Wake Forest University. 2013.
  15. Chan, Raymond H.; Kan, Kelvin K.; Nikolova, Mila; Plemmons, Robert J. (June 3, 2018). "A two-stage method for spectral-spatial classification of hyperspectral images". arXiv:1806.00836 [eess.IV].
  16. "Reasons To Join Us – Department of Computer Science". college.wfu.edu. Retrieved August 9, 2018.
  17. "Triple Threat". Wake Forest University Magazine: 32. December 1995 via Wake Forest University.
  18. Plemmons, R.J.; Tamura, T. (1965). "Semigroups with a maximal homomorphic image having zero". Proc. Japan Acad. 41 (8): 681–685. doi:10.3792/pja/1195522294.
  19. Plemmons, R. J. (1967). "On computing non-equivalent finite algebraic systems". Math. Algebra. 2: 80–84.
  20. Harrod, W.; Plemmons, R. J. (1984). "Comparison of some direct methods for computing stationary distributions of Markov chains". SIAM J. Sci. Stat. Comput. 5 (2): 453–469. doi:10.1137/0905033.
  21. Plemmons, R. J. (1973). "Regular nonnegative matrices". Proc. Amer. Math. Soc. 39: 26–32. doi:10.1090/s0002-9939-1973-0313274-6.
  22. "Google Scholar". scholar.google.com. Retrieved August 9, 2018.
  23. Berman, Abraham; Plemmons, Robert J. (1994). Nonnegative Matrices in the Mathematical Sciences. Society for Industrial and Applied Mathematics. doi:10.1137/1.9781611971262. ISBN 9780898713213.
  24. Bultheel, A.; Cools, R.; Chen, D.; Plemmons, P. (2010). "Nonnegativity constraints in numerical analysis". The Birth of Numerical Analysis, Volume 10. World Scientific. pp. 109–140. ISBN 978-9812836250.
  25. Henkel, C.S.; Plemmons, R.J. (1991). "Parallel recursive least squares on a hypercube multiprocessor, in: Numerical Linear Algebra, Digital Signal Processing and Parallel Algorithms". NATO ASI Series. Ser. F 70: 571–577.
  26. Berry, M.W.; Plemmons, R.J. (1985). "Computing a banded basis of the null space on the Denelcor HEP multiprocessor, in: Proceedings of the AMS/SIAM Conference on the Role of Linear Algebra in Systems Theory, Bowdoin, ME, USA". Contemporary Mathematics. 47: 7–23. doi:10.1090/conm/047/02.
  27. Kontovasilis, K.; Plemmons, R.J.; Stewart, W.J. (1991). "Block cyclic SOR for Markov chains with p-cyclic infinitesimal generator". Linear Algebra Appl. 154–156: 145–223. doi:10.1016/0024-3795(91)90377-9.
  28. Barker, G.; Plemmons, R.J. (1986). "Convergent iterations for computing stationary distributions of Markov chains". SIAM J. Algebr. Discrete Methods. 7 (3): 390–398. doi:10.1137/0607044.
  29. "CUHK :: Math :: International Workshop on Numerical Linear Algebra with Applications (November 17–18, 2013)". www.math.cuhk.edu.hk. Retrieved August 18, 2018.
  30. Stock-Windsor, Christina (March 1997). "A Clear View of Forever". Wake Forest Magazine. March 1997: 19–23.
  31. Jillela, R.; Ross, A.; Boddeti, N.; Vijaya Kumar, B.; Hu, X.; Plemmons, R.J.; Pauca, P. (2016). "Chapter 13: Iris Segmentation for Challenging Periocular Images". In Bowyer, K; Burge, M. (eds.). Handbook of Iris Recognition. Springer. pp. 281–308. ISBN 978-1447167846.
  32. Gracht, Joseph van der; Pauca, V. Paul; Setty, Harsha; Narayanswamy, Ramkumar; Plemmons, Robert; Prasad, Sudhakar; Torgersen, Todd (July 15, 2004). "Iris recognition with enhanced depth-of-field image acquistion [sic]". Visual Information Processing XIII. 5438: 120–129. doi:10.1117/12.542151. S2CID 2552897. {{cite journal}}: Cite journal requires |journal= (help)
  33. Hu, X.; Pauca, P.; Plemmons, R.J. (2011). "Iterative Directional Ray-based Iris Segmentation for Challenging Periocular Images". Biometric Recognition. Lecture Notes in Computer Science. LNCS7098: 91–99. doi:10.1007/978-3-642-25449-9_12. ISBN 978-3-642-25448-2.
  34. "What Does the Government Get For Its Investment in Basic Research?". SIAM News. 1996.
  35. United States. Cong. House. Subcommittee on National Security. Committee on Appropriations. Testimony on FY 1997 Appropriations for the Department of Defense. May 1, 1996. Chaired by the Hon. C.W. Bill Young. 104th Cong. 2nd sess. Washington: GPO, 1996 (statement of Robert J. Plemmons, Wake Forest University Professor, Representative of the Joint Policy Board for Mathematics).
  36. "Robert Plemmons – The Mathematics Genealogy Project". genealogy.math.ndsu.nodak.edu. Retrieved August 19, 2018.
  37. "SIAM Fellows: Class of 2013". siam.org.
  38. Björck, Åke; Plemmons, Robert J.; Schneider, Hans (1981). Large scale matrix problems. North Holland. ISBN 9780444005632.
  39. Golub, Gene H.; Shui-Hong, Lui; Franklin, T. Luk; Plemmons, Robert J. (June 1, 1998). Scientific Computing: Proceedings of the Workshop, 1997, Hong Kong. Springer Science & Business Media. ISBN 9789813083608.
  40. Meyer, Carl D.; Plemmons, Robert J. (December 6, 2012). Linear Algebra, Markov Chains, and Queueing Models. Springer Science & Business Media. ISBN 9781461383512.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.