Edward Neuman
Edward Neuman (born September 19, 1943[1] in Rydułtowy, Silesian Voivodeship, Poland)[2] is a Polish-American mathematician, currently a professor emeritus of mathematics at Southern Illinois University Carbondale.[3]
Edward Neuman | |
---|---|
Born | Edward Jerzy Neuman September 19, 1943 |
Nationality | Polish-American |
Alma mater | University of Wrocław |
Known for | Neuman–Sándor mean and Neuman means |
Scientific career | |
Fields | Mathematician and mathematics professor |
Institutions | Southern Illinois University |
Doctoral advisor | wmpl:Stefan Paszkowski |
Academic career
Neuman received his Ph.D. in mathematics from the University of Wrocław in 1972[4] under the supervision of wmpl:Stefan Paszkowski.[5] His dissertation was entitled "Projections in Uniform Polynomial Approximation." He held positions at the Institute of Mathematics and the Institute of Computer Sciences of the University of Wroclaw,[6] and the Institute of Applied Mathematics Bonn[7] in Germany. In 1986, he took a permanent faculty position at Southern Illinois University.
Contributions
Neuman has contributed 130 journal articles[8] in computational mathematics and mathematical inequalities such as the Ky Fan inequality, on bivariate means,[9] and mathematical approximations and expansions. Neuman also developed software for computing with spline functions[10] and wrote several tutorials for the MATLAB programing software.[11] Among the mathematical concepts named after Edward Neuman are Neuman–Sándor Mean and Neuman Means, which are useful tools for advancing the theory of special functions including Jacobi elliptic functions:
- The Neuman–Sándor mean[12]
- The Neuman Means of the first kind[13]
- The Neuman Means of the second kind[14]
Awards and honors
Neuman has received an award for notable and creative achievement from the Poland's Secretary of Higher Education in 1983[15] and was named the Outstanding Teacher in 2001 in the College of Science at Southern Illinois University Carbondale. Neuman worked as a Validator[1] for the original release and publication of the National Institute of Standards and Technology (NIST) Handbook and Digital Library of Mathematical Functions. He serves on the Editorial Boards of the Journal of Inequalities in Pure and Applied Mathematics,[16] the Journal of Inequalities and Special Functions,[17] and Journal of Mathematical Inequalities.[18]
Selected works
The most frequently cited works by Neuman include:
See also
References
- "DLMF: Edward Neuman".
- www.sam3.pl, CONCEPT Intermedia. "Portal".
- "Edward Neuman | Mathematics | SIU".
- "Biographical".
- "Stefan Paszkowski – The Mathematics Genealogy Project".
- "Faculty of Mathematics and Computer Science - University of Wrocław".
- "Institute for applied mathematics: Home".
- "Edward Neuman – Google Scholar Citations".
- Chen, Shu-Bo; He, Zai-Yin; Chu, Yu-Ming; Song, Ying-Qing; Tao, Xiao-Jing (25 September 2014). "Note on certain inequalities for Neuman means". Journal of Inequalities and Applications. 2014 (1): 370. arXiv:1405.4387. doi:10.1186/1029-242x-2014-370. S2CID 55843711.
- "Spline Functions – from Wolfram Library Archive".
- "Tutorials".
- Huang, Hua-Ying; Wang, Nan; Long, Bo-Yong (8 January 2016). "Optimal bounds for Neuman–Sándor mean in terms of the geometric convex combination of two Seiffert means". Journal of Inequalities and Applications. 2016 (1). doi:10.1186/s13660-015-0955-2.
- "Ele-Math – Journal of Mathematical Inequalities: Sharp Lehmer mean bounds for Neuman means with applications".
- "Ele-Math – Journal of Mathematical Inequalities: Sharp inequalities involving Neuman means of the second kind".
- Bibliotekacyfrowa
- "JIPAM – Journal of Inequalities in Pure and Applied Mathematics".
- "Journal of Inequalities and Special Functions". Archived from the original on 2015-10-25. Retrieved 2016-10-11.
- "Ele-Math – Journal of Mathematical Inequalities: Editorial board".
- "On the Schwab–Borchardt mean" (PDF). Math Pannon.
- On the Schwab–Borchardt mean II
- Neuman, E. (1 December 1994). "The Weighted Logarithmic Mean". Journal of Mathematical Analysis and Applications. 188 (3): 885–900. doi:10.1006/jmaa.1994.1469.