Yonina Eldar

Yonina C. Eldar (Hebrew: יונינה חנה אלדר; born 25 January 1973) is an Israeli professor of electrical engineering at the Weizmann Institute of Science, known for her pioneering work on sub-Nyquist sampling[1][2][3]

Yonina Eldar
Yonina Eldar in 2012
Born (1973-01-25) 25 January 1973
NationalityIsraeli
Alma materTel Aviv University
Known forSub-Nyquist sampling
Children5
AwardsMember of the Israel Academy of Sciences and Humanities
EURASIP fellow
IEEE Kiyo Tomiyasu Award
The Hershel Rich Technion Innovation Award
The Henry Taub Prize for Academic Excellence
IEEE/AESS Fred Nathanson Memorial Radar Award
IEEE Signal Processing Society Technical Achievement Award
IEEE Fellow
Weizmann Prize for Exact Sciences
Michael Bruno Memorial Award from the Rothschild Foundation
The Henry Taub Prize for Excellence in Research
Wolf Foundation Krill Prize for Excellence in Research
Scientific career
FieldsElectrical engineering
Signal processing
InstitutionsWeizmann Institute of Science
Technion
MIT
Broad Institute,
Duke University
Stanford University
ThesisQuantum Signal Processing (2002)
Doctoral advisorAlan V. Oppenheim

Early life and education

Eldar was born in Toronto, Canada. She is the third daughter of Rabbi Meyer and Vicky Berglas. She moved with her family to Israel in 1979. She received her B.Sc. degree in physics and the B.Sc. degree in electrical engineering both from Tel-Aviv University (TAU), Tel-Aviv, Israel, in 1995 and 1996, respectively.[4]

Her Ph.D. degree in electrical engineering and computer science was received from the Massachusetts Institute of Technology (MIT), Cambridge, Massachusetts, in 2002. Eldar authored the thesis Quantum Signal Processing under the supervision of Alan V. Oppenheim.[5] Her postdoctoral research was completed in 2002 at the Digital Signal Processing Group at MIT.[4]

Career

Eldar moved back to Israel on 2002 and became a senior lecturer in the Electrical Engineering Department at the Technion, Haifa. In 2005 she became an associate professor at that department, and in 2010, a full professor, holding the Edwards Chair in Engineering.[4]

From March 2019 Eldar is a professor in the Math and Computer Science Department, Weizmann Institute of Science, Rehovot. She is also a visiting professor at MIT and a visiting scientist at the Broad Institute, and was a visiting professor at Stanford University. She is also an adjunct professor at Duke University.[4]

Eldar is a member of the Israel Academy of Sciences and Humanities,[6] an IEEE Fellow[7] and a EURASIP Fellow.[8]

Work

Her research interests include sampling methods and A/D design, compressed sensing, detection and estimation theory, optimization for signal processing, medical imaging, signal processing and optimization for communication systems, signal and image processing for optics, deep learning and graphs, computational biology.[4]

Upon receiving the IEEE Kiyo Tomiyasu Award (2016), her research work and its implications were described by the award committee:

Yonina Eldar’s pioneering work on sub-Nyquist sampling and reconstruction of sparse analog signals has demonstrated the potential to improve radar, medical imaging, communication, and storage systems. Bridging the gap between theory and real-world applications, Eldar developed the concept of “Xampling” for sub-Nyquist sampling and built hardware prototypes to demonstrate how the technique works in practical settings. The ability to sample signals at rates significantly lower than the standard Nyquist rate, but without the distortion normally associated with such techniques, positively impacts power consumption, storage memory, size, and digital signal processing rates in analog-to-digital converters. Eldar’s innovations will enable portable ultrasound machines for emergency and rural medicine, radar systems with improved resolution, and better wireless capabilities for cognitive (intelligent) radio transmission and reception.[1]

Publications

Eldar is the author of the book Sampling Theory: Beyond Bandlimited Systems (2015)[9] and co-author of Compressed Sensing (2012)[10] and Convex Optimization Methods in Signal Processing and Communications (2010),[11] all published by Cambridge University Press.

She has more than 240 published journal articles[12] and has registered more than 20 patents.[13]

Honors and awards

Eldar has received dozens of awards for excellence in research and teaching, including the IEEE Signal Processing Society Technical Achievement Award (2013),[14] the IEEE/AESS Fred Nathanson Memorial Radar Award (2014),[15] and the IEEE Kiyo Tomiyasu Award (2016).[1] She was a Horev Fellow of the Leaders in Science and Technology program at the Technion (2002) and an Alon Fellow (2003).[16] She received the Michael Bruno Memorial Award from the Rothschild Foundation(2010),[17] the Weizmann Prize for Exact Sciences (2011),[18] the Wolf Foundation Krill Prize for Excellence in Scientific Research (2004),[19] the Henry Taub Prize for Excellence in Research (twice: 2015 and 2007), the Hershel Rich Innovation Award (three times: 2015, 2013 and 2008),[20] the Andre and Bella Meyer Lectureship (2005),[21] the Career Development Chair at the Technion, the Muriel & David Jacknow Award for Excellence in Teaching (2008), and the Technion’s Award for Excellence in Teaching (two times: 2013 and 2009).[22]

She received several best paper awards and best demo awards together with her research students and colleagues ,[23][24][25][26] and was selected as one of the 50 most influential women in Israel (2011)[27] and one of the 50 leading and influential academic women in Asia.[28] She was also a member of the Israel Committee for Higher Education.[29]

She is the Editor in Chief of Foundations and Trends in Signal Processing[30] and a member of several IEEE Technical Committees and Award Committees.[31][32][33][34][35]

Personal life

Eldar is married to Rabbi Shalomi. They have 5 children and live in Rehovot.[4]

References

  1. "IEEE Kiyo Tomiyasu Award Recipients". IEEE. 2016.
  2. "IEEE Signal Processing Society Technical Achievement Award" (PDF). IEEE. 2013.
  3. "Technion breakthrough could change sampling technology forever". American Technion Society. 2010.
  4. "Yonina Eldar's CV". Weizmann Institute of Science. 2019.
  5. "Curriculum Vitae of Alan V. Oppenheim" (PDF). MIT. 2019.
  6. "Members". the Israel Academy of Sciences and Humanities. 2017.
  7. "IEEE Fellows Directory". IEEE. 2019.
  8. "EURASIP Fellows". EURASIP. 2017.
  9. "Sampling Theory: Beyond Bandlimited Systems". Cambridge University Press. 2015.
  10. "Compressed Sensing: Theory and Applications". Cambridge University Press. 2012.
  11. "Convex Optimization in Signal Processing and Communications". Cambridge University Press. 2010.
  12. "Publications". Weizmann Institute of Science. 2019.
  13. "inventor: Yonina Eldar". Google Patents. 2019.
  14. "Award Recipients". IEEE Signal Processing Society. 2013.
  15. "Fred Nathanson Memorial Radar Award". IEEE Aerospace and Electronic Systems Society.
  16. "yonina eldar has been elected as a member of the israel academy of sciences". Technion.
  17. "Bruno laureates 1999-2017". Israel Institute for Advanced Studies. 2017.
  18. "Winners of Weizmann Prize (in Hebrew)" (PDF). Tel Aviv-Yafo Municipality. 2017.
  19. "Dr. Yonina C. Eldar Winner of Krill Prize in Physics - 2005". Wolf Foundation.
  20. "six senior scientists will join the israel academy of sciences next week (in Hebrew)". Hayadan.
  21. "Analog to Digital Compression". Columbia University.
  22. "Defying Nyquist in Analog to Digital Conversion". Centre Tecnològic de Telecomunicacions de Catalunya.
  23. "IEEE Signal Processing Society Donald G. Fink Overview Paper Award" (PDF). IEEE. 2019.
  24. "Show & Tell Best Demo Award 2014". Technion. 2014.
  25. "The SIAM Outstanding Paper Prizes". SIAM. 2014.
  26. "UFFC Outstanding Paper Award". IEEE. 2014.
  27. "34. Prof. Yonian Eldar (in Hebrew)". Globes. 2011.
  28. "Prof. Yonina Eldar chosen as a leading and influential academic woman in asia". Technion. 2019.
  29. "New Committee for Higher Education (in Hebrew)". Israel National News. 2012.
  30. "Foundations and Trends in Signal Processing". now publishers. 2019.
  31. "Medal committee members". IEEE. 2019.
  32. "Subcommittees 2018" (PDF). IEEE. 2018.
  33. "AESS Education Committee". IEEE. 2019.
  34. "The Third International Workshop on Computational Advances in Multi-Sensor Adaptive Processing Committee". IEEE. 2009.
  35. "Signal Processing for Communications and Networking Technical Committee Members". IEEE. 2019.
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