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==After Academics==
==After Academics==


While a professor at [[Penn State]] he founded [[Remcom]], Inc. In December of 2001 he resigned from [[Penn State]], retaining the title of Adjunct Professor.
While a professor at [[The Pennsylvania State University | Penn State]] he founded [[Remcom | Remcom, Inc.]], Inc. In December of 2001 he resigned from [[The Pennsylvania State University | Penn State]], retaining the title of Adjunct Professor.


Dr. Luebbers has published widely in the areas of analysis of frequency selective surfaces, applications of the Geometrical Theory of Diffraction, and applications and extensions of the [[Finite-difference time-domain method]]. He is co-author of a book called The Finite Difference Time Domain Method for Electromagnetics <ref>http://books.google.com/books?id=00on9fRvJqIC&printsec=frontcover&dq=The+finite+difference+time+domain+method+for+electromagnetics&ei=IHDfS42qJ46WzgTK-ti4CQ&cd=1#v=onepage&q&f=false The finite difference time domain method for electromagnetics By Karl S. Kunz, Raymond J. Luebbers</ref><ref>http://www.amazon.com/Finite-Difference-Domain-Method-Electromagnetics/dp/0849386578 Amazon.com - Finite Difference Time Domain Method for Electromagnetics 978-0849386572</ref>. He has made invited presentations and presented short courses at several international meetings. The paper "FDTD Calculation of Scattering from Frequency-Dependent Materials," by R. Luebbers, D. Steich, and K. Kunz, received the 1993 Schelkunoff Best Paper Award of the [[IEEE]] Antennas and Propagation Society.
Dr. Luebbers has published widely in the areas of analysis of frequency selective surfaces, applications of the Geometrical Theory of Diffraction, and applications and extensions of the [[Finite-difference time-domain method]]. He is co-author of a book called The Finite Difference Time Domain Method for Electromagnetics <ref>http://books.google.com/books?id=00on9fRvJqIC&printsec=frontcover&dq=The+finite+difference+time+domain+method+for+electromagnetics&ei=IHDfS42qJ46WzgTK-ti4CQ&cd=1#v=onepage&q&f=false The finite difference time domain method for electromagnetics By Karl S. Kunz, Raymond J. Luebbers</ref><ref>http://www.amazon.com/Finite-Difference-Domain-Method-Electromagnetics/dp/0849386578 Amazon.com - Finite Difference Time Domain Method for Electromagnetics 978-0849386572</ref>. He has made invited presentations and presented short courses at several international meetings. The paper "FDTD Calculation of Scattering from Frequency-Dependent Materials," by R. Luebbers, D. Steich, and K. Kunz, received the 1993 Schelkunoff Best Paper Award of the [[IEEE]] Antennas and Propagation Society.
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==Remcom==
==Remcom==


While President of [[Remcom]], Inc., Dr. Luebbers <ref>http://www.remcom.com/examples/keyless-entry.html Keyless Entry</ref><ref>http://www.remcom.com/meet-remcom-employees/h-scott-langdon-corporate-chief-technology-officer-product-m.html H. Scott Langdon (Corporate Chief Technology Officer. Product Manager, EM Software Tools)</ref> lead it to international recognition as an innovator and developer of commercial [[electromagnetic]] analysis software.
While President of [[Remcom | Remcom, Inc.]], Inc., Dr. Luebbers <ref>http://www.remcom.com/examples/keyless-entry.html Keyless Entry</ref><ref>http://www.remcom.com/meet-remcom-employees/h-scott-langdon-corporate-chief-technology-officer-product-m.html H. Scott Langdon (Corporate Chief Technology Officer. Product Manager, EM Software Tools)</ref> lead it to international recognition as an innovator and developer of commercial [[electromagnetism | electromagnetic ]] analysis software.


[[Remcom]] also performs research and development under contract to government and industry.
[[Remcom]] also performs research and development under contract to government and industry.

Revision as of 02:02, 4 May 2010

Dr. Raymond J. Luebbers received the B.S.E.E. from the University of Cincinnati with High Honors, and M.S.E.E. and Ph.D. in Electrical Engineering from The Ohio State University. He was Professor of Electrical Engineering at Ohio University, Athens, Ohio, and a Research Scientist at the Lockheed Martin Research Laboratory in Palo Alto, CA. In 1984 he joined the Electrical Engineering Department of The Pennsylvania State University. During the 1991-1992 academic year he was an National Science Foundation Visiting Professor in the Faculty of Engineering, Tohoku University, Sendai, Japan.

After Academics

While a professor at Penn State he founded Remcom, Inc., Inc. In December of 2001 he resigned from Penn State, retaining the title of Adjunct Professor.

Dr. Luebbers has published widely in the areas of analysis of frequency selective surfaces, applications of the Geometrical Theory of Diffraction, and applications and extensions of the Finite-difference time-domain method. He is co-author of a book called The Finite Difference Time Domain Method for Electromagnetics [1][2]. He has made invited presentations and presented short courses at several international meetings. The paper "FDTD Calculation of Scattering from Frequency-Dependent Materials," by R. Luebbers, D. Steich, and K. Kunz, received the 1993 Schelkunoff Best Paper Award of the IEEE Antennas and Propagation Society.

He has served on the Board of Directors and as Vice-President of the Applied Computational Electromagnetics Society (ACES)[3]. He is a Member of International Union of Radio Science (URSI) Commission B, and is a member of IEEE Standards Coordinating Committee 34 on Electromagnetic Energy Product Performance Safety.

Remcom

While President of Remcom, Inc., Inc., Dr. Luebbers [4][5] lead it to international recognition as an innovator and developer of commercial electromagnetic analysis software.

Remcom also performs research and development under contract to government and industry.

Remcom was one of only five companies to receive a 2001 US Army Small Business Innovative Research Quality Award. Dr. Luebbers retired from Remcom, Inc. in July 2008 but still consults with the company regularly.

Educational Background

Selected Memberships and Professional Activities Experience

  • Fellow of the Institute of Electrical and Electronic Engineers, and of IEEE Antennas and Propagation Society
  • Past Member of Board of Directors, Vice-President, and Editorial Board Member of the Applied Computational Electromagnetics Society (ACES)
  • Member of Institute of Electrical and Electronic Engineers Standards Coordinating Committee 34 on Electromagnetic Energy Product Performance Safety, 1997-present

Awards

  • The paper "FDTD Calculation of Scattering from Frequency-Dependent Materials," by R. Luebbers, D. Steich, and K. Kunz [6] (September 1993 issue of AP-S Transactions) received the Schelkunoff Best Paper Award of the IEEE Antennas and Propagation Society.

Select Publications

  • R. Luebbers, A. Smith, S.A. Fast, J.W. Schuster, “A Demonstration of Utilizing High Fidelity Propagation Models for Emitter Localization in Urban Environments,” International Union of Radio Science (URSI), Boulder, CO, January 5-8, 2004.
  • R. Luebbers, “Using FDTD To Illustrate the Behavior of Double Negative Materials,” 2003 IEEE International Antennas and Propagation Symposium and USNC/CNC/URS North American Radio Science Meeting, pp. 30, June 2003.
  • C. Penney, R. Luebbers, and J. Schuster. "Scattering from Coated Targets Using a Frequency-Dependent, Surface Impedance Boundary Condition," IEEE Transactions on Antennas and Propagation, vol 44, no 4, pp 434-443, April 1996 [7]
  • R. Luebbers, "Comparison of Lossy Wedge Diffraction Coefficients with Application to Mixed Path Propagation Loss Prediction", IEEE Transactions on Antennas and Propagation, vol 36, no 7, pp 1031-1034, July 1988. [8]
  • R. Luebbers, "Propagation Prediction for Hilly Terrain Using GTD Wedge Diffraction", IEEE Transactions on Antennas and Propagation, vol 32, no 9, pp. 951-955, September 1984. [9]
  • R. Luebbers, "Finite Conductivity Uniform GTD Versus Knife Edge Diffraction in Prediction of Propagation Path Loss", IEEE Transactions on Antennas and Propagation, vol 32, no 1, pp. 70-76, January 1984.[10]

References

  1. ^ http://books.google.com/books?id=00on9fRvJqIC&printsec=frontcover&dq=The+finite+difference+time+domain+method+for+electromagnetics&ei=IHDfS42qJ46WzgTK-ti4CQ&cd=1#v=onepage&q&f=false The finite difference time domain method for electromagnetics By Karl S. Kunz, Raymond J. Luebbers
  2. ^ http://www.amazon.com/Finite-Difference-Domain-Method-Electromagnetics/dp/0849386578 Amazon.com - Finite Difference Time Domain Method for Electromagnetics 978-0849386572
  3. ^ http://aces.ee.olemiss.edu/history.php The Applied Computational Electromagnetics Society
  4. ^ http://www.remcom.com/examples/keyless-entry.html Keyless Entry
  5. ^ http://www.remcom.com/meet-remcom-employees/h-scott-langdon-corporate-chief-technology-officer-product-m.html H. Scott Langdon (Corporate Chief Technology Officer. Product Manager, EM Software Tools)
  6. ^ http://ece.iut.ac.ir/faculty/safian/Papers/FDTD/Dispersive%20medium/PLRC/FDTD%20calculation%20of%20scattering%20from%20frequency-dependent%20materials.pdf FDTD Calculation of Scattering from Frequency-Dependent Materials
  7. ^ http://ieeexplore.ieee.org/Xplore/login.jsp?url=http%3A%2F%2Fieeexplore.ieee.org%2Fiel4%2F8%2F10528%2F00489294.pdf%3Farnumber%3D489294&authDecision=-203 Scattering from coated targets using a frequency-dependent, surface impedance boundary condition in FDTD
  8. ^ http://ieeexplore.ieee.org/Xplore/login.jsp?url=http%3A%2F%2Fieeexplore.ieee.org%2Fiel4%2F8%2F378%2F00007210.pdf%3Farnumber%3D7210&authDecision=-203 - Comparison of lossy wedge diffraction coefficients with application to mixed path propagation loss prediction
  9. ^ http://ieeexplore.ieee.org/Xplore/login.jsp?url=http%3A%2F%2Fieeexplore.ieee.org%2Fiel6%2F8%2F25649%2F01143449.pdf%3Farnumber%3D1143449&authDecision=-203 - Propagation prediction for hilly terrain using GTD wedge diffraction
  10. ^ http://ieeexplore.ieee.org/Xplore/login.jsp?url=http%3A%2F%2Fieeexplore.ieee.org%2Fiel6%2F8234%2F25638%2F01143189.pdf%3Farnumber%3D1143189&authDecision=-203 Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss
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