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CV: Electromagnetics specialist
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Candidate Profile
Date Submitted: Last Modified:Job information
Current job: Employment Term: Relocation: Date available: Industry: KeywordsCV
Employment Objective
To further the development of advanced modeling and simulation for electromagnetics applications in antenna and propagation analysis
Education
School Degree Year GPA
M.I T. Bachelor of Science 1975 4.8/5.0
University of Maryland Master of Science 1978 3.7/4.0
University of Maryland Doctor of Philosophy 1982 3.7/4.0
Experience
Company: Illinois Institute of Technology Research Institute (Jan 1983-Dec 2002)
Positions held: Associate Programmer analyst through Engineering Science Advisor
Activities: Algorithm and detailed software design for the DoD Joint Spectrum Center’s Planar and Linear Phased Array Analysis Model (PALPAM). Adaptation of BMDATC conformal array antenna model into the JSC’s Cylindrical Conformal Phased Array analysis Model (CCPAM), Algorithm and detailed software design for PALPAM pattern optimization capability that simulates performance of adaptive array antennas constructed in fully adaptive, multiple-sidelobe-canceller and multibeam formats. Construction of novel Uniform Geometrical of Diffraction (UTD) solutions for the representation of fields in the shadow region of perfectly conducting, impedance, and material-coated cylinders. Overall conceptual design and UTD-module detailed design and development for the JSC’s general facetized-geometry aircraft antenna modeling capability ARAPP.
Company: Alion Science and Technology (Dec 2002-Feb 2008)
Positions held: Principal Engineer
Activities Creation of novel asymptotic solutions for propagation of electromagnetic fields over arbitrarily curved surfaces that are either non-metallic surfaces characterizable in terms of an impedance boundary condition or are metallic surfaces coated with a single layer or multiple layers of dielectric/magnetic material. Development /implementation of algorithms and software for the adaptation of the ARAPP model to advanced aircraft with treatments applied to achieve low observability Design of novel two and three dimensional algorithms for computationally efficient ray tracing in urban environments.
PUBLICATIONS/presentations:
1. Poincare group considerations for relativistic bound state models of the hadrons, Bull. Am. Phys. Soc. 25, 491, (1980), P. E. Hussar
2. Three particle symmetry classifications according to the method of Dirac, Am. J. Phys., 48, 1038-1042, (1980), P. E. Hussar, Y. S. Kim, and M. E. Noz
3. Quark model in the quantum mechanics curriculum, Am. J. Phys., 48, 1043-1049 (1980), P. E. Hussar, Y. S. Kim, and M. E. Noz
4. Poincare group, symplectic group, and relativistic extended hadrons consisting of spin ½ quarks, Proc. 9th Int. Conf. Gp. Theo. Meth. Phys., K. B. Wolf, ed., Springer Verlag, New York, (1980), 234, P. E. Hussar, Y. S. Kim, and M. E. Noz
5, The covariant harmonic oscillator and the valon model, Bull Am. Phys. Soc., 26, 596, (1981), P. E. Hussar
6. Valons and harmonic oscillators, Phys Rev. D 23, 2781, (1981), P. E. Hussar
Time-energy uncertainty relation and Lorentz covariance, Am. J. Phys., 53, 142-147, (1985), P. E. Hussar, Y. S. Kim, and M. E. Noz
7, Planar array model for USAEHA RADHAZ analysis, Vol. 1 Program Description, ECAC-CR-85-111-1, DoD ECAC, (1985), P. E. Hussar, A. F. Anderson, and K. W. O’Haver
8. A cylindrical conformal phased array analysis model, ECAC-TN-85-005, DoD ECAC, (1985), J. Ross and P. Hussar
9. A reexamination of SU(6) symmetry breaking in high-energy phenomenology, Z. Phys C 40, 153-162 (1988), M. L. Haberman and P. E. Hussar
10. Surface diffraction over geodesics-over-airframes-technique (GOAT) type surfaces, North American Radio Science Meeting Program and Abstracts, 210, (1989), P. Hussar
11. Reexamination of SU(6) symmetry breaking in high energy phenomenology, Nuc. Phys. B. (Proc. Suppl.) 6 262-264, (1989), M. L. Haberman and P. E. Hussar
12. A technical description of the Aircraft inter-Antenna Propagation with Graphics (AAPG) computer program, ECAC-HDBK-90-083, DoD ECAC, (1990), W. R. Klocko, P. A. Masters, P. E. Hussar, and B. P. Campbell
13. On the asymptotic frequency behavior of uniform GTD in the shadow region of a smooth convex surface, 1991 North American Radio Science Meeting Program and Abstracts, 182, (1991), P. Hussar and R. Albus
14. On the asymptotic frequency behavior of uniform GTD in the shadow region of a smooth convex surface, IEEE Trans. Antennas Propagation, 1672-1680, (1991), Paul Hussar and Richard Albus
15. An adaptive nulling capability for ECAC’s Planar and Linear Phased Array Analysis Model, ECAC-TB-92-001, DoD ECAC, (1992), P. Hussar and M. Haberman
16. Calculation of the nucleon structure function from the nucleon wave function, Workshop on Harmonic Oscillators, D. Han, Y. S. Kim, and M. E. Noz , ed, NASA Conf. Pub.3197, 511-523, (1992), Paul E. Hussar
17. A uniform GTD treatment of surface diffraction by impedance and coated cylinders, 1993 URSI Radio Science Meeting Program and Abstracts, 336, (1993), Paul E. Hussar
18. An AAPG surface diffraction formulation for advanced aircraft surfaces, JSC-TR-95-001, DoD Joint Spectrum Center, (1995), Paul E. Hussar
19. A Fock-function representation of the fields induced on an impedance or coated cylindrical surface by a z-directed point source, IEEE Antennas and Propagation Society International Symposium 1995 Digest, 1930 (1995), Paul E. Hussar
20. Residue-series computation of lit-region fields via a novel function, IEEE Antennas and Propagation Society International Symposium 1995 Digest, 1931, (1995), Paul E. Hussar
21. UTD analysis of inter-antenna EMC on fully realistic aircraft models, Electromagnetic Code Consortium Annual Meeting, (1997), V. Oliker and P. Hussar
22. UTD analysis of inter-antenna EMC on fully realistic aircraft models, 1997 North American Radio Science Meeting Program and Abstracts, 720, (1997), V. Oliker and P. Hussar
23. UTD prediction of radiation-pattern platform effects on fully realistic aircraft models, 1998 Electromagnetic Code Consortium Meeting, (1998), P. Hussar, E. Smith-Rowland, E. Oliker, V. Oliker, and L. Pressner
24. UTD prediction of radiation-pattern platform effects on fully realistic aircraft models, USNC/URSI National Radio Science Meeting 1998 Digest, 46, (1998), Paul Hussar and Vladimir Oliker
25. A uniform GTD treatment of surface diffraction by impedance and coated cylinders, IEEE Trans. Antennas Propagation, 998-1008, (1998), Paul E. Hussar
26. Point-source excited boundary-layer fields near a convex doubly-curved impedance surface, UNSC/URSI Radio Science Meeting URSI Digest,89 (1999), P. Hussar and E. Smith-Rowland
27. An implementation of the UTD on facetized CAD platform models, IEEE Antennas and Propagation Magazine, Vol. 42, No. 2, April 2000, pp. 100-106
28. The creeping-wave problem for a general smooth convex surface, USNC/URSI National Radio Science Meeting Abstracts, 2, (2001), P. E. Hussar and E. M. Smith-Rowland
29. Formal and computational aspects of the creeping-wave problem on a singly-coated doubly-curved convex surface, USNC/URSI National Radio Science Meeting 2001 Digest, 15, (2001), P. Hussar and E. Smith-Rowland
30. An asymptotic solution for boundary-layer fields near a convex impedance surface, Journal of Electromagnetic Waves and Applications , Vol. 16, , No. 2, 185-208, (2002) P. E. Hussar and E. M. Smith-Rowland
31. High Frequency Radiation Pattern Analysis for Antennas Conformal to Convex Platform Surfaces. USNC/URSI National Radio Science Meeting 2002 Digest, 29, (2002), P. Hussar, E. Smith-Rowland and B. Campbell (Invited Paper)
32. Feynman Oscillators and Feynman’s Partons, Proceedings of the First Feynman Festival, (2002), P. Hussar
33. A Dyadic Green’s Function Representation of Fields Near a Convex Impedance Surface, 2003 IEEE International Symposium on Electromagnetic Compatibility
34. A Dyadic Green’s Function Representation of Fields Near a Convex Impedance Surface, 2003 IEEE International Symposium on Electromagnetic Antennas and Propagation and USNC/CNC/URSI National Radio Science Meeting, 2003
35. High Frequency Radiation Pattern Analysis for Antennas Mounted on Material Coated Platforms of General Shaper, The 20th Annual Review of Progress in Applied Computational Electromagnetics,, 2004, , P. Hussar
36. An Asymptotic Green’s Function Representation for Fields in the Vicinity of an Arbitrary Convex Multilayer Coated Conducting Surface, 2004 IEEE APS International Symposium and USNC/URSI National Radio Science Meeting, June, 2004, P. E. Hussar
37. An Asymptotic Green’s Funct5ion Representation for Fields Radiated into the Far Shadow Zone of an Arbitrary Convex Multilayer Coated Conductor, 2005 IEEE APS International Symposium and USNC/URSI National Radio Science Meeting, July, 2005, P. E. Hussar
38. Fock Currents fo4r the Shadow Region of an Arbitrary Convex Multilayer Coated Conducting Surface, International Conference on Electromagnetics in Advanced Applications (ICEAA ’05) 149-152, Turin, Italy, Sept., 2005, P. E. Hussar, R. Larson, M Williams, and S. Thai
39. 2D Ray Tracing in Urban Environments via Hierarchical Visibility Map Construction, 2006 IEEE APS International Symposium and USNC/URSI National Radio Science Meeting, July, 2006, P. E. Hussar and E. M. Smith-Rowland
40. Asymptotic Evaluation of Inter-Antenna Coupling on Convex Multilayer Coated Surfaces, Electromagnetic Theory Symposium (EMTS), July, 2007.
41. Novel Projection Methods for Efficient Ray Tracing in Complex Environments, Electromagnetic Theory Symposium (EMTS), July, 2007, P. E. Hussar, T. D. Jeech, and E. M. Smith-Rowland.
42. Analytical Construction of Illumination maps for Doubly Diffracted Rays, 2008 URSI General Assembly, August 2008
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