To Be Published list

Updated 4/2/2004

Agostino

 

Cao

  1. Qunsheng Cao, Yinchao Chen and R. Mittra, ¡°Application of a Two-Dimensional Multiresolution Time Domain Scheme in Conjunction with an Anisotropic Perfectly Matched Layer Absorber to the Analysis of Printed Transmission Lines,¡± to appear in MTT, 2002.
Chakravarthy
  1. S. Chakravarthy, R. Mittra and V.J. Varadan, ¡°Optimization of Microwave absorbers Using Frequency Selective Surfaces (FSS) Embedded in Carbon Fiber Composite Via the Micro Genetic Algorithm (MGA),¡± submitted to Journal of Smart Materials and Structures, Jan 2002.     tried to contact Varadan, but no reply
  2. S. Chakravarthy, R. Mittra, ¡°Design of a Polarization Selective Surface (PSS) for Dual-Reflector Applications Via the Parallel Micro-Genetic Algorithm (PWGA),¡± submitted to IEEE Trans. on Antennas and Propagation.          To appear in 2004.
Chan
  1. Kai Fai Chan, King Wai Lam, Chi Hou Chan, and Raj Mittra, ¡°Fast Computational Techniques for the Analysis of Microstrip Reflectarrays,¡± submitted to IEEE Trans. on Antennas and Propagation, May 14, 2003.
  2. Sun, Y.F.; Chan, C.H.; Mittra, R.; Tsang, L., ¡°Characteristic basis function method for solving large problems arising in dense medium scattering,¡± Antennas and Propagation Society International Symposium, 2003. IEEE ,Volume: 2 , June 22-27, 2003, pp:1068 ¨C 1071 [S]

 

Chen
  1. Y. Chen, Qunsheng Cao and Raj Mittra, ¡°Multiresolution Time Domain Scheme for Electromagnetic Engineering Application,¡± submitted to John Wiley & Sons, Inc.
Du

 

Gianni
  1. Tiberi, Rosace, Monorchio, Manara, and Mittra, ¡°A High Frequency Integral Equation Method for Analyzing Electromagnetic Scattering from Large Faceted Bodies,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

 

Hany
  1. Abd El-Raouf and Mittra, ¡°A New Domain Decomposition Approach For Solving Large Problems using the FDTD,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.
  2. Abd El-Raouf and Mittra, ¡°An FDTD-based Domain Decomposition Approach to the Solution of Coupling Problem between two Arrays,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.
  3. Hany AbdEl Raouf, V.V.S. Prakash, Yeo Junho and Raj Mittra, ¡°FDTD Simulation of Microstrip Phased Array with a Coaxial Feeding Line¡±, submitted to IEE Proceedings ¨C Microwaves, Antennas and Propagation, to appear in the June 2004.
Huang
  1.  
Kwon
  1.  
Kuzuoglu
  1. Mustafa Kuzuoglu and Raj Mittra, ¡°Design of Perfectly Matched Absorbers for Low Frequency Scattering Problems¡±, submitted to
Y. Lee

1.  

Y.J. Lee
  1. Young Ju Lee, Junho Yeo, Kyoung Dae Ko, Yoonjae Lee, Wee Sang Park, Raj Mittra, ¡°A Novel Design Technique for Control of Defect Frequencies of an Electromagnetic Band Gap (EBG) Cover for Dual-band Directivity Enhancement,¡± submitted to MOTL (#30934) in December 03.
  2. Young Ju Lee, Junho Yeo, Kyoung Dae Ko, Raj Mittra, Yoonjae Lee, and Wee Sang Park, ¡°Techniques for Controlling the Defect Frequencies of Electromagnetic Bandgap (EBG) Superstrates for Dual-band Directivity Enhancement of a Patch Antenna,¡± submitted to MOTL (Microwave and Optical Technology Letters), December 2003.
  3. Young Ju Lee, Junho Yeo, Raj Mittra, and Wee Sang Park, ¡°Application of an Electromagnetic Bandgap (EBG) Superstrates with Controllable Defects for a Class of Patch Antennas as a spatial angular filter,¡± submitted to IEEE Transactions on Antennas and Propagation, January 2004.
  4. Y.J. Lee, J. Yeo, K.D. Ko, R. Mittra, Y. Lee, and S. Park, ¡°Techniques for Controlling the Defect Frequencies of Electromagnetic Bandgap (EBG) Superstrates for Dual-band Directivity Enhancement of a Patch Antenna,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

 

Ji-Fu Ma

  1. J. Ma, R. Mittra and N. Huang, ¡°Improving the Convergence of the Iterative Solution of Matrix Equations in the Method of Moments Formulation Using Extrapolation Techniques,¡± IEE Proceedings-Microwaves, Antennas and Propagation.     in printing
  2. J.F. Ma, R. Mittra, N.T. Huang, ¡°Analysis of Multiple FSS Screens of Unequal Periodicity Using an Efficient Cascading Technique,¡± submitted to Trans. on Antennas and Propagation, Jan, 2004.
  1. JF. Ma, Yu, Su, Mittra, ¡°FDTD Simulation of Scattering from Objects with Double-Negative Material Characteristics,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.
  1.  

L. Ma

 

 

Marrone

1.      M. Marrone and R. Mittra, ¡°A Theoretical Study of the Stability Criteria for Hybridized FDTD Algorithms for Multiscale Analysis,¡± to appear in Trans. on Antennas and Propagation.

2.      M. Marrone and R. Mittra, ¡°Comparison Between Two Stable Hybridized Generalized 2D FDTD Algorithms for Multiscale Analysis,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

3.      M. Marrone and R. Mittra, ¡°A New Consistent Technique for the Construction of Symmetric Constitutive Matrices for Generalized Time Domain Algorithms,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

4.      M. Marrone and R. Mittra, ¡°A New Stable Hybrid Three-Dimensional Finite Difference Time Domain (FDTD) Algorithm for Analyzing Complex Structures,¡±submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

5.      M. Marrone, P. Grassi, and R. Mittra, ¡°A New Technique Based on the Cell Method for Calculating the Propagation Constant of Inhomogeneous Filled Waveguides,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

 

Mittra
  1. Yanjie Zhu, Yinchao Chen, Mingwu Yang, and Raj Mittra, ¡°Automatic Image Generation (AIG) Technique for Efficient and Systematic Multiresolution Time Domain (MRTD) Analysis,¡±
  2. Raj Mittra and V.V.S. Prakash, ¡°The Characteristic Basis Function Method: A New Technique for Fast Solution of Radar Scattering Problem,¡± Special Issue on CEM of ¡°Computer Modeling in Engineering & Sciences¡± (CMES) (to appear).
  3. R. Mittra, ¡°Challenging Problems in Computational Electromagnetics,¡± submitted to AP Magazine, October 2003.

6.      Mittra, Zhao, Yeo, and Sinan, ¡°Solution of Large Radiation and Scattering Problems Without Iteration Using the Fast Matrix Solver (FMS) and the Characteristic Basis Function Method (CBFM),¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

7.      Mittra, Zhao, L. Ma, ¡°Enhancing the FDTD with Asymptotic Methods to Solve Large Problems,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

8.      R. Mittra, ¡°Electromagnetic Scattering from Large Bodies Using an Extrapolation Technique,¡± submitted to 2004 International Symposium on Electromagnetic Theory (URSI-EMT¡¯04), Pisa, Italy, May 23-27, 2004.

9.      R. Mittra, ¡°Solution of EMI/EMC Problems Involving Large Aperture Antennas Mounted on Complex Platforms,¡± submitted to 2004 International Symposium on Electromagnetic Theory (URSI-EMT¡¯04), Pisa, Italy, May 23-27, 2004.

10.  R. Mittra, ¡°Techniques for Enhancement of Antenna Characteristics Using EBG Materials,¡± submitted to Bianisotropics 2004 Conference, Ghent, Belgium, September 22-24, 2004.

11.  R. Mittra, ¡°Characteristic Basis Function Method¡ªA Novel Approach to Solving Large Problems Involving Microwave Antennas, Arrays and Radar Scatterers,¡± submitted to ISAP¡¯04 Conference, Sendai, Japan, August 17-21, 2004.

 

Monorchio

1.      A. Monorchio, A.R. Bretones, R. Mittra, G. Manara and R.G. Martin, ¡°A Hybrid Time-Domain Technique that Combines the Finite Element, Finite Difference and MoM Techniques for Solving Complex Electromagnetic Problems,¡± submitted to IEEE Transactions on Antennas and Propagation, to appear in the December 2004.

2.      A. Monorchio, G. Tiberi, S. Rosace, G. Manara, R. Mittra, ¡°A high-frequency integral equation method for the electromagnetic scatterung from large faceted bodies¡±, submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.

Nader

 

Paolo

  1. Paolo Grassi, Agostino Monorchio, Raj Mittra and Giuliano Manara, ¡°Hybrid GSM/FE Analysis of Phased Arrays of Arbitrarily Shaped Apertures fed by Rectangular Waveguides¡±, submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004
  2. Paolo Grassi, Raj Mittra, Agostino Monorchio and Giuliano Manara, ¡°Characterization of Finite Waveguide Arrays using a New Generalized Scattering Matrix Approach¡±, submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004
  3.  

Prakash

  1. V.V.S. Prakash, Wenhua Yu, Ji-Fu Ma, and Raj Mittra, ¡°A Frequency Selective Surface (FSS) Simulator Package,¡± submitted to AP Magazine.   Under review
Rosace
  1.  
Semouchkina
  1. E. Semouchkina, W. Cao, R. Mittra and George Semouchkina, ¡°FDTD study of Resonance in EDGE-nad Side-Coupled Microstrip Ring Resonators,¡± submitted to International International Journal of Electronics (GB) .            under review
  2. Elena Semouchkina, George Semouchkina, Michael Lanagan, and Raj Mittra, ¡°New Approaches for Designing Microstrip Filters Utilizing Mixed Dielectrics,¡± to appear in MTT.          Ask again at the end of summer 2003
Tao

1.            Tao Su, Yongjun Liu, Wenhua Yu and Raj Mittra, ¡°A Conformal Mesh Generating Technique for Conformal Finite-Difference Time-Domain (CFDTD) Method,¡± appear in the Feb issue of AP Magazine.

2.            Su, Huang, Liu, Yu, Mittra, ¡°Investigation of Instability Characteristics Arising in the FDTD Simulation of Electrically Large Antenna Arrays,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004

 

Tiberi
  1. G. Tiberi, S. Rosace, A. Monorchio, G. Manara, R. Mittra, ¡°A High Frequency Integral Equation Method for Analyzing Electromagnetic Scattering from Large Faceted Bodies,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004
Yeo
  1. Junho Yeo, Yoonjae Lee and Raj Mittra, ¡°Wideband Slot Antennas for Wireless Communications,¡± submitted to IEE Proceedings-Microwaves, Antennas and Propagation, March, 2004, (paper # 41779)
  2. Junho Yeo and Raj Mittra, ¡°GA-based Design of Artificial Magnetic Ground planes (AMGs) utilizing Frequency Selective Surfaces for Bandwidth Enhancement of Microstrip Antennas,¡± submitted to AP.         To be revised and submitted again
  3. Junho Yeo and Raj Mittra, ¡°A GA-based Optimization Scheme for Extracting the Equivalent Circuit Models of Spiral Inductors embedded in a Multi-layer Structure,¡± Submitted to RF and Microwave Computer-Aided Engineering, 02/16/04
  1. Junho Yeo, Soonjae Kwon and Raj Mittra, ¡°Some Novel Techniques for Fast Simulation of Mixed-Signal IC and RF Package Design¡±, JF. Ma, Yu, Su, Mittra, ¡°FDTD Simulation of Scattering from Objects with Double-Negative Material Characteristics,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.
  2. Junho Yeo, Young Ju Lee and Raj Mittra, ¡°A Novel Dual-band WLAN Antenna for Notebook Platforms¡±, JF. Ma, Yu, Su, Mittra, ¡°FDTD Simulation of Scattering from Objects with Double-Negative Material Characteristics,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004.
  3. Junho Yeo, Sinan Köksoy, V.V.S. Prakash and Raj Mittra, ¡°Efficient Generation of Method of Moments Matrices Using the Characteristic Function Method,¡± submitted to IEEE AP transaction, Feb.2004.

 

Yu

      1.            Wenhua Yu and Raj Mittra, ¡°Conformal FDTD Method,¡± Book.

      2.            W. Yu, Y. Chen, ¡°Enhancement on Finite Difference Time Domain,¡± submitted to Wiley, October 2003.

      3.            Wenhua Yu and Raj Mittra, ¡°CFDTD: Conformal Finite Difference Time Domain Maxell¡¯s Equations Solver, Software and User¡¯s Guide,¡± Book submitted to Artech House Publishers,

  1. Yu, Liu, Su, Huang, Mittra, ¡°A Robust Parallel Conformal FDTD Algorithm and Its Application to Electrically Large Antenna Array Simulation,¡± submitted to IEEE Antennas & Propagation Society International Symposium/URSI, Monterey, California, June 2004
  2. Wenhua Yu, Yongjun Liu, Tao Su, Neng-Tien Hunag and Raj Mittra, ¡°A Robust Parallel Conformal Finite Difference Time Domain (PCFDTD) Processing Package Using MPICH Library,¡± appear in IEEE Antennas and Propagation magazine, vol. 46, # 1.

 

 

 

Staff    Publications    Research    Computer Software    Theses

Recent Symposium Papers    Capabilities and Some Recent Projects

Representative EM Modeling Projects

Back to Home

Contact Us