To Be Published list

 

 

 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.
  2. S. Chakravarthy and R. Mittra, “Design of a Polarization Selective Surface (PSS) for Dual-Reflector Applications Via the Parallel Micro-Genetic Algorithm (PMGA),” reviewing in IEEE Transactions on Antennas and Propagation, Paper No.: AP0105-0213 .
Chen
  1. Yinchao Chen, M. Yang, K. Sun and R. Mittra, "Application of the Non-Uniform FDTD Algorithm on an Auto-Adjustable Mesh to the Analysis of Scattering Parameters of a Sandwith-Type Coplanar Waveguide with Adjacent Vias in PCBs," submitted to International Journal of Electronics.
  2. Yinchao Chen, Qunsheng Cao and Raj Mittra, “Multiresolution Time Domain Scheme for Electromagnetic Engineering Application,” submitted to John Wiley & Sons, Inc.
  3. Zijiang Yang, Yinchao Chen, Wenhua Yu and Raj Mittra, “Hybrid FDTD/AutoCAD Method for the Analysis of BOR Horns and Reflectors,” submitted to IEEE AP.

Edward

  1. Ubeda Edward, V.V.S. Prakash and Raj Mittra, “Survey on the performance of block-type preconditioners for scattering and microwave problems,”
Hany
  1. Hany E. Abd El-Raouf, Wenhua Yu and Raj Mittra, “Application of Z-transform   to Modeling Lunmped load in FDTD,” to appear in Microwave and Wireless Components Letters, Manuscript No.  E-1355.
  2. Hany AbdEl Raouf , Wenhua Yu, Lai-Ching Ma and Raj Mittra, “Analysis of Microstrip Patch Arrays Using the Finite Difference Time Domain FDTD Method,”
  3. Hany AbdEl Raouf, V.V.S. Prakash, Yeo Junho and Raj Mittra, “FDTD Simulation of Microstrip Phased Array with a Coaxial Feeding Line,”
Mittra
  1. Raj Mittra, V.V.S. Prakash, J-F Ma, S.P. Benham and J. Lord, “MNM – A novel technique for the iterative solution of matrix equations arising in the method of moments formulation,” IEE Proc. Science, Measurement and Technology, Special Issue Computational Electromagnetics, Sept. 2002, (accepted).
  2. Raj Mittra and V.V.S. Prakash, “Some Novel Techniques for Efficient Solution of Large Problems arising in Computational Electromagnetics,”
  3. Yanjie Zhu, Yinchao Chen, Mingwu Yang, and Raj Mittra, “Automatic Image Generation (AIG) Technique for Efficient and Systematic Multiresolution Time Domain (MRTD) Analysis,”  
  4. Raj Mittra and V.V.S. Prakash, “The Characteristic Basis Function Method: A New Technique for Fast Solution of Radar Scattering Problem,” accepted in University of Minnesota Conference.

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,” submitted to IEE Proceedings-Microwaves, Antennas and Propagation.

Monorchio

  1. 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,”

Nader

  1. Nader Farahat, Junho Yeo, Wenhua Yu and Raj Mittra, “Analysis of a Tapered Coplanar Antenna Using the Non-Uniform Finite Difference Time Domain Method,” Electronics Letters.

Prakash

  1. V.V.S. Prakash, Raj Mittra, and Mustafa Kuzuoglu “An improved design procedure for double ridged waveguides,” Int. Journal of RF and Microwave Computer-Aided Engineering.
  2. V.V.S. Prakash and Raj Mittra, “A Technique for Analyzing Cascaded Frequency Selective Surface Screens with Dissimilar Lattice Geometries,” submitted to IEE.
  3. V.V.S. Prakash and Raj Mittra, “Characteristic Basis: A New Tehnique for Fast Solution of Integral Equations,”
  4. V.V.S. Prakash and Raj Mittra, “A Combination of Windowed Plane Wave Spectral Approach (WPWS) And Spectral Transformation Technique for Scattering from Thin Conducting Plates,” submitted to MOTL.
  5. V.V.S. Prakash and Raj Mittra, “A technique for analyzing cascaded frequency selective surface screens with dissimilar lattice geometries,” IEE Proc. Microwaves, Antennas and Propagations, 2002 (submitted).
  6. V. V. S. Prakash, Neng-Tien Huang and Raj Mittra, "Accurate Analysis of Interaction between Microwave Antennas and Frequency Selective Surface (FSS) Radomes," submitted to ICAP' 03.
  7. V.V.S. Prakash, Mustafa Kuzuoglu, Junho Yeo, and Raj Mittra, “Efficient Analysis of Microstrip Lines on a Highly Lossy Substrate,”
Semouchkina
  1. Ivanchenko, D. Ivanchenko, A. Koroljev, N. Popenko, E. Semouchkina, W. Cao, R. Mittra and G. Semouchkina, “Study of Radiation Characteristics of a Novel Leaky Wave Antenna,” to appear in...
  2. E. Semouchkina, W. Cao, R. Mittra and George Semouchkina, “FDTD study of Resonance in EDGE-nad Side-Coupled Microstrip Ring Resonators,” to appear in MTT.

Tao

  1. Tao Su, Wenhua Yu and Raj Mittra, “A New Look of FDTD Excitation Source,”
Werner
  1. D. H. Werner, R. J. Allard, R. A. Martin and R. Mittra, "A Reciprocity Approach for Calculating Radiation Patters of Arbitrarily Shaped Microstrip Antennas Mounted on Circularly-Cylindrical Platforms," submitted to AP
Yeo
  1. Junho Yeo, Y. lee and Raj Mittra, “Modified Sierpinski Gasket Patch Antennas and Multiband Application,” to appear in IEE Electronic Letters.
  2. Junho Yeo and Raj Mittra, “A Novel Wideband Antenna Package Design with a Compact Spatial Notch Filter for Wireless Applications,” submitted to MOTL.
  3. Junho Yeo and Raj Mittra, “A New Impedance Matrix Interpolation Algorithm in the Method of Moments for Planar Microstrip Structures,"
  4. Junho Yeo, Yoonjae Lee and Raj Mittra, “Design of Conformal Multiband Antennas based on Fractal Concepts,” submitted to MOTL.
  5. Junho Yeo, V.V.S. Prakash and R. Mittra, “An Efficient MoM Analysis of Microstrip Array Antennas Using the Characteristic Basis Function Method,”
  6. Junho Yeo and R. Mittra, “An Algorith for Interpolating the Frequency Variations of Method of Moment matrices Arising in the Analysis of planar Microstrip Structures,” submitted to MOTL.
  7. Junho Yeo and Raj Mittra,” Efficient Analysis of Microwave Structures using a Matrix Interpolation Method,” submitted to MOTL.
  8. Junho Yeo and Raj Mittra, “Conformal Multiband Antennas based on Fractal Concepts,”
  9. Junho Yeo and Raj Mittra, “Design of a Wideband Antenna Package with a Compact Spatial Notch Filter for Wireless Applications,”
  10. Junho Yeo and Raj Mittra, “GA-based Design of Artificial Magnetic Ground planes (AMGs) utilizing Frequency Selective Surfaces for Bandwidth Enhancement of Microstrip Antennas,”
Yu
  1. Wen Yu and R. Mittra, "Development of Graphical User Interface for Finite Difference Time Domain (FDTD) Software Package, " to appear in AP Magazine Paper.
  2. Wen Yu, Raj Mittra and T.Q. Ho, "A Conformal Finite Difference Time Domain (CFDTD) Algorithm For the Modeling of Arbitrary-Shaped Antennas and Scatterers,” to appear in…
  3. Wenhua Yu and Raj Mittra, “Conformal FDTD Method,” Book.
  4. Wenhua Yu, Tao Su, Yongjun Liu, Lai-Ching Ma and Raj Mittra, “Modeling of the Potter Horn Antenna Using the Conformal FDTD Technique,”
  5. Wenhua Yu, Tao Su, Lai-Ching Ma and Raj Mittra, “Analysis of Slot Antennas Using FDTD Method,”
  6. Wenhua Yu, Tao Su, Lai-Ching Ma and Raj Mittra, “Modeling of a Triangular Slot Antenna Using the Conformal Finite Difference Time Domain (CFDTD) Method,”

 

 

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