1. J.W. Bandler, Q.S. Cheng, S.A. Dakroury, D.M. Hailu, K. Madsen, A.S. Mohamed, and F. Pedersen, “Space mapping interpolating surrogates for highly optimized EM-based design of microwave devices,” in 2004 IEEE MTT-S Int. Microwave Symp. Dig., Fort Worth, TX, 2004, pp. 1565-1568.
  2. J.W. Bandler, Q.S. Cheng, D.M. Hailu and N.K. Nikolova, “An implementable space mapping design framework,” in 2004 IEEE MTT-S Int. Microwave Symp. Dig., Fort Worth, TX, 2004, pp. 703-706.
  3. J.W. Bandler, Q. Cheng, S.A. Dakroury, A.S. Mohamed, M.H. Bakr, K. Madsen and J. Søndergaard, “Space mapping: the state of the art,” IEEE Trans. Microwave Theory Tech., vol. 52, 2004, pp. 337-361.
  4. J.W. Bandler, Q.S. Cheng, N.K. Nikolova and M.A. Ismail, “Implicit space mapping optimization exploiting preassigned parameters,” IEEE Trans. Microwave Theory Tech., vol. 52, 2004, pp. 378-385.
  5. J.W. Bandler, Q.S. Cheng, D. Gebre-Mariam, K. Madsen, F. Pedersen and J. Søndergaard, “EM-based surrogate modeling and design exploiting implicit, frequency and output space mappings,” IEEE MTT-S Int. Microwave Symp. Digest (Philadelphia, PA, June 2003), pp. 1003-1006.
  6. R. Safian, N.K. Nikolova, M.H. Bakr and J.W. Bandler, “Feasible adjoint sensitivity technique for EM design exploiting Broyden’s update,” IEEE MTT-S Int. Microwave Symp. Digest (Philadelphia, PA, June 2003), pp. 299-302.
  7. J.W. Bandler and Q.S. Cheng, “Implicit space mapping optimization exploiting preassigned parameters,” Micronet Annual Workshop (Toronto, ON, April 2003).
  8. J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q.J. Zhang, “Neural inverse space mapping (NISM) optimization for EM-based microwave design,” Int. J. RF and Microwave Computer-Aided Engineering, vol. 13, 2003, pp. 136-147.
  9. J.W. Bandler, A.S. Mohamed, M.H. Bakr, K. Madsen and J. Søndergaard, “EM-based optimization exploiting partial space mapping and exact sensitivities,” IEEE Trans. Microwave Theory Tech., vol. 50, 2002, pp. 2741-2750.
  10. N.K. Georgieva, S. Glavic, M.H. Bakr and J.W. Bandler, “Feasible adjoint sensitivity technique for EM design optimization,” IEEE Trans. Microwave Theory Tech., vol. 50, 2002, pp. 2751-2758.
  11. J.W. Bandler, M.A. Ismail and J.E. Rayas-Sánchez, “Expanded space-mapping EM-based design framework exploiting preassigned parameters,” IEEE Trans. Circuits and Systems—I, vol. 49, 2002, pp. 1833-1838.
  12. J.W. Bandler and A.S. Mohamed, “EM-based optimization exploiting partial space mapping and exact sensitivities,” 2nd Annual McMaster Optimization Conference: Theory and Applications (MOPTA 02) (Hamilton, ON), 2002.
  13. J.W. Bandler and Q.S. Cheng, “Implicit space mapping engineering optimization exploiting preassigned parameters,” 2nd Annual McMaster Optimization Conference: Theory and Applications (MOPTA 02) (Hamilton, ON), 2002.
  14. J.W. Bandler, A.S. Mohamed, M.H. Bakr, K. Madsen and J. Søndergaard, “EM-based optimization exploiting partial space mapping and exact sensitivities,” IEEE MTT-S Int. Microwave Symp. (Seattle, WA, June 2002), pp. 2101-2104.
  15. J.W. Bandler, Q.S. Cheng, N. Georgieva and M.A. Ismail, “Implicit space mapping EM-based modeling and design using preassigned parameters,” IEEE MTT-S Int. Microwave Symp. (Seattle, WA, June 2002), pp. 713-716.
  16.  N. Georgieva, S. Glavic, M. Bakr and J.W. Bandler, “Feasible adjoint sensitivity technique (FAST) for EM design optimization,” IEEE MTT-S Int. Microwave Symp. (Seattle, WA, June 2002), pp. 971-974.
  17. M.B. Steer, J.W. Bandler and C.M. Snowden, “Computer aided design of RF and microwave circuits and systems,” (invited), IEEE Trans. Microwave Theory Tech., vol. 50, 2002, pp. 996-1005.
  18. J.W. Bandler and A.S. Mohamed, “Space mapping optimization exploiting adjoint sensitivities,” Micronet Annual Workshop (Ottawa, ON, April 2002), pp. 61-62.
  19. J.E. Rayas-Sánchez and J.W. Bandler, “Statistical design of high frequency electronic circuits using space mapping-based neuromodels,” Internacional Workshop IberChip (Guadalajara, Mexico, Apr. 2002).
  20. N.K. Georgieva, S. Glavic, M.H. Bakr and J.W. Bandler, “Adjoint variable method for design sensitivity analysis with the method of moments,” Proc. 18th Annual Review of Progress in Applied Computational Electromagnetics ACES 02 (Monterey, CA, March 2002), pp. 195-201.
  21. J.W. Bandler, J.E. Rayas-Sánchez and Q.J. Zhang, “Yield-driven electromagnetic optimization via space mapping-based neuromodels,” Int. J. RF and Microwave Computer-Aided Engineering, vol. 12, 2002, pp. 79-89.
  22. M.H. Bakr, J.W. Bandler, K. Madsen and J. Søndergaard, “An introduction to the space mapping technique,” Optimization and Engineering, vol. 2, 2001, pp. 369-384.
  23. J.W. Bandler and K. Madsen, “Editorial—surrogate modelling and space mapping for engineering optimization,” Optimization and Engineering, vol. 2, 2001, pp. 367-368.
  24. J.W. Bandler, J.E. Rayas-Sánchez and Q. J. Zhang, “Yield driven EM optimization using space mapping-based neuromodels,” Proc. 31st European Microwave Conf. (London, England, Sept. 2001), vol. 2, pp. 117-120.
  25. J.W. Bandler and M.A. Ismail, "Expanded space mapping optimization of microwave circuits exploiting preassigned parameters," 1st Annual McMaster Optimization Conference: Theory and Application (MOPTA 01) (Hamilton, ON), 2001.
  26. J.W. Bandler and J.E. Rayas-Sánchez, "Neural space mapping methods for device modeling and optimal design," 1st Annual McMaster Optimization Conference: Theory and Application (MOPTA 01) (Hamilton, ON), 2001.
  27. J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q.J. Zhang, "Neural inverse space mapping EM optimization," IEEE MTT-S Int. Microwave Symp. Digest (Phoenix, AZ), 2001, pp. 1007-1010.
  28. J.W. Bandler, M.A. Ismail and J.E. Rayas-Sánchez, "Expanded space mapping design framework exploiting preassigned parameters," IEEE MTT-S Int. Microwave Symp. Digest (Phoenix, AZ), 2001, pp. 1151-1154.
  29. M.H. Bakr, J.W. Bandler, Q.S. Cheng, M.A. Ismail and J.E. Rayas-Sánchez, "SMX - A novel object-oriented optimization system," IEEE MTT-S Int. Microwave Symp. Digest (Phoenix, AZ), 2001, pp. 2083-2086.
  30. J.W. Bandler, J.E. Rayas-Sánchez and Q. J. Zhang, "EM-based statistical analysis and yield optimization using space mapping based neuromodels," Micronet Annual Workshop (Ottawa, ON), 2001, pp. 67-70.
  31. J.W. Bandler, N. Georgieva, M.A. Ismail, J.E. Rayas-Sánchez and Q. J. Zhang, "A generalized space mapping tableau approach to device modeling," IEEE Trans. Microwave Theory Tech., vol. 49, 2001, pp. 67-79.
  32. J.W. Bandler, M.A. Ismail and J.E. Rayas-Sánchez, "Broadband physics-based modeling of microwave passive devices through frequency mapping," Int. J. RF and Microwave Computer-Aided Engineering, vol. 11, 2001, pp. 156-170.
  33. M.H. Bakr, J.W. Bandler, K. Madsen and J. Søndergaard, "Review of the space mapping approach to engineering optimization and modeling," Optimization and Engineering, vol. 1, 2000, pp.241-276.
  34. M.H. Bakr, J.W. Bandler, K. Madsen, J.E. Rayas-Sánchez and J. Søndergaard, "Space mapping optimization of microwave circuits exploiting surrogate models," IEEE Trans. Microwave Theory Tech., vol. 48, 2000, pp. 2297-2306.
  35. M.H. Bakr, J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q.J. Zhang, "Neural space mapping optimization for EM-based design," IEEE Trans. Microwave Theory Tech., vol. 48, 2000, pp. 2307-2315.
  36. M.H. Bakr, J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q.J. Zhang, "Neural space mapping optimization for EM-based design of RF and microwave circuits," First Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (Lyngby, Denmark, Nov. 2000), 8pp.
  37. J.W. Bandler, M.A. Ismail and J.E. Rayas-Sánchez, "Microwave device modeling exploiting generalized space mapping," First Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (Lyngby, Denmark, Nov. 2000), 6pp.
  38. J.W. Bandler, "Space mapping technology with applications in electromagnetics-based device modeling and circuit optimization," (invited plenary speaker), First Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (Lyngby, Denmark, Nov. 2000).
  39. M.H. Bakr, J.W. Bandler, K. Madsen, J.E. Rayas-Sánchez and J. Søndergaard, "Space mapping optimization of microwave circuits exploiting surrogate models," IEEE MTT-S Int. Microwave Symp. Digest (Boston, MA), 2000, pp. 1785-1788.
  40. M.H. Bakr, J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q.J. Zhang, "Neural space mapping EM optimization of microwave structures," IEEE MTT-S Int. Microwave Symp. Digest (Boston, MA),  2000, pp. 879-882.
  41. J.W. Bandler, M.A. Ismail and J.E. Rayas-Sánchez, "Broadband physics-based modeling of microwave passive devices through frequency mapping," IEEE MTT-S Int. Microwave Symp. Digest (Boston, MA), 2000, pp. 969-972.
  42. J.W. Bandler, J.E. Rayas-Sánchez, F. Wang and Q.J. Zhang, "Realizations of space mapping based neuromodels of microwave components," (invited), AP2000 Millennium Conference on Antennas and Propagation (Davos, Switzerland), 2000.
  43. J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q. J. Zhang, "Neuromodeling of microwave circuits exploiting space mapping technology," IEEE Trans. Microwave Theory Tech., vol. 47, 1999, pp. 2417-2427.
  44. M.H. Bakr, J.W. Bandler and N. Georgieva, "An aggressive approach to parameter extraction," IEEE Trans. Microwave Theory Tech., vol. 47, 1999, pp. 2428-2439.
  45. M.H. Bakr, J.W. Bandler, N. Georgieva and K. Madsen, "A hybrid aggressive space mapping algorithm for EM optimization," IEEE Trans. Microwave Theory Tech., vol. 47, 1999, pp. 2440-2449.
  46. J.W. Bandler, N. Georgieva, M.A. Ismail, J.E. Rayas-Sánchez and Q. J. Zhang, "A generalized space mapping tableau approach to device modeling," 29th European Microwave Conf. (Munich, Germany), 1999, vol. 3, pp. 231-234.
  47. J.W. Bandler and K. Madsen, "Use of surrogate models in engineering design," Workshop on Numerical Optimization and Approximation (Institute of Mathematics, Lulea Technical University, Sweden, Sept. 1999).
  48. J.W. Bandler, J.E. Rayas-Sánchez and Q.J. Zhang, "Neural modeling and space mapping: two approaches to circuit design," (invited), XXVI URSI General Assembley (Toronto, ON), 1999, p. 246.
  49. J.W. Bandler and K. Madsen, "Space mappings for optimal engineering design," 19th IFIP TC7 Conference on System Modelling and Optimization Abstracts (Cambridge, UK), 1999, p. 34.
  50. J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q. J. Zhang, "New directions in model development for RF/microwave components utilizing artificial neural networks and space mapping," (invited), IEEE AP-S Int. Symp. Digest (Orlando, FL), 1999, pp. 2572-2575.
  51. J.W. Bandler, M.A. Ismail, J.E. Rayas-Sánchez and Q. J. Zhang, "Neuromodeling of microwave circuits exploiting space mapping technology," IEEE MTT-S Int. Microwave Symp. Digest (Anaheim, CA), 1999, pp. 149-152.
  52. M.H. Bakr, J.W. Bandler and N. Georgieva, "Modeling of microwave circuits exploiting space derivative mapping," IEEE MTT-S Int. Microwave Symp. Digest (Anaheim, CA), 1999, pp. 715-718.
  53. M.H. Bakr, J.W. Bandler and N. Georgieva, "An aggressive approach to parameter extraction," IEEE MTT-S Int. Microwave Symp. Digest (Anaheim, CA), 1999, pp. 261-264.
  54. M.H. Bakr, J.W. Bandler, N. Georgieva and K. Madsen, "A hybrid aggressive space mapping algorithm for EM optimization," IEEE MTT-S Int. Microwave Symp. Digest (Anaheim, CA), 1999, pp. 265-268.
  55. J.W. Bandler, M.H. Bakr, N. Georgieva, M.A. Ismail and D.G. Swanson. Jr., "Recent results in electromagnetic optimization of microwave components, including microstrip T-junctions," (invited), Proc. 15th Annual Review of Progress in Applied Computational Electromagnetics ACES 99 (Monterey, CA),  1999, pp. 326-333.
  56. J.W. Bandler, J.E. Rayas-Sánchez and Q. J. Zhang, "Space mapping based neuromodeling of high-frequency circuits," Micronet Annual Workshop (Ottawa, ON), 1999, pp. 122-123.
  57. J.W. Bandler and Q.J. Zhang, "Next generation optimization methodologies for wireless and microwave circuit design," (plenary session invited paper), IEEE MTT-S Int. Topical Symp. on Technologies for Wireless Applications Digest (Vancouver, BC), 1999, pp. 5-8.
  58. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Parameterization of arbitrary geometrical structures for automated electromagnetic optimization," Int. J. RF and Microwave Computer-Aided Engineering, vol. 9, 1999, pp. 73-85.
  59. J.W. Bandler, R.M. Biernacki, S.H. Chen and D. Omeragic, "Space mapping optimization of waveguide filters using finite element and mode-matching electromagnetic simulators," Int. J. RF and Microwave Computer-Aided Engineering, vol. 9, 1999, pp. 54-70.
  60. M.H. Bakr, J.W. Bandler, R.M. Biernacki, S.H. Chen and K. Madsen, "A trust region aggressive space mapping algorithm for EM optimization," IEEE Trans. Microwave Theory Tech., vol. 46, 1998, pp. 2412-2425.
  61. J.W. Bandler, "Space mapping optimization of microwave circuits using EM simulators," Proc. Workshop on Microwave Filters and Multiplexers: theory, practice and CAD, 28th European Microwave Conf. (Amsterdam, Netherlands), 1998, pp. 23-33.
  62. J.W. Bandler, R.M. Biernacki, S.H. Chen and Q.H. Wang, "Multiple space mapping EM optimization of signal integrity in high-speed digital circuits," Fifth Int. Workshop on Integrated Nonlinear Microwave and Millimeterwave Circuits INMMC'98, Digest (Duisburg, Germany), 1998, pp. 138-140.
  63. M.H. Bakr, J.W. Bandler, R.M. Biernacki and S.H. Chen, "Automated electromagnetic optimization for RF, wireless and microwave circuits," CITO Retreat (Hamilton, ON), 1998.
  64. M.H. Bakr, J.W. Bandler, R.M. Biernacki, S.H. Chen and K. Madsen, "A new space mapping algorithm for EM optimization" TRIO Meeting (Ottawa, ON), 1998.
  65. M.H. Bakr, J.W. Bandler, R.M. Biernacki, S.H. Chen and K. Madsen, "A trust region aggressive space mapping algorithm for EM optimization," IEEE MTT-S Int. Microwave Symp. Digest (Baltimore, MD), 1998, pp. 1759-1762.
  66. Q.J. Zhang, F. Wang, M.S. Nakhla, J.W. Bandler, R.M. Biernacki, "Signal integrity of highspeed VLSI packages and interconnects," 48th ECTC Electronic Components and Technology Conf. (Seattle, WA), 1998, pp. 1073-1076.
  67. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Mixed-domain multi-simulator statistical device modeling and yield-driven design," Proc. European Gallium Arsenide Applications Symposium (Bologna, Italy), 1997, pp. 193-200.
  68. J.W. Bandler, R.M. Biernacki, S.H. Chen, R.H. Hemmers and K. Madsen, "Space mapping optimization for engineering design," in Large Scale Optimization with Applications, Part I: Optimization to Inverse Problems and Design (L. Biegler, T. Coleman, A. Conn and F. Santosa, Editors), Springer: New York, 1997, pp. 1-15.
  69. J.W. Bandler, R.M. Biernacki, S.H. Chen and D. Omeragic, "Space mapping optimization of waveguide filters using finite element and mode-matching electromagnetic simulators," IEEE MTT-S Int. Microwave Symp. (Denver, CO), 1997, pp. 635-638.
  70. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Automated electromagnetic optimization of microwave circuits," Proc. 13th Annual Review of Progress in Applied Computational Electromagnetics ACES 97 (Monterey, CA), 1997, pp. 1358-1365.
  71. J.W. Bandler, R.M. Biernacki, S.H. Chen and Y.F. Huang, "Design optimization of interdigital filters using aggressive space mapping and decomposition," IEEE Trans. Microwave Theory Tech., vol. 45, 1997, pp. 761-769.
  72. J.W. Bandler, R.M. Biernacki, S.H. Chen, L.W. Hendrick and D. Omeragic, "Electromagnetic optimization of 3D structures," IEEE Trans. Microwave Theory Tech., vol. 45, 1997, pp. 770-779.
  73. J.W. Bandler, "Guest editorial: automated circuit design using electromagnetic simulators," IEEE Trans. Microwave Theory Tech., vol. 45, 1997, pp.709-711.
  74. J.W. Bandler, Ed., IEEE Trans. Microwave Theory Tech. Special Issue on Automated Circuit Design Using Electromagnetic Simulators, vol. 45, May 1997.
  75. J.W. Bandler, R.M. Biernacki, S.H. Chen and P.A. Grobelny, "Optimization technology for nonlinear microwave circuits integrating electromagnetic simulators," Int. J. Microwave and Millimeter-Wave Computer-Aided Engineering, vol. 7, 1997, pp. 6- 28.
  76. J.W. Bandler, "Guest editorial: optimization-oriented microwave CAD," Int. J. Microwave and Millimeter-Wave Computer- Aided Engineering, vol. 7, 1997, pp. 3-5.
  77. J.W. Bandler, Ed., Int. J. Microwave and Millimeter-Wave Computer-Aided Engineering Special Issue on Optimization-Oriented Microwave CAD, vol. 7, 1997, pp. 1-145.
  78. J.W. Bandler, R.M. Biernacki, S.H. Chen and Y.F. Huang, "Aggressive space mapping with decomposition: a new design methodology," MR96 Microwaves and RF Conf. (London, UK), 1996, pp. 149-154.
  79. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Parameterization of arbitrary geometrical structures for automated electromagnetic optimization," IEEE MTT-S Int. Microwave Symp. (San Francisco, CA), 1996, pp. 1059-1062.
  80. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Fully automated space mapping optimization of 3D structures," IEEE MTT-S Int. Microwave Symp. (San Francisco, CA), 1996, pp. 753-756.
  81. J.W. Bandler, "Automated electromagnetic optimization of RF and microwave circuits", (invited), ICASE/LaRC Workshop on Computational Electromagnetics and its Applications (Newport News, VA), May 1996.
  82. J.W. Bandler, R.M. Biernacki, S.H. Chen, R.H. Hemmers and K. Madsen, "Electromagnetic optimization exploiting aggressive space mapping," IEEE Trans. Microwave Theory Tech., vol. 43, 1995, pp. 2874-2882.
  83. J.W. Bandler, R.M. Biernacki, S.H. Chen, W.J. Getsinger, P.A. Grobelny, C. Moskowitz and S.H. Talisa, "Electromagnetic design of high-temperature superconducting microwave filters," Int. J. Microwave and Millimeter-Wave Computer-Aided Engineering, vol. 5, 1995, pp. 331-343.
  84. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Optimization technology for microwave circuit modeling and design," (invited), 25th European Microwave Conf. (Bologna, Italy), 1995, pp. 101-108.
  85. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Toward direct EM optimization of VLSI interconnects: validation of coupled transmission line models," 1995 Canadian Conf. on Electrical and Computer Engineering (Montreal, Canada), 1995, pp. 377-380.
  86. J.W. Bandler, R.M. Biernacki, S.H. Chen, R.H. Hemmers and K. Madsen, "Aggressive space mapping for electromagnetic design," IEEE MTT-S Int. Microwave Symp. Digest (Orlando, FL), 1995, pp. 1455-1458.
  87. J.W. Bandler, R.M. Biernacki, Q. Cai, S.H. Chen, P.A. Grobelny and D.G. Swanson, Jr., "Heterogeneous parallel yield-driven electromagnetic CAD," IEEE MTT-S Int. Microwave Symp. Digest (Orlando, FL), 1995, pp. 1085-1088.
  88. J.W. Bandler, R.M. Biernacki, Q. Cai, S.H. Chen and P.A. Grobelny, "Integrated harmonic balance and electromagnetic optimization with Geometry Capture," IEEE MTT-S Int. Microwave Symp. Digest (Orlando, FL), 1995, pp. 793-796.
  89. J.W. Bandler, R.M. Biernacki, Q. Cai and S.H. Chen, "Cost-driven physics-based large-signal simultaneous device and circuit design," IEEE MTT-S Int. Microwave Symp. Digest (Orlando, FL), 1995, pp. 1443-1446.
  90. S.H. Chen, "Automated EM optimization of linear and nonlinear circuits, with Geometry Capture for arbitrary planar structures", IEEE MTT-S Int. Microwave Symp. Workshop on Automated Circuit Design Using Electromagnetic Simulators (Orlando, FL), May 1995.
  91. J.W. Bandler, R.M. Biernacki, Q. Cai and S.H. Chen, "Device statistical modelling and verification," Microwave Engineering Europe, May 1995, pp. 35-41.
  92. J.W. Bandler, R.M. Biernacki, Q. Cai and S.H. Chen, "Compression analysis of a high power BJT amplifier," Third Int. Workshop on Integrated Nonlinear Microwave and Millimeterwave Circuits Digest (Duisburg, Germany), 1994, pp. 173-178.
  93. J.W. Bandler, R.M. Biernacki, S.H. Chen, P.A. Grobelny and R.H. Hemmers, "Space mapping technique for electromagnetic optimization," IEEE Trans. Microwave Theory Tech., vol. 42, 1994, pp. 2536-2544.
  94. J.W. Bandler, R.M. Biernacki, S.H. Chen, D.G. Swanson, Jr., and S. Ye, "Microstrip filter design using direct EM field simulation," IEEE Trans. Microwave Theory Tech., vol. 42, 1994, pp. 1353-1359.
  95. J.W. Bandler, R.M. Biernacki, S.H. Chen and P.A. Grobelny, "A CAD environment for performance and yield driven circuit design employing electromagnetic field simulators," Proc. IEEE Int. Symp. Circuits Syst. (London, England), 1994, vol. 1, pp. 145-148.
  96. J.W. Bandler, S.H. Chen, R.M. Biernacki and K. Madsen, "The Huber concept in device modeling, circuit diagnosis and design centering," Proc. IEEE Int. Symp. Circuits Syst. (London, England), 1994, vol. 1, pp. 129-132.
  97. J.W. Bandler, R.M. Biernacki, S.H. Chen, P.A. Grobelny, C. Moskowitz and S.H. Talisa, "Electromagnetic design of high-temperature superconducting microwave filters," IEEE MTT-S Int. Microwave Symp. Digest (San Diego, CA), 1994, pp. 993-996.
  98. J.W. Bandler, R.M. Biernacki, Q. Cai and S.H. Chen, "A novel approach to statistical modeling using cumulative probability distribution fitting," IEEE MTT-S Int. Microwave Symp. Digest (San Diego, CA), 1994, pp. 385-388.
  99. J.W. Bandler, R.M. Biernacki, S.H. Chen, P.A. Grobelny and R.H. Hemmers, "Exploitation of coarse grid for electromagnetic optimization," IEEE MTT-S Int. Microwave Symp. Digest (San Diego, CA), 1994, pp. 381-384.
  100. J.W. Bandler, R.M. Biernacki, Q. Cai and S.H. Chen, "A robust physics-oriented statistical GaAs MESFET model," Proc. European Gallium Arsenide Application Symp. (Turin, Italy), 1994, pp. 173-176.
  101. J.W. Bandler, S.H. Chen, R.M. Biernacki, L. Gao, K. Madsen and H. Yu, "Huber optimization of circuits: a robust approach," IEEE Trans. Microwave Theory Tech., vol. 41, 1993, pp. 2279-2287.
  102. J.W. Bandler, R.M. Biernacki, S.H. Chen, P.A. Grobelny and S. Ye, "Yield-driven electromagnetic optimization via multilevel multidimensional models," IEEE Trans. Microwave Theory Tech., vol. 41, 1993, pp. 2269-2278.
  103. J.W. Bandler, R.M. Biernacki, S.H. Chen, S. Ye and P.A. Grobelny, "Multilevel multidimensional quadratic modeling for yield-driven electromagnetic optimization," IEEE MTT-S Int. Microwave Symp. Digest (Atlanta, GA), 1993, pp. 1017-1020.
  104. J.W. Bandler, S.H. Chen, R.M. Biernacki, K. Madsen, L. Gao and H. Yu, "Robustizing circuit optimization using Huber functions," IEEE MTT-S Int. Microwave Symp. Digest (Atlanta, GA), 1993, pp. 1009-1012.
  105. J.W. Bandler, S. Ye, R.M. Biernacki, S.H. Chen and D.G. Swanson, Jr., "Minimax microstrip filter design using direct EM field simulation," IEEE MTT-S Int. Microwave Symp. Digest (Atlanta, GA), 1993, pp. 889-892.
  106. J.W. Bandler, R.M. Biernacki, Q. Cai, S.H. Chen, S. Ye and Q.J. Zhang, "Integrated physics-oriented statistical modeling, simulation and optimization", IEEE Trans. Microwave Theory Tech., vol. 40, 1992, pp. 1374-1400.
  107. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Harmonic balance simulation and optimization of nonlinear circuits", Proc. IEEE Int. Symp. on Circuit and Systems (San Diego, CA), 1992, pp. 85-88.
  108. J.W. Bandler, S.H. Chen and R.M. Biernacki, "A new formulation for yield optimization", IEEE MTT-S Int. Microwave Symp. Dig. (Albuquerque, NM), 1992, pp. 1465-1468.
  109. J.W. Bandler, S. Ye, Q. Cai, R.M. Biernacki and S.H. Chen, "Predictable yield-driven circuit optimization", IEEE MTT-S Int. Microwave Symp. Dig. (Albuquerque, NM), 1992, pp. 837-840.
  110. J.W. Bandler, Q. Cai, R.M. Biernacki, S.H. Chen and Q.J. Zhang, "Physics- based design and yield optimization of MMICs", Proc. 21st European Microwave Conf. (Stuttgart, Germany), 1991, pp. 1515-1520.
  111. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Design optimization with external simulators", Proc. 8th Conf. Computation of Electromagnetic Fields (Sorrento, Italy), 1991, pp. 1061-1064.
  112. J.W. Bandler, R.M. Biernacki, S.H. Chen, J. Song, S. Ye and Q.J. Zhang, "Analytically unified DC/small-signal/large-signal circuit design", IEEE Trans. Microwave Theory Tech., vol. 39, 1991, pp. 1076-1082.
  113. J.W. Bandler, R.M. Biernacki, S.H. Chen, J. Song, S. Ye and Q.J. Zhang, "Gradient quadratic approximation scheme for yield-driven design", IEEE MTT-S Int. Microwave Symp. Digest (Boston, MA), 1991, pp. 1197-1200.
  114. J.W. Bandler, R.M. Biernacki, S.H. Chen, J. Song, S. Ye and Q.J. Zhang, "Statistical modeling of GaAs MESFETs", IEEE MTT-S Int. Microwave Symp. Digest (Boston, MA), 1991, pp. 87-90.
  115. J.W. Bandler, R.M. Biernacki, S.H Chen, J. Song, S. Ye and Q.J. Zhang, "Analytically unified DC/small-signal/large-signal circuit design", Proc. 1990 Asia-Pacific Microwave Conf. (Tokyo, Japan), 1990, pp. 453-456.
  116. J.W. Bandler, Q.J. Zhang, S. Ye and S.H. Chen, "Efficient large-signal FET parameter extraction using harmonics", IEEE Trans. Microwave Theory Tech., vol. 37, 1989, pp. 2099-2108.
  117. J.W. Bandler, R.M. Biernacki, S.H Chen, J.F. Loman, M.L. Renault and Q.J. Zhang, "Combined discrete/normal statistical modeling of microwave devices", Proc. 19th European Microwave Conf. (London, England), 1989, pp. 205-210.
  118. J.W. Bandler, Q.J. Zhang, S. Ye and S.H. Chen, "Efficient large-signal FET parameter extraction using harmonics", IEEE MTT-S Int. Microwave Symp. Digest (Long Beach, CA), 1989, pp. 577-580.
  119. J.W. Bandler, S.H. Chen and K. Madsen, "An algorithm for one-sided L1 optimization with application to circuit design centering", Proc. IEEE Int. Symp. Circuits Syst. (Espoo, Finland), 1988, pp. 1795-1798.
  120. J.W. Bandler, S.H. Chen, S. Ye and Q.J. Zhang, "Integrated model parameter extraction using large-scale optimization concepts", IEEE Trans. Microwave Theory Tech., vol. 36, 1988, pp. 1629-1638.
  121. J.W. Bandler, S.H. Chen, S. Ye and Q.J. Zhang, "Robust model parameter extraction using large-scale optimization concepts", IEEE MTT-S Int. Microwave Symp. Digest (New York, NY), 1988, pp. 319-322.
  122. J.W. Bandler, R.M. Biernacki, S.H. Chen, M.L. Renault, J. Song and Q.J. Zhang, "Yield optimization of large scale microwave circuits", Proc. 18th European Microwave Conf. (Stockholm, Sweden), 1988, pp. 255-260.
  123. J.W. Bandler, S.H. Chen, S. Daijavad and K. Madsen, "Efficient optimization with integrated gradient approximations", IEEE Trans. Micro-wave Theory Tech., vol. 36, 1988, pp. 444-455.
  124. J.W. Bandler and S.H. Chen, "Circuit optimization: the state of the art", (invited), IEEE Trans. Microwave Theory Tech., vol. 36, 1988, pp. 424-443.
  125. J.W. Bandler, S.H. Chen, S. Daijavad, W. Kellermann, M. Renault and Q.J. Zhang, "Large scale minimax optimization of microwave multiplexers", Proc. 16th European Microwave Conf. (Dublin, Ireland), 1986, pp. 435-440.
  126. J.W. Bandler, S.H. Chen and S.Daijavad, "Microwave device modeling using efficient L1 optimization: a novel approach", IEEE Trans. Microwave Theory Tech., vol. MTT-34, 1986, pp. 1282-1293.
  127. J.W. Bandler and S.H. Chen, S. Daijavad and K. Madsen, "Efficient gradient approximations for nonlinear optimization of circuits and systems", Proc. IEEE Int. Symp. Circuits and Systems (San Jose, CA), 1986, pp. 964-967.
  128. J.W. Bandler, S.H. Chen and S. Daijavad, "Exact sensitivity analysis for optimization of multi-coupled cavity filters", Int. J. Circuit Theory and Application, vol. 14, 1986, pp. 63-77.
  129. J.W. Bandler, S.H. Chen and S. Daijavad, "Exact sensitivity analysis and optimization for multi-cavity microwave communication filters", Proc. IEEE Int. Symp. Circuits and Systems (Kyoto, Japan), 1985, pp. 1587-1590.
  130. J.W. Bandler, S.H. Chen, S. Daijavad and W. Kellermann, "Optimal design of multi-cavity filters and contiguous-band multiplexers", Proc. 14th European Microwave Conf. (Liege, Belgium), 1984, pp. 863-868.
  131. J.W. Bandler, S.H. Chen, S. Daijavad and M. Renault, "Case study in passive circuit CAD", Proc. 14th European Microwave Conf. (Liege, Belgium), 1984, pp. 740-745.
  132. J.W. Bandler, S.H. Chen and S. Daijavad, "Simple derivation of general sensitivity formula for lossless two-ports", Proceedings of IEEE, vol. 73, 1985, pp. 165-166.
  133. J.W. Bandler, S.H. Chen and S. Daijavad, "Novel approach to multicoupled cavity filter sensitivity and group delay computation", Electronics Letters, vol. 20, 1984, pp. 580-582.
  134. J.W. Bandler, S.H. Chen and S. Daijavad, "Proof and extension of general sensitivity formulas for lossless two-ports", Electronics Letters, vol. 20, 1984, pp. 481-482.

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