Dr. John W. Bandler's Lifetime Publications

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  1. J.W. Bandler, "Stability and gain prediction of microwave tunnel-diode reflection amplifiers," IEEE Trans. Microwave Theory Tech., vol. MTT-13, 1965, pp. 814-819.
  2. J.W. Bandler, "Practical stability criterion for tunnel-diode circuits," Electronics Letters, vol. 1, 1965, pp. 262-264.
  3. J.W. Bandler, "Frequency responses in the reflection coefficient plane plotted by digital computer," IEEE Trans. Microwave Theory Tech., vol. MTT-14, 1966, pp. 399-400.
  4. J.W. Bandler, "Comparison of rho-plane with H-plane negative resistance stability criteria using the Smith Chart," IEEE Trans. Microwave Theory Tech., vol. MTT-15, 1967, pp. 532-533.
  5. J.W. Bandler, "The results of precision microwave measurement of the internal parasitics of tunnel-diodes," IEEE Int. Electron Devices Meeting (Washington, DC, Oct. 1967).
  6. J.W. Bandler, "Optimum noncommensurate stepped transmission-line transformers," Electronics Letters, vol. 4, 1968, pp. 212-213.
  7. J.W. Bandler, "Precision microwave measurement of the internal parasitics of tunnel-diodes," IEEE Trans. Electron Devices, vol. ED-15, 1968, pp. 275-282.
  8. J.W. Bandler, "Computer optimization of a stabilizing network for a tunnel-diode amplifier," IEEE Trans. Microwave Theory Tech., vol. MTT-16, 1968, pp. 326-333.
  9. J.W. Bandler, "Microwave absorption and series resistance of silicon-mesa parametric-amplifier diodes," Proc. IEE, vol. 116, 1969, pp. 86-87.
  10. J.W. Bandler, "Optimization of circuits," (invited), Proc. NASA Computer-Aided System Design Seminar (Cambridge, MA, Apr. 1969), pp. 17-20.
  11. J.W. Bandler and P.A. Macdonald, "Optimization of microwave networks by razor search," IEEE Int. Microwave Symp. Digest (Dallas, TX, May 1969), pp. 382-387.
  12. J.W. Bandler and P.A. Macdonald, "Cascaded noncommensurate transmission-line networks as optimization problems," IEEE Trans. Circuit Theory, vol. CT-16, 1969, pp. 391-394.
  13. J.W. Bandler, "Optimization methods for computer-aided design," (invited), IEEE Trans. Microwave Theory Tech., vol. MTT-17, 1969, pp. 533-552. Appearing in Microwave Integrated Circuits, J. Frey, Ed. Artech House, 1975.
  14. J.W. Bandler and P.A. Macdonald, "Optimization of microwave networks by razor search," IEEE Trans. Microwave Theory Tech., vol. MTT-17, 1969, pp. 552-562.
  15. J.W. Bandler, "Computer optimization of inhomogeneous waveguide transformers," IEEE Trans. Microwave Theory Tech., vol. MTT-17, 1969, pp. 563-571.
  16. J.W. Bandler, "Program for processing standing wave measurements," IEEE Trans. Microwave Theory Tech., vol. MTT-17, 1969, pp. 644-646.
  17. J.W. Bandler and P.A. Macdonald, "Response program for an inhomogeneous cascade of rectangular waveguides," IEEE Trans. Microwave Theory Tech., vol. MTT-17, 1969, pp. 646-649.
  18. J.W. Bandler, "Computer optimization of inhomogeneous waveguide transformers," European Microwave Conf. (London, England, Sep. 1969).
  19. J.W. Bandler, "Automatic optimization of engineering designs - possibilities and pitfalls," (invited), IEEE NEREM Meeting Record (Boston, MA, Nov. 1969), pp. 26-27.
  20. R. Seviora, M. Sablatash and J.W. Bandler, "Least pth and minimax objectives for automated network design," Electronics Letters, vol. 6, 1970, pp. 14-15.
  21. J.W. Bandler, "Current trends in automated network design optimization," (invited), IEEE Int. Microwave Symp. Digest (Newport Beach, CA, May 1970), pp. 132-133.
  22. J.W. Bandler and R. Seviora, "Computation of sensitivities for optimal design of microwave networks," IEEE Int. Microwave Symp. Digest (Newport Beach, CA, May 1970), pp. 134-137.
  23. J.W. Bandler, "Conditions for a minimax optimum," Proc. 8th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1970), pp. 23-30.
  24. J.W. Bandler and R.E. Seviora, "Sensitivities in terms of wave variables," Proc. 8th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1970), pp. 379-387.
  25. J.W. Bandler, "Recent developments in optimization," (invited), 4th Asilomar Conf. on Circuits and Systems (Pacific Grove, CA, Nov. 1970).
  26. J.W. Bandler and R.E. Seviora, "Direct method for evaluating scattering matrix sensitivities," Electronics Letters, vol. 6, 1970, pp. 773-774.
  27. J.W. Bandler and R.E. Seviora, "Current trends in network optimization," IEEE Trans. Microwave Theory Tech., vol. MTT-18, 1970, pp. 1159-1170.
  28. J.W. Bandler and R.E. Seviora, "Computation of sensitivities for non-commensurate networks," IEEE Trans. Circuit Theory, vol. CT-18, 1971, pp. 174-178.
  29. J.W. Bandler and C. Charalambous, "Generalized least pth objectives for networks and systems," Proc. 14th Midwest Symp. on Circuit Theory (Denver, CO, May 1971), pp. 10.5.1-10.5.10.
  30. J.W. Bandler and T.V. Srinivasan, "A new gradient algorithm for minimax optimization of networks and systems," Proc. 14th Midwest Symp. on Circuit Theory (Denver, CO, May 1971), pp. 16.5.1-16.5.11.
  31. J.W. Bandler and R.E. Seviora, "Computation of equivalent wave source using the adjoint network," Electronics Letters, vol. 7, 1971, pp. 235-236.
  32. J.W. Bandler and A.G. Lee-Chan, "Gradient razor search method for optimization," IEEE Int. Microwave Symp. Digest (Washington, DC, May 1971), pp. 118-119.
  33. J.W. Bandler, "A review of computer oriented circuit optimization," (invited), IEEE Int. Conf. on Communications Record (Montreal, Canada, June 1971), pp. 3.18-3.22.
  34. J.W. Bandler, "Conditions for a minimax optimum," IEEE Trans. Circuit Theory, vol. CT-18, 1971, pp. 476-479.
  35. J.W. Bandler and P.A. Macdonald, "The razor search program," IEEE Trans. Microwave Theory Tech., vol. MTT-19, 1971, p. 667.
  36. J.W. Bandler, "Computer optimization of microwave circuits," (invited), Proc. European Microwave Conf. (Stockholm, Sweden, Aug. 1971), pp. B8/S:1-S:8.
  37. J.W. Bandler and C. Charalambous, "On conditions for optimality in least pth approximation with p approaching infinity," Proc. 9th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1971), pp. 404-413.
  38. J.W. Bandler, N.D. Markettos and N.K. Sinha, "Optimum approximation of high-order systems by low-order models using recent gradient methods," Proc. 9th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1971), 170-179.
  39. J.W. Bandler and C. Charalambous, "Practical least pth approximation with extremely large values of p," 5th Asilomar Conf. on Circuits and Systems Conf. Record (Pacific Grove, CA, Nov. 1971), pp. 66-70.
  40. J.W. Bandler and C. Charalambous, "A new approach to nonlinear programming," Proc. 5th Hawaii Int. Conf. on System Sciences (Honolulu, HI, Jan. 1972), pp. 127-129.
  41. J.W. Bandler and R.E. Seviora, "Wave sensitivities of networks," IEEE Trans. Microwave Theory Tech., vol. MTT-20, 1972, pp. 138-147.
  42. J.W. Bandler, "Optimization methods and microwave circuit design," (invited), Proc. 6th Princeton Conf. on Information Sciences and Systems (Princeton, NJ, Mar. 1972), pp. 10-14.
  43. J.W. Bandler, N.D. Markettos and T.V. Srinivasan, "A comparison of recent minimax techniques on optimum system modelling," Proc. 6th Princeton Conf. on Information Sciences and Systems (Princeton, NJ, Mar. 1972), pp. 540-544.
  44. J.W. Bandler, "Optimization of design tolerances using nonlinear programming," Proc. 6th Princeton Conf. on Information Sciences and Systems (Princeton, NJ, Mar. 1972), pp. 655-659. Appearing in Computer-Aided Filter Design, G. Szentirmai, Ed. IEEE Press, 1973.
  45. J.W. Bandler, C. Charalambous and S.K. Tam, "Computer-aided equal ripple design of lumped-distributed-active filters," Int. Filter Symp. (Santa Monica, CA, Apr. 1972), pp. 79-80.
  46. J.W. Bandler and C. Charalambous, "Conditions for minimax approximation obtained from the lp(n) norm," IEEE Trans. Automatic Control, vol. AC-17, 1972, pp. 257-258.
  47. J.W. Bandler and C. Charalambous, "A new approach to the computer-aided design of microwave circuits," IEEE Int. Microwave Symp. Digest (Chicago, IL, May 1972), pp. 121-123.
  48. J.W. Bandler and C. Charalambous, "Theory of generalized least pth approximation," IEEE Trans. Circuit Theory, vol. CT-19, 1972, pp. 287-289. Appearing in Computer-Aided Filter Design, G. Szentirmai, Ed. IEEE Press, 1973.
  49. J.W. Bandler, "Computer optimization in electromagnetic design," (invited), URSI General Assembly (Warsaw, Poland, Aug. 1972).
  50. J.W. Bandler, T.V. Srinivasan and C. Charalambous, "Minimax optimization of networks by grazor search," IEEE Trans. Microwave Theory Tech., vol. MTT-20, 1972, pp. 596-604. Appearing in Computer-Aided Filter Design, G. Szentirmai, Ed. IEEE Press, 1973.
  51. J.W. Bandler and T.V. Srinivasan, "The grazor search program for minimax objectives," IEEE Trans. Microwave Theory Tech., vol. MTT-20, 1972, pp. 784-785.
  52. J.W. Bandler and C. Charalambous, "Practical least pth optimization of networks," IEEE Trans. Microwave Theory Tech., vol. MTT-20, 1972, pp. 834-840.
  53. J.W. Bandler, N.D. Markettos and N.K. Sinha, "Optimum system modelling using recent gradient methods," Int. J. Systems Science, vol. 4, 1973, pp. 33-44.
  54. J.W. Bandler and T.V. Srinivasan, "Constrained minimax optimization by grazor search," Proc. 6th Hawaii Int. Conf. on System Sciences, (Honolulu, HI, Jan. 1973), pp. 125-128.
  55. J.W. Bandler, N.D. Markettos and T.V. Srinivasan, "Gradient minimax techniques for system modelling," Int. J. Systems Science, vol. 4, 1973, pp. 317-331.
  56. C. Charalambous and J.W. Bandler, "New algorithms for minimax optimization," Nonlinear Programming Symp. (Washington, DC, Mar. 1973).
  57. J.W. Bandler and T.V. Srinivasan, "On realistic minimax modelling of high-order systems," Proc. 7th Princeton Conf. on Information Sciences and Systems (Princeton, NJ, Mar. 1973), pp. 479-483.
  58. J.W. Bandler and P.C. Liu, "Automated network design with optimal tolerances," Proc. IEEE Int. Symp. Circuit Theory (Toronto, Canada, Apr. 1973), pp. 181-184.
  59. J.W. Bandler and B.L. Bardakjian, "Least pth optimization of recursive digital filters," Proc. IEEE Int. Symp. Circuit Theory (Toronto, Canada, Apr. 1973), pp. 377-380.
  60. J.W. Bandler, "New directions in nonlinear programming for circuit design," (invited), Proc. 16th Midwest Symp. on Circuit Theory (Waterloo, Canada, Apr. 1973), pp. VI.3.1 - VI.3.10.
  61. J.W. Bandler and T.V. Srinivasan, "Practical investigation of conditions for minimax optimality," Proc. 16th Midwest Symp. on Circuit Theory (Waterloo, Canada, Apr. 1973), pp. XX.4.1 - XX.4.10.
  62. J.R. Popovic, J.W. Bandler and C. Charalambous, "Two computer programs for least pth approximation," Proc. 16th Midwest Symp. on Circuit Theory (Waterloo, Canada, Apr. 1973), pp. XX.5.1 - XX.5.10. Appearing in Computer-Aided Filter Design, G. Szentirmai, Ed. IEEE Press, 1973.
  63. J.W. Bandler and C. Charalambous, "On conditions for optimality in least pth approximation with p approaching infinity," J. Optimization Theory and Applications, vol. 11, 1973, pp. 556-566.
  64. J.W. Bandler, V.K. Jha, C.M. Kudsia and J.R. Popovic, "A microwave network optimization program," IEEE Int. Microwave Symp. Digest (Boulder, CO, June 1973), pp. 38-40.
  65. C. Charalambous and J.W. Bandler, "New algorithms for network optimization," IEEE Int. Microwave Symp. Digest (Boulder, CO, June 1973), pp. 44-46.
  66. J.W. Bandler and T.V. Srinivasan, "Program for investigating minimax optimality conditions," IEEE Trans. Microwave Theory Tech., vol. MTT-21, 1973, p. 433.
  67. J.W. Bandler and T.V. Srinivasan, "Computer-aided system modelling and design," Int. Conf. Systems and Control (Coimbatore, India, Aug. 1973).
  68. J.W. Bandler, "The tolerance problem in optimal design," (invited), Proc. European Microwave Conf. (Brussels, Belgium, Sep. 1973), Paper A.13.1.(I).
  69. J.W. Bandler, "Experience with an exact penalty function method of nonlinear programming and approximate methods of solution," (invited), IEEE CANDE Workshop (Phoenix, AZ, Sep. 1973).
  70. J.W. Bandler, "Computer-aided circuit optimization," in Modern Filter Theory and Design, G.C. Temes and S.K. Mitra, Eds. New York: Wiley-Interscience, 1973.
  71. J.W. Bandler and B.L. Bardakjian, "Least pth optimization of recursive digital filters," IEEE Trans. Audio Electroacoustics, vol. AU-21, 1973, pp. 460-470.
  72. C. Charalambous and J.W. Bandler, "New algorithms for network optimization," IEEE Trans. Microwave Theory Tech., vol. MTT-21, 1973, pp. 815-818.
  73. J.R. Popovic, J.W. Bandler and C. Charalambous, "General programs for least pth and near minimax approximation," Int. J. Systems Science, vol. 5, 1974, pp. 907-932.
  74. J.R. Popovic and J.W. Bandler, "A special program for least pth approximation including interpolation," IEEE Trans. Microwave Theory Tech., vol. MTT-22, 1974, p.76.
  75. J.R. Popovic and J.W. Bandler, "A general program for discrete least pth approximation," IEEE Trans. Microwave Theory Tech., vol. MTT-22, 1974, pp. 76-77.
  76. J.W. Bandler and P.C. Liu, "Automated network design with optimal tolerances," IEEE Trans. Circuits and Systems, vol. CAS-21, 1974, pp. 219-222.
  77. J.W. Bandler, Ed., IEEE Trans. Microwave Theory Tech. Special Issue on Computer-Oriented Microwave Practices, vol. MTT-22, 1974, pp. 153-351.
  78. J.W. Bandler, J.R. Popovic and V.K. Jha, "Cascaded network optimization program," IEEE Trans. Microwave Theory Tech., vol. MTT-22, 1974, pp. 300-308.
  79. J.W. Bandler and J.R. Popovic, "CANOPT - cascaded network optimization package," IEEE Trans. Microwave Theory Tech., vol. MTT-22, 1974, p. 344.
  80. J.W. Bandler, B.L. Bardakjian and J.H.K. Chen, "Design of recursive digital filters with optimum word length coefficients," Proc. 8th Princeton Conf. on Information Sciences and Systems (Princeton, NJ, Mar. 1974), pp. 126-131.
  81. J.W. Bandler and J.H.K. Chen, "DISOPT - a general program for continuous and discrete nonlinear programming problems," Proc. 8th Princeton Conf. on Information Sciences and Systems (Princeton, NJ, Mar. 1974), p. 132.
  82. J.W. Bandler and P.C. Liu, "Some implications of biquadratic functions in the tolerance problem," Proc. IEEE Int. Symp. Circuits and Systems (San Francisco, CA, Apr. 1974), pp. 740-744.
  83. J.W. Bandler and C. Charalambous, "Nonlinear programming using minimax techniques," J. Optimization Theory and Applications, vol. 13, 1974, pp. 607-619.
  84. J.W. Bandler, W.Y. Chu and J.R. Popovic, "Efficient, interactive semi- automated optimization of models and designs," Computers, Electronics and Control Symp. (Calgary, Canada, May 1974).
  85. J.W. Bandler, P.C. Liu and J.H.K. Chen, "Computer-aided tolerance optimization applied to microwave circuits," IEEE Int. Microwave Symp. Digest (Atlanta, GA, June 1974), pp. 275-277.
  86. J.W. Bandler, "Optimization of design tolerances using nonlinear programming," J. Optimization Theory and Applications, vol. 14, 1974, pp. 99-114.
  87. J.W. Bandler and T.V. Srinivasan, "Automated minimax system modelling," Int. J. Systems Science, vol. 5, 1974, pp. 1097-1106.
  88. J.W. Bandler and P.C. Liu, "Optimal design with tolerancing and tuning," (invited), IEEE CANDE Workshop (Kennebunkport, ME, Sep. 1974).
  89. J.W. Bandler and W.Y. Chu, "Computational merits of extrapolation in least pth approximation and nonlinear programming," Proc. 12th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1974), pp. 912-921.
  90. J.W. Bandler and P.C. Liu, "The tolerance-tuning problem: a nonlinear programming approach," Proc. 12th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1974), pp. 922-931.
  91. J.W. Bandler and P.C. Liu, "Some implications of biquadratic functions in the tolerance problem," IEEE Trans. Circuits and Systems, vol. CAS-22, 1975, pp. 385-390.
  92. J.W. Bandler, P.C. Liu and H. Tromp, "Practical design centering, tolerancing and tuning," Proc. IEEE Int. Symp. Circuits and Systems (Newton, MA, Apr. 1975), pp. 206-209.
  93. J.W. Bandler, "The least pth approach to engineering design," Optimization Days 1975 (Montreal, Canada, Apr. 1975).
  94. J.W. Bandler, P.C. Liu and H. Tromp, "Integrated approach to microwave design," IEEE Int. Microwave Symp. Digest (Palo Alto, CA, May 1975), pp. 204-206.
  95. J.W. Bandler, B.L. Bardakjian and J.H.K. Chen, "Design of recursive digital filters with optimized word length coefficients," Computer Aided Design, vol. 7, 1975, pp. 151-156.
  96. J.W. Bandler and J.H.K. Chen, "DISOPT - a general program for continuous and discrete nonlinear programming problems," Int. J. Systems Science, vol. 6, 1975, pp. 665-680.
  97. J.W. Bandler, P.C. Liu and J.H.K. Chen, "Worst case network tolerance optimization," IEEE Trans. Microwave Theory Tech., vol. MTT-23, 1975, pp. 630-641.
  98. J.W. Bandler, C. Charalambous and J.H.K. Chen, "MINOPT - an optimization program based on recent minimax results," Proc. 18th Midwest Symp. on Circuits and Systems (Montreal, Canada, Aug. 1975), pp. 520-524.
  99. J.W. Bandler and J.R. Popovic, "Interactive cascaded network optimization package," Proc. 18th Midwest Symp. on Circuits and Systems (Montreal, Canada, Aug. 1975), pp. 525-529.
  100. T.V. Srinivasan and J.W. Bandler, "Practical application of a penalty function approach to constrained minimax optimization," Computer Aided Design, vol. 7, 1975, pp. 221-224.
  101. J.W. Bandler, C. Charalambous, J.H.K. Chen and W.Y. Chu, "New results in the least pth approach to minimax design," Proc. 13th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1975), pp. 184-191.
  102. J.W. Bandler, J.H.K. Chen, P. Dalsgaard and P.C. Liu, "TOLOPT - a program for optimal, continuous or discrete, design centering and tolerancing," Proc. 13th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1975), pp. 633-642.
  103. J.W. Bandler, M.R.M. Rizk and H. Tromp, "Efficient calculation of exact group delay sensitivities," Proc. 13th Allerton Conf. on Circuit and System Theory (Urbana, IL, Oct. 1975), pp. 643-652.
  104. C. Charalambous and J.W. Bandler, "Nonlinear minimax optimization as a sequence of least pth optimization with finite values of p," Int. J. Systems Science, vol. 7, 1976, pp. 377-391.
  105. J.W. Bandler, C. Charalambous, J.H.K. Chen and W.Y. Chu, "New results in the least pth approach to minimax design," IEEE Trans. Microwave Theory Tech., vol. MTT-24, 1976, pp. 116-119.
  106. J.W. Bandler, P.C. Liu and H. Tromp, "A nonlinear programming approach to optimal design centering, tolerancing and tuning," IEEE Trans. Circuits and Systems, vol. CAS-23, 1976, pp. 155-165.
  107. J.W. Bandler, M.R.M. Rizk and H. Tromp, "Efficient calculation of exact group delay sensitivities," IEEE Trans. Microwave Theory Tech., vol. MTT-24, 1976, pp. 188-194.
  108. J.W. Bandler, P.C. Liu and H. Tromp, "Efficient, automated design centering and tolerancing," (invited), Proc. IEEE Int. Symp. Circuits and Systems (Munich, Germany, Apr. 1976), pp. 710-713.
  109. J.W. Bandler, H.L. Abdel-Malek, P.B. Johns and M.R.M. Rizk, "Optimal design via modeling and approximation," (invited), Proc. IEEE Int. Symp. Circuits and Systems (Munich, Germany, Apr. 1976), pp. 767-770.
  110. J.W. Bandler, "An introduction to simulation and optimization," (invited), IEEE Int. Microwave Symp. Digest (Cherry Hill, NJ, June 1976), pp. 204-206. Appearing in Low- Noise Microwave Transistors and Amplifiers, H. Fukui, Ed., IEEE Press, 1981.
  111. J.W. Bandler and W.Y. Chu, "Nonlinear programming using least pth optimization with extrapolation," Int. J. Systems Science, vol. 7, 1976, pp. 1239-1248.
  112. J.W. Bandler, C. Charalambous and J.H.K. Chen, "MINOPT - an optimization program based on recent minimax results," IEEE Trans. Microwave Theory Tech., vol. MTT-24, 1976, p. 543.
  113. J.W. Bandler and W.Y. Chu, "FLOPT2 - a program for least pth optimization with extrapolation to minimax solutions," IEEE Trans. Microwave Theory Tech., vol. MTT-24, 1976, pp. 543-544.
  114. J.W. Bandler, "Nonlinear optimization of engineering design with emphasis on centering, tolerancing and tuning," (invited), Int. Symp. Large Engineering Systems (Winnipeg, Canada, Aug. 1976). Appearing in Large Engineering Systems, A. Wexler, Ed., Pergamon Press, 1977, pp. 165-173.
  115. J.W. Bandler, P.C. Liu and H. Tromp, "Integrated approach to microwave design," IEEE Trans. Microwave Theory Tech., vol. MTT-24, 1976, pp. 584-591. Appearing in Microwave Integrated Circuits, 2nd Edition, J. Frey and K. Bahsin, Eds., Artech House, 1985.
  116. J.W. Bandler, "Electrical circuit optimization: the state of the art," (invited), ORSA/TIMS Joint Meeting (Miami, FL, Nov. 1976).
  117. J.W. Bandler, "Teaching optimal design," IEEE Trans. Education, vol. E-20, 1977, pp. 34-40.
  118. J.W. Bandler and H.L. Abdel-Malek, "Optimal centering, tolerancing and yield determination using multidimensional approximations," Proc. IEEE Int. Symp. Circuits and Systems (Phoenix, AZ, Apr. 1977), pp. 219-222.
  119. H.L. Abdel-Malek and J.W. Bandler, "Yield estimation for efficient design centering assuming arbitrary statistical distributions," Conf. Computer-aided Design of Electronic and Microwave Circuits and Systems (Hull, England, July 1977), pp. 66-71.
  120. J.W. Bandler, P.B. Johns and M.R.M. Rizk, "Transmission-line modeling and sensitivity evaluation for lumped network simulation and design in the time domain," Conf. Computer-aided Design of Electronic and Microwave Circuits and Systems (Hull, England, July 1977), pp. 109-114.
  121. J.W. Bandler, P.B. Johns and M.R.M. Rizk, "Transmission-line modeling and sensitivity evaluation for lumped network simulation and design in the time domain," J. Franklin Inst., vol. 304, 1977, pp. 15-32.
  122. J.W. Bandler and H.L. Abdel-Malek, "Modeling and approximation for statistical evaluation and optimization of microwave designs," Proc. 7th European Microwave Conf. (Copenhagen, Denmark, Sep. 1977), pp. 153-157.
  123. H.L. Abdel-Malek and J.W. Bandler, "Yield estimation for efficient design centering assuming arbitrary statistical distributions," Int. J. Circuit Theory Applic., vol. 6, 1978, pp. 289-303.
  124. H.L. Abdel-Malek and J.W. Bandler, "Yield optimization for arbitrary statistical distributions, Part I: Theory," Proc. IEEE Int. Symp. Circuits and Systems (New York, NY, May 1978), pp. 664-669.
  125. H.L. Abdel-Malek and J.W. Bandler, "Yield optimization for arbitrary statistical distributions, Part II: Implementation," Proc. IEEE Int. Symp. Circuits and Systems (New York, NY, May 1978), pp. 670-674.
  126. J.W. Bandler, H.L. Abdel-Malek, P. Dalsgaard, Z.S. El-Razaz and M.R.M. Rizk, "Optimization and design centering of active and nonlinear circuits including component tolerances and model uncertainties," Int. Symp. Large Engineering Systems (Waterloo, Canada, May 1978), pp. 127-132.
  127. J.W. Bandler, M.R.M. Rizk and H.L. Abdel-Malek, "New results in network simulation, sensitivity and tolerance analysis for cascaded structures," IEEE Int. Microwave Symp. Digest (Ottawa, Canada, June 1978), pp. 79-81.
  128. J.W. Bandler, "Engineering modelling and design subject to model uncertainties and manufacturing tolerances," (invited), Symp. on Modelling and Simulation Methodology (Rehovot, Israel, Aug. 1978). Appearing in Methodology in Systems Modelling and Simulation, B.P. Zeigler, M.S. Elzas, G.J. Klir and T.I. Oren, Eds., North-Holland, 1979, pp. 399-421.
  129. J.W. Bandler and D. Sinha, "DISOPT3 - a user-oriented package for nonlinear continuous and discrete optimization problems," Proc. 21st Midwest Symp. on Circuits and Systems (Ames, IA, Aug. 1978), pp. 77-83.
  130. J.W. Bandler and H.L. Abdel-Malek, "Algorithms for design centering involving yield and its sensitivities," (invited), Proc. 21st Midwest Symp. on Circuits and Systems (Ames, IA, Aug. 1978), pp. 242-248.
  131. J.W. Bandler and H.L. Abdel-Malek, "Advances in the mathematical programming approach to design centering, tolerancing and tuning," (invited), Proc. Joint Automatic Control Conf. (Philadelphia, PA, Oct. 1978), pp. 329-344.
  132. J.W. Bandler, "Objectives and tradeoffs in engineering optimization," (invited), ORSA/TIMS Joint Meeting (Los Angeles, CA, Nov. 1978).
  133. J.W. Bandler and H.L. Abdel-Malek, "Optimal centering, tolerancing and yield determination via updated approximations and cuts," IEEE Trans. Circuits and Systems, vol. CAS-25, 1978, pp. 853-871. Appearing in Statistical Design of Integrated Circuits, A.J. Strojwas, Ed., IEEE Press, 1987.
  134. J.W. Bandler, M.R.M. Rizk and H.L. Abdel-Malek, "New results in network simulation, sensitivity and tolerance analysis for cascaded structures," IEEE Trans. Microwave Theory Tech., vol. MTT-26, 1978, pp. 963-972.
  135. J.W. Bandler, R.M. Biernacki and M.R.M. Rizk, "The impact of generalized symmetry on computer-aided design of cascaded structures," IEEE Int. Microwave Symp. Digest (Orlando, FL, Apr.- May 1979), pp. 356-358.
  136. J.W. Bandler and M.R.M. Rizk, "Algorithms for tolerance and second-order sensitivities of cascaded structures," Proc. IEEE Int. Symp. Circuits and Systems (Tokyo, Japan, July 1979), pp. 1056-1059.
  137. H.L. Abdel-Malek and J.W. Bandler, "Centering, tolerancing, tuning and minimax design employing biquadratic models," Proc. IEEE Int. Symp. Circuits and Systems (Tokyo, Japan, July 1979), pp. 284-287.
  138. J.W. Bandler and M.R.M. Rizk, "Optimization of electrical circuits," Mathematical Programming Study 11, 1979, pp. 1-64.
  139. J.W. Bandler, "Recent developments in optimal centering, tolerancing and tuning of electrical circuits and systems," (invited), Workshop on Numerical Techniques for Stochastic Systems (Lake Garda, Italy, Sep. 1979).
  140. J.W. Bandler and M.A. El-Kady, "Postproduction tuning and alignment of electrical and mechanical designs by optimization," (invited), ORSA/TIMS Joint Meeting (Milwaukee, WI, Oct. 1979).
  141. H.L. Abdel-Malek and J.W. Bandler, "Yield optimization for arbitrary statistical distributions, Part I: Theory," IEEE Trans. Circuits and Systems, vol. CAS-27, 1980, pp. 245-253.
  142. H.L. Abdel-Malek and J.W. Bandler, "Yield optimization for arbitrary statistical distributions, Part II: Implementation," IEEE Trans. Circuits and Systems, vol. CAS-27, 1980, pp. 253-262.
  143. R.M. Biernacki and J.W. Bandler, "Fault location of analog circuits," Proc. IEEE Int. Symp. Circuits and Systems (Houston, TX, Apr. 1980), pp. 1078-1081.
  144. R.M. Biernacki and J.W. Bandler, "Postproduction parameter identification of analog circuits," Proc. IEEE Int. Symp. Circuits and Systems (Houston, TX, Apr. 1980), pp. 1082-1086.
  145. J.W. Bandler and M.A. El-Kady, "A unified approach to power system sensitivity analysis and planning, Part I: family of adjoint systems," Proc. IEEE Int. Symp. Circuits and Systems (Houston, TX, Apr. 1980), pp. 681-687.
  146. J.W. Bandler and M.A. El-Kady, "A unified approach to power system sensitivity analysis and planning, Part II: special class of adjoint systems," Proc. IEEE Int. Symp. Circuits and Systems (Houston, TX, Apr. 1980), pp. 688-692.
  147. J.W. Bandler and M.R.M. Rizk, "Analysis and sensitivity evaluation of 2p-port cascaded networks," IEEE Int. Microwave Symp. Digest (Washington, DC, May 1980), pp. 404-406.
  148. J.W. Bandler and M.A. El-Kady, "An algorithm for power system sensitivity analysis," Proc. Int. Symp. Large Engineering Systems (St. John's, Canada, July 1980), pp. 283-288.
  149. J.W. Bandler and R.M. Biernacki, "Postproduction parameter identification and tuning of analog circuits," (invited), Proc. European Conf. Circuit Theory and Design (Warsaw, Poland, Sep. 1980), pp. 205-220.
  150. J.W. Bandler and M.A. El-Kady, "A novel formulation for steady-state sensitivity analysis in power networks," (invited), Proc. IEEE Int. Conf. Circuits and Computers (Port Chester, NY, Oct. 1980), pp. 859-861.
  151. J.W. Bandler and M.R.M. Rizk, "Tolerance analysis of cascaded structures," IEEE Trans. Microwave Theory Tech., vol. MTT-28, 1980, pp. 935-938.
  152. J.W. Bandler, R.M. Biernacki and M.R.M. Rizk, "The impact of generalized symmetry on computer-aided design of cascaded structures," Int. J. Circuit Theory Applic., vol. 8, 1980, pp. 445-455.
  153. J.W. Bandler, R.M. Biernacki and A.E. Salama, "A linear programming approach to fault location in analog circuits," Proc. IEEE Int. Symp. Circuits and Systems (Chicago, IL, Apr. 1981), pp. 256-260.
  154. J.W. Bandler and M.A. El-Kady, "The method of complex Lagrange multipliers with applications," (invited), Proc. IEEE Int. Symp. Circuits and Systems (Chicago, IL, Apr. 1981), pp. 773-777.
  155. J.W. Bandler and M.A. El-Kady, "A generalized, complex adjoint approach to power network sensitivities," (invited), Proc. IEEE Int. Symp. Circuits and Systems (Chicago, IL, Apr. 1981), pp. 778-785.
  156. J.W. Bandler and M.A. El-Kady, "Sensitivity evaluation in electrical and analogous systems," (invited), ORSA/TIMS Joint Meeting (Toronto, Canada, May 1981).
  157. J.W. Bandler and M.A. El-Kady, "A new method for computerized solution of power flow equations," 12th Power Industry Computer Application Conf. (Philadelphia, PA, May 1981), pp. 27-35. Also in IEEE Trans. Power Apparatus and Systems, Vol. PAS-101, 1982, pp. 1-10.
  158. R.M. Biernacki and J.W. Bandler, "Multiple fault location of analog circuits," IEEE Trans. Circuits and Systems, vol. CAS-28, 1981, pp. 361-367.
  159. J.W. Bandler and M.R.M. Rizk, "Analysis and sensitivity evaluation of 2p-port cascaded networks," IEEE Trans. Microwave Theory Tech., vol. MTT-29, 1981, pp. 719-723.
  160. J.W. Bandler, M.R.M. Rizk and A.E. Salama, "An interactive optimal postproduction tuning technique utilizing simulated sensitivities and response measurements," IEEE Int. Microwave Symp. Digest (Los Angeles, CA, June 1981), pp. 63-65.
  161. J.W. Bandler and M.A. El-Kady, "Lagrangian vs. Tellegen approaches to network sensitivity analysis - a unified, comprehensive comparison," (invited), Proc. 24th Midwest Symp. Circuits and Systems (Albuquerque, NM, June 1981), pp. 213-216.
  162. J.W. Bandler and M.A. El-Kady, "Power network sensitivity analysis and formulation simplified," IEEE Trans. Automatic Control, vol. AC-26, 1981, pp. 773-775.
  163. J.W. Bandler and M.A. El-Kady, "Sensitivity analyses and reduced gradient evaluation for optimization of power systems," (invited), Proc European Conf. Circuit Theory and Design (Hague, Netherlands, Aug. 1981), pp. 69-74.
  164. J.W. Bandler and M.A. El-Kady, "Newton's load flow in complex mode," (invited), Proc. European Conf. Circuit Theory and Design (Hague, Netherlands, Aug. 1981), pp. 500-505.
  165. J.W. Bandler and A.E. Salama, "Postproduction tuning employing network sensitivities," (invited), Proc. European Conf. Circuit Theory and Design (Hague, Netherlands, Aug. 1981), 704-709.
  166. J.W. Bandler and M.A. El-Kady, "A complex Lagrangian approach with applications to power network sensitivity analysis," IEEE Trans. Circuits and Systems, vol. CAS-29, 1982, pp. 1-6.
  167. H.L. Abdel-Malek, J.W. Bandler and R.M. Biernacki, "A one- dimensional minimax algorithm based on biquadratic models," IEEE Trans. Circuits and Systems, vol. CAS-29, 1982, pp. 58-62.
  168. J.W. Bandler and M.A. El-Kady, "Exact power network sensitivities via generalized complex branch modelling," Proc. IEEE Int. Symp. Circuits and Systems (Rome, Italy, May 1982), pp. 313-316.
  169. J.W. Bandler, M.A. El-Kady and H. Gupta, "Practical complex solution of power flow equations," Proc. IEEE Int. Symp. Circuits and Systems (Rome, Italy, May 1982), pp. 317-320.
  170. H. Gupta, J.W. Bandler, J.A. Starzyk and J. Sharma, "A hierarchical decomposition approach for network analysis," Proc. IEEE Int. Symp. Circuits and Systems (Rome, Italy, May 1982), pp. 643-646.
  171. J.A. Starzyk and J.W. Bandler, "Nodal approach to multiple- fault location in analog circuits," Proc. IEEE Int. Symp. Circuits and Systems (Rome, Italy, May 1982), 1136-1139.
  172. J.W. Bandler, R.M. Biernacki, A.E. Salama and J.A. Starzyk, "Fault isolation in linear analog circuits using the L1 norm," Proc. IEEE Int. Symp. Circuits and Systems (Rome, Italy, May 1982), pp. 1140-1143.
  173. J.W. Bandler and M.A. El-Kady, "Applications of the adjoint network approach to power flow solution and sensitivities," Proc. Int. Symp. Large Engineering Systems (Calgary, Canada, June 1982), pp. 367-372.
  174. J.W. Bandler, M.A. El-Kady and H. Gupta, "Practical complex solution of power flow equations," IEEE Trans. Circuits and Systems, vol. CAS-29, 1982, pp. 772-775.
  175. J.A. Starzyk and J.W. Bandler, "Multiport approach to multiple-fault location in analog circuits," IEEE Trans. Circuits and Systems, vol. CAS-30, 1983, pp. 762-765.
  176. J.A. Starzyk and J.W. Bandler, "Design of tests for parameter evaluation within remote inaccessible faulty subnetworks," Proc. IEEE Int. Symp. Circuits and Systems (Newport Beach, CA, May 1983), pp. 1106-1109.
  177. J.W. Bandler, M.A. El-Kady, W. Kellermann and W.M. Zuberek, "An optimization approach to the best alignment of manufactured and operating systems," Proc. IEEE Int. Symp. Circuits and Systems (Newport Beach, CA, May 1983), pp. 542-545.
  178. J.W. Bandler and A.E. Salama, "Integrated approach to microwave post production tuning," IEEE Int. Microwave Symp. Digest (Boston, MA, June 1983). pp. 415-417.
  179. J.W. Bandler, W. Kellermann and W.M. Zuberek, "A comparison of recently implemented optimization techniques," (invited), Proc. European Conf. Circuit Theory and Design (Stuttgart, Germany, Sep. 1983), pp. 466-470.
  180. A.E. Salama, J.A. Starzyk and J.W. Bandler, "A unified decomposition approach for fault location in large analog circuits," Proc. European Conf. Circuit Theory and Design (Stuttgart, Germany, Sep. 1983), pp. 125-127.
  181. A.E. Salama, J.A. Starzyk and J.W. Bandler, "A unified decomposition approach for fault location in large analog circuits," IEEE Trans. Circuits and Systems, vol. CAS-31, 1984, pp. 609-622. Appearing in Analog Fault Diagnosis, R.W. Liu, Ed., IEEE Press, 1987.
  182. J.W. Bandler, M.A. El-Kady, W. Kellermann and W.M. Zuberek, "A minimax approach to the best mechanical alignment problem," ASME Design and Production Engineering Technical Conf. (Dearborn, MI, Sep. 1983). Also ASME J. Mechanisms, Transmissions and Automation in Design, vol. 106, 1984, pp. 31-40.
  183. J.A. Starzyk, R.M. Biernacki and J.W. Bandler, "Evaluation of faulty elements within linear subnetworks," Int. J. Circuit Theory Applic., vol. 12, 1984, pp. 23-37.
  184. J.W. Bandler and A.E. Salama, "Recent advances in fault location of analog networks," (invited), Proc. IEEE Int. Symp. Circuits and Systems (Montreal, Canada, May 1984), pp. 660-663.
  185. J.W. Bandler and M.A. El-Kady, "A generalized complex adjoint approach to power network sensitivities," Int. J. Circuit Theory Applic., vol. 12, 1984, pp. 191-222.
  186. J.W. Bandler and M.A. El-Kady, "The complex adjoint approaches to network sensitivities," J. Franklin Inst., vol. 318, 1984, pp. 91-103.
  187. 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, Sep. 1984), pp. 863-868.
  188. J.W. Bandler, S.H. Chen, S. Daijavad and M. Renault, "Case study in passive circuit CAD," (invited), Proc. 14th European Microwave Conf. (Liege, Belgium, Sep. 1984), pp. 740-745.
  189. 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.
  190. J.W. Bandler, S.H. Chen and S. Daijavad, "Novel approach to multi-coupled cavity filter sensitivity and group delay computation," Electronics Letters, vol. 20, 1984, pp. 580-582.
  191. J.W. Bandler, S.H. Chen and S. Daijavad, "Simple derivation of a general sensitivity formula for lossless two-ports," Proc. IEEE, vol. 73, 1985, pp. 165-166.
  192. J.W. Bandler and A.E. Salama, "Functional approach to microwave postproduction tuning," IEEE Trans. Microwave Theory Tech., vol. MTT-33, 1985, pp. 302-310.
  193. T. Ozawa, J.W. Bandler and A.E. Salama, "Diagnosability in the decomposition approach for fault location in large analog networks," IEEE Trans. Circuits and Systems, vol. CAS-32, 1985, pp. 415-416.
  194. J.W. Bandler, W. Kellermann and K. Madsen, "A superlinearly convergent minimax algorithm for microwave circuit design," IEEE Int. Microwave Symp. Digest (St. Louis, MO, June 1985), pp. 721-724.
  195. J.W. Bandler, W. Kellermann and K. Madsen, "A superlinearly convergent algorithm for nonlinear L1 optimization with circuit applications," Proc. IEEE Int. Symp. Circuits and Systems (Kyoto, Japan, June 1985), pp. 977-980.
  196. J.W. Bandler, S. Daijavad and Q.J. Zhang, "Computer Aided Design of branched cascaded networks," Proc. IEEE Int. Symp. Circuits and Systems (Kyoto, Japan, June 1985), pp. 1579-1582.
  197. J.W. Bandler, S.H. Chen and S. Daijavad, "Exact sensitivity analysis and optimization for multi-coupled microwave communication filters," Proc. IEEE Int. Symp. Circuits and Systems (Kyoto, Japan, June 1985), pp. 1587-1590.
  198. J.W. Bandler and W. Kellermann, "Centering, tolerancing and tuning in computer-aided design of engineering systems," Proc. Canadian CAD/CAM & Robotics Conf. (Toronto, Canada, June 1985), pp. 11.27-11.34.
  199. J.W. Bandler, S. Daijavad and Q.J. Zhang, "A novel approach to multiplexer simulation and sensitivity analysis," Electronics Letters, vol. 21, 1985, pp. 408-409.
  200. J.W. Bandler and A.E. Salama, "Fault diagnosis of analog circuits," (invited), Proc. IEEE, vol. 73, 1985, pp. 1279-1325.
  201. J.W. Bandler, M.A. El-Kady and H.K. Grewal, "Exact sensitivities for nonreciprocal two-port power elements," Proc. IEEE, vol. 73, 1985, pp. 1858-1859.
  202. J.W. Bandler, W. Kellermann and K. Madsen, "A superlinearly convergent minimax algorithm for microwave circuit design," IEEE Trans. Microwave Theory Tech., vol. MTT-33, 1985, pp. 1519-1530.
  203. J.W. Bandler, M.A. El-Kady and H.K. Grewal, "An application of complex branch modelling to nonreciprocal power transmission elements," IEEE Trans. Circuits and Systems, vol. CAS-32, 1985, pp. 1292-1295.
  204. J.W. Bandler, S. Daijavad and Q.J. Zhang, "Exact simulation and sensitivity analysis of multiplexing networks," IEEE Trans. Microwave Theory Tech., vol. MTT-34, 1986, pp. 93-102.
  205. J.W. Bandler, S.H. Chen and S. Daijavad, "Exact sensitivity analysis for optimization of multi-coupled cavity filters," Int. J. Circuit Theory Applic., vol. 14, 1986, pp. 63-77.
  206. J.W. Bandler, M.A. El-Kady and H.K. Grewal, "Sensitivity evaluation of phase-shifting transformers using the complex Lagrangian method," Int. J. Circuit Theory Applic., vol. 14, 1986, pp. 83-87.
  207. J.W. Bandler and Q.J. Zhang, "Large change sensitivity analysis in linear systems using generalized Householder formulae," Int. J. Circuit Theory Applic., vol. 14, 1986, pp. 89-101.
  208. J.W. Bandler, 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, May 1986), pp. 964-967.
  209. J.W. Bandler, S.H. Chen and S. Daijavad, "Microwave device modelling using efficient L1 optimization: a novel approach," IEEE Int. Microwave Symp. Digest (Baltimore, MD, June 1986), pp. 491-494.
  210. J.W. Bandler, S.H. Chen, S. Daijavad, W. Kellermann, M. Renault and Q.J. Zhang, "Large scale minimax optimization of microwave multiplexers," Proc. European Microwave Conf. (Dublin, Ireland, Sep. 1986), pp. 435-440.
  211. 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.
  212. J.W. Bandler, W. Kellermann and K. Madsen, "A nonlinear L1 optimization algorithm for design, modeling and diagnosis of networks," IEEE Trans. Circuits and Systems, vol. CAS-34, 1987, pp. 174-181.
  213. J.W. Bandler and Q.J. Zhang, "An automatic decomposition technique for device modelling and large circuit design," IEEE Int. Microwave Symp. Digest (Las Vegas, NA, June 1987), pp. 709-712.
  214. J.W. Bandler and Q.J. Zhang, "An automatic decomposition approach to optimization of large microwave systems," IEEE Trans. Microwave Theory Tech., vol. MTT-35, 1987, pp. 1231-1239.
  215. 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.
  216. J.W. Bandler, S.H. Chen, S. Daijavad and K. Madsen, "Efficient optimization with integrated gradient approximations," IEEE Trans. Microwave Theory Tech., vol. 36, 1988, pp. 444-455.
  217. J.W. Bandler and Q.J. Zhang, "Optimization techniques for modeling, diagnosis and tuning," in Analog Methods for Computer-aided Analysis and Diagnosis, T. Ozawa, Ed. New York: Marcel Dekker, Inc., 1988, pp. 381-416.
  218. J.W. Bandler, S.H. Chen, S. Ye and Q.J. Zhang, "Robust model parameter extraction using large-scale optimization concepts," IEEE Int. Microwave Symp. Digest (New York, NY, May 1988), pp. 319-322.
  219. J.W. Bandler, Q.Z. Zhang and R.M. Biernacki, "A unified framework for harmonic balance simulation and sensitivity analysis," IEEE Int. Microwave Symp. Digest (New York, NY, May 1988), pp. 1041-1044.
  220. 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 and Systems (Espoo, Finland, June 1988), pp. 1795-1798.
  221. 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. European Microwave Conf. (Stockholm, Sweden, Sep. 1988), pp. 255-260.
  222. J.W. Bandler, Q.J. Zhang and R.M. Biernacki, "A unified theory for frequency-domain simulation and sensitivity analysis of linear and nonlinear circuits," IEEE Trans. Microwave Theory Tech., vol. 36, 1988, pp. 1661-1669.
  223. 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.
  224. J.W. Bandler, Q.J. Zhang and R.M. Biernacki, "Practical, high speed gradient computation for harmonic balance simulators," IEEE Int. Microwave Symp. Digest (Long Beach, CA, June 1989), pp. 363-366.
  225. J.W. Bandler, Q.J. Zhang, S. Ye and S.H. Chen, "Efficient large-signal FET parameter extraction using harmonics," IEEE Int. Microwave Symp. Digest (Long Beach, CA, June 1989), pp. 577-580.
  226. J.W. Bandler, Q.J. Zhang, J. Song and R.M. Biernacki, "Yield optimization of nonlinear circuits with statistically characterized devices," IEEE Int. Microwave Symp. Digest (Long Beach, CA, June 1989), pp. 649-652.
  227. 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. European Microwave Conf. (London, England, Sep. 1989), pp. 205-210.
  228. J.W. Bandler, "Statistical design, yield optimization and device modeling for (M)MICs," W. German IEEE MTT/AP Joint Chapter Workshop on Progress in Microwave CAD and in CAD Applications, Digest of Papers (Ratingen, W. Germany, Oct. 1989), pp. 114- 172.
  229. R.M. Biernacki, J.W. Bandler, J. Song and Q.J. Zhang, "Efficient quadratic approximation for statistical design," IEEE Trans. Circuits and Systems, vol. 36, 1989, pp. 1449-1454.
  230. 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.
  231. J.W. Bandler, Q.J. Zhang and Q. Cai, "Nonlinear circuit optimization with dynamically integrated physical device models," IEEE Int. Microwave Symp. Digest (Dallas, TX, May 1990), pp. 303-306.
  232. 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, Sep. 1990), pp. 453-456.
  233. J.W. Bandler, R.M. Biernacki, S.H. Chen and Q.J. Zhang, "Statistical design/yield optimization of nonlinear microwave circuits," First Int. Workshop of the West German IEEE MTT/AP Joint Chapter on Integrated Nonlinear Microwave and Millimeterwave Circuits, Digest (Duisburg, Germany, Oct. 1990), pp. 35-48.
  234. J.W. Bandler, Q.J. Zhang, J. Song and R.M. Biernacki, "FAST gradient based yield optimization of nonlinear circuits," IEEE Trans. Microwave Theory Tech. vol. 38, 1990, pp. 1701-1710.
  235. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Design optimization with external simulators," (invited), COMPUMAG 8th Conf. on the Computation of Electromagnetic Fields (Sorrento, Italy, 1991), pp. 1061-1064.
  236. 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.
  237. J.W. Bandler, R.M. Biernacki, S.H. Chen, J. Song, S. Ye and Q.J. Zhang, "Statistical modeling of GaAs MESFETs," IEEE Int. Microwave Symp. Digest (Boston, MA, June 1991), pp. 87-90.
  238. 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 Int. Microwave Symp. Digest (Boston, MA, June 1991), pp. 1197-1200.
  239. 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, Sep. 1991), pp. 1515-1520.
  240. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Harmonic balance simulation and optimization of nonlinear circuits," (invited), Proc. IEEE Int. Symp. Circuits and Systems (San Diego, CA, May 1992), pp. 85-88.
  241. J.W. Bandler, S. Ye, Q. Cai, R.M. Biernacki and S.H. Chen, "Predictable yield-driven circuit optimization," IEEE Int. Microwave Symp. Digest (Albuquerque, NM, June 1992), pp. 837-840.
  242. J.W. Bandler, R.M. Biernacki and S.H. Chen, "A new formulation for yield optimization," IEEE Int. Microwave Symp. Digest (Albuquerque, NM, June 1992), pp. 1465-1468.
  243. J.W. Bandler and R.H. Jansen, Eds., IEEE Trans. Microwave Theory Tech. Special Issue on Process-Oriented Microwave CAD and Modeling, vol. 40, 1992, pp. 1329-1594.
  244. J.W. Bandler and R.H. Jansen, "Guest editorial: process-oriented microwave CAD and modeling," IEEE Trans. Microwave Theory Tech., vol. 40, 1992, pp. 1329-1332.
  245. 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.
  246. 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 Int. Microwave Symp. Digest (Atlanta, GA, June 1993), pp. 889-892.
  247. J.W. Bandler, S.H. Chen, R.M. Biernacki, K. Madsen, L. Gao and H. Yu, "Robustizing circuit optimization using Huber functions," IEEE Int. Microwave Symp. Digest (Atlanta, GA, June 1993), pp. 1009-1012.
  248. 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 Int. Microwave Symp. Digest (Atlanta, GA, June 1993), pp. 1017-1020.
  249. J.W. Bandler, "Performance and yield optimization of electronic devices and circuits," Scandinavian Workshop on Linear Programming (Lyngby, Denmark, Aug. 1993).
  250. R.M. Biernacki, J.W. Bandler, S.H. Chen and P.A. Grobelny, "Spicepipe - a case study of flexible circuit optimization," Proc. European Conf. Circuit Theory and Design (Davos, Switzerland, Sep. 1993), 1323-1328.
  251. P.P.M. So, W.J.R. Hoefer, J.W. Bandler, R.M. Biernacki and S.H. Chen, "Hybrid frequency/time domain field theory based CAD of microwave circuits," Proc. 23rd European Microwave Conf. (Madrid, Spain, Sep. 1993), pp. 218-219.
  252. 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.
  253. 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.
  254. 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 Symposium (Turin, Italy, Apr. 1994), pp. 173-176.
  255. J.W. Bandler, R.M. Biernacki, S.H. Chen, P.A. Grobelny and R.H. Hemmers, "Exploitation of coarse grid for electromagnetic optimization," IEEE Int. Microwave Symp. Digest (San Diego, CA, May 1994), pp. 381-384.
  256. J.W. Bandler, R.M. Biernacki, Q. Cai and S.H. Chen, "A novel approach to statistical modeling using cumulative probability distribution fitting," IEEE Int. Microwave Symp. Digest (San Diego, CA, May 1994), pp. 385-388.
  257. 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 Int. Microwave Symp. Digest (San Diego, CA, May 1994), pp. 993-996.
  258. J.W. Bandler, S.H. Chen, R.M. Biernacki and K. Madsen, "The Huber concept in device modeling, circuit diagnosis and design centering," IEEE Int. Symp. Circuits and Systems (London, England, May-June 1994), vol. 1, pp. 129-132.
  259. 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," IEEE Int. Symp. Circuits and Systems (London, England, May-June 1994), vol. 1, pp. 145-148.
  260. 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.
  261. 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 INMMC'94, Digest (Duisburg, Germany, Oct. 1994), pp. 173- 178.
  262. 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.
  263. 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 Int. Microwave Symp. Digest (Orlando, FL, May 1995), pp. 793-796.
  264. 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 Int. Microwave Symp. Digest (Orlando, FL, May 1995), pp. 1085-1088.
  265. J.W. Bandler, R.M. Biernacki, Q. Cai and S.H. Chen, "Cost-driven physics-based large- signal simultaneous device and circuit design," IEEE Int. Microwave Symp. Digest (Orlando, FL, May 1995), pp. 1443-1446.
  266. J.W. Bandler, R.M. Biernacki, S.H. Chen, R.H. Hemmers and K. Madsen, "Aggressive space mapping for electromagnetic design," IEEE Int. Microwave Symp. Digest (Orlando, FL, May 1995), pp. 1455-1458.
  267. 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.
  268. J.W. Bandler, "Novel electromagnetic optimization techniques, including space mapping," (invited), IMA Workshop on Large Scale Optimization (Institute for Mathematics and its Applications, Minneapolis, MN, 1995).
  269. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Optimization technology for microwave circuit modeling and design," (invited), Proc. 25th European Microwave Conf. (Bologna, Italy, Sep. 1995), pp. 101-108.
  270. 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.
  271. J.W. Bandler, R.M. Biernacki and S.H. Chen, "Toward direct EM optimization of VLSI interconnects: validation of coupled transmission line models," Canadian Conf. on Electrical and Computer Engineering (Montreal, PQ, 1995), pp. 377-380.
  272. 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.
  273. M. Dionigi, R. Sorrentino and J.W. Bandler, "Fullwave design of E plane metal insert band-pass filter by the adjoint network method," Workshop on Advanced CAD for Microwave Filters and Passive Devices (ESA/ESTEC, Noordwijk, The Netherlands, 1995).
  274. J.W. Bandler, "Novel space mapping optimization technique for electromagnetic design," (invited), Workshop on Advanced CAD for Microwave Filters and Passive Devices (ESA/ESTEC, Noordwijk, The Netherlands, 1995).
  275. 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).
  276. 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, June 1996), pp. 753-756.
  277. 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, June 1996), pp. 1059-1062.
  278. 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, Oct. 1996), pp. 149-154.
  279. 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.
  280. J.W. Bandler, "Guest editorial: optimization-oriented microwave CAD," Int. J. Microwave and Millimeter-Wave Computer- Aided Engineering, vol. 7, 1997, pp. 3-5.
  281. 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.
  282. J.W. Bandler, Ed., IEEE Trans. Microwave Theory Tech. Special Issue on Automated Circuit Design Using Electromagnetic Simulators, vol. 45, May 1997.
  283. J.W. Bandler, "Guest editorial: automated circuit design using electromagnetic simulators," IEEE Trans. Microwave Theory Tech., vol. 45, 1997, pp.709-711.
  284. 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.
  285. 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.
  286. 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.
  287. 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.
  288. 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.
  289. 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.
  290. 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.
  291. 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.
  292. 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).
  293. 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).
  294. 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.
  295. 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.
  296. 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.
  297. 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.
  298. 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.
  299. 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.
  300. 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.
  301. 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.
  302. 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.
  303. 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.
  304. 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.
  305. 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.
  306. 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. (Orlando, FL, 1999), pp. 2572-2575.
  307. 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.
  308. 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 Assembly (Toronto, ON, 1999), p. 246.
  309. 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).
  310. 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.
  311. 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.
  312. 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.
  313. 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.
  314. 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).
  315. J.W. Bandler, J.E. Rayas-Sánchez and Q.J. Zhang, "Software implementation of space mapping based neuromodels of microwave components," Micronet Annual Workshop (Ottawa, ON, April 2000), pp. 67-68.
  316.  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.
  317. 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.
  318. 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.
  319. 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).
  320. 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.
  321. 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.
  322. 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.
  323. 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.
  324. 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.
  325. 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.
  326. 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.
  327. 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.
  328. 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.
  329. 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.
  330. 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.
  331. J.W. Bandler, M.A. Ismail and J.E. Rayas-Sánchez, "Expanded space mapping optimization of microwave circuits exploiting preassigned parameters," 1st Annual McMaster Optimization Conference: Theory and Application (MOPTA 01) (Hamilton, ON, 2001).
  332. 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).
  333. 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.
  334. J.W. Bandler and K. Madsen, "Editorial—surrogate modelling and space mapping for engineering optimization," Optimization and Engineering, vol. 2, 2001, pp. 367-368.
  335. 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.
  336. 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.
  337. 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, 2002), pp. 195-201.
  338. 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).
  339. J.W. Bandler and A.S. Mohamed, "Space mapping optimization exploiting adjoint sensitivities," Micronet Annual Workshop (Ottawa, ON, 2002), pp. 61-62.
  340. 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.
  341. 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, 2002), pp. 971-974.
  342. 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, 2002), pp. 713-716.
  343. 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, 2002), pp. 2101-2104.
  344. 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).
  345. 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).
  346. 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.
  347. 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.
  348. 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.
  349. 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.
  350. 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.
  351. J.W. Bandler, Q.S. Cheng, D.H. 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.
  352. J.W. Bandler, Q.S. Cheng, D.H. Gebre-Mariam, K. Madsen, F. Pedersen and J. Søndergaard, "Advances in space mapping optimization using implicit and output mappings," 3rd Annual McMaster Optimization Conference: Theory and Applications (MOPTA 03) (Hamilton, ON, 2003).
  353. J.E. Rayas-Sánchez and J.W. Bandler, "Yield optimization of microwave circuits using neural space mapping methods," 3rd Annual McMaster Optimization Conference: Theory and Applications (MOPTA 03) (Hamilton, ON, 2003).
  354. J.W. Bandler, Q.S. Cheng, S.A. Dakroury, A.S. Mohamed, M.H. Bakr, K. Madsen and J. Søndergaard, "Trends in space mapping technology for engineering optimization," 3rd Annual McMaster Optimization Conference: Theory and Applications (MOPTA 03) (Hamilton, ON, 2003).
  355. J.W. Bandler, "Space mapping: engineering modeling and optimization exploiting surrogates," Int. Symp. on Mathematical Programming (Copenhagen, Denmark, Aug. 2003), pp. 154-155.
  356. J.W. Bandler, Q.S. Cheng, S. Dakroury, A.S. Mohamed, M.H. Bakr, K. Madsen and J. Søndergaard, "Space mapping: the state of the art," (invited), Proceedings SMBO/IEEE MTT-S IMOC 2003 (Foz do Iguaçú, Brazil, Sep. 2003), pp. 951-956.
  357. J.W. Bandler and Q.S. Cheng, "Implicit space mapping optimization exploiting preassigned parameters," Micronet Annual Workshop (Toronto, ON, April 2003), pp.65-66.
  358. J.W. Bandler and M, Mongiardo, "Guest editorial electromagnetics-based optimization of microwave components and circuits," IEEE Trans. Microwave Theory Tech., vol. 52, 2004, pp. 241-244.
  359. 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.
  360. 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.
  361. N.K. Nikolova, J.W. Bandler, and M.H. Bakr, "Adjoint techniques for sensitivity analysis in high-frequency structure CAD," IEEE Trans. Microwave Theory Tech., vol. 52, 2004, pp. 403-419.
  362. N.K. Nikolova, S. Ali, M.H. Bakr, E.A. Soliman and J.W. Bandler, "Response sensitivity analysis with frequency-domain full-wave electromagnetic solvers," 20th Annual Review of Progress in Applied Computational Electromagnetics ACES 04 ( Syracuse , NY , April 2004).
  363. J.W. Bandler, Q.S. Cheng, D.M. Hailu and N.K. Nikolova, "An implementable space mapping design framework," IEEE MTT-S Int. Microwave Symp. Dig., (Fort Worth, TX, 2004), pp. 703-706.
  364. 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," IEEE MTT-S Int. Microwave Symp. Dig., (Fort Worth, TX, 2004), pp. 1565-1568.
  365. N.K. Nikolova, R. Safian, E.A. Soliman, M.H. Bakr, and J.W. Bandler, "Accelerated gradient based optimization using adjoint sensitivities," IEEE Trans. Antennas Propag., vol. 52, 2004, pp. 2147-2157.
  366. J.W. Bandler and Q.S. Cheng, "Space mapping: a novel design and modeling methodology," in 4th Int. Conference on Microwave and Millimeter Wave Technology 2004 (Beijing, China, Aug. 2004), pp. 785-788.
  367. J.W. Bandler, D.M. Hailu, K. Madsen, and F. Pedersen, "A space-mapping interpolating surrogate algorithm for highly optimized EM-based design of microwave devices," IEEE Trans. Microwave Theory Tech., vol. 52, 2004, pp. 2593-2600.
  368. J.W. Bandler, Q.S. Cheng, D.M. Hailu, and N.K. Nikolova, "A space-mapping design framework," IEEE Trans. Microwave Theory Tech., vol. 52, 2004, pp. 2601-2610.
  369. J.W. Bandler, Q.S. Cheng, D.M. Hailu, A.S. Mohamed, M.H. Bakr, K. Madsen and F. Pedersen, "Recent trends in space mapping technology," in Proc. 2004 Asia-Pacific Microwave Conf. APMC04 (New Delhi, India, Dec. 2004).
  370. J.W. Bandler and K. Madsen, "Introduction to space mapping," Eighth SIAM Conference on Optimization (Stockholm, Sweden, May 2005).
  371. J.W. Bandler and S. Koziel, "Optimal design of high-fidelity engineering device models through space mapping," Eighth SIAM Conference on Optimization (Stockholm, Sweden, May 2005).
  372. S. Koziel, J.W. Bandler and K. Madsen, "On the convergence of space mapping optimization algorithms," Eighth SIAM Conference on Optimization (Stockholm, Sweden, May 2005).
  373. S. Koziel, J.W. Bandler and K. Madsen, "Towards a rigorous formulation of the space mapping technique for engineering design," Proc. Int. Symp. Circuits, Syst. ISCAS (Kobe, Japan, 2005), pp. 5605-5608.
  374. S. Koziel, J.W. Bandler, A.S. Mohamed and K. Madsen "Enhanced surrogate models for statistical design exploiting space mapping technology," IEEE MTT–S Int. Microwave Symp. Dig. (Long Beach, CA, June 2005), pp.1609-1612.
  375. J.W. Bandler, Q.S. Cheng and S. Koziel, "Implementable space mapping approach to enhancement of microwave device models," IEEE MTT-S Int. Microwave Symp. Dig. (Long Beach, CA, June 2005), pp. 1139-1142.
  376. J.W. Bandler, A.S. Mohamed, and M.H. Bakr, "TLM-based modeling and design exploiting space mapping," IEEE Trans. Microwave Theory Tech., vol. 53, pp. 2801-2811, 2005.
  377. N.K. Nikolova, J. Zhu, D. Li, M.H. Bakr, and J.W. Bandler, "Sensitivity analysis of network parameters with electromagnetic frequency-domain simulators," IEEE Trans. Microwave Theory and Tech., vol. 54, no. 2, pp. 670-681, Feb. 2006.
  378. J. Zhu, N.K. Nikolova and J.W. Bandler, "Self-adjoint sensitivity analysis of high-frequency structures with FEKO," 22nd Annual Review of Progress in Applied Computational Electromagnetics ACES 06 (Miami, FL, March 2006), pp. 877-880.
  379. J.W. Bandler, S. Koziel and K. Madsen, "Space mapping for engineering optimization," SIAG/Optimization Views-and-News Special Issue on Surrogate/Derivative-free Optimization, vol. 17, March 2006, pp. 19-26.
  380. W. Yu and J.W. Bandler, "Optimization of spiral inductor on silicon using space mapping," IEEE MTT-S Int. Microwave Symp. Dig. (San Francisco, CA, June 2006), pp. 1085-1088.
  381. S. Koziel, J.W. Bandler and K. Madsen, "Space mapping optimization algorithms for engineering design," IEEE MTT-S Int. Microwave Symp. Dig. (San Francisco, CA, June 2006), pp. 1601 - 1604.
  382. S. Koziel and J.W. Bandler, "Space-mapping-based modeling utilizing parameter extraction with variable weight coefficients and a data base," IEEE MTT-S Int. Microwave Symp. Dig. (San Francisco, CA, June 2006), pp. 1763-1766.
  383. J. Zhu, J.W. Bandler, N.K. Nikolova, and S. Koziel, "Antenna design through space mapping optimization," IEEE MTT-S Int. Microwave Symp. Dig. (San Francisco, CA, June 2006), pp. 1605-1608.
  384. Q.S. Cheng and J.W. Bandler, "An automated space mapping framework," in Frontiers in Applied Computational Electromagnetics FACE 2006 (Victoria, BC, Canada, June 2006).
  385. A.S. Mohamed, J.W. Bandler, and M.H. Bakr, "MEFiSTo-based microwave filter design exploiting space mapping," in Frontiers in Applied Computational Electromagnetics FACE 2006 (Victoria, BC, Canada, June 2006).
  386. S. Koziel, J.W. Bandler, and K. Madsen, "Space-mapping based interpolation for engineering optimization," IEEE Trans. Microwave Theory Tech., vol. 54, no. 6, pp. 2410-2421, June 2006.
  387. J.W. Bandler and Q.S. Cheng, "New developments in space mapping CAD technology," (invited), in China-Japan Joint Microwave Conference (Chengdu, China, Aug. 2006), pp. 1-4.
  388. Q.S. Cheng and J.W. Bandler, "An implicit space mapping technique for component modeling," in Proc. 36th European Microwave Conf. (Manchester, UK, Sept. 2006), pp. 458-461.
  389. Q.S. Cheng, S. Koziel, and J.W. Bandler, "Simplified space mapping approach to enhancement of microwave device models," Int. J. RF and Microwave Computer-Aided Engineering, vol. 16, no. 5, pp. 518-535, Sept. 2006.
  390. M.A. El Sabbagh, M.H. Bakr, and J.W. Bandler, "Adjoint higher order sensitivities for fast full-wave optimization of microwave filters," IEEE Trans. Microwave Theory Tech., vol. 54, no. 8, pp. 3339-3351, Aug. 2006.
  391. S. Koziel, J. W. Bandler, and K. Madsen, "A space-mapping framework for engineering optimization—theory and implementation," IEEE Trans. Microwave Theory Tech., vol. 54, no. 10, pp. 3721-3730, Oct. 2006.
  392. S. Koziel, J. W. Bandler, and K. Madsen, "Theoretical justification of space-mapping-based modeling utilizing a database and on-demand parameter extraction," IEEE Trans. Microwave Theory Tech., vol. 54, no. 12, pp. 4316-4322, Dec. 2006.
  393. S. Koziel and J.W. Bandler, "Space mapping optimization with adaptive surrogate model," IEEE Trans. Microwave Theory Tech., vol. 55, no. 3, pp. 541-547, Mar. 2007.
  394. J. Zhu, J.W. Bandler, N.K. Nikolova, and S. Koziel, "Antenna optimization through space mapping," IEEE Trans. Antennas Propag., vol. 55, no. 3, pp. 651-658, Mar. 2007.
  395. J. W. Bandler and Q.J. Zhang, "Space mapping and neuro-space mapping for microwave design," Progress in Electromagnetics Research Symp. (PIERS) (Beijing, China, Mar. 26-30, 2007).
  396. S. Koziel and J.W. Bandler, "Coarse and surrogate model assessment for engineering design optimization with space mapping," IEEE MTT-S Int. Microwave Symp. Dig. (Honolulu, HI, June 2007), pp. 107-110.
  397. S. Koziel and J.W. Bandler, "Microwave device modeling using space-mapping and radial basis functions," IEEE MTT-S Int. Microwave Symp. Dig., (Honolulu, HI, June 2007), pp. 799-802.
  398. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Improving efficiency of space mapping optimization of microwave structures and devices," IEEE MTT-S Int. Microwave Symp. Dig., (Honolulu, HI, June 2007), pp. 1995-1998.
  399. S. Koziel and J.W. Bandler, "Controlling convergence of space-mapping algorithms for engineering optimization," Int. Symp. Signals, Systems and Electronics, URSI ISSSE 2007, Montreal, Canada, 2007, pp. 21-23.
  400. S. Koziel and J.W. Bandler, "SMF: a user-friendly software engine for space-mapping-based engineering design optimization," Int. Symp. Signals, Systems and Electronics, URSI ISSSE 2007, Montreal, Canada, 2007, pp. 157-160.
  401. D. Li, J. Zhu, N.K. Nikolova, M.H. Bakr, and J.W. Bandler, "Electromagnetic optimisation using sensitivity analysis in the frequency domain," IET Microwaves, Antennas & Propagation, vol. 1, no. 4, pp. 852-859, Aug. 2007.
  402. S. Koziel and J.W. Bandler, "Interpolated coarse models for microwave design optimization with space mapping," IEEE Trans. Microwave Theory Tech., vol. 55, no. 8, pp. 1739-1746, Aug. 2007.
  403. S. Koziel and J.W. Bandler, "A space-mapping approach to microwave device modeling exploiting fuzzy systems," IEEE Trans. Microwave Theory Tech., vol. 55, no. 12, pp. 2539-2547, Dec. 2007.
  404. S. Koziel and J.W. Bandler, "Space mapping with multiple coarse models for optimization of microwave components," IEEE Microwave and Wireless Components Letters, vol. 8, no. 1, pp. 1-3, Jan. 2008.
  405. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Combining coarse and fine models for optimal design," IEEE Microwave Magazine, vol. 9, no. 1, pp. 79-88, Feb. 2008.
  406. S. Koziel and J.W. Bandler, "Space mapping optimization of microwave structures with FEKO," 24th Annual Review of Progress in Applied Computational Electromagnetics ACES 08 (Niagara Falls, Canada, Mar.-Apr. 2008), pp. 320-325.
  407. S. Koziel and J.W. Bandler, "Coarse models for microwave design optimization with space mapping," 24th Annual Review of Progress in Applied Computational Electromagnetics ACES 08 (Niagara Falls, Canada, Mar.-Apr. 2008), pp. 578-583.
  408. R.K. Amineh, S. Koziel, N.K. Nikolova, J.W. Bandler, and J.P. Reilly, "A space mapping methodology for defect characterization," 24th Annual Review of Progress in Applied Computational Electromagnetics ACES 08 (Niagara Falls, Canada, Mar.-Apr. 2008), pp. 609-614.
  409. S. Koziel and J.W. Bandler, "Support-vector-regression-based output space-mapping for microwave device modeling," IEEE MTT-S Int. Microwave Symp. Dig. (Atlanta, GA, June 2008), pp. 615-618.
  410. S. Koziel and J.W. Bandler, "Space mapping with distributed fine model evaluation for optimization of microwave structures and devices," IEEE MTT-S Int. Microwave Symp. Dig. (Atlanta, GA, June 2008), pp. 1377-1380.
  411. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Adaptive space mapping with convergence enhancement for optimization of microwave structures and devices," IEEE MTT-S Int. Microwave Symp. Dig. (Atlanta, GA, June 2008), pp 987-990.
  412. J. Meng, S. Koziel, J.W. Bandler, M.H. Bakr, and Q.S. Cheng, "Tuning space mapping: a novel technique for engineering design optimization," IEEE MTT-S Int. Microwave Symp. Dig. (Atlanta, GA, June 2008), pp 991-994.
  413. S. Koziel and J.W. Bandler, "Modeling of microwave devices with space mapping and radial basis functions," Int. J. Numerical Modeling, vol. 21, no. 3, pp. 187-203, May 2008.
  414. Q.S. Cheng, J.W. Bandler, and J.E. Rayas-Sánchez, "Tuning-aided implicit space mapping," Int. J. RF and Microwave Computer-Aided Engineering, vol. 18, no. 5, pp. 445-453, Sep. 2008.
  415. J.W. Bandler, S. Koziel, and K. Madsen, "Editorial—surrogate modeling and space mapping for engineering optimization," Optimization and Engineering, Special Issue on Surrogate Modeling and Space Mapping for Engineering Optimization, vol. 9, no. 4, pp. 307-310, 2008.
  416. S. Koziel, J.W. Bandler, and K. Madsen, "Quality assessment of coarse models and surrogates for space mapping optimization," Optimization and Engineering, vol. 9, no. 4, pp. 375-391, 2008.
  417. R.K. Amineh, S. Koziel, N.K. Nikolova, J.W. Bandler, and J.P. Reilly, "A space mapping methodology for defect characterization from magnetic flux leakage measurements," IEEE Trans. Magnetics, vol. 44, no. 8, pp. 2058-2065, Aug. 2008.
  418. S. Koziel and J.W. Bandler, "Space mapping algorithm with improved convergence properties for microwave design optimization," Proc. 38th European Microwave Conf. (Amsterdam, The Netherlands, Oct. 28-31, 2008), pp. 310-313.
  419. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Space mapping," IEEE Microwave Magazine, vol. 9, no. 6, pp. 105-122, Dec. 2008. [Spanish version]
  420. S. Koziel and J.W. Bandler, "Space mapping optimization and modeling of microwave devices with MEFiSTo," Time Domain Methods in Electrodynamics: A Tribute to Wolfgang J. R. Hoefer. P. Russer and U. Siart, Eds., Springer Series in Physics, Springer-Verlag Berlin Heidelberg, vol. 121, pp. 393-407, 2008.
  421. S. Koziel, J. Meng, J.W. Bandler, M.H. Bakr, and Q.S. Cheng, "Accelerated microwave design optimization with tuning space mapping," IEEE Trans. Microwave Theory Tech., vol. 57, no. 2, pp. 383-394, Feb. 2009.
  422. S. Koziel, J.W. Bandler, and K. Madsen, "Space mapping with adaptive response correction for microwave design optimization," IEEE Trans. Microwave Theory Tech., vol. 57, no. 2, pp. 478-486, Feb. 2009.
  423. Q.S. Cheng, J.W. Bandler, and S. Koziel, "A simple ADS schematic for space mapping," IEEE MTT-S Int. Microwave Workshop Series on Signal Integrity and High-Speed Interconnects IMWS (Guadalajara, Mexico, Feb. 2009), pp. 35-38.
  424. S. Koziel and J.W. Bandler, "Fast space mapping with variable weight coefficients for microwave device modeling," IEEE MTT-S Int. Microwave Workshop Series on Signal Integrity and High-Speed Interconnects IMWS (Guadalajara, Mexico, Feb. 2009), pp. 77-80.
  425. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Microwave design optimization using implicit space mapping with adaptive selection of preassigned parameters," 25th Annual Review of Progress in Applied Computational Electromagnetics ACES 09 (Monterey, CA, Mar. 2009), pp. 59-64.
  426. S. Koziel and J.W. Bandler, "Automated tuning space mapping implementation for rapid design optimization of microwave structures," 25th Annual Review of Progress in Applied Computational Electromagnetics ACES 09 (Monterey, CA, Mar. 2009), pp. 138-143.
  427. S. Koziel and J.W. Bandler, "Multi-fidelity space mapping modeling of microwave devices with double coarse model processing and functional approximation," IEEE MTT-S Int. Microwave Symp. Dig. (Boston, MA, June 2009), pp. 969-972.
  428. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Tuning space mapping optimization exploiting embedded surrogate elements," IEEE MTT-S Int. Microwave Symp. Dig. (Boston, MA, June 2009), pp. 1257-1260.
  429. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Trust-region-based convergence safeguards for space mapping design optimization of microwave circuits," IEEE MTT-S Int. Microwave Symp. Dig. (Boston, MA, June 2009), pp. 1261-1264.
  430. S. Koziel and J.W. Bandler, "Distributed fine model evaluation for rapid space-mapping optimisation of microwave structures," IET Microwaves, Antennas & Propagation, vol. 3, no. 5, pp. 798-807, Aug. 2009.
  431. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Space mapping design framework exploiting tuning elements," IEEE Trans. Microwave Theory Tech., vol. 58, no. 1, pp. 136-144, Jan. 2010.
  432. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Implicit space mapping with adaptive selection of preassigned parameters," IET Microwaves, Antennas & Propagation, vol. 4, no. 3, pp. 361-373, Mar. 2010.
  433. S. Koziel and J.W. Bandler, "Space mapping algorithm with improved convergence properties for microwave design optimization," Int. J. RF and Microwave Computer-Aided Engineering, vol.20, no. 2, pp. 230-240, Mar. 2010.
  434. S. Koziel and J.W. Bandler, "Coarse models for efficient space mapping optimisation of microwave structures," IET Microwaves, Antennas & Propagation, vol. 4, no. 4, pp. 453-465, Apr. 2010.
  435. S. Koziel and J.W. Bandler, "Co-simulation based tuning space mapping with FEKO for computationally efficient optimization of microwave structures," 26th Annual Review of Progress in Applied Computational Electromagnetics ACES 10 (Tampere, Finland, Apr. 2010), pp. 41-46.
  436. S. Koziel and J.W. Bandler, "Accurate modeling of microwave devices using space mapping and kriging," 26th Annual Review of Progress in Applied Computational Electromagnetics ACES 10 (Tampere, Finland, Apr. 2010), pp. 902-907.
  437. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Response corrected tuning space mapping for yield estimation and design centering," IEEE MTT-S Int. Microwave Symp. Dig. (Anaheim, CA, June 2010), pp. 193-196.
  438. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Adaptively constrained parameter extraction for robust space mapping optimization of microwave circuits," IEEE MTT-S Int. Microwave Symp. Dig. (Anaheim, CA, June 2010), pp. 205-208.
  439. Q.J. Zhang, J.W. Bandler, S. Koziel, H. Kabir, and L. Zhang, "ANN and space mapping for microwave modelling and optimization," IEEE MTT-S Int. Microwave Symp. Dig. (Anaheim, CA, June 2010), pp. 980-983.
  440. S. Koziel and J.W. Bandler, "Knowledge-based variable fidelity optimization of expensive objective functions through space mapping," in Computational Intelligence in Expensive Optimization Problems, Y. Tenne and C.H. Goh, Eds., Springer-Verlag, 2010, pp. 85-109.
  441. Q.S. Cheng, J.C. Rautio, J.W. Bandler, and S. Koziel, "Progress in simulator-based tuning—the art of tuning space mapping," IEEE Microwave Magazine, vol. 11, no. 4, pp. 96-110, June 2010.
  442. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Robust trust-region space-mapping algorithms for microwave design optimization," IEEE Trans. Microwave Theory Tech., vol. 58, no. 8, pp. 2166-2174, Aug. 2010.
  443. S. Koziel and J.W. Bandler, Guest editorial, "Advances in design optimization of microwave/RF circuits and systems," Int. J. RF and Microwave Computer-Aided Engineering Special Issue on Advances in Design Optimization of Microwave/RF Circuits and Systems, vol. 20, no. 5, pp. 473-474, Sep. 2010.
  444. Q.S. Cheng, J.W. Bandler, S. Koziel, M.H. Bakr, and S. Ogurtsov, "The state of the art of microwave CAD: EM-based optimization and modeling," Int. J. RF and Microwave Computer-Aided Eng., vol. 20, no.5, pp. 475-491, Sep. 2010.
  445. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Design optimization of microwave circuits through fast embedded tuning space mapping," Proc. 40th European Microwave Conf. (Paris, France, Sep./Oct. 2010), pp. 1186-1189.
  446. S. Koziel and J.W. Bandler, "Recent advances in space-mapping-based modeling of microwave devices," Int. J. Numerical Modeling, vol. 23, no. 6, pp. 425-446, Nov. 2010.
  447. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Rapid design optimisation of microwave structures through automated tuning space mapping," IET Microwaves, Antennas & Propagation, vol. 4, no. 11, pp. 1892-1902, Nov. 2010.
  448. S. Koziel and J.W. Bandler, “Space-mapping modelling of microwave devices using multi-fidelity electromagnetic simulations,” IET Microwaves, Antennas & Propagation, vol. 5, no. 3, pp. 324-333, Feb. 2011.
  449. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Tuning space mapping for microwave design optimization," 27th Annual Review of Progress in Applied Computational Electromagnetics ACES 11 (Williamsburg, VA, Mar. 2011), pp. 381-386.
  450. S. Koziel and J.W. Bandler, "Modeling and optimization of microwave structures using quick space mapping with variable weight coefficients," Int. J. Numerical Modelling, vol. 24, no. 2, pp. 175-193, March/April 2011.
  451. J.W. Bandler, Q.S. Cheng, N.K. Nikolova, M.H. Bakr, and S. Koziel, "Electromagnetics-based CAD and optimization of microwave circuits exploiting time-domain techniques," IEEE MTT-S Int. Microwave Symp. Dig. (Baltimore, MD, June 2011), pp. 1-4.
  452. Q.S. Cheng, J.W. Bandler, N.K. Nikolova, and S. Koziel, "Fast space mapping modeling with adjoint sensitivity," IEEE MTT-S Int. Microwave Symp. Dig. (Baltimore, MD, June 2011), pp. 1-4.
  453. A. Khalatpour, R.K. Amineh, Q.S. Cheng, M.H. Bakr, N.K. Nikolova, and J.W. Bandler, "Accelerating space mapping optimization with adjoint sensitivities," IEEE Microwave and Wireless Components Letters, vol. 21, no. 6, pp. 280-282, June 2011.
  454. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Constrained parameter extraction for microwave design optimisation using implicit space mapping," IET Microwaves, Antennas & Propagation, vol. 5, no. 10, pp. 1156-1163, July 2011.
  455. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Tuning space mapping design framework exploiting reduced electromagnetic models," IET Microwaves, Antennas & Propagation, vol. 5, no. 10, pp. 1219-1226, July 2011.
  456. S. Koziel and J.W. Bandler, "Fast design optimization of microwave structures using co-simulation-based tuning space mapping," Applied Computational Electromagnetics Society J., vol. 26, no. 8, pp. 631-639, Aug. 2011.
  457. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Comparative study of space-mapping-based optimization techniques for microwave design," Proc. Microwave Integrated Circuits Conf. (Manchester, UK, Oct. 2011), pp. 422-425.
  458. A. Khalatpour, R.K. Amineh, Q.S. Cheng, J.W. Bandler, and N.K. Nikolova, "Adjoint-accelerated design framework for novel materials in microwave applications," Proc. 41st European Microwave Conf. (Manchester, UK, Oct. 2011), pp. 440-443.
  459. S. Koziel and J.W. Bandler, "Accurate modeling of microwave devices using kriging-corrected space mapping surrogates," Int. J. Numerical Modelling, vol. 25, no. 1, pp. 1-14, Jan./Feb. 2012.
  460. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Tuning space mapping: the state of the art," Progress In Electromagnetics Research Symp. (Kuala Lumpur, Malaysia, March 2012), pp. 639-651.
  461. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Comparative study of space-mapping-based techniques for microwave design optimization," IET Microwaves, Antennas & Propagation, vol. 6, no. 3, pp. 361-370, March 2012.
  462. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Space-mapping-enhanced kriging surrogates for accurate modeling of microwave structures," 28th Annual Review of Progress in Applied Computational Electromagnetics ACES 12 (Columbus, OH, Apr. 2012), pp. 341-346.
  463. M.H. Bakr, J.W. Bandler, and N.K. Nikolova, "TLM: a robust tool for electromagnetics-based optimization," Asia-Pacific Electromagnetic Compatibility Symposium (Singapore, May 2012), pp. 145-148.
  464. Q.S. Cheng, J.W. Bandler, N.K. Nikolova, and S. Koziel, "A space mapping schematic for fast EM-based modeling and design," IEEE MTT-S Int. Microwave Symp. (Montreal, QC, June 2012), pp. 1-3.
  465. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Robust space mapping optimization exploiting EM-based models with adjoint sensitivities, IEEE MTT-S Int. Microwave Symp. (Montreal, QC, June 2012), pp. 1-3.
  466. J.W. Bandler and Q.S. Cheng, "Retrospective on microwave CAD and optimization technology," IEEE MTT-S Int. Microwave Symp. (Montreal, QC, June 2012), pp. 1-3.
  467. S. Tu, Q. S. Cheng, J. W. Bandler, and N. K. Nikolova, "Space mapping design exploiting library antenna models," IEEE AP-S/URSI Int. Symp. on Antennas and Propag., (Chicago, IL, July 2012), pp. 1-2.
  468. M.S. Dadash, N.K. Nikolova, and J.W. Bandler, "Analytical adjoint sensitivity formula for the scattering parameters of metallic structures," IEEE Trans. Microwave Theory Tech., vol. 60, no. 9, pp. 2713-2722, Sept. 2012.
  469. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Tuning space mapping: the state of the art," Int. J. RF and Microwave Computer-Aided Engineering, vol. 22, no. 6, pp. 639-651, Nov. 2012.
  470. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Reduced-cost microwave component modeling using space-mapping-enhanced EM-based kriging surrogates," Int. J. Numerical Modelling: Electronic Networks, Devices and Fields, vol. 26, no. 3, pp. 275-286, May/June 2013.
  471. Q.S. Cheng, J.W. Bandler, N.K. Nikolova, and S. Koziel, "A statistical input space mapping approach for accommodating modeling residuals," IEEE MTT-S Int. Microwave Symp. Digest (Seattle, WA, June 2013), pp. 1-3.
  472. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Enhanced fidelity modeling of microwave structures combining shape-preserving response prediction with space mapping," IEEE MTT-S Int. Microwave Symp. Digest (Seattle, WA, June 2013), pp. 1-3.
  473. S. Koziel, S. Ogurtsov, and J.W. Bandler, "Shape-preserving response prediction with adjoint sensitivities for microwave design optimization," IEEE MTT-S Int. Microwave Symp. Digest (Seattle, WA, June 2013), pp. 1-3.
  474. S. Tu, Q.S. Cheng, Y. Zhang, J.W. Bandler, and N.K. Nikolova, "Space mapping optimization of handset antennas exploiting thin-wire models," IEEE Trans. Antennas Propag., vol. 61, no. 7, pp. 3797-3807, July 2013.
  475. S. Koziel, S. Ogurtsov, Q.S. Cheng, and J.W. Bandler, "Space mapping," in Simulation-Driven Design Optimization and Modeling for Microwave Engineering, S. Koziel, X.S. Yang, and Q.J. Zhang (Eds.), Imperial College Press, 2013, pp. 81-105.
  476. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Tuning space mapping," in Simulation-Driven Design Optimization and Modeling for Microwave Engineering, S. Koziel, X.S. Yang, and Q.J. Zhang (Eds.), Imperial College Press, 2013, pp. 107-128.
  477. J.W. Bandler, "Have you ever wondered about the engineer’s mysterious ‘feel’ for a problem?" IEEE Canadian Review, no. 70, pp. 50-60, Summer 2013.
  478. M.S. Dadash, N.K. Nikolova, and J.W. Bandler, "Analytical response sensitivities of infinitesimally thin metallic shapes," 43rd European Microwave Conf. (Nuremberg, Germany, Oct. 2013), pp. 1111-1114.
  479. S. Koziel, S. Ogurtsov, J.W. Bandler, and Q.S. Cheng, "Reliable space-mapping optimization integrated with EM-based adjoint sensitivities," IEEE Trans. Microwave Theory Tech., vol. 61, no. 10, pp. 3493-3502, Oct. 2013.
  480. Q. Zhang, J.W. Bandler, and C. Caloz, "Design of dispersive delay structures (DDSs) formed by coupled C-sections using predistortion with space mapping," IEEE Trans. Microwave Theory Tech., vol. 61, no. 12, pp. 4040-4051, Dec. 2013.
  481. M.H. Negm, O.S. Ahmed, M.H. Bakr, N.K. Nikolova, and J.W. Bandler, "Wideband second-order adjoint sensitivity analysis exploiting TLM," IEEE Trans. Microwave Theory Tech., vol. 62, no. 3, pp. 389-398, Mar. 2014.
  482. S. Koziel, Q.S. Cheng, and J.W. Bandler, "Fast EM modeling exploiting shape-preserving response prediction and space mapping," IEEE Trans. Microwave Theory Tech., vol. 62, no. 3, pp. 399-407, Mar. 2014.
  483. S. Koziel and J.W. Bandler, "Feature-based statistical analysis for rapid yield estimation of microwave structures," IEEE MTT-S Int. Microwave Symp. (Tampa, FL, June 2014), pp. 1-3.
  484. Q.S. Cheng, J.W. Bandler, and S. Koziel, "A maximally flat quadratic interpolation enhanced input space mapping modeling approach," IEEE MTT-S Int. Microwave Symp. Digest (Tampa, FL, June 2014), pp. 1-3.
  485. S. Koziel, J.W. Bandler, and Q.S. Cheng, "Low-cost feature-based modeling of microwave structures," IEEE MTT-S Int. Microwave Symp. Digest (Tampa, FL, June 2014), pp. 1-3.
  486. S. Koziel, S. Ogurtsov, Q.S. Cheng, and J.W. Bandler, "Rapid EM-based microwave design optimization exploiting shape-preserving response prediction and adjoint sensitivities," IET Microwaves, Antennas & Propagation, vol. 8, no. 10, pp. 775-781, July 2014.
  487. S. Koziel and J.W. Bandler, “Rapid yield estimation and optimization of microwave structures exploiting feature-based statistical analysis,” IEEE Trans. Microwave Theory Tech., vol. 63, no. 1, pp. 107-114, Jan. 2015.
  488. P. Kurgan, S. Koziel, and J .W. Bandler, “Low-cost EM-driven surrogate modeling and optimization of planar inductors,” IEEE MTT-S Int. Microwave Symp. (Phoenix, AZ, May 2015), pp. 1-3.
  489. S. Koziel, A. Bekasiewicz, P. Kurgan, and J.W. Bandler, “Expedited multi-objective design optimization of miniaturized microwave structures using physics-based surrogates,” IEEE MTT-S Int. Microwave Symp. (Phoenix, AZ, May 2015), pp. 1-3.
  490. S. Koziel and J.W. Bandler, “Accurate modeling of microwave structures using variable-fidelity response features,” IEEE MTT-S Int. Microwave Symp. (Phoenix, AZ, May 2015), pp. 1-3.
  491. S. Koziel and J.W. Bandler, “Fast EM-driven design optimization of microwave filters using adjoint sensitivity and response features,” IEEE MTT-S Int. Microwave Symp. (Phoenix, AZ, May 2015), pp. 1-3.
  492. C. Zhang, F. Feng, V.-M.-R. Gongal-Reddy, Q.J. Zhang, and J.W. Bandler, “Cognition-driven formulation of space mapping for equal-ripple optimization of microwave filters,” IEEE Trans. Microwave Theory Tech., vol. 63, no. 7, pp. 2154-2165, July 2015.
  493. Q.S. Cheng, J.W. Bandler, and S. Koziel, “A review of implicit space mapping optimization and modeling techniques,” IEEE MTT-S Int. Conf. Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO) (Ottawa, Canada, Aug. 2015), pp. 1-3.
  494. S. Koziel, Q.S. Cheng, and J.W. Bandler, “Feature-based surrogates for low-cost microwave modelling and optimisation,” IET Microwaves, Antennas & Propagation, vol. 9, no. 15, pp. 1706-1712, Dec. 2015.
  495. S. Koziel and J.W. Bandler, “Reliable microwave modeling by means of variable-fidelity response features,” IEEE Trans. Microwave Theory Tech., vol. 63, no. 12, pp. 4247- 4254, Dec. 2015.
  496. S. Koziel, A. Bekasiewicz, P. Kurgan, and J.W. Bandler, “Rapid multi-objective design optimization of compact microwave couplers by means of physics-based surrogates,” IET Microwaves, Antennas & Propagation, vol. 10, no. 5, pp. 479-486, Apr. 2016.
  497. C. Zhang, W. Na, Q.J. Zhang, and J.W. Bandler, “Fast yield estimation and optimization of microwave filters using a cognition-driven formulation of space mapping,” IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 2016), pp. 1-4.
  498. S. Koziel and J.W. Bandler, “Low-cost dimension scaling and tuning of microwave filters using response features,” IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 2016), pp. 1-3.
  499. A. Bekasiewicz, S. Koziel, and J.W. Bandler, “Low-cost multi-objective design of compact microwave structures using domain patching,” IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 2016), pp. 1-3.
  500. P. Kurgan, S. Koziel, and J.W. Bandler, “Surrogate-based miniaturization-oriented design of two-section branch-line couplers,” IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 2016), pp. 1-3.
  501. J.W. Bandler and S. Koziel, “Advances in electromagnetics-based design optimization,” IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 2016), pp. 1-3.
  502. J.W. Bandler and E.M. Kiley, “In the first few blinks of an eye: the basics of engaging presentations,” IEEE Microwave Magazine, vol.18, no.2, pp. 112-114, Mar./Apr. 2017.
  503. J.W. Bandler and E.M. Kiley, “Brevity, clarity, engagement: the IMS2017 Three Minute Thesis competition,” IEEE Microwave Magazine, vol. 18, no.3, pp. 85-87, May 2017.
  504. A. Bekasiewicz, S. Koziel, and J.W. Bandler, “Implicit space mapping with variable-fidelity EM simulations and substrate partitioning for reliable microwave design optimization,” IEEE MTT-S Int. Microwave Symp. (Honolulu, HI, June 2017), pp. 548-550.
  505. J.W. Bandler, “The journey to automated design optimization and a vision for the future,” IEEE MTT-S Int. Microwave Symp. (Honolulu, HI, June 2017), pp. 1517-1519.
  506. P. Kurgan, S. Koziel, and J.W. Bandler, “Multi-objective mixed-integer design optimization of planar inductors using surrogate modeling techniques,” IEEE MTT-S Int. Microwave Symp. (Honolulu, HI, June 2017), pp. 1632-1634.
  507. A. Bekasiewicz, S. Koziel, and J.W. Bandler, “Rapid dimension scaling of compact microwave couplers with power split correction,” 4th European Microwave Conf. (Nuremberg, Germany, Oct. 2017), pp. 343-346.
  508. C. Zhang, F. Feng, Q.J. Zhang, and J.W. Bandler, “An enhanced cognition-driven formulation of space mapping for equal-ripple optimization of microwave filters,” IET Microwaves, Antennas & Propagation, vol. 12, no. 1, pp. 82-91, Jan. 2018 online, September 2017.
  509. J.W. Bandler and E.M. Kiley, “The clarity of hindsight: the first ever IMS Three Minute Thesis competition,” IEEE Microwave Magazine, vol. 19, no. 1, pp. 116-123, Jan./Feb. 2018.
  510. J.W. Bandler, “Space mapping—have you ever wondered about the engineer’s mysterious ‘feel’ for a problem?” Feature Article, IEEE Canadian Review, no. 70, pp. 50-60, Summer 2013. Reprinted in IEEE Microwave Magazine, vol. 19, no. 2, pp. 112-122, Mar./Apr. 2018.
  511. D. Tajik, A.D. Pitcher, D.S. Shumakov, N.K. Nikolova, and J.W. Bandler, “Enhancing quantitative microwave holography in tissue imaging,” 12th European Conf. Antennas & Propagation EuCAP 2018 (London, UK, Apr. 2018), pp. 1-5.
  512. J.W. Bandler and E.M. Kiley, “Moving forward with clarity: the second IMS 3MT competition,” IEEE Microwave Magazine, vol. 19, no. 3, pp. 59-60, May 2018.
  513. P. Kurgan, S. Koziel, and J.W. Bandler, “Rapid design tuning of miniaturized rat-race couplers using regression-based equivalent network surrogates,” IEEE MTT-S Int. Microwave Symp. (Philadelphia, PA, June 2018), pp. 101-103.
  514. S. Koziel, A. Bekasiewicz, and J.W. Bandler, “Rapid dimension scaling of miniaturized microstrip couplers with respect to operating conditions and substrate parameters,” IEEE MTT-S Int. Microwave Symp. (Philadelphia, PA, June 2018), pp. 1025-1027.
  515. A. Bekasiewicz, S. Koziel, and J.W. Bandler “Multi-objective design of compact microwave components with data-driven surrogates and Pareto front decomposition,” IEEE MTT-S Int. Conf. Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO) (Reykjavík, Iceland, Aug. 2018).
  516. J. Ossorio, J.C. Melgarejo, V.E. Boria, M. Guglielmi, and J.W. Bandler, “On the alignment of low-fidelity and high-fidelity simulation spaces for the design of microwave waveguide filters,” IEEE Trans. Microwave Theory Tech., vol. 66, no. 12, pp. 5183-5196, Dec. 2018.
  517. J.W. Bandler, E.M. Kiley, and R. Ma, “Our third IMS Three Minute Thesis competition,” IEEE Microwave Magazine, vol. 20, no. 4, pp. 49-50, Apr. 2019.
  518. S. Koziel, A. Pietrenko-Dabrowska, and J.W. Bandler, “Reduced-cost gradient-based optimization of compact microwave components through adaptive Broyden updates,” IEEE MTT-S Int. Microwave Symp. (Boston, MA, June 2019), pp. 909-911.
  519. S. Koziel, A. Bekasiewicz, and J.W. Bandler, “Accelerated EM-driven microwave optimization by means of design re-utilization,” IEEE MTT-S Int. Microwave Symp. (Boston, MA, June 2019), pp. 912-914.
  520. S. Koziel, A. Bekasiewicz, and J.W. Bandler, “Low-cost and reliable yield estimation of miniaturized microwave couplers using variable-fidelity simulations and response features,” IEEE MTT-S Int. Microwave Symp. (Boston, MA, June 2019), pp. 350-352.
  521. J.C. Melgarejo, J. Ossorio, S. Cogollos, M. Guglielmi, V.E. Boria, and J.W. Bandler, “On space mapping techniques for microwave filter tuning,” IEEE Trans. Microwave Theory Tech., vol. 67, no. 12, pp. 4860-4870, Dec. 2019.
  522. J.W. Bandler and E.M. Kiley, “The expanded Microwave Week 3MT competition,” IEEE Microwave Magazine, vol. 21, no. 5, pp. 62-64, May 2020.
  523. A. Pietrenko-Dabrowska, S. Koziel, and J.W. Bandler, “Rapid microwave optimization using a design database and inverse/forward metamodels,” IEEE MTT-S Int. Microwave Symp. (Los Angeles, CA, June 2020), pp. 868-871.
  524. Koziel, A. Pietrenko-Dabrowska, and J.W. Bandler, “Computationally efficient performance-driven surrogate modeling of microwave components using principal component analysis,” IEEE MTT-S Int. Microwave Symp. (Los Angeles, CA, June 2020), pp. 68-71.
  525. K. Booth and J. Bandler, “Space mapping for codesigned magnetics: optimization techniques for high-fidelity multidomain design specifications,” IEEE Power Electronics Mag., vol. 7, no. 2, pp. 47-52, vol. June 2020.
  526. J.E. Rayas-Sánchez, S. Koziel, and J.W. Bandler, “Advanced RF and microwave design optimization: a journey and a vision of future trends,” (invited), IEEE J. Microwaves, vol. 1, no. 1, pp. 481-493, Jan. 2021.
  527. J.W. Bandler, E.M. Kiley, D. Tajik, and A. Eid, “The IMS2021 Microwave Week virtual 3MT competition,” IEEE Microwave Magazine, vol. 22, no. 5, pp. 63-65, May 2021.
  528. S. Koziel, A. Pietrenko-Dabrowska, and J.W. Bandler, “Constrained surrogates and dimensionality reduction for low-cost multi-objective optimization of compact microwave components,” IEEE MTT-S Int. Microwave Symp. (Atlanta, GA, June 2021), pp. 237-240.
  529. J.G.D. Hester, A. Eid, J.W. Bandler, E.M. Kiley, and D. Tajik, “Our sixth IEEE Microwave Week 3MT® competition: back on stage,” IEEE Microwave Magazine, vol. 23, no. 5, pp. 124-127, May 2022.
  530. A. Pietrenko-Dabrowska, S. Koziel, J.W. Bandler, and J.E. Rayas-Sánchez, “EM-driven tolerance optimization of compact microwave components using response feature surrogates,” (invited) IEEE MTT-S Int. Microwave Symp. (Denver, CO, June 2022), pp. 107-110.
  531. J.E. Rayas-Sánchez and J.W. Bandler, “System-level measurement-based design optimization by space mapping technology,” (invited) IEEE MTT-S Int. Microwave Symp. (Denver, CO, June 2022), pp. 118-120.
  532. J.E. Rayas-Sánchez and J.W. Bandler, “Basic space mapping: a retrospective and its application to design optimization of nonlinear RF and microwave circuits,” (invited) European Microwave Week (Milan, Italy, Sept. 2022), pp.12-15.
  533. J.W. Bandler and J.E. Rayas-Sánchez, “An early history of optimization technology for automated design of microwave circuits,” (invited), IEEE J. Microwaves, vol. 3, no. 1, Jan. 2023.
  534. J.G.D. Hester, A. Eid, J.W. Bandler, E.M. Kiley, and D. Tajik, “Our seventh IEEE Microwave Week 3MT® competition,” IEEE Microwave Magazine, vol. 24, 2023.

 

Recent Workshops

Showing Records:

  1. J.W. Bandler, Q.S. Cheng, S.A. Dakroury, A.S. Mohamed, M.H. Bakr, K. Madsen, and J. Søndergaard, "EM-based component modeling and design using space mapping," IEEE MTT-S Int. Microwave Symp. Workshop on Microwave Component Design Using Space Mapping Methodologies (Philadelphia, PA, June 2003).
  2. J.W. Bandler, D.M. Hailu, K. Madsen, and F. Pedersen, "EM-based design optimization through space mapping: from concept to practice," IEEE MTT-S Int. Microwave Symp. Workshop on Comparison of Modern Filter Design Techniques: Design Fusion, End the Confusion (Fort Worth, TX, June 2004).
  3. J.W. Bandler, Q.S. Cheng, and D.M. Hailu, "Device and component modeling and optimization exploiting space mapping and space-mapping based surrogate modeling," IEEE MTT-S Int. Microwave Symp. Workshop on Advances and New Directions in Device Modeling and Design Optimization for Microwave CAD (Fort Worth, TX, June 2004).
  4. J.W. Bandler, Q.S. Cheng , S. Koziel, A.S. Mohamed, and K. Madsen, "Automated design and optimization exploiting surrogate models and space mapping," IEEE MTT-S Int. Microwave Symp. Workshop on Advances in Automated Modeling and Microwave Design (Long Beach, CA, June 2005).
  5. J.W. Bandler, Q.S. Cheng, S. Koziel, and K. Madsen, "Space mapping technology: what it is and why it works," IEEE MTT-S Int. Microwave Symp. Workshop on Microwave Component Design Using Space Mapping Technology (San Francisco, CA, June 2006).
  6. S. Koziel, J.W. Bandler, and K. Madsen, "The optimization of engineering designs using space mapping," IEEE MTT-S Int. Microwave Symp. Workshop on Microwave Component Design Using Space Mapping Technology (San Francisco, CA, June 2006).
  7. K. Madsen, J.W. Bandler and S. Koziel, "Space mapping: introduction and motivation," IEEE MTT-S Int. Microwave Symp. Workshop on Microwave Component Design Using Space Mapping Technology (San Francisco, CA, June 2006).
  8. J.W. Bandler, Q.S. Cheng and S. Koziel, "Space mapping technology for EM-based modeling and optimization: the state of the art," Second ITESO-Intel International Workshop on Signal Integrity (I3WSI-2006), (Guadalajara, Mexico, Oct. 5-6, 2006).
  9. J.W. Bandler, Q.S. Cheng, S. Koziel, and K. Madsen:, "Why space mapping works," Second Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (SMSMEO-06) (Lyngby, Denmark, Nov. 9-11, 2006).
  10. K. Madsen, J.W. Bandler and S. Koziel, "The new space mapping algorithms (since 2000)," Second Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (SMSMEO-06) (Lyngby, Denmark, Nov. 9-11, 2006)..
  11. S. Koziel, J.W. Bandler and K. Madsen, "Coarse model quality estimation for space mapping optimization algorithms," Second Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (SMSMEO-06) (Lyngby, Denmark, Nov. 9-11, 2006).
  12. S. Koziel and J.W. Bandler, "SMF: software package for user-friendly space mapping optimization," Second Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (SMSMEO-06) (Lyngby, Denmark, Nov. 9-11, 2006).
  13. A.S. Mohamed, S. Koziel, J.W. Bandler, M.H. Bakr, and Q.S. Cheng, "Rosenbrock-like problems: SMF versus other SBO implementations," Second Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (SMSMEO-06) (Lyngby, Denmark, Nov. 9-11, 2006).
  14. J.W. Bandler, Q.S. Cheng, S. Koziel, and K.Madsen, "Engineering modeling and optimization via space mapping: from concept to practice," Workshop on Space-Mapping and Efficient Optimization, CWI, (Amsterdam, The Netherlands, Nov. 13, 2006).
  15. J.W. Bandler, Q.S. Cheng, S. Koziel, and K. Madsen, "The art and science of space mapping," Woudschoten Conference of the Dutch-Flemish Numerical Analysis Communities (Zeist, The Netherlands, Oct. 3-5, 2007).
  16. S. Koziel, J.W. Bandler, K. Madsen, and Q.S. Cheng, "Modeling, design, and optimization of engineering devices and systems exploiting surrogates based on space mapping," Woudschoten Conference of the Dutch-Flemish Numerical Analysis Communities (Zeist, The Netherlands, Oct. 3-5, 2007).
  17. J.W. Bandler, Q.S. Cheng, S. Koziel, and K. Madsen, "Why engineering design through space mapping works: an engineer’s interpretation," Workshop on Robust Multiobjective Design Optimization with Simulation, Fraunhofer-Chalmers Research Centre for Industrial Mathematics (Gothenburg, Sweden, Dec. 3-4, 2007).
  18. J.W. Bandler, "Robust optimal design via space mapping: urgent and future needs," Workshop on Robust Multiobjective Design Optimization with Simulation, Fraunhofer-Chalmers Research Centre for Industrial Mathematics (Gothenburg, Sweden, Dec. 3-4, 2007).
  19. J.W. Bandler, Q.S. Cheng, S. Koziel, and K. Madsen, "Rapid design with electromagnetic accuracy: space mapping and beyond," IEEE MTT-S Int. Microwave Symp. Workshop on Advances in CAD Techniques for EM Modeling and Design Optimization (Atlanta, GA, June 15, 2008).
  20. J.W. Bandler, Q.S. Cheng, S. Koziel, "Surrogate modeling and space mapping: the state of the art," IEEE MTT-S Int. Microwave Symp. Workshop on EM-Based Microwave Optimization Technology: State of the Art and Applications (Boston, MA, June 12, 2009).
  21. S. Koziel and J.W. Bandler, "Coarse models and the robustness of the space mapping optimization process," IEEE MTT-S Int. Microwave Symp. Workshop on EM-Based Microwave Optimization Technology: State of the Art and Applications (Boston, MA, June 12, 2009).
  22. J.W. Bandler, Q.S. Cheng, S. Koziel, and K. Madsen, "Advanced optimization techniques for modern filter design—from Newton to space mapping," IEEE MTT-S Int. Microwave Symp. Workshop on The State of Art of Microwave Filter Synthesis, Optimization and Realization (Anaheim, CA, May 2010).
  23. J.W. Bandler, Q.S. Cheng, S. Koziel, and K. Madsen, "Space mapping: physics-driven optimization technology for effective engineering modeling and design," Int. Workshop on Advances in Modeling and Optimization of High Frequency Structures (Reykjavik, Iceland, Aug. 2010).
  24. J.W. Bandler, Q.S. Cheng, and S. Koziel, "Microwave CAD using surrogate optimization and space mapping," IEEE MTT-S Int. Microwave Symp. Workshop on Simulation- and Surrogate-Driven Microwave Design Technology (Baltimore, MD, June 2011).
  25. J.W. Bandler, Q.S. Cheng, and S. Koziel, "Exploitation of simulators and surrogates in optimization-driven design: the art and the science," Int. Workshop in Advances in Simulation-Driven Optimization and Modeling (ASDOM 2011) (Reykjavik, Iceland, August 13-14, 2011).
  26. Q.S. Cheng, J.W. Bandler, N.K. Nikolova, and S. Koziel, "Simulation-driven optimization and modeling with adjoint sensitivities," Int. Workshop in Advances in Simulation-Driven Optimization and Modeling (ASDOM 2011) (Reykjavik, Iceland, August 13-14, 2011).
  27. J.W. Bandler, Q.S. Cheng, and S. Koziel, "Model generation using space mapping techniques," IEEE MTT-S Int. Microwave Symp. Workshop on Advanced Techniques for Electromagnetic-Based Model Generation (Montreal, QC, June 2012).
  28. J.W. Bandler and Q.S. Cheng, "The essence of space mapping: less is more," Third Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (SMSMEO 2012) (Reykjavik, Iceland, Aug. 9-11, 2012).
  29. Q.S. Cheng, J.W. Bandler, and S. Koziel, "Tuning space mapping: the state of the art," Third Int. Workshop on Surrogate Modelling and Space Mapping for Engineering Optimization (SMSMEO 2012) (Reykjavik, Iceland, Aug. 9-11, 2012).
  30. J.W. Bandler, Q.S. Cheng, and K. Madsen, "Space mapping: the efficient use of common sense," IEEE MTT-S Int. Microwave Symp. Workshop on Recent Advances in Space Mapping Modeling and Optimization (Tampa, FL, June 6, 2014).
  31. Q.S. Cheng and J.W. Bandler, "Implementation of space mapping in commercial software," IEEE MTT-S Int. Microwave Symp. Workshop on Recent Advances in Space Mapping Modeling and Optimization (Tampa, FL, June 6, 2014).
  32. N.K. Nikolova, M.S. Dadash, and J.W. Bandler, "Field-based analytical sensitivities of scattering parameters," IEEE MTT-S Int. Microwave Symp. Workshop on Statistical Modeling of Microwave Circuits and Systems (Tampa, FL, June 6, 2014).
  33. Q.S. Cheng, J.W. Bandler, and S. Koziel "Tuning space mapping: the state of the art," IEEE MTT-S Int. Microwave Symp. Workshop on EM-Based Tuning Techniques, Computer-Aided Tuning and Tuning Space Mapping (Phoenix, AZ, May 22, 2015).
  34. J.W. Bandler and Q.S. Cheng, "A brief history of tuning: from design centering to space mapping," IEEE MTT-S Int. Microwave Symp. Workshop on EM-Based Tuning Techniques, Computer-Aided Tuning and Tuning Space Mapping (Phoenix, AZ, May 22, 2015).
  35. J.W. Bandler, "Effective presentations," Professional Session: Preparing and Presenting Papers for MTT-S Journals and Conferences, IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 25, 2016).
  36. G.E. Ponchak and J.W. Bandler, Organizers, Professional Session: Preparing and Presenting Papers for MTT-S Journals and Conferences, IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 25, 2016).
  37. J.W. Bandler, "You, you slides and your posters: allies or foes," Special Session: Preparing and Presenting Papers for MTT-S Journals and Conferences, IEEE MTT-S Latin America Microwave Conf. (Puerto Vallarta, Mexico, Dec 13, 2016).
  38. J.W. Bandler, E.M. Kiley, and A. Kovacevic, "The art of effectively communicating complex, highly technical work in three minutes," IEEE MTT-S Webinar, March 28, 2017. Available on demand.
  39. J.W. Bandler and E.M. Kiley, Organizers and Co-Chairs, Three Minute Thesis (3MT®) Competition, IEEE MTT-S Int. Microwave Symp. (Honolulu, HI, June 5, 2017).
  40. J.W. Bandler and E.M. Kiley, “Welcome to the inaugural IMS2017 Three Minute Thesis (3MT®) competition: briefing session,” Three Minute Thesis (3MT®) Competition Briefing Session, IEEE MTT-S Int. Microwave Symp. (Honolulu, HI, June 5, 2017).
  41. J.W. Bandler and E.M. Kiley, “Welcome to the inaugural IMS2017 Three Minute Thesis (3MT®) competition,” Three Minute Thesis (3MT®) Competition, IEEE MTT-S Int. Microwave Symp. (Honolulu, HI, June 5, 2017). See mttims for the videos. Click here for the playlist.
  42. J.W. Bandler, “Great slides. Great script. But can you deliver?” Applied Pedagogy Solutions Workshop on The Art and Science of Presentations by Design, McMaster University, Hamilton, ON, February 20, 2018.
  43. J.W. Bandler, E.M. Kiley, and D. Tajik, “Communicating your highly technical work to non-specialists in three short minutes,” IEEE MTT-S Webinar, March 13, 2018. Available on demand.
  44. J.W. Bandler and E.M. Kiley, Organizers and Co-Chairs, Three Minute Thesis (3MT®) Competition, IEEE MTT-S Int. Microwave Symp. (Philadelphia, PA, June 11, 2018).
  45. J.W. Bandler and E.M. Kiley, “Welcome to the IMS2018 Three Minute Thesis (3MT®) competition: briefing session,” Three Minute Thesis (3MT®) Competition Briefing Session, IEEE MTT-S Int. Microwave Symp. (Philadelphia, PA, June 11, 2018).
  46. J.W. Bandler and E.M. Kiley, “Welcome to the IMS2018 Three Minute Thesis (3MT®) competition,” Three Minute Thesis (3MT®) Competition, IEEE MTT-S Int. Microwave Symp. (Philadelphia, PA, June 11, 2018). See mttims for the videos. Click here for the playlist.
  47. J.W. Bandler and E.M. Kiley, “The Three Minute Thesis (3MT®) competition,” Closing Ceremony Awards, IEEE MTT-S Int. Microwave Symp. (Philadelphia, PA, June 14, 2018).
  48. J.W. Bandler and I.C. Bruce, “Welcome to the first ever McMaster ECE Three Minute Thesis (3MT®) competition,” Three Minute Thesis (3MT®) Competition, Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, June 28, 2018). Click here for the playlist.
  49. Q.J. Zhang, J.W. Bandler, and C. Zhang, “Cognition-driven formulation of EM based filter optimization,” 48th European Microwave Conf. Workshop on Advances Towards Autonomous RF Filter Design (Madrid, Spain, Sep. 28, 2018).
  50. J.W. Bandler and I.C. Bruce, “ECE790/Three Minute Thesis (3MT®) heats,” Three Minute Thesis (3MT®) Competition, Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, Dec. 4, 2018).
  51. J.W. Bandler, E.M. Kiley, and D. Tajik, “Engaging your non-specialist, non-technical listener in just three minutes,” IEEE MTT-S Webinar, March 26, 2019. Available on demand.
  52. J.W. Bandler, I.C. Bruce, and D. Tajik, “ECE790/Three Minute Thesis (3MT®) heats,” Three Minute Thesis (3MT®) Competition, Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, Apr. 11, 2019).
  53. J.W. Bandler, I.C. Bruce, and D. Tajik, “Welcome to the second McMaster ECE final Three Minute Thesis (3MT®) competition,” Three Minute Thesis (3MT®) Competition, Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, May 22, 2019). Click here for the playlist.
  54. J.W. Bandler and E.M. Kiley, Organizers and Co-Chairs, Three Minute Thesis (3MT®) Competition, IEEE MTT-S Int. Microwave Symp. (Boston, MA, June 3, 2019).
  55. J.W. Bandler and E.M. Kiley, “Welcome to the IMS2019 Three Minute Thesis (3MT®) competition: briefing session,” Three Minute Thesis (3MT®) Competition Briefing Session, IEEE MTT-S Int. Microwave Symp. (Boston, MA, June 3, 2019). See mttims for the videos. Click here for the playlist.
  56. J.W. Bandler and E.M. Kiley, “Welcome to the IMS2019 Three Minute Thesis (3MT®) competition,” Three Minute Thesis (3MT®) Competition, IEEE MTT-S Int. Microwave Symp. (Boston, MA, June 3, 2019).
  57. J.W. Bandler and E.M. Kiley, “The Three Minute Thesis (3MT®) competition,” Closing Ceremony Awards, IEEE MTT-S Int. Microwave Symp. (Philadelphia, PA, June 6, 2019).
  58. J.W. Bandler, “Connect with your audience: deliver your best in three minutes or less,” iBioMed Connect Workshop Series, Integrated Biomedical Engineering & Health Sciences, McMaster University (Hamilton, ON, Aug. 23, 2019).
  59. J.W. Bandler and I.C. Bruce, “ECE790/Three Minute Thesis (3MT®) heats,” Three Minute Thesis (3MT®) Competition, Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, Dec. 3, 2019).
  60. J.W. Bandler, E.M. Kiley, and E. Dao, “Connecting with your audience, delivering your best,” IEEE MTT-S Webinar, March 10, 2020. Available on demand.
  61. J.W. Bandler and I.C. Bruce, “ECE790/Three Minute Thesis (3MT®),” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, via Zoom, Apr.7, Aug. 18, Dec. 1, 2020).
  62. J.W. Bandler and E.M. Kiley, “IEEE Microwave Week 2020 Three Minute Thesis (3MT®) competition: briefing session,” via Zoom with the finalists of IEEE Microwave Week 2020 Three Minute Thesis (3MT®) Virtual Competition. (June 5, 6, 2020).
  63. J.W. Bandler and E.M. Kiley, “The IEEE Microwave Week 2020 Three Minute Thesis (3MT®) virtual competition,” IEEE MTT-S Int. Microwave Symp. & Microwave Week (Virtual, Aug. 4, 2020). Click here for the playlist.
  64.  J.W. Bandler and D. Tajik, “ECE790 Three Minute Thesis (3MT®) workshop engaging real people in three virtual minutes: do’s, don’ts, and those crucial first impressions,” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, Nov. 2, 2020).
  65. J.W. Bandler, E.M. Kiley, D. Tajik, and A. Eid, “Exploring online presentation skills for engaging your audience,” IEEE MTT-S Webinar, Mar. 11, 2021. Available on demand.
  66. J.W. Bandler, E.M. Kiley, D. Tajik, and A. Eid, “The IEEE Microwave Week 2021 Three Minute Thesis (3MT®) virtual competition,” IEEE MTT-S Int. Microwave Symp. & Microwave Week (Virtual, Jun. 20, 2021). Click here for the playlist.
  67. J.W. Bandler, “Engaging real people in three realistic minutes,” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, Oct. 29, 2021).
  68. J.W. Bandler, D. Tajik, A. Eid, M. Vierhout, and E. Wood, “Competitive presentations & competitive speaking: a personal perspective,” McMaster Global Virtual Showcase, Office of International Affairs, McMaster University (Hamilton, ON, Nov. 10, 2021).
  69. J.W. Bandler and I.C. Bruce, “ECE790/Three Minute Thesis (3MT®),” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, via Zoom, Apr.6, Aug. 10, Dec. 7, 2021). Apr. 6 Aug. 10 Dec. 7
  70. J.W. Bandler and M. Vierhout,“The art of GRADflix: to show them or to snow them?,” Workshop for McMaster GRADflix Competition, School of Graduate Studies, McMaster University (Hamilton, ON, Feb. 8, 2022).
  71. A. Eid, J. Hester, J. Bandler, E. Kiley, and D. Tajik, “Communicating your research to the masses: the science of “sticky” ideas and the art of the 3MT,” IEEE MTT-S Webinar, Mar. 8, 2022.
  72. J.W. Bandler and D. Shields, “ECE790 Three Minute Thesis (3MT®) workshop engaging real people in three realistic minutes,” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, Mar. 11, 2022).
  73. A. Eid, J. Hester, J. Bandler, E. Kiley, and D. Tajik, “Three Minute Thesis (3MT®) competition,” IEEE MTT-S Int. Microwave Symp. & Microwave Week (Denver, CO, Jun. 20, 2022).
  74. J.W. Bandler, I.C. Bruce, and D. Shields, “ECE790/Three Minute Thesis (3MT®),” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON), 12 candidates via Zoom, Apr. 14, 6 candidates via Zoom, Aug. 16, 2022. Apr. 14 Aug. 16
  75. J.W. Bandler, D. Shields, and R. Ho, “Engaging real people in three realistic minutes: a Three Minute Thesis (3MT®) workshop for EuMW 2022,” for 2022 European Microwave Week, via Zoom, Aug. 3, 2022.
  76. J.W. Bandler, “Suggestions for young professionals,” 2022 IEEE MTT-S Young Professionals Workshop on Electromagnetic Modeling and Optimization (EMO 2022), Nanjing, China, Oct. 22, 2022, via Zoom.
  77. J.W. Bandler, “A career in research and academia: perspectives from personal experiences,” 2022 IEEE MTT-S Young Professionals Workshop on Modeling and Optimization for Active Devices (MOAD 2022), Oct. 25, 2022, via Zoom.
  78. J.W. Bandler and N. Simard, “ECE790 Three Minute Thesis (3MT®) workshop engaging real people in three realistic minutes,” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, Oct. 31, 2022).

Recent Seminars and Keynote Speeches

Showing Records:

  1. Q.S. Cheng, J.W. Bandler, S. Koziel, and K. Madsen, "Advanced EM design using surrogate models and space mapping," Academic Lecture, Zhejiang University (Hangzhou, Zhejiang, China, June 22, 2010).
  2. J.W. Bandler, "The first impression is a lasting impression: observations on life, competition, and professional advancement," Public Lecture, McMaster University (Hamilton, ON, Apr. 26, 2011).
  3. J.W. Bandler, "Routes to success in academic research: a personal perspective," Public Lecture, Reykjavik University (Iceland, Apr. 26, 2012).
  4. J.W. Bandler, "Have you ever wondered about the engineer’s mysterious ‘feel’ for a problem?" The IEEE Canada McNaughton Lecture, CCECE (Montréal, QC, May 1, 2012).
  5. J.W. Bandler, "Human aspects of communication and persuasion: first impressions and subtext," Rump Session, IEEE MTT-S Int. Microwave Symposium (Montréal, QC, June 19, 2012).
  6. J.W. Bandler, "Routes to success in academic research: a personal perspective," Distinguished Lecture Series, Dept. Electrical and Computer Engineering, University of Waterloo (Waterloo, ON, Sep. 14, 2012).
  7. J.W. Bandler, "Have you ever wondered about the engineer’s mysterious ‘feel’ for a problem?" IEEE Hamilton Section, McMaster University (Hamilton, ON, Sep. 19, 2012).
  8. J.W. Bandler, "Routes to success in academic research: a personal perspective," Joint Public Seminar, IEEE Ottawa Section and Chapters and Carleton University (Ottawa, ON, Oct. 3, 2012).
  9. J.W. Bandler, "Routes to success in academic research: a personal perspective," IEEE Montreal Antenna Propagation Chapter and Centre de Recherche En Électronique Radiofréquence, École Polytechnique de Montréal (Montréal, Quebec, Oct. 4, 2012).
  10. J.W. Bandler, "Aspects of persuasion: confirmation bias, first impressions and subtext," IEEE Women in Engineering Toronto Chapter, University of Toronto (Toronto, ON, Oct. 17, 2012).
  11. J.W. Bandler and Q.S. Cheng, "The essence of space mapping: do less, get more," Presentation to Design Engineering Teams, Freescale Semiconductor Inc. (Tempe, AZ, Oct. 25, 2012).
  12. Q.S. Cheng and J.W. Bandler, "Implementation of space mapping optimization and modeling in Agilent ADS," Presentation to Design Engineering Teams, Freescale Semiconductor Inc. (Tempe, AZ, Oct. 25, 2012).
  13. J.W. Bandler, "Space mapping: an engineering design technology that mimics common sense," IEEE Phoenix Waves and Devices Chapter, Arizona State University (Tempe, AZ, Oct. 25, 2012).
  14. J.W. Bandler, "Space mapping: an engineering design technology that mimics common sense," Keynote Speech, IEEE Section/MTT-S Chapter, ITESO Doctoral Program in Engineering Sciences (Guadalajara, Mexico, Sep. 12, 2013).
  15. J.W. Bandler, "From creativity to success via risk and setback: an insider’s perspective," Keynote Speech, IEEE Section/MTT-S Chapter, ITESO Doctoral Program in Engineering Sciences (Guadalajara, Mexico, Sep. 13, 2013).
  16. J.W. Bandler, "From creativity to success via risk and setback: an insider’s perspective," Public Seminar, McMaster University (Hamilton, ON, Nov 26, 2013).
  17. J.W. Bandler, "Space mapping: an engineering design technology that mimics common sense," IEEE San Diego Section (La Jolla, CA, Jan. 15, 2014).
  18. J.W. Bandler, "Awareness, creativity, and creative thinking," Keynote Speech, Women in Microwaves (WIM) Special Session, IEEE Radio & Wireless Week (Newport Beach, CA, Jan. 19, 2014).
  19. J.W. Bandler, "Space mapping: an engineering design technology that mimics common sense," IEEE Coastal Los Angeles Section, IEEE Microwave Theory and Techniques Chapter (Redondo Beach, CA, Jan. 23, 2014).
  20. J.W. Bandler, "Explain less, predict more," TEDx McMaster U Conference, McMaster University (Hamilton, ON, Feb. 2, 2014).
  21. J.W. Bandler, "Creativity in the real world: champions, detractors and what certain gurus would rather you didn’t know," Café X, McMaster University (Hamilton, ON, Feb. 26, 2014).
  22. J.W. Bandler, "Space mapping: an engineering design technology that mimics common sense," School of Electronic Information Engineering, Tianjin University (Tianjin, China, Mar. 5, 2014).
  23. J.W. Bandler, "From creativity to success via risk and setback: an insider’s perspective," School of Electronic Information Engineering, Tianjin University (Tianjin, China, Mar. 5, 2014).
  24. J.W. Bandler, "From creativity to success via risk and setback: an insider’s perspective," Dept. Electrical and Electronics Engineering, South University of Science and Technology of China (Shenzhen, China, Mar. 10, 2014).
  25. J.W. Bandler, "Space mapping: an engineering design technology that mimics common sense," IEEE AP/MTT (Hong Kong Chapter) & The Chinese University of Hong Kong, Dept. Electronic Engineering (Hong Kong, Mar. 12, 2014).
  26. J.W. Bandler, "Space mapping: an engineering design technology optimized by the evolution of common sense," Keynote Speech, IEEE Int. Conf. on Numerical Electromagnetic Modeling and Optimization for RF, Microwave, and Terahertz Applications (NEMO) (Pavia, Italy, May 16, 2014).
  27. J.W. Bandler, "Awareness, creativity, and creative thinking," Keynote Speech, Women in Microwaves (WIM) Special Session, IEEE MTT-S Int. Microwave Symp. (Tampa, FL, June 3, 2014).
  28. J.W. Bandler, "Your slides reveal more than you might imagine," Workshop for McMaster 3MT Competition, School of Graduate Studies, McMaster University (Hamilton, ON, Jan. 19, 2015).
  29. J.W. Bandler, "Your slides and you: partners in persuasion," Communicating Your Research 101, Workshop for McMaster Falling Walls Competition, School of Graduate Studies, McMaster University (Hamilton, ON, Jul. 21, 2015).
  30. J.W. Bandler, "Awareness, creativity, and creative thinking," IEEE Montreal Section, McGill University (Montreal, QC, Oct. 15, 2015).
  31. J.W. Bandler, "Space mapping: a technology for engineering modeling and optimization grounded in common sense," IEEE Montreal Section, McGill University (Montreal, QC, Oct. 16, 2015).
  32. J.W. Bandler, "Don’t dodge ethics on your route to success," Keynote Speech, IEEE Montreal Section Awards Banquet (Montreal, QC, Oct. 16, 2015).
  33. J.W. Bandler, "Space mapping: a technology for engineering modeling and optimization grounded in common sense," Dept. Electrical and Computer Engineering, Ryerson University (Toronto, ON, Jan. 21, 2016).
  34. J.W. Bandler, "Creativity, cooperation, conflict,” McMaster Engineering Society Professional Development Conference McMaster University (Hamilton, ON, Mar. 5, 2016).
  35. J.W. Bandler, "Creativity, cooperation, conflict," PATW Competition, IET Toronto Local Network Final Event, McMaster University (Hamilton, ON, Mar. 19, 2016).
  36. J.W. Bandler, "You, your slides, and your posters: allies or foes," Public Seminar, McMaster University (Hamilton, ON, May 10, 2016).
  37. J.W. Bandler, "Space mapping: a modeling and optimization technology for and beyond electromagnetics-based microwave design," Googleplex (Mountain View, CA, May 19, 2016).
  38. J.W. Bandler, "You, you slides and your posters: allies or foes," Public Seminar, McMaster University (Hamilton, ON, Nov. 4, 2016).
  39. J.W. Bandler, "You, you slides and your posters: allies or foes," Graduate Studies Seminar, Carleton University (Ottawa, ON, Nov. 8, 2016).
  40. J.W. Bandler, "You, you slides and your posters: allies or foes," Dept. ECE Seminar, University of Waterloo (Waterloo, ON, Nov. 18, 2016).
  41. J.W. Bandler and A. Kovacevic, "Clear, brief, engaging: your thesis in three minutes," School of Graduate Studies, McMaster University (Hamilton, ON, Jan 24, 2017).
  42. J.W. Bandler, "On awareness and creative thinking," 2017 Banquet and IEEE Canada Awards Gala at CCECE 2017 (Windsor, ON, May 1, 2017).
  43. J.W. Bandler, “Awareness, authenticity, authority,” Major & Planned Giving Retreat, McMaster University (Hamilton, ON, Aug. 23, 2017).
  44. J.W. Bandler, “You and your audience: allies or foes,” IEEE Montreal EMC and MTT Chapters, Montreal Young Professionals, IEEE Montreal Section, École Polytechnique (Montréal, QC, Oct. 16, 2017).
  45. J.W. Bandler, “Presenting, promoting, pitching: and why you’ll never get a second crack at a first impression,” The Forge@Mac, McMaster University (Hamilton, ON, Oct. 30, 2017).
  46. J.W. Bandler, M. Ogrodnik and D. Tajik, “Clear, brief, engaging: your thesis in three minutes,” School of Graduate Studies, McMaster University (Hamilton, ON, Feb. 13, 2018).
  47. J.W. Bandler, “Presenting, promoting, pitching: a pitch your thesis workshop,” Dept. Chemical Engineering, McMaster University (Hamilton, ON, Mar. 29, 2018).
  48. J.W. Bandler, “Presenting, promoting, pitching: and why you’ll never get a second crack at a first impression,” HacktheCity, McMaster University (Hamilton, ON, May 8, 2018).
  49. J.W. Bandler, “Your thesis in three minutes: how to make your audience care,” Dept. Electrical and Computer Engineering, McMaster University (Hamilton, ON, June 4, 2018).
  50. J.W. Bandler, “From the engineer’s ‘mysterious ‘feel’ to ‘cognition-driven design’: a quarter century of space mapping technology,” Keynote Speech, IEEE MTT-S Int. Conf. Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO) (Reykjavík, Iceland, Aug. 8, 2018).
  51. J.W. Bandler, “Be clear, authentic, engaging, in just three short minutes,” Engineering CO-OP and Career Services (ECCS) and Undergraduate Student Research in Engineering (USRE), McMaster University (Hamilton, ON, June 5, 2018).
  52. J.W. Bandler, “Presenting, promoting, pitching: and why you’ll never get a second crack at a first impression,” Coaching Session for Big Ideas Pitch Week, Faculty of Engineering, McMaster University (Hamilton, ON, Sep. 20 and 24, 2018).
  53. J.W. Bandler, “Don’t dodge ethics on your information route to success,” Faculty Workshop, Effective and Ethical Presentation of Quantitative Information, MCLA (North Adams, MA, Oct. 19, 2018).
  54. J.W. Bandler, M. Ogrodnik, and D. Tajik, “Clear, brief, engaging: your thesis in three minutes,” Department of Electrical and Computer Engineering, McMaster University (Hamilton, ON, Nov. 6, 2018).
  55. J.W. Bandler, “You, your slides, and your posters: allies or foes?” Engineering and Society, McMaster University (Hamilton, ON, Nov. 14, 2018).
  56. J.W. Bandler, Ontario Professional Engineers Awards (OPEA) Gala (Mississauga, ON, Nov. 17, 2018).
  57. J.W. Bandler and D. Tajik, “Engaging your audience in three short minutes,” McMaster Engineering Society Professional Development Conference McMaster University (Hamilton, ON, Feb. 9, 2019).
  58. J.W. Bandler, M. Ogrodnik, and D. Tajik, “Authentic, engaging, clear: your thesis in 3 short minutes,” School of Graduate Studies, McMaster University (Hamilton, ON, Feb. 14, 2019).
  59. J.W. Bandler, M. Ogrodnik, and D. Tajik, “Authentic, engaging, clear: your thesis in 3 short minutes,” Department of Electrical and Computer Engineering, McMaster University (Hamilton, ON, Feb. 27, 2019).
  60. J.W. Bandler, “You, your slides, and your posters: allies or foes?” PATW Competition, IET Toronto Local Network Final Event, McMaster University (Hamilton, ON, Mar. 23, 2019).
  61. J.W. Bandler, “Be clear, authentic, engaging, in just three short minutes,” Undergraduate Student Research in Engineering (USRE) & Outreach Office, McMaster University (Hamilton, ON, June 11, 2019).
  62. J.W. Bandler, “Ethics of science communication: don’t dodge ethics on your communication route to success,” WISE—Women in Science and Engineering Initiative, Sci GSA—McMaster Science Graduate Students Association, McMaster University (Hamilton, ON, Oct. 22, 2019).
  63. J.W. Bandler and E.M. Kiley, “The new Microwave Week Three Minute Thesis (3MT®) competition,” IEEE MTT-S Education Committee (San Antonio, TX, Jan. 25, 2020).
  64. J.W. Bandler, M. Ogrodnik, and E. Dao, “Authentic, engaging, clear: your thesis in 3 short minutes,” McMaster University (Hamilton, ON, Feb. 13, 2020).
  65. J.W. Bandler and E.M. Kiley, “IMS leadership mentoring module 5: 3MT® competition,” IEEE MTT-S Int. Microwave Symp. Leadership Training (via Webex, Aug. 19, 2020).
  66. J.W. Bandler and E.M. Kiley, “3MT contest goes ‘virtual’ at Microwave Week 2020,” IEEE MTT-S Education Committee (via Webex, Sep. 12, 2020).
  67. J.W. Bandler, R. Ho, M. Ogrodnik, and D. Tajik, “Connecting with your audience, delivering your best,” McMaster University (Hamilton, ON, Feb. 18, 2021).

Selected Videos/Co-produced Playlists

Showing Records:

  1. J.W. Bandler, “Human aspects of communication and persuasion: first impressions and subtext,” Rump Session, IEEE MTT-S Int. Microwave Symposium (Montréal, QC, June 19, 2012). Available on IEEE.tv.
  2. J.W. Bandler, “From creativity to success via risk and setback: an insider’s perspective,” Public Lecture,  McMaster University (Hamilton, ON, April 11, 2013). Available on YouTube.
  3. J.W. Bandler, Explain less, predict more,” TEDx McMaster U Conference, McMaster University (Hamilton, ON, Feb. 2, 2014).
  4. J.W. Bandler, “Effective presentations,” Professional Session: Preparing and Presenting Papers for MTT-S Journals and Conferences, IEEE MTT-S Int. Microwave Symp. (San Francisco, CA, May 25, 2016).
  5. J.W. Bandler, “You, you slides and your posters: allies or foes,” Public Seminar, McMaster University (Hamilton, ON, Nov. 4, 2016).
  6. J.W. Bandler, “You, you slides and your posters: allies or foes,” Graduate Studies Seminar, Carleton University (Ottawa, ON, Nov. 8, 2016).
  7. J.W. Bandler and A. Kovacevic, “Clear, brief, engaging: your thesis in three minutes,” School of Graduate Studies, McMaster University (Hamilton, ON, Jan 24, 2017).
  8. J.W. Bandler and A. Kovacevic, “Ana Kovacevic pitches the Three Minute Thesis (3MT®) Competition,” McMaster University (Hamilton, ON, Feb.10, 2017).
  9. J.W. Bandler, M. Ogrodnik, and D. Tajik, “Clear, brief, engaging: your thesis in three minutes,” McMaster University (Hamilton, ON, Feb. 13, 2018).
  10. See mttims for IMS2017 and IMS2018 3MT videos.
  11. See Jennifer Heisz.
  12. See Michelle Ogrodnik
  13. MTT-S IMS YouTube playlist from the inaugural IMS2017 3MT® Competition.
  14. MTT-S IMS YouTube playlist from the second IMS2018 3MT® Competition.
  15. McMcMaster University, Department of Electrical and Computer Engineering, 2018 3MT® Competition.
  16. McMcMaster University, Department of Electrical and Computer Engineering, 2019 3MT® Competition.
  17. John William Bandler, OC, P.Eng. - 2018 OPEA Gold Medal,” Professional Engineers Ontario.
  18. MTT-S IMS YouTube playlist from the third IMS2019 3MT® Competition.
  19. MTT-S IMS YouTube playlist from the fourth IMS2020 3MT® Competition. Recorded, processed and uploaded by J.W. Bandler.
  20. MTT-S IMS YouTube playlist from the fifth IMS2021 3MT® Competition. Recorded, processed and uploaded by J.W. Bandler.
  21. MTT-S IMS YouTube playlist from the sixth IMS2022 3MT® Competition. Uploaded by J.W. Bandler.
  22. J. Bandler, M. Ogrodnik, and D. Tajik, “Authentic, engaging, clear: your thesis in 3 short minutes,” Workshop, McMaster University, Hamilton, ON, Feb. 14, 2019.
  23. J. Bandler, M. Ogrodnik, and E. Dao, “Authentic, engaging, clear: your thesis in 3 short minutes,” Workshop, McMaster University, Hamilton, ON, Feb. 13, 2020.
  24. J.W. Bandler, R. Ho, M. Ogrodnik, and D. Tajik, “Connecting with your audience, delivering your best,” McMaster University, Hamilton, ON, Feb. 18, 2021. Part 2.
  25. J.W. Bandler, D. Shields, and R. Ho, “Engaging real people in three realistic minutes: a Three Minute Thesis (3MT®) workshop for EuMW 2022,” via Zoom, Aug. 3, 2022.
  26. The Caffeine Rabbit Hole, a film by John Bandler, 2021.
  27. John Bandler's YouTube Channel.

Audio

Showing Records:

  1. 2017 CFMU interview of Ana Kovacevic and John Bandler by Mark Gonzalez, “How YOU can better prepare for McMaster’s 3 Minute Thesis competition!
  2. 2018 CFMU interview by Sawayra Owais, “The AlmaMAC Episode 52 (Feb. 8/18): Presenting for life with Dr. John Bandler, Michelle Ogrodnik, and Daniel Tajik.
  3. 2019 CFMU interview by Adam Fortais, “The AlmaMAC Episode 140 (Oct. 17/19): Ethics of Science Communication with Dr. John Bandler and Rachelle Ho.
  4. 2020 CFMU interview by Adam Fortais, “The AlmaMAC Episode 155 (Feb 6/20): Dr. Bandler walks us through award-winning 3-minute-theses.
  5. 2021 CFMU interview by Adam Fortais, “Random Walk 30: Dr. John Bandler, academic and playwright, helps fix my Zoom presentation skills! (Jan 21/21).
  6. 2021 CFMU interview by Sawayra Owais, “A Very Special AlmaMAC: The Caffeine Rabbit Hole at Fringe Fest (Jul. 8/21): with Dr. John Bandler, Rachelle Ho, and Emily Wood.

12/15/2022

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