TEXT BOOKSIntroduction to Diffraction, Information Processing, and Holography. MIT Press, Cambridge, Mass., March 1973. Translated in Russian.Optics and Information Theory. Wiley-Interscience, New York, NY, November 1976. Revised edition, R. E. Krieger Publishing Co., Inc., Malabar, FL, August, 1984. Optical Information Processing. Wiley-Interscience, New York, NY, November 1982. Translated in Chinese. White-Light Optical Signal Processing. Wiley-Interscience, New York, NY, July 1985. Principles of Optical Engineering (with I. C. Khoo). John Wiley, New York, NY, March l990. Translated in Chinese. Optical Signal Processing, Computing and Neural Networks (with S. Jutamulia). Wiley-Interscience, New York, NY, December 1992. Translated in Japanese, Chinese. Introduction to Optical Engineering (with X. X. Yang). Cambridge University Press, Cambridge, United Kingdom, April 1997. Translated in Korean. Entropy and Information Optics, Marcel Dekker, New York, 2000. Introduction to Information Optics (with S. Jutamulia and S. Yin). Academic Press, San Diego, 2001. Fundamental of Optical Engineering (with C.C. Sun). Academic Press,
San Diego, 2004 CHAPTERS OF BOOKS"Image Evaluation" with A. Tai, pp. 51-68, in Handbook of Optical Holography. Edited by H. J. Caulfield, Academic Press, New York, 1979."Advances in White-Light Image Processing," in Advances in Electronics and Electron Physics, edited by P. W. Hawkes, Academic Press, New York, 1985. "Principles of Optical Processing with Partially Coherent Light," in Progress in Optics, Vol. 23, edited by E. Wolf, North-Holland Physics Publishing Co., 1986. "Preservation of Historical Records" with P. Adelstein et al., National Research Council, National Academic Press, 1986. "White-Light Optical Signal Processing and Its Applications," in Optical and Hybrid Computing, Edited by H. H. Szu, SPIE Institutes, Bellingham, Washington, l986. "Color Image Processing," in Optical Signal Processing, Edited by J. L. Horner, Academic Press, New York, 1987. "Partially Coherent Processing," in The Encyclopedia of Physical Science and Technology, Vol. l0, Academic Press, New York, l987. "Spatial Filters and Fourier Optics," in Handbook of Microwave and Optical Components, Vol. 3, Chapter 5, edited by K. Chang, John Wiley, New York, 1989. "Partially Coherent Processing," in The Encyclopedia of Physical Science and Technology, Vol. l2, Academic Press, New York, l992. "Optical Neural Networks, Architecture, Design and Models," in Progress in Optics, edited by E. Wolf, North-Holland Physics Publishing Co., 1993. "Optical Implementation of Programmable Associative Memories Neural Net," in Associative Neural Memories, edited by M. H. Hassoun, Oxford University Press, London, UK, 1993. "Holographic Storage and Interconnection Using a (Ce: Fe: Doped LiNbO3) Photorefractive Crystal Fiber with a Tunable Visible-Light Diode Laser," with S. Yin, in Photorefractive Materials, Effects, and Applications, Critical Review, edited by P. Yeh and C. Gu, SPIE Book, July 1993. "Storage Dynamics of Photorefractive (PR) Fiber Holograms," with S. Yin, in Optical Storge and Retrieval, edited by F.T.S. Yu and S. Jutamulia, Marcel Dekker, Inc. New York, 1996. "Optical Neural Network Architectures," with T. Lu and D. Mintzer, in Optical Storge and Retrieval, edited by F.T.S. Yu and S. Jutamulia, Marcel Dekker, Inc., New York, 1996. "Photorefractive Fibers: Fabrication and Hologram Construction," with S. Yin, in Trends in Optics; ICO Book 3, edited by A. Consortini, Academic Press, New York (in press). "Photorefractive Material: Processing and Optical Properties," in Inorganic Optical Material Critical Review, edited by P. Klocek, SPIE Book, August 1996. "Pattern Recognition with Optics," with D. A. Gregory, in Optical Pattern Recognition, edited by F.T.S. Yu and S. Jutamulia, Cambridge University Press (in press). “Matched Filters,” with S. Yin, in Encyclopedia of Electrical and Electronics Engineering, Vol. 12, edited by John G. Webser, John Wiley and Sons, Inc., 1999. “Dynamics of Photorefractive Fibers” with S. Yin, in Photorefractive Optics, edited by F.T.S. Yu and S. Yin, Academic Press, New York 2000. “Fiber Specklegram Sensors,” in Fiber Optic Sensors, edited by F.T.S. Yu and S. Yin, Marcel Dekker, Inc., New York 2001. “Fourier Optics and Image Processing,” in Handbook of Optical Engineering edited by D. Malacara and B.J. Thompson, Marcel Dekker, New York, 2001. “Optical Logic Gates and Algebra”, with C.M. Uang, in Encyclopedia of Optical Engineering, Marcel Dekker, Inc., 2003. “Optical Neural Networks”, with C.M. Uang, in Encyclopedia of Optical Engineering, Marcel Dekker, Inc., 2003. “Spatial Filters and Fourier Optics”, in Handbook of Optical Component and Engineering, edited by K. Chang, John Wiley, New York, 2003. “Holography: Origin, Development, and Beyond” with S. Jutamulia, in The Art and Science of Holography, a tribute to Emmitt Leith and Yuri Denisyu. Edited by J. Caulfield, Marcel Dekker, New York, 2004.
EDITED BOOKS"Selected Papers on Coherent Optical Processing," (with S. Yin,) SPIE Milestone Series, Vol. MS52, 1992."Optical Storage and Retrieval," (with S. Jutamulia) Marcel Dekker, Inc., New York, 1996. “Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications I,” SPIE, Vol. 2529, Bellingham, WA, 1995. “Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications II,” (with S. Yin) SPIE, Vol. 2849, Bellingham, WA, 1996. “Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications III,” SPIE, Vol. 3137, Bellingham, WA, 1997. “Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications IV,” (with S. Yin) SPIE, Vol. 3470, Bellingham, WA, 1998. “Optical Pattern Recognition,” (with S. Jutamulia) Cambridge University Press, Cambridge, United Kingdom, 1998. “Selected Papers on Optical Pattern Recognition,” (with S. Yin) SPIE Milestone Series, 1999. “Photorefractive Optics: Materials, Properties, and Applications,” (with S. Yin,) Academic Press, San Diego, 2000. “Photorefractive Fiber and Crystal Devices: Material, Optical Properties, and Applications VI,” (with S. Yin), SPIE, Vol. 1110, Bellingham, WA, 2000. “Photorefractive Fiber and Crystal Devices: Material, Optical Properties, and Applications VII,” (with S. Yin), SPIE, Vol. 4459, Bellingham, WA, 2001. “Fiber Sensors,” (with S. Yin), Marcel Dekker, Inc., New York, 2002.
PUBLICATIONSRefereed Papers1. O. P. Gandhi, G. E. Peterson, and F.T.S. Yu, "Recurrently Impulsed Resonators in Speech and Psychophysical Studies," Language and Speech, Vol. 3, pp. 140-154, July-Sept. 1960.2. F.T.S. Yu and H. K. Dunn, "Experiment in Ferroelectric Tape Recording," Journal of the Acoustical Society of America, Vol. 39, pp. 1090-1101, June 1966. 3. F.T.S. Yu, "Information Content of a Sound Spectrogram," Journal of the Audio Engineering Society, Vol. 15, pp. 407-413, October 1967. 4. F.T.S. Yu, "Statistical Brightness Gain of an Image Intensifier," Applied Optics, Vol. 7, pp. 1601-1607, August 1968. 5. F.T.S. Yu, "Stochastic Approach to the Noise in Magnetic Tape," Journal of the Acoustical Society of America, Vol. 44, pp. 1442-1450, November 1968. 6. F.T.S. Yu, "Statistical Photographic Noise," Journal of the Optical Society of America, Vol. 58, pp. 742, April 1968. 7. F.T.S. Yu, "Image Restoration, Uncertainty and Information," Applied Optics, Vol. 8, pp. 53-58, January 1969. 8. F.T.S. Yu, "Markov Photographic Noise," Journal of the Optical Society of America, Vol. 59, pp. 342-344, March 1969. 9. F.T.S. Yu, "Five-Point Analysis of Nonlinear Holograms," Journal of the Optical Society of America, Vol. 59, pp. 360-362, March 1969. 10. F.T.S. Yu, "Optical Resolving Power and Physical Realizability," Optics Communication, Vol. 1, pp. 319-322, February 1970. 11. F.T.S. Yu and H. W. Rose, "Coherent Optical Target Recognition Through a Randomly Turbulent Medium," Journal of the Optical Society of America, Vol. 59, p. 474, May 1969. 12. F.T.S. Yu, "Optimal Linearization in Holography," Journal of the Optical Society of America, Vol. 59, p. 490, May 1969, and Applied Optics, Vol. 8, pp. 2483-2487, December 1969. 13. F.T.S. Yu, "A Note on Phase Holograms," Applied Optics, Vol. 8, pp. 2350-2351, November 1969. 14. F.T.S. Yu, "Information Capacity of a Photographic Film," IEEE Transaction on Information Theory, Vol. I T-16, pp. 477-480, July 1970. 15. F.T.S. Yu, "Off-Axis Nonlinear Hologram and Spurious Distortion," Optics Communication, Vol. 1, pp. 427-430, April 1970. 16. H. W. Rose, T. L. Wiliamson, F.T.S. Yu, "Target Recognition Through a Phase Distortion Medium," Applied Optics, Vol. 10, pp. 515-518, March 1971. 17. F.T.S. Yu and A. D. Gara, "Effect of Emulsion Thickness Variations on Wavefront Reconstruction," Applied Optics, Vol. 10, pp. 1324-1328, June 1971. 18. F.T.S. Yu, "Linear Optimization in the Synthesis of Nonlinear Spatial Filters," IEEE Transaction on Information Theory, Vol. I T-17, pp. 524-529, September 1971. 19. F.T.S. Yu, "Coherent and Digital Image Enhancement, Their Basic Constraints and Differences," Optics Communications, Vol. 3, pp. 440-442, August 1971. 20. F.T.S. Yu and B. Bieringer, "Optical Correlation Analysis of Two-Phase Micrographs," Applied Optics, Vol. 10, pp. 2269-2273, October 1971. 21. F.T.S. Yu and G. C. Kung, "Synthesis of Optimum Complex Spatial Filters," Journal of the Optical Society of America, Vol. 61, pp. 147-149, January 1972. 22. F.T.S. Yu, "Film-Grain Noise and Signal-to-Noise Ratio," Optik, Vol. 36, pp. 434-442, November 1972. 23. F.T.S. Yu, "Pattern Recognition Through Atmospheric Turbulence by Means of Wiener-Khinchin Theorem," Journal of the Society of Photo-Optical Instrumentation Engineers, Vol. 10, pp. 18-23, Oct.-Dec. 1971. 24. F.T.S. Yu, "Synthesis of an Optical-Sound Spectrograph," Journal of the Acoustical Society of America, Vol. 51, pp. 443-438, February 1972. 25. F.T.S. Yu, "Experiment in Linear Optimization of the Holographic Process," Applied Optics, Vol. 11, pp. 949-951, April 1972. 26. F.T.S. Yu, "Observation, Information, and Optical Synthetic Aperature," Optik, Vol. 62, p. 725, May 1972, and Optik, Vol. 38, pp. 425-432, September 1973. 27. F.T.S. Yu, E. Y. Wang and M. Breen, "Linear Optimization in Sequential Information Storage of Holographic Data," Optik, Vol. 28, pp. 64-72, June 1973. 28. F.T.S. Yu and E. Y. Wang, "Holographic Speckle Reduction by Random Spatial Sampling," Applied Optics, Vol. 12, pp. 1656-1659, July 1973. 29. F.T.S. Yu and E. Y. Wang, "An Undergraduate Coherent Optics Laboratory," American Journal of Physics, Vol. 41, pp. 1160-1169, October 1973. 30. F.T.S. Yu and A. Tai, "Diffraction Measurement in Film Granularity," Optik, Vol. 40, pp. 167-172, May 1974. 31. F.T.S. Yu and A. Tai, "Information Leakage Through a Passive Optical Channel," Optics Communications, Vol. 14, pp. 51-56, May 1975. 32. F.T.S. Yu, "Generating Speech Spectrograms Optically," IEEE Spectrum, Vol. 12, pp. 51-56, February 1975. 33. F.T.S. Yu and A. Tai, "Modulation-Detection in Holographic Contouring," Japanese Journal of Applied Physics, Vol. 14, pp. 213-216, March 1975. 34. F.T.S. Yu, "A Comment on Temporal Coherence Length and Speckle: A Simultaneous Approach to Those Problems in Holography," Applied Optics, Vol. 15, July 1976, p. 1680. 35. W. L. Haworth, T. Cheng, A. F. Hieber, F.T.S. Yu and R. K. Mueller, "A Dynamic Optical Correlation Technique for Fatigue Failure Prediction," Transaction ASME, Vol. 99, pp. 229-233, July 1977. 36. F.T.S. Yu, "Phase Holograms and Action of Bleaching," a comment, Applied Optics, Vol. 16, p. 1802, July 1977. 37. A. Tai and F.T.S. Yu, "Holographic Speckle Reduction by Complementary Spatial Sampling," Applied Optics, Vol. 16, pp. 1371-1375, May 1977. 38. A. Tai, T. Cheng and F.T.S. Yu, "Optical Logarithmic Filtering using Inherent Film Nonlinearity," Applied Optics, Vol. 16, pp. 2259-2264, 1977, September 1977. 39. A. Tai and F.T.S. Yu, "Classification of the T-E Curve," Applied Optics, Vol. 17, pp. 2450-2453, August 1978. 40. T. Cheng, A. Tai and F.T.S. Yu, "Optimum Matched Filtering for Signals in Nonwhite Multiplicative Noise," Journal of the Optical Society of America, Vol. 67, pp. 1422-1423, October 1977. 41. H. Chen and F.T.S. Yu, "One Step Rainbow Hologram," Optics Letters, Vol. 2, pp. 85-87, April 1978. 42. F.T.S. Yu and H. Chen, "Rainbow Holographic Interferometry," Optics Communications, Vol. 25, pp. 173-175, May 1978. 43. H. Chen, A. Tai and F.T.S. Yu, "Generation of Color Images with One-Step Rainbow Holograms," Applied Optics, Vol. 17, pp. 1490-1491, May 1978. 44. F.T.S. Yu, "Super Resolution and Cost of Entropy," Optik, Vol. 54, pp. 1-7, January 1979. 45. F.T.S. Yu, "A New Technique of Incoherent Complex Signal Detection," Optics Communications, Vol. 27, pp. 23-26, October 1978. 46. F.T.S. Yu, "Restoration of Smeared Photographic Image by Incoherent Optical Processing," Applied Optics, Vol. 17, pp. 3571-3575, November 1978. 47. F.T.S. Yu, A. Tai and H. Chen, "Multi-Wavelength Rainbow Holographic Interferometry," Applied Optics, Vol. 18, pp. 212-218, January 1979. 48. F.T.S. Yu, "A New Technique of Pseudocolor Encoding of Holographic Imaging," Optics Letters, Vol. 3, pp. 57-58, August 1978. 49. F.T.S. Yu, A Tai and H. Chen, "Archival Storage of Color Films by Rainbow Holographic Technique," Optics Communications, Vol. 27, pp. 307-310, Dec. 1978. 50. J. C. Lin, F.T.S. Yu and A. Tai, "Ultrasonic Blood Flow Spectral Analysis using Coherent Optics," IEEE Trans. Biomed. Eng., Vol. 25, pp. 243-249, May 1978. 51. F.T.S. Yu, A. Tai and H. Hsuan, "Spatial Filtered Pseudocolor Holographic Imaging," Nouvelle Revue d'Optique, Vol. 9, pp. 269-273, October 1978. 52. F.T.S. Yu and A. Tai, "A Technique of Incoherent Image Addition and Subtraction," Applied Optics, Vol. 18, pp. 2705-2707, August 1979. 53. A. Tai, F.T.S. Yu and H. Chen, "A White-Light Pseudocolor Encoder," Optics Letters, Vol. 3, pp. 190-192, November 1978. 54. A. Tai and F.T.S. Yu, "Wide-Band Spectrum Analysis with Area Modulation," Applied Optics, Vol. 18, pp. 460-463, February 1979. 55. A. Tai, F.T.S. Yu and H. Chen, "Multi-Slit One-Step Rainbow Holographic Interferometry," Applied Optics, Vol. 18, pp. 6-7, January 1979. 56. A. Tai and F.T.S. Yu, "Synchronous Dual-Channel Optical Spectrum Analyzer," Applied Optics, Vol. 18, p. 1297, May 1979. 57. A. Tai and F.T.S. Yu, "Reply to Comment on Wideband Spectrum Analysis with Area Modulation," Applied Optics, Vol. 18, p. 2541, August 1979. 58. F.T.S. Yu, A. Tai and H. Chen, "One Step Rainbow Hologram and Rainbow Holographic Interferometry," Journal of Avtometria, Vol. 1, pp. 30-40, January 1981. in Russian. 59. A. Tai and F.T.S. Yu, "Wideband Spectrum Analysis with Area Modulation," Journal of Avtometria, Vol. 1, pp. 64-69, January, 1981, in Russian. 60. M. S. Dymek, A. Tai, T. H. Chao and F.T.S. Yu, "Optical Homomorphic Filtering using Film Nonlinearity," Applied Optics, Vol. 19, pp. 829-831, March 1980. 61. F.T.S. Yu, T. H. Chao and M. S. Dymek, "Multislit Spatial Filtered Pseudocolor Holographic Imaging," Optics Communications, Vol. 32, pp. 225-228, February 1980. 62. T. H. Chao, M. S. Dymek, A. M. Tai and F.T.S. Yu, "Optimum Matched Filtering in Nonwhite Multiplicative Noise," Applied Optics, Vol. 19, pp. 2461-2664, July 1980. 63. F.T.S. Yu and T. H. Chao, "Experiments of White-Light Processing Utilizing a Diffraction Grating Method," Optik, Vol. 56, pp. 423-427, Sept. 1980. 64. F.T.S. Yu, A. Tai and H. Chen, "Recent Development and Application of One-Step Rainbow Holography," Optical Eng., Vol. 19, pp. 666-678, September-October 1980. 65. F.T.S. Yu, "White Light Processing Technique for Archival Storage of Color Films," Applied Optics, Vol. 19, pp. 2457-2460, July 1980. 66. F.T.S. Yu, T. H. Chao and S. L. Zhuang, "A Polychromatic Processing Technique for Color Photographic Images," Applied Optics, Vol. 19, pp. 1887-1889, June 1980. 67. F.T.S. Yu, S. L. Zhuang and T. H. Chao, "Multi-Image Regeneration by White-Light Processing," Optics Communications, Vol. 34, pp. 11-14, July 1980. 68. T. H. Chao, S. L. Zhuang and F.T.S. Yu, "White Light Pseudocolor Density Encoding Through Contrast Reversal," Optics Letters, Vol. 5, pp. 230-231, June 1980. 69. F.T.S. Yu, S. L. Zhuang, T. H. Chao and M. S. Dymek, "Real-Time White-Light Spatial Frequency and Density Pseudocolor Encoder," Applied Optics, Vol. 19, pp. 2986-2990, September 1980. 70. F.T.S. Yu and M. S. Dymek, "Optical Information Parallel Processing: A Technique," Applied Optics, Vol. 20, pp. 1450-1453, April 1981. 71. F.T.S. Yu, P. H. Ruterbusch and S. L. Zhuang, "High Resolution Rainbow Holographic Process," Optics Letters, Vol. 5, pp. 443-445, October 1980. 72. F.T.S. Yu, S. L. Zhuang and T. H. Chao, "Optical Processing of Color Image Transparencies," ACTA Physica Sinica, Vol. 30, pp. 57-65, January 1981, in Chinese. 73. P. H. Ruterbusch, S. L. Zhuang and F.T.S. Yu, "Progress Report on Archival Storage of Color Films by One-step Rainbow Holographic Process," Optics Communications, Vol. 37, pp. 335-338, June 1981. 74. S. L. Zhuang, P. H. Ruterbusch, Y. W. Zhang and F.T.S. Yu, "On Resolution and Color Blur of the One-Step Rainbow Hologram," Applied Optics, Vol. 20, pp. 872-878, March 1981. 75. F.T.S. Yu, S. L. Zhuang and G. G. Mu, "Recent Advancement of White-Light Optical Processing," Journal of Optical Society of China, Vol. 1, pp. 13-24, 1981. 76. S. L. Zhuang, T. H. Chao and F.T.S. Yu, "Smeared Photographic Image Restoration with White-Light Optical Processing," Optics Letters, Vol. 6, pp. 102-104, February 1981. 77. F.T.S. Yu, G. G. Mu and S. L. Zhuang, "Restoration of Faded Color Films with White-Light Processing," Optik, Vol. 58, pp. 389-394, June 1981. 78. S. L. Zhuang and F.T.S. Yu, "Optimal Balance of Aberrations under Partially Coherent Illumination," Journal of Optical Society of America, Vol. 71, pp. 1250-1254, October 1981. 79. F.T.S. Yu, S. L. Zhuang and T. H. Chao, "Color-Photographic-Image Deblurring by White-Light Processing Technique," Journal of Optics, Vol. 13, pp. 57-61, March-April, 1982. 80. G. Gerhart, F.T.S. Yu and P. H. Ruterbusch, "Color Encoding of Holographic Interferometric Fringe Patterns with White-Light Processing," Applied Optics, Vol. 20, pp. 3085-3088, September 1981. 81. S. T. Wu and F.T.S. Yu, "Image Subtraction with Encoded Extended Incoherent Source," Applied Optics, Vol. 20, pp. 4082-4088, December 1981. 82. S. T. Wu and F.T.S. Yu, "Source Encoding for Image Subtraction," Optics Letters, Vol. 6, pp. 452-454, September 1981. 83. F.T.S. Yu, G. G. Mu and S. L. Zhuang, "White-Light Processing for Color Enhancement of Faded Color Films," Acta Physica Sinica, Vol. 30, pp. 841-848, June 1981, in Chinese. 84. F.T.S. Yu and J. L. Horner (invited), "Optical Processing of Photographic Images," Optical Engineering, Vol. 20, pp. 666-676, September-October 1981. 85. F.T.S. Yu, S. L. Zhuang and S. T. Wu, "Source Encoding for Partially Coherent Optical Processing," Applied Physics, Vol. B27, pp. 99-104, February 1982. 86. S. T. Wu and F.T.S. Yu, "Visualization of Color Coded Phase Object Variation with Incoherent Optical Processing Technique," Journal of Optics, Vol. 13, pp. 111-114, May-June 1982. 87. S. L. Zhuang and F.T.S. Yu, "Coherence Requirement for Partially Coherent Optical Information Processing," Applied Optics, Vol. 21, pp. 2587-2595, July 1982. 88. F.T.S. Yu and S. T. Wu, "Color Image Subtraction with Encoded Extended Incoherent Source," Journal of Optics, Vol. 13, pp. 183-187, July-August 1982. 89. F.T.S. Yu and P. H. Ruterbusch, "Generating Color Hologram Image with White-Light Processing," Optics and Laser Technology, Vol. 14, pp. 273-275, October 1982. 90. T. H. Chao and F.T.S. Yu, "Generating Grating with Encoded Extended Incoherent Source," Optics Letters, Vol. 7, pp. 251-252, June 1982. 91. F.T.S. Yu and P. H. Ruterbusch, "Color Image Retrieval from Incoherent Speckles with White-Light Processing," Optical Engineering, Vol. 21, pp. 798-799, July-August 1982. 92. S. L. Zhuang and F.T.S. Yu, "Apparent Transfer Function for Partially Coherent Optical Information Processing," Applied Physics, Vol. B28, 359-366, August 1982. 93. F.T.S. Yu, P. H. Ruterbusch, G. Gheen and G. Gerhart, "White-Light Optical Processing of Misfocused Speckle Interferograms," Optical Engineering, Vol. 22, pp. 156-160, January-February 1983. 94. F.T.S. Yu, Y. W. Zhang and S. L. Zhuang, "Coherence Requirement for Partially Coherent Correlation Detection," Applied Physics, Vol. B30, p. 23-27, January 1983. 95. F.T.S. Yu and P. H. Ruterbusch, "Color Image Retrieval from Coherent Speckles with White-Light Processing," Applied Optics, Vol. 21, pp. 2300-2301, July 1982. 96. S. L. Zhuang, Q. Zheng and F.T.S. Yu, "Automatic Generation of Prototype Lenses," Optics Letters, Vol. 7, pp. 581-583, December 1982. 97. P. H. Ruterbusch, G. R. Gerhart and F.T.S. Yu, "White-Light Holography with a Slide Projector," Optical Engineering, Vol. 22, p. 172-173, January-February 1983. 98. Y. W. Zhang, W. G. Zhu and F.T.S. Yu, "Rainbow Holographic Aberrations and Bandwidth Requirements," Applied Optics, Vol. 22, pp. 164-169, January 1983. 99. F.T.S. Yu and T. H. Chao, "Color Signal Correlation Detection by Matched Spatial Filtering," Applied Physics, Vol. B32, pp. 1-6, September 1983. 100. P. H. Ruterbusch, J. A. Tome and F.T.S. Yu, "Multiplexed Speckle and Holographic Interferometry with Color Encoding by White-Light Processing," Optical Engineering, Vol. 22, pp. 501-504, July-August 1983. 101. T. H. Chao, S. L. Zhuang, S. Z. Mao and F.T.S. Yu, "Broad Spectral Band Color Image Deblurring," Applied Optics, Vol. 22, pp. 1439-1444, May 1983. 102. F.T.S. Yu, G. Gheen and N. Wang, "Construction of a Two-Dimensional Color Hologram with the use of Source Encoding Technique," Optical Engineering, Vol. 15, pp. 251-256, October 1983. 103. X. J. Lu and F.T.S. Yu, "Restoration of Out-of-Focused Color Photographic Images," Optics Communications, Vol. 46, pp. 278-833, July 1983. 104. F.T.S. Yu, J. A. Tome and F. K. Hsu, "Dual-Beam Encoding for Color Holographic Construction," Optics Communications, Vol. 46, pp. 274-277, July 1983. 105. C. Warde, H. J. Caulfield, F.T.S. Yu and J. E. Ludman, "Real-Time Joint Spectral-Spatial Matched Filtering," Optics Communications, Vol. 49, pp. 241-244, March 1984. 106. F.T.S. Yu, "Source Encoding, Signal Sampling and Spectral Band Filtering for Partially Coherent Optical Signal Processing," Journal of Optics, Vol. 14, pp. 173-178, July-August 1983. 107. F.T.S. Yu, X. X. Chen and T. H. Chao, "Density Pseudocolor Encoding with Three Primary Colors," Journal of Optics, Vol. 15, pp. 55-58, March-April 1984. 108. F.T.S. Yu, K. S. Shaik and S. L. Zhuang, "Noise Performance of a White-Light Optical Signal Processor: Part I, Temporally Partially Coherent Illumination," Journal of the Optical Society of America A, Vol. 1, pp. 489-494, May 1984. 109. F.T.S. Yu, F. K. Hsu and T. H. Chao, "Coherence Measurement of a Grating-Based White-Light Optical Signal Processor," Applied Optics, Vol. 23, pp. 333-340, January 1984. 110. F.T.S. Yu, K. S. Shaik and S. L. Zhuang, "Noise Performance of a White-Light Optical Signal Processor: Part II, Spatially Partially Coherent Illumination," Applied Physics, Vol. B36, pp. 11-15, January 1985. 111. F.T.S. Yu, K. Shung and X. X. Chen, "A White-Light Pseudocolor Encoder for Diagnostic Imaging," IEEE Trans. Biomedical Engineering, Vol. BME-32, pp. 199-204, March 1985. 112. F.T.S. Yu and G. W. Petersen, "Generating False-Color Composites with a White-Light Optical Processor," Photogrammetric Engineering and Remote Sensing, Vol. 53, pp. 367-371, March 1986. 113. F.T.S. Yu, "Color Image Recognition by Spectral-Spatial Matched Filtering," Optical Engineering, Vol. 23, pp. 690-694, November-December 1984. 114. F.T.S. Yu, X. J. Lu and M. F. Cao, "Applications of Magneto-Optic Spatial Light Modulator to White-Light Optical Processing," Applied Optics, Vol. 23, pp. 4100- 4104, November 1984. 115. F.T.S. Yu and X. X. Chen, "Solar Optical Processing," Optics Communications, Vol. 51, pp. 377-381, October 1984. 116. F.T.S. Yu and X. J. Lu, "A Real-Time Optical Scanning Correlator," Applied Optics, Vol. 23, pp. 3109-3116, September 1984. 117. J. A. Tome, F.T.S. Yu and Grant Gerhart, "A Study of Multiplexed Moire Interferometry with White-Light Processing," Optical Engineering, Vol. 24, pp. 879-881, September/October 1985. 118. F.T.S. Yu and H. Mueller, "A Low-Cost White-Light Optical Processor," IEEE Transaction of Education, Vol. E-28, pp. 131-137, August 1985. 119. F.T.S. Yu and X. J. Lu, "A Programmable Joint Transform Correlator," Optics Communications, Vol. 52, p. 10-16, November 1984. 120. F.T.S. Yu, L. N. Zheng and F. K. Hsu, "Noise Measurement of a White-Light Optical Signal Processor," Applied Optics, Vol. 24, pp. 173-178, January 1985. 121. F.T.S. Yu and F. K. Hsu, "White-Light Fourier Holography," Optics Communications, Vol. 52, pp. 384-389, January 1985. 122. F.T.S. Yu, T. N. Lin and K. B. Xu, "White-Light Optical Speech Spectrogram Generation," Applied Optics, Vol. 26, pp. 836-841, March 1985. 123. F.T.S. Yu, X. X. Chen and S. L. Zhuang, "Progress Report on Archival Storage of Color Films Utilizing a White-Light Processing Technique," Journal of Optics, Vol. 16, pp. 59-65, February-March 1985. 124. F.T.S. Yu (invited), "Garden of White-Light Optical Signal Processing," Optics News, Vol. 11, pp. 5-8, May 1985. 125. F.T.S. Yu and F. K. Hsu, "Complex Signal Detection with Broad Band White-Light Processing," Applied Optics, Vol. 24, pp. 2135-2139, July 1985. 126. F.T.S. Yu and Y. W. Zhang, "Fringe Visibility of Dual-Aperture Sampling with Partially Coherent Illumination," Applied Optics, Vo. 25, pp. 3191-3196, September 1986. 127. F.T.S. Yu and G. Gerhart (invited), "White-Light Transmission Color Holography: A Review," Optical Engineering, Vol. 24, pp. 812-819, September/October 1985. 128. F.T.S. Yu, L. N. Zheng and T. W. Lin, "Holographic Tomography in Determining the Structure of Three-Dimensional Object Fields," Journal of Optics, Vol. 17, pp. 97-104, March/April 1986. 129. F.T.S. Yu and B. Javidi, "Experiments on Real-Time Polychromatic Signal Detection by Matched Spatial Filtering," Optics Communications, Vol. 56, pp.384-388, January 1986. 130. S. Jutamulia, T. W. Lin and F.T.S. Yu, "Color Visualization of Phase Object using Talbot Interferometer," Journal of Optics, Vol. 17, pp. 129-133, May/June 1986. 131. B. Javidi and F.T.S. Yu, "Performance of a Noisy Phase-Only Matched Filter in a Broad Spectral Band Optical Correlator," Applied Optics, Vol. 25, pp. 1354-1358, April 1986. 132. F.T.S. Yu and X. J. Lu, "A Large-Capacity Real-Time Spatial-Spectral Scanning Optical Correlator," Applied Optics, Vol. 25, pp. 812-816, March, 1986. 133. X. J. Lu and F.T.S. Yu, "An Analysis of White-Light Processing System Based on Cross-Spectral Density Function," Journal of Optical Society of America A, pp. 1419-1427, Vol. 4, August 1987. 134. F.T.S. Yu, M. F. Cao and X. J. Lu, "A Real-Time Programmable Image Subtractor using Magneto-Optic Device," Applied Optics, Vol. 25, pp. 3773-3775, October 1986. 135. G. Gheen and F.T.S. Yu, "Broadband Subtraction by Spectral Dependent Sampling," Optics Communications, Vol. 59, pp. 335-341, October 1986. 136. M. D. Dymek and F.T.S. Yu, "Color Image Processing with CGH Filters in a White-Light Optical System," Applied Optics, Vol. 26, pp. 5337-5344, December 1987. 137. S. Jutamulia, T. W. Lin and F.T.S. Yu, "Real-Time Color-Coding of Depth using a White-Light Talbot Interferometer," Optics Communications, Vol. 58, pp. 78-82, May 1986. 138. B. Javidi and F.T.S. Yu, "Real-Time Image Recognition by Partially Coherent Light," Applied Optics, Vol. 25, pp. 2365-2371, July 1986. 139. F.T.S. Yu, M. F. Cao and J. E. Ludman (invited), "A Microcomputer-Based Programmable Optical Signal Processing," Optical Engineering, Vol. 25, pp. 846-852, July 1986 (invited). 140. F.T.S. Yu and J. E. Ludman, "A Microcomputer Based Programmable Optical Correlator for Automatic Pattern Recognition and Identification," Optics Letters, Vol. 11, pp. 395-397, June 1986. 141. F.T.S. Yu and M. F. Cao, "Digital Optical Matrix Multiplication Based on a Systolic Outer-Product Method," Optical Engineering, Vol. 26, pp. 1229-1233, December 1987. 142. F.T.S. Yu, S. Jutamulia and X. L. Huang, "Experimental Applications of the Low-Cost Liquid Crystal Television to Real-Time Signal Processing," Applied Optics, Vol. 25, pp. 3324-3326, October 1986. 143. F.T.S. Yu, X. X. Chen and K. E. McClure, "Computer Generated Linear Tricolor Sampling Pattern and its Applications," Journal of Optics, Vol. l7, pp. 270-278, December 1986. 144. F.T.S. Yu, S. Jutamulia, T. W. Lin, and X. L. Huang, "Real-Time Pseudocolor-Encoding using a Low-Cost Liquid Crystal Television," Optics and Laser Technology, Vol. l9, pp. 45-47, February 1987. 145. F.T.S. Yu, S. Jutamulia, and T. W. Lin, "Real-Time Polychromatic Signal Detection using a Color Liquid Crystal Television," Optical Engineering, Vol. 26, pp. 453-460, May l987. 146. F.T.S. Yu, S. Jutamulia, T. W. Lin and D. A. Gregory, "Adaptive Real-Time Pattern Recognition using a Liquid Crystal TV Based Joint Transform Correlator," Applied Optics, Vol. 26, pp. 1370-1372, April 1987. 147. F.T.S. Yu and T. Nagata, "An Optical Architecture for Acousto-Optic Space Integrating Correlator," Optical Engineering, Vol. 27, pp. 507-5ll, July l988. 148. F.T.S. Yu, Q. Song and X. J. Lu, "Operational Characteristic and uses of a Microchannel Spatial Light Modulation Under White-Light Illumination," Applied Optics, Vol. 26, pp. 2743-2746, July l987. 149. S. Jutamulia, T. W. Lin and F.T.S. Yu, "Microcomputer-Based Programmable Real-Time Incoherent Correlater using Liquid Crystal Television," Optics Communications, Vol. 64, pp. ll5-ll9, October l987. 150. F.T.S. Yu and S. Jutamulia, "Implementation of Symbolic Substitution Logic using Optical Associative Memories," Applied Optics, Vol. 26, pp. 2293-2294, June l987. 151. F.T.S. Yu, S. Jutamulia, D. A. Gregory, "A Real-Time Liquid Crystal TV XOR- and -XNOR Gate Binary Image Subtraction Technique," Applied Optics, Vol. 26, pp. 2738-2742, July l987. 152. F.T.S. Yu and Q. H. Zhou, "Multichannel Parallel Optical Correlator," Optics Communications, Vol. 64, pp. lll-ll4, October l987. 153. F.T.S. Yu, X. J. Lu, Y. Suzuki and M. Wu, "Microchannel Spatial Light Modulator with White-Light Processing," Optics Communications, Vol 63, pp. 37l-374, September l987. 154. F.T.S. Yu, S. Jutamulia, D. A. Gregory, "Optical Parallel Logic Gates using Inexpensive Liquid Crystal TV," Optics Letters, Vol. l2, pp. l050-l052, December l987. 155. F.T.S. Yu, S. Jutamulia and T. W. Lu, "Optical Parallel Logic Based on Magneto-Optic Spatial Light Modulator," Optics Communications, Vol. 63, pp. 225-229, August l987. 156. F.T.S. Yu and T. W. Lu, "Digital Optical Architectures for Multiple Matrix Multiplication," Optics Communications, Vol. 7l, pp. 39-45, May l989. 157. Y. Jin and F.T.S. Yu, "Optical Binary Adder Utilizing Liquid Crystal Television," Optics Communications, Vol. 65, pp. ll-l6, January l988. 158. F.T.S. Yu, Q. W. Song, and X. J. Lu, "Implementation of Boolean Logic Gates using a Microchannel Spatial Light Modulator," Optics Letters, Vol. l2, pp. 962-964, November l987. 159. F.T.S. Yu, "Hybrid Optical Computing," IEEE Potential, Vol. 6, pp. 34-37, December l987. 160. Q. W. Song and F.T.S. Yu, "Optical Perfect Shuffle using Spatial Filtering," Applied Optics, Vol. 22, pp. l222-l223, April l988. 161. F.T.S. Yu, Q. Zhou and C. H. Zhang, "Multiple Channel Optical Correlator via Rotating Grating on LCTV," Applied Optics, Vol. 27, pp. 3770-3772, September l988. 162. F.T.S. Yu, C. H. Zhang and S. Jutamulia, "Application of One-Step Holographic Associative Memories to Symbolic Substitution," Optical Engineering, Vol. 27, pp. 399-402, May l988. 163. F.T.S. Yu and J. E. Ludman, "Joint Fourier Transform Processor," Microwave and Optical Technology Letters, Vol. l, pp. 374-377, December l988. 164. F.T.S. Yu and T. Nagata, "Binary Phase only Joint Transform Correlator," Microwave and Optical Technology Letters, Vol. 2, pp. l5-l9, January l989. 165. F. T. S. Yu, S. Jutamulia, R. V. Yelamarty and D. Gregory, "Adaptive Joint Transform Correlator for Real-Time Color Pattern Recognition," Optics and Laser Technology, Vol. 2l, pp. l89-l92, June l989. 166. L. Zheng, T. Lin and F.T.S. Yu, "Holographic Tomography in Determining Refractive Index of Three-Dimensional Transparent Object," Acta Optica Sinica, Vol. 7, pp. 903-9l0, October l987. 167. F.T.S. Yu, Q. W. Song, Y. Suzuki and M. Wu, "Hard-clipping Joint Transform Correlator using a Microchannel Spatial Light Modulator," Microwave and Optical Technology Letters, Vol. l, pp. 323-326, November l988. 168. F.T.S. Yu, S. Jutamulia and E. Tam, "Gray Level Pseudocolor Encoding using a Liquid Crystal Television," Journal of Optics, Vol. l9, pp. l29-l23, May-June l989. 169. F.T.S. Yu and T. Nagata," MFSK Signal Detection using Acousto-Optic Joint Transform Correlator," Microwave and Optical Technology Letters, Vol. l, pp. l90-l93, August l988. 170. X. X. Chen, A. W. Mayers, and F.T.S. Yu, "A Two Step, Three Color, White-Light Pseudocolor Encoding Process," Journal of Optics, Vol. l9, pp. l77-l80, May l989. 171. F.T.S. Yu, S. D. Wu and A. W. Mayers, "Applications of Phase Conjugation to a Joint Transform Correlator," Optics Communications, Vol. 7l, pp. l56-l60, May l989. 172. X. J. Lu, F.T.S. Yu and D. A. Gregory, "Analytical Comparison of Vander Lugt and Joint Transform Optical Correlators," Applied Physics B, Vol. 51, pp. 153-164, August 1990. 173. F.T.S. Yu, X. Y. Li, E. Tam, S. Jutamulia and D. A. Gregory, "Rotation-Invariant Pattern Recognition with a Programmable Joint Transform Correlator," Applied Optics, Vol. 28, pp. 4725-4727, November 1989. 174. Q. W. Song and F.T.S. Yu, "A Holographic Associative Memory System using a Thresholding Microchannel Spatial Light Modulator," Optical Engineering, Vol. 28, pp. 533-536, May l989. 175. F.T.S. Yu, Q. W. Song, Y. S. Cheng and D. A. Gregory, "Comparison of Detection Efficiencies for Vander Lugt and Joint Transform Correlators," Applied Optics, Vol. 29, pp. 225-232, January 1990. 176. T. W. Lu, S. D. Wu, X. Xu, and F.T.S. Yu, "A 2-D Programmable Optical Neural Network," Applied Optics, Vol. 28, pp. 4908-4913, November 1989. 177. S. D. Wu, F. Cheng and F.T.S. Yu, "Pattern Recognition by OTF Method," Journal of Optics, Vol. 20, pp. 201-204, Sept./Oct. 1989. 178. F.T.S. Yu, F. Cheng, T. Nagata, and Don A. Gregory, "Effects of Fringe Binarization on Multi-Object Joint Transform Correlation," Applied Optics, Vol. 28, pp. 2988-2990, August 1989. 179. D. A. Gregory, J. A. Loudin and F.T.S. Yu, "Illumination Dependence of the Joint Transform Correlation," Applied Optics, Vol. 28, pp. 3288-3290, August l989. 180. Y. Li and F.T.S. Yu, "Intensity Distribution Near the Focus of an Aperture Focused Gaussian Beam," Optics Communications, Vol. 70, pp. l-7, February l989. 181. F.T.S. Yu, E. Tam, and D. A. Gregory, "High Efficient Joint Transform Correlator," Optics Letters, Vol. 15, pp. 1029-1031, September 1990. 182. F.T.S. Yu, C. H. Zhang, Y. Jin and D. A. Gregory, "Nonconventional Joint Transform Correlator," Optics Letters, Vol. l4, pp. 922-924, September l989. 183. F.T.S. Yu, S. Wu, A. W. Mayers and J. E. Ludman, "Phase Measurement of Fourier Spectrum by Fringe-Scanning Phase Conjugate Interferometer," Optics Letters, Vol. 14, pp. 1171-1173, November 1989. 184. F.T.S. Yu, Y. Jin and C. Zhang, "Symbolic Logic Processing using Cascaded LCTVs," Microwave and Optical Technology Letters, pp. 309-313, September 1989. 185. F.T.S. Yu and Y. S. Cheng, "Deblurring using Joint Transform Processor," Optics Communications, Vol. 74, pp. 19-24, December 1989. 186. S. Wu, T. W. Lu, X. Xu and F.T.S. Yu, "An Adaptive Optical Neural Network using a High Resolution Video Monitor," Microwave and Optical Technology Letters, Vol. 2, pp. 252-257, July 1989. 187. T. W. Lu, X. Xu, S. Wu and F.T.S. Yu, "A Neural Network Model using Inter-Pattern Association (IPA)," Applied Optics, Vol. 29, pp. 284-288, January 1990. 188. F. T. S. Yu and Y. S. Cheng, "White-Light Joint Transform Correlator," Optics Letters, Vol. 15, pp. 192-194, February 1990. 189. Y. Li and F.T.S. Yu, "Design of Bar Code Systems for Accurate Allignment: A New Method," Applied Optics, Vol. 29, pp 723-725, Feb. 1990. 190. R. V. Yelamarty, B. A. Miller, R. C. Scaduto, F.T.S. Yu, D. L. Tillotson, and J. Y. Cheung, "Three-Dimensional Intracellular Calcium in Single Human Burst-forming units-erythroid-derived Erythroblasts Induced by Erythropoientin," Journal of Clinical Investigation, Vol. 85, pp. 1799-1809, June 1990. 191. X. Li, F.T.S. Yu and D. A. Gregory, "Image Classification by the Kittler-Young Transform Using a Joint Transform Correlater," Microwave and Optics Letters, Vol. pp. 207-209, April 1991. 192. S. Wu, Q. Song, A. Mayers, and F.T.S. Yu, "Reconfigurable Interconnections Using Nonlinear Photorefractive Crystal", Applied Optics, Vol. 29, pp. 1118-1125, March 1990. 193. T. Lu, L. Choi, S. Wu, X. Xu, and F.T.S. Yu, "Optical Disk Based Neural Network," Applied Optics, Vol. 28, pp. 4703-4724, November 1989. 194. F.T.S. Yu, E. Tam, T. Lu, E. Nishihara and T. Nishikawa," An Optical Disk Based Joint Transform Correlator," Applied Optics, Vol. 30, pp. 915-916, March 1991. 195. S. Wu, A. Mayers, S. Rajan and F.T.S. Yu, "Use of Photorefractive Fibers to Optical Interconnections and Switching," Applied Optics, Vol. 29, pp. 1059-1061, March 1990. 196. F. Cheng, X. Xu, S. Wu, F.T.S. Yu and D. A. Gregory, "Restoration of Images Blurred Due to Linear Motion Using a Joint Transform Procession," Microwave and Optical Technology Letters, Vol. 3, pp. 24-27, January 1990. 197. Y. Li, and F.T.S. Yu, "Variations of Irradiance Moments in Neural Network Processing for Pattern Recognition," Optik, Vol. 86, pp. 141-143, February 1991. 198. E. Tam, S. Wu, A. Tanone, F.T.S. Yu and D. A. Gregory, "Closed-Loop Binary Phase Connection of a LCTV Using a Point Diffraction Interferometer," IEEE Photonics Technology Letters, Vol. 2, pp. 143-146, February 1990. 199. E. C. Tam, F.T.S. Yu, D. A. Gregory, and R. D. Juday, "Autonomous Real-Time Object Tracking with an Adaptive Joint Transform Correlator," Optical Engineering, Vol. 29, pp. 314-320, April 1990. 200. F.T.S. Yu, T. W. Lu, X. Y. Yang, and D. A. Gregory, "Optical Neural Network with Pocket-Size Liquid-Crystal Televisions," Optics Letters, Vol. 15, pp. 863-865, August 1990. 201. D. A. Gregory, J. A. Loudin, J. C. Kirsch, E. C. Tam, and F.T.S. Yu, "Using the Hybrid Modulating Properties of Liquid Crystal Television," Applied Optics, Vol. 30, pp. 1374-1378, April 1991. 202. T. W. Lu, F.T.S. Yu and D. A. Gregory, "Self-Organizing Neural Network for Unsupervised Learning," Optical Engineering, Vol. 29, pp. 1107-1113, September 1990. 203. S. V. Kamarthi, S. R. T. Kumara, F.T.S. Yu and J. Ham, "Neural Network and Their Applications in Component Design Data Retrieval," Journal of Intelligent Manufacturing, Vol. 1, pp. 125-140, September 1990. 204. E. C. Tam, F.T.S. Yu, A. Tanone, D. A. Gregory, and R. Juday, "Data Association Multiple Target Tracking using a Phase-Mostly LCTV," Optical Engineering, Vol. 29, pp. 1114-1121, September 1990. 205. X. Yang, T. Lu and F.T.S. Yu, "Compact Optical Neural Network using Cascaded Liquid Crystal Television," Applied Optics, Vol. 29, pp. 5223-5225, December 1990. 206. F.T.S. Yu, S. Wu, S. Rajan, and D. A. Gregory, "Compact Joint Transform Correlator using a Thick Photorefractive Crystal," Applied Optics, Vol. 31, pp. 2416-2418, May 1992. 207. F.T.S. Yu, T. Lu and X. Yang, "Optical Implementation of Hetero-Association Neural Network with Inter-Pattern Association Model," International Journal of Optical Computing, Vol. 1, pp. 129-140, December 1990. 208. F.T.S. Yu, X. Yang and T. Lu, "Space-Time Sharing Optical Neural Network," Optics Letters, Vol. 16, pp. 247-249, February 1991. 209. M. M. Waybill, R. V. Velamary, Y. Zhang, R. G. Scaduto, Jr., K. F. LaNoue, C. J. Hsu, B. C. Smith, D. C. Tellotson, F. T. S. Yu and J. Y. Cheung, "Nuclear Calcium Gradients in Cultured Rat Hepatocytes Revealed by Optical Sectioning Microscopy: Effects of Vasopressin and Epidermal Growth Factor," The American Physiological Society, pp. E49-E57, May 1991. 210. F.T.S. Yu, S. Wu, A. Mayers, S. Rajan and D. A. Gregory, "Color Holographic Storage in LiNbO3," Optics Communications, Vol. 81, pp. 348-352, March 1991. 211. F.T.S. Yu, S. Wu, A. Mayers and S. Rajan, "Wavelength Multiplexed Reflection Matched Spatial Filters using LiNbO3," Optics Communications, Vol. 81, pp. 343-347, March 1991. 212. X. Yang, T. Lu, F.T.S. Yu and D. A. Gregory, "Redundant Interconnection Interpattern Association Neural Network," Applied Optics, Vol. 30, pp. 5182-5187, December 1991. 213. X. Yang and F.T.S. Yu, "Optical Implementation of a Hemming Net," Applied Optics, Vol. 31, pp. 3999-4003, July 1992. 214. F.T.S. Yu, Y. Li, X. Yang, T. Lu and D. A. Gregory, "Application of Moment Invariant Pattern Recognition to Optical Neural Net," Optik, Vol. 89, pp. 55-58, December 1991. 215. R. V. Yelamarty, R. L. Moore, F.T.S. Yu, M. Elensky, A. M. Somanchick and J. Y. Cheung, "Sarcomere Relaxation Abnormalities in Single Cardiac Myocytes from Renovascular Hypertensive Rats," American Journal of Physiology Society, pp. C980-C990, 1992. 216. F.T.S. Yu, X. Yang and D. A. Gregory, "Polychromatic Neural Network," Optics Communications, Vol. 88, pp. 81-86, March 1992. 217.S. Wu, S. Yin and F.T.S. Yu, "Sensing with Fiber Speckle Holograms," Applied Optics, Vol. 30, pp. 4468-4470, November 1991. 218. F.T.S. Yu, X. Yin and D. A. Gregory, "Mirror-array Optical Interconnected Neural Network," Optics Letters, Vol. 16, pp. 1602-1604, October 1991. 219. S. Wu, S. Yin, S. Rajan and F.T.S. Yu, "Multiple Channel Sensing with Fiber Specklegram," Applied Optics, Vol. 31, pp. 5975-5983, October 1992. 220. F.T.S. Yu, S. Wu, X. Y. Yang, S. Jutamulia and G. M. Storti, "Optical Neural Network using Novel Electron Trapping Matierals," Optical Memory and Neural Networks, Vol. 1, pp. 49-54, July 1992. 221. F.T.S. Yu, S. Wu, S. Rajan, A. Mayers and D. A. Gregory, "Optical Novelty Filtering using Phase Carrier Frequency," Optics Communications, Vol. 92, pp. 205-208, September 1992. 222. A. Tanone, C. M. Uang, F.T.S. Yu, E. C. Tam and D. A. Gregory, "Effects of Thresholding in Joint Transform Correlation," Applied Optics, Vol. 31, pp. 4816-4822, August 1992. 223. D. A. Gregory, J. C. Kirsch, A. Tanone, S. Yin, P. Andres, F.T.S. Yu and E. C. Tam, "Analysis of Phase Modulation in an LCTV Based Joint Transform Correlator," Microwave and Optical Technology Letters, Vol. 6, pp. 211-214, March 1993. 224. K. Matsushita, Y. Kajiki, E. Shimizu and F.T.S. Yu, "Optical Symbolic Substitution using Lenslet Arrays," Optical Engineering, Vol. 32, pp. 847-851, April 1993. 225. F. Cheng, P. Andres, F.T.S. Yu and D. A. Gregory, "Intensity Compensation Filter for Joint Transform Correlation Peak Enhancement," Applied Optics, Vol. 32, pp. 4357-4364, August 1993. 226. A. Tanone, Z. Zhang, C. M. Uang, F.T.S. Yu and D. A. Gregory, "Phase Modulation Depth for Real-Time Kinoform Using Liquid Crystal Television," Optical Engineering, Vol. 32, pp. 517-521, March 1993. 227. L. Cheng, S. Yin and F.T.S. Yu, "Application of Core-Ring-Intensity-Ratio to Fiber Specklegram Sensing," Optics Communications, Vol. 97, pp. 327-332, April 1993. 228. S. Yin, F.T.S. Yu and S. Wu, "Optical Monitoring for Plasma Etching Depth Process," IEEE Photonics Technology Letters, Vol. 4, pp. 1041-1135, August 1992. 229. S. Yin and F.T.S. Yu, "Specially Doped LiNbO3 Crystal Holography using a Low-Power Laser Diode," IEEE Photonics Technology Letters, Vol. 5, pp. 581-582, May 1993. 230. F.T.S. Yu, M. Wen, S. Yin and C. M. Uang, "Submicron Displacement Sensing using Inner-Product Multimode Fiber Speckle Fields," Applied Optics, Vol. 32, pp. 4685-4689, September 1993. 231. A. Tanone, Z. Zhang, C. M. Uang, F.T.S. Yu and D. A. Gregory, "An Optical Beam Steering Device using a Liquid Crystal Television Panel," Microwave and Optical Technology Letters, Vol. 7, pp. 285-289, April 1994. 232. F.T.S. Yu, C. M. Uang and S. Yin, "Gray Level Discrete Associative Memory (GLDAM)," Applied Optics, Vol. 32, pp. 1322-1329, March 1993. 233. F.T.S. Yu and S. Yin, "Applications of Photorefractive Crystals to Signal Processing," (Invited) International Journal of Optical Computing, Vol. 2, pp. 143-163, September 1993. 234. H. Zhou, F. Zhao and F.T.S. Yu, "Improved Interclass Multiobject Discrimination with Phase-Difference Prewhitening Technique," Optical Engineering, Vol. 32, pp. 2720-2725, November 1993. 235. F.T.S. Yu, K. Pan and C. M. Uang, "Fiber Specklegram Sensing using an Adaptive Joint Transform Correlator," Optical Engineering, Vol. 32, pp. 2884-2889, November 1993. 236. M. Wen, S. Yin, P. Purwosumarto and F.T.S. Yu, "Wavelet Matched Filtering using a Photorefractive Crystal," Optics Communications, Vol. 99, pp. 325-330, June 1993. 237. F.T.S. Yu, S. Yin and P. Ruffin, "Application of Hadamard Transform to Fiber-Optic Smart-Skin Sensing," Microwave and Optical Technology Letters, Vol. 6, pp. 632-634, September 1993. 238. G. W. Lu, Z. Zhang, A. Tanone and F.T.S. Yu, "A Pendulum Iterative Algorithm (PIA) for Phase Retrieval From Modulus Data," Optical Engineering, Vol. 33, pp. 548-555, February 1994. 239. F. Cheng, F.T.S. Yu and D. A. Gregory, "Multi-Target Detection Using Spatial Synthesis Joint Transform Correlation," Applied Optics, Vol. 32, pp. 6521-6526, November 1993. 240. F.T.S. Yu, A. Tanone and S. Jutamulia, "Holographic Optical Disk Correlator," Optics Communications, Vol. 99, pp. 320-324, June 1993. 241. C. M. Uang, F.T.S. Yu, K. T. Kim and X. Yang, "Implementation of Polychromatic Hamming Net for Color Image Classification," Applied Optics, Vol. 33, pp. 5443-5447, August 1994. 242. F. Cheng, P. Andres and F.T.S. Yu, "Removal of Intra-Class Associations in Joint Transform Power Spectrum," Optics Communications, Vol. 99, pp. 7-12, May 1993. 243. F.T.S. Yu, S. Yin, and A. S. Bhalla, "Wavelength Multiplexing Fiber Holographic Construction Using a Specially Doped Ce:Fe:LiNbO3 PR Crystal Fiber With a Tunable Visible-Light Laser Diode," IEEE Photonics Technology Letters, Vol. 5, pp. 1230-1233, October 1993. 244. F.T.S. Yu and F. Cheng, "Multi-Reference Detection Using Conginuously Iterative Joint Transform Operation," Microwave and Optical Technology Letters, Vol. 7, pp. 613-658, October 1994. 245. S. Yin, H. Zhou, F. Zhao, M. Wen, Z. Yang, J. Zhang and F.T.S. Yu, "Wavelength Multiplexed Holographic Storage in a Sensitive Photorefractive Crystal Using a Visible-Light Turnable Diode Laser," Optics Communications, Vol. 101, pp. 317-321, September 1993. 246. F.T.S. Yu, Z. Yang and K. Pan, "Polychromatic Target Identification Using a Color LCTV Based Joint-Transform Correlator," Applied Optics, Vol. 33, pp. 2170-2172, April 1994. 247. C. M. Uang, S. Yin, P. Andres, W. Reeser and F.T.S. Yu, "A Shift-Invariant Inter-Pattern Association (IPA) Neural Network," Applied Optics, Vol. 33, pp. 2147-2151, April 1994. 248. F.T.S. Yu, S. Yin and C. M. Uang, "A Content-Addressable Polychromatic Neural Net Using a Specially Doped LiNbO3 Photorefractive Crystal," Optics Communications, Vol. 107, pp. 300-308, April 1994. 249. K. Pan, C. M. Uang, F. Cheng and F.T.S. Yu, "Multimode Fiber Sensing Using Mean-Absolute Speckle-Intensity Variation," Applied Optics, Vol. 33, pp. 2095-2098, April 1994. 250. C. M. Uang, S. Yin, G. Lu, and F.T.S. Yu, "Shift and Rotation Invariant Interpattern Heteroassociation (IHA) Model," Optics Communications, Vol. 104, pp. 285-292, January 1994. 251. F. Zhao, H. Zhou, S. Yin and F.T.S. Yu, "Wavelength-Multiplexed Holographic Storage by Using the Minimum Wavelength Channel Separation in a Photorefractive Crystal Fiber," Optics Communications, Vol. 103, pp. 59-62, November 1993. 252. F.T.S. Yu, F. Zhao, H. Zhou and S. Yin, "Cross-Talk Noise in a Wavelength-Multiplexed Reflection-Type Photorefractive (PR) Fiber Hologram," Optics Letters, Vol. 18, pp. 1849-1851, November 1993. 253. M. Wen, S. Yin and F.T.S. Yu, "Tunable Interconnection Network Using a Thick Photorefractive (PR) Crystal," Microwave and Optical Technology Letters, Vol 7, pp. 858-860, December 1994. 254. F.T.S. Yu, C. Uang, X. Yang and K. Matsushita, "A Polychromatic Neural Net Using Color LCTV Panels," Optical Memory and Neural Networks, Vol. 2, pp. 59-68, November 1993. 255. H. Zhou, F. Zhao and F.T.S. Yu, "Effects of Recording-Errasure Dynamics on Storage Capacity of a Wavelength-Multiplexed Reflection-Type Photorefractive Hologram," Applied Optics, Vol. 33, pp. 4339-4344, July 1994. 256. C. Uang, G. Lu and F.T.S. Yu, "Unipolar Interpattern Association (IPA) Neural Networks," Optics Letters, Vol. 19, pp. 52-54, January 1994. 257. F.T.S. Yu and S. Yin, "Holographic Storage and Interconnection using a (Ce:Fe: Doped LiNbO3) Photorefractive Crystal Fiber with a Tunable Visible-Light Diode Laser," Optical Memory and Neural Networks, Vol. 1, pp. 289-301, September 1993. 258. F.T.S. Yu, J. Zhang, K. Pan, D. Zhao and P. B. Ruffin, "Fiber Vibration Sensor using Speckle Contrast-Ratio," Optical Engineering, Vol. 34, pp. 236-239, January 1995. 259. H. Zhou, F. Zhao and F.T.S. Yu, "Diffraction Properties of a Reflection-Type Photorefractive Hologram," Applied Optics, Vol. 33, pp. 4345-4352, July 1994. 260. D. Zhao, H. Zhou, F. Zhao and F.T.S. Yu, "Anistropic Intrasignal Coupling in Photorefractive LiNbO3," Microwave and Optical Technology Letters, Vol. 7, pp. 483-486, August 1994. 261. F.T.S. Yu, S. Yin, J. Zhang and R. Guo, "Application of Fiber Speckle Hologram to Fiber Sensing," Applied Optics, Vol. 33, pp. 5202-5201, August 1994. 262. F.T.S. Yu, J. Zhang, S. Yin, and P. B. Ruffin, "Analysis of Fiber Specklegram Sensor (FSS) Using Mode-Coupling Theory," Applied Optics, Vol. 34, pp. 3018-3023, June 1995. 263. F.T.S. Yu and G. Lu, "Short-Time Fourier Transform (STFT) and Wavelet Transform (WT) Using Fourier Domain Processing," Applied Optics, Vol. 33, pp. 5262-5270, August 1994. 264. F.T.S. Yu, K. Pan, D. Zhao and P. B. Ruffin, "Dynamic Fiber Specklegram Sensing," Applied Optics, Vol. 34, pp. 622-626, February 1995. 265. F.T.S. Yu, S. Yin and Z. H. Yang, "Thick Volume Photorefractive (PR) Crystal Wavelength-Multiplexed Reflection-Type Matched Filter," Optical Memory and Neural Networks, Vol. 3, pp. 207-215, May 1994. 266. F. Zhao, H. Zhou, Z. Wu, F.T.S. Yu and D. K. McMillen, "Temperature Dependence of Light-Induced Scattering in a Ce:FeLiNbO3 Photorefractive Crystal," Optical Engineering, Vol. 37, pp. 1985-1992, July 1996. 267. F. Zhao, H. Zhou, Z. Wu, F.T.S. Yu and D. K. McMillen, "Temperature Dependency of Steady State Bragg Diffraction in a Ce:Fe:LiNbO3 Photorefractive Crystal," Optical Engineering, Vol. 34, pp. 2243-2247, August 1995. 268. H. Zhou, F. Zhao, Z. Wu, F.T.S. Yu, "Angular-Dependent Diffraction Efficiency in a Thick Photorefractive Hologram," Applied Optics, Vol. 34, pp. 1303-1309, March 1995. 269. G. Lu, M. Lu and F.T.S. Yu, "A Multi-Layer Hopfield-Type Associative Memory and Its Optical Implementation," Applied Optics, Vol. 34, pp. 5109-5117, August 1995. 270. K. Pan and F.T.S. Yu, "Temperature-Compensated Fiber Specklegram Strain Sensing using an Adaptive JTC," Applied Optics, Vol. 34, pp. 3823-3825 July 1995. 271. F. Zhao, B. Yuan, H. Zhou, Z. Wu and F.T.S. Yu, "Photorefractive Enhancement Near 57?C, 70?C, and 110?C in Cerium-Fron-Doped Single Crystal Lithium Niobate," submitted to Optical Engineering. 272. Z. Zhang, G. Lu and F.T.S. Yu, "Simple Method for Measuring Phase Modulation in Liquid Crystal Televisions," Optical Engineering, Vol. 33, pp. 3018-3022, September 1994. 273. S. Jutamulia and F.T.S. Yu, "Fundamentals of Hybrid Optical Neural Networks," (invited) Optics and Laser Technology, Vol. 28, pp. 59-72, February 1996. 274. S. Yin, G. Lu, J. Zhang, F.T.S. Yu and J. N. Mait, "A Kinoform Based Nipkow Disk for Confocal Microscope," Applied Optics, Vol. 34, pp. 5695-5698, September 1995. 275. F.T.S. Yu, G. Lu, M. Lu and D. Zhao, "Application to Position Encoding to a Complex Joint Transform Correlator," Applied Optics, Vol. 34, pp. 1386-1388, March 1995. 276. G. Lu, Z. Zhang and F.T.S. Yu, "Phase Encoded Input Joint Transform Correlator with Improved Pattern Discriminability," Optics Letters, Vol. 20, pp. 1307-1309, June 1995. 277. F. Zhao, Z. Wu, F.T.S. Yu and D. K. McMillen, "Characterization of LiNbO3 Materials: Singly-and-Doubly-Doped with Ce and Fe," Optical Memory and Neural Networks, Vol. 4, pp. 77-86, September 1995. 278. D. McMillen, T. D. Hudson, F.T.S. Yu, J. Zhang, S. Yin and Z. Wu, "Anomalies of Photovoltaic Current in Ce: Fe: Doped LiNbO3 Crystal at 55?C and 75?C temperature," Optical Engineering, Vol. 34, pp. 2240-2242, August 1995. 279. S. Yin, M. Lu, C. Chen, F.T.S. Yu, T. D. Hudson and D. K. McMillen, "Design of a Bipolar Composite Filter Using a Simulated Annealing Algorithm," Optics Letters, Vol. 20, pp. 1409-1411, June 1995. 280. M. Lu, S. Yin, C. Chen, F.T.S. Yu, T. D. Hudson and D. K. McMillen," Optimum Synthesis of a Bipolar Reference Composite Filter with Simulated Annealing Algorithm," Optical Engineering, Vol. 35, pp. 2710-2720, September 1996. 281. F.T.S. Yu and S. Yin, "Bragg Diffraction Limited Photorefractive (PR) Based Correlators," (invited), Optical Engineering, Vol. 34, pp. 2224-2231, August 1995. 282. F.T.S. Yu, M. Lu, G. Lu, S. Yin, T.D. Hudson and D. McMillen, "Optimum Target Detection Using a Spatial Domain Bipolar Composite Filter in a Joint Transform Correlator," Optical Engineering, Vol. 34, pp. 3200-3207, November 1995. 283. F.T.S. Yu and S. Yin, "Photorefractive Fiber Holograms," (invited) Asian Journal of Physics, Vol. 4, pp. 67-85, January-April 1995. 284. F.T.S. Yu and D. A. Gregory, "Optical Pattern Recognition: Architectures and Techniques," (invited) IEEE Proceedings, Vol. 84, pp. 733-754, May 1996. 285. H. Zhou, F. Zhao and F.T.S. Yu, "Diffraction Properties of a Reflection Photorefractive Hologram: Author's Reply to Comments," Applied Optics, Vol. 34, pp. 2593-9594, May 1995. 286. G. Lu and F.T.S. Yu, "The Performance of a Phase Transformed Input Joint Transform Correlator (PJTC), Applied Optics, Vol. 35, pp. 304-313, January 1996. 287. M. Lu, S. Yin and F.T.S. Yu, "Fiber Specklegram Sensing with a Phase-Conjugate Mirror," Optical Memory and Neural Networks, Vol. 5, pp. 43-46, January 1996. 288. J. L. McClain, Jr., P.S. Erbach, D. A. Gregory and F.T.S. Yu, "Spatial Light Modulator Phase Depth Determination From Optical Diffraction Information," Optical Engineering, Vol. 35, pp. 951-954, April 1996. 289. S. Yin, B. D. Guenther and F.T.S. Yu, "A Tunable Narrow-Band Filter using a Photorefractive Fiber," Optical Memory and Neural Networks, Vol. 5, pp. 35-42, January 1996. 290. J. Zhang, F.T.S. Yu and D. McMillen, "Coupling Kinetics of Photorefractive Hologram," Applied Optics, Vol. 35, pp. 2355-2359, May 1996. 291. A. Serrano-Heredia, G. Lu, P. Purwosumarto and F.T.S. Yu, "Measurement of the Phase Modulation in Liquid Crystal Television Based on the Talbot Effect," Optical Engineering, Vol. 35, pp. 2680-2684, September 1996. 292. F.T.S. Yu, P. Purwosumarto and S. Jutamulia, "Talbot Imaging using Incoherent Light," Optics and Laser Technology, Vol. 28, pp. 521-523, October 1996. 293. G. Lu, Z. Zhang, S. Wu and F.T.S. Yu, "Implementation of Non-zero-order Joint Transform Correlator using Phase-Shifting Technique," Applied Optics (in press). 294. C. Li, M. Lu, S. Yin, F.T.S. Yu, T.D. Hudson and D. K. McMillen, "Performance of Quantized Composite Filters in a JTC," Optical Engineering, Vol. 35, pp. 2218-2226, August 1996. 295. S. Jutamulia and F.T.S. Yu, "Novel Application of Multiplexed Holograms to Optical Fiber Communication," Optical Memory and Neural Networks, Vol. 5, pp. 75-77, June 1996. 296. G. Lu and F.T.S. Yu, "Pattern Classification using a Joint Transform Correlator Based Nearest Neighbor Classifier," Optical Engineering, Vol. 35, pp. 2162-2170, August 1996. 297. F.T.S. Yu, "Exploitation of Incoherent Source for Partially Coherent Processing," submitted to Optical Engineering. 298. A.V. Petrov, S. Yin and F.T.S. Yu, " Optimization of Bragg Grating Profile for Wavelength-Selectable Antenna Beamsteering," submitted to Optics Letters. 299. A.V. Petrov, S. Yin and F.T.S. Yu, "Optical Adaptive Beamforming with Switched Stepsize," submitted to Microwave and Optical Technological Letters. 300. P. Purwosumarto and F.T.S. Yu, “Robustness of Joint Transform Correlator Versus Vander Lugt Correlator,” Optical Engineering, Vol. 36, pp. 2275-2780, October 1997. 301. C.T. Li, S. Yin, and F.T.S. Yu, “A Nonzero-Order Joint Transform Correlator,” Optical Engineering, Vol. 37, pp. 58-65, January 1998. 302. F.T.S. Yu, “Manipulation of Temporal and Spatial Coherence Contents for Complex Amplitude,” Optical Memory and Neural Networks, Vol. 6, pp. 69-76, June 1997. 303. F.T.S. Yu, C.T. Li and S. Yin, “Comparison of Detection Efficiencies for Nonzero and Conventional Joint Transform Correlators,” Optical Engineering, Vol. 37, pp. 52-57, January 1998. 304. F.T.S. Yu, "Pattern Recognition with Optics," Optical Memory and Neural Networks, Vol. 6, pp. 239-247, December 1997. 305. F.T.S. Yu, C. Li and S. Yin, “Performance Capacity of a Simulated Annealing Bipolar Composite Filter (SABCF),” Optics Communications, Vol. 154, pp. 119-129, August 1998. 306. C. Li. S, Yin and F.T.S. Yu, “High-Light Correlation Efficiency Nonzero-order Joint Transform Correlator,” Optical Memory and Neural Networks, Vol. 7, pp. 149-154, November 1998. 307. F.T.S. Yu, S. Yin and C. Li, “Shift-Invariant Limited Photorefractive Based Correlators,” Optical Memory and Neural Networks, Vol. 7, pp. 127-134, November 1998. 308. S. Yin, O. Lenov, F.T.S. Yu, V.V. Molotok and V.V. Kludgin, “Design and Fabrication of a Novel 24 Channel Acousto-optic (AO) Spatial Light Modulator,” Applied Optics, Vol. 37, pp. 7482-7489, November 1998. 309. H. Liou, G. Lu, S. Yin, S. Wu and F.T.S. Yu, “Analysis of Speckle Induced Phase Measurement Error in Laser Based Phase-shifting Projected Fringe Profilometry,” Journal of Optical Society of America, Vol. 16, pp. 1484-1495, June 1999) 310. S. Yin, P. Purwosurmarto and F.T.S. Yu, “Application of Fiber Specklegram Sensor to Fine Angular Alignment,” Optics Communications, Vol. 170, pp. 15-21, October 1999. 311. F.T.S. Yu, S. Yin and C.T. Li, “Capacity Performance of a Nonzero-order JTC,” Optical Memory and Neural Networks, Vol. 9, pp. 101-107, April 2000. 312. F.T.S. Yu, “Entropy Information and Optics,” Optical Memory and Neural Networks, Vol. 9, pp 75-81, April 2000. 313. K.W. Chung, S. Yin, and F.T.S. Yu, “An All-Fiber Variable Optical Attenuator Using Linearly Chirped Long-Period Grating and Leaky Mode Coupling,” Optical Memory and Neural Networks, Vol. 10, pp. 67-71, May 2001. 314. S. Jutamulia and F.T.S. Yu, “Application of Spatial Light Modulator to Optical Cross Connect,” Optical Memory and Neural Networks, Vol. 10, pp. 99-104, May 2001. 315. F.T.S. Yu (Invited), “Optical Processing with Fiber Specklegram Sensing,” Asian Journal of Physics, Vol. 10, pp. 215-235, June 2001. 316. F.T.S. Yu, “Legacy of Optical Information Processing,” Optical Engineering, Vol. 41, pp. 139-144, January 2002. 317. F.T.S. Yu, “Optical Information Processing Awaits Optoelectronics Devices”, Laser Focus World, September 2002 318. W. Su, H. Liu, K. Reichard, S. Yin and F.T.S. Yu, “ Fabrication of Digital Sinusoidal Gratings and Precisely Controlled Diffusive Flats and Their Application to Highly Accurate Projected Fringe Profilometry” Optical Engineering, Vol. 42, June 2003. 319. B. Wang, R. Guo, S. Yin and F.T.S. Yu, “Hetero-Core Fiber Specklegram Sensors”, J. of Holography and Speckle, 2004. 320. Bo Wang, Ruyan Guo, Shizhuo Yin, and F. T.S. Yu, Chemical Sensing with Hetero-Core Fiber Specklegram, Journal of Holography and Speckle, 1 March 2004, vol. 1, pp. 53-57(5) 321. Yuexin Liu, Ruyan Guo and Francis T.S. Yu. “A Novel Voiceprint Identification Based on Speech Spectrogram Correlation,” Optical Memory & Neural Networks, Vol. 13, No. 3, pp. 121-128, 2004 322. Yuexin Liu, Ruyan Guo and Francis T.S. Yu. “Improved discrimination sensitivity in optical spectrogram through apodized window functions,” Journal of Holography and Speckle, Vol. 2, No. 1, pp. 5-10, April 2005 323. Yuexin Liu, Ruyan Guo, F.T.S. Yu, “Intelligent reduction of zero-order diffraction in Fourier optical systems,” Optical Engineering, Vol. 44, No. 10, 2005 324. Yuexin Liu, Youwei Fu, Hongbo Liu, Bo Wang, Ruyan Guo, F.T.S. Yu, “Phase-coded multiplexing holography using cylindrical lens with and without a random mask,” Accepted in July 2005, Optical Memory & Neural Networks 325. John Y. Fu, Ruyan Guo, and F. T. S. Yu "Observations of quantum confinement and excitonic optical Stark effect in a thin metallic film/dielectric structure", to be submitted to Physical Review Letters or Applied Physics Letters. 326. John Y. Fu, Ruyan Guo, and F. T. S. Yu "Observation of cooperative Jahn-Teller ffects in a quantum structure of thin metallic film/ lithium niobate substrate via its transient optical transmission", to be submitted to Physical Review Letters or Applied Physics Letters.
Conference Papers1. F.T.S. Yu, "Fourier Decomposition in Analysis of Nonlinear Holograms," Proceedings of Holography and the Computer Conference, Houston, Texas, Dec. 10-12, 1969.2. F.T.S. Yu, "Holographic Magnifications, Resolutions, and Bandwidth Requirements," Proceedings of the International Symposium on Engineering Applications on Laser, Tel Aviv, Israel, June 29-July 1, 1970. 3. F.T.S. Yu, "Method of Linear Optimization in the Wavefront Recording of Nonlinear Holograms," ICO Symposium on Application of Holography, Besancon, France, July 6-11, 1970. Applications De l'Holographie, Ed. by J.-ch. Vienot, J. Bulabois, and J. Pasteur. 4. F.T.S. Yu and J. P. Morrison, "A Theoretical and Experimental Technique of the Optimum Holographic Process," Proceedings of Seminar in Depth on Holography, sponsored by Society of Photo-Optical Instrumentation Engineers, Boston, Mass., April 14-15, 1971. Developments in Holography, SPIE, Vol. 21, pp. 87-92, Ed. by B. J. Thompson and J. B. DeVelis. 5. J. Bednar, D. Brumm, J. Cook, R. Dixon, J. Luh and F.T.S. Yu, Project Cyclops: "A Design Study of a System for Detecting Extraterrestrial Intelligent Life," Chapter 11, Signal Processing, pp. 123-152, 1971. 6. F.T.S. Yu, "A Near Real-Time Optical Sound-Spectrograph," International Conference on Speech Communication and Processing, Boston, Mass., IEEE and AFCRL Conference Record, pp. 408-411, April 24-26, 1972. 7. E. Y. Wang, V. Simms, W. H. Knight and F.T.S. Yu, "Theory and Applications of Anti-Reflecting Coating for Silicon Solar Cells," American Physical Society, San Diego, March 19-23, 1973. 8. F.T.S. Yu, "Subjective Speckle Reduction in Wavefront Reconstruction," Symposium, 100 Years of Abbe's Theory, International Commission of Optics in Conjunction with German Association for Applied Optics, Aalen, Wurttenberg, West Germany, June 12-16, 1973. 9. F.T.S. Yu, "Visible Speech by Coherent Optical Technique," Engineering Foundation Conference in Coherent Radiation Systems, New England College, Henniker, New Hampshire, July 1-6, 1973. 10. E. Y. Wang, F.T.S. Yu, V. L. Simms, H. W. Brandhurst, Jr.; and J. D. Brodes, "Optimum Design of Antireflection Coating for Silicon Solar Cells," IEEE Tenth Photovoltaic Specialist Conference, pp. 168-173, November 1973. 11. F.T.S. Yu, "Techniques of Real Holographic Image Contouring," ICO Conference on Optical Methods in Scientific and Industrial Measurements, Tokyo, Japan, August 25-30, 1974, pp. 162-163. 12. F.T.S. Yu, "Optical Generation of Speech Spectrogram," ICO Conference on Optical Information Processing, Sydney, Australia, August 19-21, 1974. 13. F.T.S. Yu, "Spatial Channel and Image Encoding," Proceeding of Fifth Iranian Conference on Electrical Engineering, Shiraz, Iran, Oct. 27-30, 1975, pp. 985-1001. 14. F.T.S. Yu et al., "Fatigue Detection by Optical Correlation," presented to the Metallurgical Society of AIME, February 22-26, 1976, Las Vegas, Nevada. 15. J. C. Lin, F.T.S. Yu and A. Tai, "Coherent Optical Analysis of Ultrasonic Blood Flow Spectrum," 29th Annual Conference on Engineering in Medicine and Biology, Boston, Mass., November 6-10, 1976 Proceedings, p. 137 (1976). 16. F.T.S. Yu, "Optical Spatial Channel and Image Encoding Principles," Symposium on Optical Electro-Optical, Laser and Photographic Technology, San Diego, California, August 23-27, 1976. Proceedings of the Society of Photo-Optical Instrumentation Engineers, Vol. 83, pp. 112-118, 1976. 17. J. C. Lin, F.T.S. Yu and A. Tai, "Coherent Optical Analysis of Ultrasonic Blood Flow Spectrum," Proc. 29th ACEMB, p. 137, November 1976. 18. A. M. Tai, J. C. Lin, F.T.S. Yu and S. Karadsheh, "Spectral Studies of Heart Sound by Coherent Optical Techniques," Proceedings of San Diego Biomedical Symposium, Vol. 16, pp. 17-23, Academic Press, NY, 1977. 19. F.T.S. Yu, "One-Step Rainbow Holography and Holographic Interferometry," Proceedings on the Conference on Holography, p. 406, August 26-29, 1978, Ulyanovsk, U.S.S.R. 20. F.T.S. Yu and A. Tai, "Techniques of Incoherent Optical Information Processing," Proceedings of ICO-11, Optica Hoy Y Manana, pp. 319-322, Sept. 10-17, 1978, Madrid, Spain. 21. F.T.S. Yu, "Technique of Incoherent Optical Processing," Journal of the Optical Society of America, Vol. 68, p. 1414 A, 1978. 22. A. Tai, F.T.S. Yu and H. Chen, "White-Light Pseudocolor Encoding," Journal of the Optical Society of America, Vol. 68, p. 1415 A, 1978. 23. F.T.S. Yu et al., "Spatial Filtered Pseudocolor Holographic Imaging," Journal of the Optical Society of America, Vol. 68, p. 1415 A, 1978. 24. H. Chen, F.T.S. Yu and A. Tai, "One-Step Rainbow Holography and Color Imaging," Journal of the Optical Society of America, Vol. 68, p. 1433, A, 1978. 25. A. Tai, F.T.S. Yu and H. Chen, "Multiwavelength Multislit Rainbow Holographic Interferometry," Journal of the Optical Society of America, Vol. 68, p. 1443 A, 1978. 26. F.T.S. Yu, A. Tai and H. Chen, "One-Step Rainbow Holographic Interferometry," SPIE Proceedings on Interferometry, Vol. 192, pp. 178-183, August 1979. 27. H. Hsuan, F.T.S. Yu and A. Tai, "One-Step Rainbow Holography: Old and New," SPIE Proceedings on Advances in Holography, February 1980. 28. F.T.S. Yu, "A Technique of White-Light Optical Processing with Diffraction Grating Method," SPIE Proceedings on Optical Computing, April 1980, Washington, DC, Vol. 232, edited by W.T. Rhodes, pp. 9-14. 29. F.T.S. Yu, "Partially Coherent Optical Processing of Images," SPIE Proceedings on Processing Images and Date from Optical Sensors, Vol. 292, pp. 2-8, August 1981. 30. F.T.S. Yu and J. L. Horner, "Review of Optical Processing of Images," SPIE Proceedings on Processing Images and Data from Optical Sensors, Vol. 292, pp. 9-25, August 1981. 31. F.T.S. Yu, N. G. Wang and S. L. Zhuang, "IC Circuit Board Inspection with Incoherent Optical Processing," SPIE Proceedings on "Sensor Robot Technology," SPIE, Vol. 360, pp. 310-316, August 1982. 32. F.T.S. Yu, P. H. Ruterbusch and G. Gerhart, "White-Light Optical Processing Speckle Interferograms," SPIE Proceedings on Industrial and Commercial Applications of Holography, SPIE, Vol. 353, pp. 90-95, August 1982. 33. F.T.S. Yu and T. H. Chao, "Polychromatic Signal Detection by Complex Spatial Filtering," SPIE Proceedings on Advances in Optical Information Processing, Vol. 388, pp. 23-29, January 1983. 34. F.T.S. Yu and G. Gerhart, "White-Light Transmission Color Holographic Imaging Optical Information Processing," SPIE Proceedings on Optics and Entertainment, Vol. 391, pp. 37-45, January 1983. 35. F.T.S. Yu, "Source Encoding, Signal Sampling and Filtering for White-Light Signal Processing," Proceedings of 10th International Optical Computing Conference, pp. 111-116, April 6-8, 1983. 36. F.T.S. Yu, "Recent Advances in White-Light Optical Signal Processing," Conference on Laser and Electro-Optics, Cleo '83 Technical Digest, pp. 28-30, May 1983. 37. F.T.S. Yu, "Advances in White-Light Optical Signal Processing," Proceedings on Optical Information Processing Conference II, NASA CP-2303 Conference Publication, pp. 53-69, August 1983. 38. J. E. Ludman, B. Javidi, F.T.S. Yu, H. J. Caulfield and C. Warde, "Real-Time Colored-Pattern Recognition," SPIE Proceedings of Spatial Light Modulators and Applications, Vol. 465, pp. 143-149, January 1984. 39. F.T.S. Yu, "Recent Advances in White-Light Image Processing," ICO-13 Conference Digest on Optics in Modern Science and Technology, pp. 412-413, August 1984. 40. F.T.S. Yu and X. X. Chen, "A Low-Cost White-Light Pseudocolor Encoder for Astronomical Imaging Applications," International Conference on Progress in Optical Physics, Melbourne, Australia, August 15-17, 1984. 41. F.T.S. Yu, "A Low-Cost High-Quality Pseudocolor Encoder for Scientific Imaging," Proceedings of International Congress on Technology and Technology Exchange, ICTTE, pp. 14-15, October 1984. 42. F.T.S. Yu, L. J. Lu and M. F. Cao, "White-Light Optical Signal Processing with a Programmable Magneto-Optic Device," SPIE Proceedings on Analog Optical Processing and Computing, Vol. 519, pp. 114-120, October 1984. 43. F.T.S. Yu and F. K. Hsu, "Generation of Broad Band Fourier Holograms," SPIE Proceedings on Application of Holography, Vol. 523, pp. 319-323, January 1985. 44. F.T.S. Yu, B. Javidi, P. D. Gianino and J. L. Horner, "Analysis of a Phase-Only White-Light Optical Correlator," ICO-13 Conference on Optics in Modern Science and Technology, Conference Digest (Post Deadline Papers) p. 12, Sapporo, Japan, August 20-24, 1984. 45. F.T.S. Yu and X. X. Chen, "A Low-Cost High Quality White-Light Pseudocolor Encoder for Scientific Imaging," ACTA Polytechnica Scandinavica, Applied Physics Series No. 149, Proceedings of Image Science '85, Vol. 1, pp. 119-122, June 1985. 46. F.T.S. Yu, X. J. Lu and J. E. Ludman, "A Real-Time Joint Transform Correlator Utilizing a Programmable Magneto-Optic Spatial Light Modulator with a Liquid Crystal Light Valve," ACTA Polytechnica Scandinavica, Applied Physics Series No. 149, Proceedings of Image Science '85, Vol. 1, pp. 158-161, June 1985. 47. F.T.S. Yu, L. N. Zheng and T. W. Lin, "Concept of Holographic Tomography as Applied to Three-Dimensional Object Fields," ACTA Polytechnica Scandinavica, Applied Physics Series No. 149, Proceedings of Image Science '85, Vol. 2, pp. 276-279, June 1985. 48. F.T.S. Yu, "Garden of White-Light Optical Signal Processing," Proceedings of the International Conference on Lasers '85, pp. 77-85, Ed. C. P. Wang, STS Press, December 1985 (invited). 49. F.T.S. Yu, M. F. Cao and J. E. Ludman, "Microcomputer-Based Real-Time Optical Signal Processing System," SPIE Proceedings on Optical Computing, Vol. 625, pp. 44-52, January l987. 50. B. M. Palmer, K. K. Shung and F.T.S. Yu, "Pseudocolor Encoding of Medical Images with White-Light," IEEE Proceedings of 12th Annual Northeast Bioengineering Conference, pp. 83-86, March 1986. 51. F.T.S. Yu, M. F. Cao and Q. H. Zhou "An Automatic Real-Time Optical Pattern Recognition Processing System," SPIE Proceedings on Hybrid Image Processing, Vol. 638, pp. 16-21, April 1986. 52. F.T.S. Yu and S. Jutamulia, "Application of White-Light Processing to Interferometric Studies," SPIE Proceedings on Optical Testing and Metrology, Vol. 661, pp. 9-15, June 1986, (invited). 53. F.T.S. Yu, "White-Light Optical Processing," in Advanced Institute Series on Hybrid and Optical Computers, Edited by H. Szu, SPIE, Vol. 634, pp. 80-85, March 1986. 54. F.T.S. Yu, "White-Light Color Holography and Its Applications," Proceedings of the International Conference on Holographic Applications, Beijing, China, July 2-4, l986 (invited). 55. F.T.S. Yu, "A Microcomputer Controllable Optical Pseudocolor Encoder for Medical Imaging," Proceedings of Image Detection and Quality, Paris, France, pp. l43-l46, July l986. 56. F.T.S. Yu, M. F. Cao and J. E. Ludman, "Digital-Optical Matrix Multiplication with Magneto-Optic Spatial Light Modulators, "Proceedings of Image Detection and Quality, Paris, France, pp. 367-370, July l986. 57. F.T.S. Yu, M. F. Cao and T. W. Lu, "A Hybrid Optical System for Linear Transformation Processing," SPIE Proceedings on Real-Time Signal Processing, Vol. 698, pp. 276-280, August 1986. 58. F.T.S. Yu, X. J. Lu, Y. Suzuki and M. Wu, "Color Optical Processing using a Microchannel Spatial Light Modulator Under White-Light," SPIE Proceeding on Optical and Digital Pattern Recognition, Vol. 754, January 1987. 59. B. Javidi and F.T.S. Yu, "Analysis of Noisy Phase-Only Matched Filter Under Partially Coherent Illumination," SPIE Proceeding on Optical and Digital Pattern Recognition, Vol. 754, January 1987. 60. F.T.S. Yu, T. Nagata and B. Javidi, "Optical Architecture of Acousto-Optic Cell Real-Time Correlation," SPIE Proceeding on Acousto-Optic, Electro-Optic, and Magneto-Optic Devices and Applications, Vol. 753, January 1987. 61. D. A. Gregory, F.T.S. Yu, S. Jutamulia and T. W. Lin, "Optical Correlator Architectures Using a Liquid Crystal TV as a Spatial Light Modulator," CLEO '87, Technical Digest, Vol. l4, pp. l74-l76, May l987. 62. F.T.S. Yu, "Coherent and Incoherent Optical Processing Architectures," Southcon '87, Atlanta, Session l7, pp. l-8, March 1987 (invited). 63. P. D. Gianino, C. C. Woods and F.T.S. Yu, "White-Light Correlator Character Recognition," SPIE Proceeding on Optical and Digital Pattern Recognition, Vol. 754, January 1987. 64. F.T.S. Yu, S. Jutamulia and D. A. Gregory, "Application of Inexpensive Liquid Crystal TV," to Optical Parallel Logic SPIE Proceedings on Spatial Light Modulators and Applications II, Vol. 825, August 1987. 65. F.T.S. Yu, S. Jutamulia, T. Lu, J. S. Qin, Q. Song, X. J. Lu and D. A. Gregory, "Implementations of Optical Parallel Logic using Magneto-Optic Spatial Light Modulators," Proceedings of 14th Congress of the ICO on Optics and Information Age, pp. 25-26, August 1987. 66. F.T.S. Yu, S. Jutamulia, T. W. Lin, R. Yelamarty and D. A. Gregory, "Adaptive Real-Time Pattern Recognition using Liquid Crystal Televisions," Proceedings of 14th Congress of the ICO on Optics and Information Age, pp. 231-232, August 1987. 67. F.T.S. Yu, "Hybrid Optical Computing, Architecture and Design," Proceedings of 14th Congress of the ICO on Optics and Information Age, pp. 243-244, August 1987. 68. F.T.S. Yu, C. Zhang, Y. Jin and S. Jutamulia, "Application of Holographic Associative Memory to a Hybrid Binary Adder," SPIE Proceeding on Holographic Optics: Design and Application, Vol. 883, pp. 254-259, January l988. 69. F.T.S. Yu and T. W. Lu, "Digital Optical Multiple Matrix Multiplication Based on Inner-Product and Systolic-Inner-Product Architectures, Proceedings of SPIE on Hybrid Image and Signal Processing, Vol. 933, pp. l2-l8, April l988. 70. F.T.S. Yu and T. Nagata, "Acousto-Optic Joint Transform Correlator as Applied to Spread Spectrum Communications," Proceedings of SPIE on Advances in Optical Information Processing III, Vol. 936, pp. l9l-l97, April l988. 71. F.T.S. Yu, Q. W. Song, Y. Suzuki and M. Wu, "Real-Time Programmable Joint Transform Correlator with a Threshold Hard-Clipping Microchannel Spatial Light Modulator," Proceedings of OSA on Spatial Light Modulators and Applications, Technical Digest Series, Vol. 8, pp. FBl-FB229, June l988. 72. F.T.S. Yu, Q. W. Song, Y. Suzuki and M. Wu, "Application of MSLM to Real-Time Joint Transform Correlator," Proceeding of Optical Computing '88, Toulon, France, pp. 42-43, August 29 - September 2, l988. 73. F.T.S. Yu, T. Lu and P. D. Gianino, "A Digital Optical Processor for Optical Computing," Proceeding of Optical Computing '88, Toulon, France, pp. 2l9-220, August 29 - September 2, l988. 74. F.T.S. Yu, X. Li, E. Tam, S. Jutamulia and D. A. Gregory, "Rotational Invariant Pattern Recognition with a Programmable Joint Transform Correlator," Proceeding of l988 Conference on Pattern Recognition for Advance Missile Systems, November l4-l5, l988. 75. T. Lu, S. Wu, X. Xu and F.T.S. Yu, "Optical Implementation of Programmable Neural Network," Proceeding of SPIE on Optical Pattern Recognition, Vol. l053, January l989. 76. F.T.S. Yu, E. Tam, X. Li, and D. A. Gregory, "Detection of Rotational and Scale Varying Objects with a Programmable Joint Transform Correlator," Proceeding of SPIE on Optical Pattern Recognition, Vol. l053, January l989. 77. F.T.S. Yu, T. Lu and P. D. Gianino, "A Digital Optical Processor for Optical Computing," SPIE Proceeding on Optical Computing '88, Vol. 963, pp. 446-454, August l988. 78. F.T.S. Yu, Q. W. Song, Y. Suzuki and M. Wu, "Application of a Microchannel Spatial Light Modulator to Real-Time Joint Transform Correlation," SPIE Proceeding on Optical Computing '88, Vol. 963, pp. 322-362, August l988. 79. E. C. Tam, F.T.S. Yu and D. A. Gregory, "Target Tracking with an Adaptive Joint Transform Correlator," Proceedings on SPIE Conference on Aerospace Pattern Recognition, Vol. l098, March l989. 80. T. W. Lu, X. Xu, S. Wu and F.T.S. Yu, "A Neural Network Model using Inter-Pattern Association (IPA)," Proceeding of the International Joint Conference on Neural Networks, Vol. I, p. 596, June l8-22, l989. 81. F. Cheng, X. Xu, S. Wu and F.T.S. Yu and D. A. Gregory, "Restoration of Linear-Motion-Blurred Images using a Joint Transform Processor," Proceeding of the SPIE Conference on Optical Information Processing, Aug. 9-l0, l989. 82. X. Y. Li, F.T.S. Yu and D. A. Gregory, "Optical Implementation of the Kittler Transform for Image Classification," Proceeding of the SPIE Conference on Optical Information Processing, Aug. 9-l0, l989. 83. K. Choi, T. Lu, W. S. Adams and F.T.S. Yu, "Hybrid Neurocomputer Using Optical Dish," International Conference in Neuro Network in Washington, D. C., January 1990. 84. T. Lu, X. Xu, S. Wu and F.T.S. Yu, "Hetero Association Neural Network for Pattern Recognition," Proceedings of 1989 IEEE International Conference on Systems, Man, and Cybernetics, November 14-17, 1989. 85. F.T.S. Yu, T. W. Lu, X. Y. Yang, and D. A. Gregory, "Compact Size Neural Network using Liquid Crystal Televisions," Proceeding of the SPIE Conference on Optical Computing, Vol. 1215, January 1990. 86. F.T.S. Yu, E. C. Tam, D. A. Gregory, and R. Juday, "Multi-target Tracking with a Hybrid Joint Transform Correlator," Proceeding of the SPIE Conference on Real-Time Image Processing II, Vol. 1295, pp. 128-137, April 1990. 87. T. Lu, F.T.S. Yu, and D. A. Gregory, "Optical Neural Network for Unsupervised Learning," Proceeding of the SPIE Conference on Advances in Optical Information Processing IV, Vol. 1296, April 1990. 88. Y. Li and F.T.S. Yu, "Applications of Moment Invariants to Neural Computing for Pattern Recognition," Proceeding of the SPIE Conference on Hybrid Image and Signal Processing II, Vol. 1297, April 1990. 89. F.T.S. Yu, "Optical Neural Network, Architecture, Design, and Models," Proceedings of the 2nd All-Union Conference on Optical Information Processing, Frunze, Kirghizia, USSR, May 24-26, 1990. 90. J. C. Kirsch, D. A. Gregory, J. A. Loudin, E. C. Tam and F.T.S. Yu, "Light Efficient Joint Transform Optical Correlator," Proceedings of the SPIE Conference on Optical Information Processing Systems and Architectures II, San Diego, CA, July 8-13, 1990. 91. F.T.S. Yu, T. Lu and D. A. Gregory, "Compact Optical Neural Network using Liquid Crystal Television," Proceeding of the ICO-15th Conference on Optics in Complex Systems, Garmisch, Germany, SPIE Vol. 1319, pp. 200-201, August 1990. 92. F.T.S. Yu and E. C. Tam, "A High Efficiency Joint Transform Correlator for Symbolic Substitution," Proceeding of the ICO-15 Conference on Optics in Complex Systems, Garmisch, Germany, August 5-10, 1990. 93. Y. Cheng and F.T.S. Yu, "Color Signal Detection using a White-Light Joint Transform Correlator," Proceedings of the ICO-15th Conference on Optics in Complex Systems, Garmisch, Germany, SPIE Vol. 1319, p. s43, August 1990. 94. F.T.S. Yu, "Optical Neural Network: Architecture, Design and Models," Invited Proceeding of IEEE TENCON '90 Conference on Computer and Communication Systems, Hong Kong, pp. 12-16, September 24-27, 1990. 95. F.T.S. Yu and T. Lu, "Adaptive Optical System for Neural Computing," Proceeding of IEEE TENCON '90 Conference on Computer and Communication Systems, Hong Kong, September 24-27, 1990. 96. F.T.S. Yu, T. W. Lu and D. A. Gregory, "Self-Learning Optical Neural Network," Proceedings of Spatial Light Modulators and Applications, Technical Digest, Vol. 14, pp. 24-27, September 1990. 97. F.T.S. Yu, S. Wu, A. Mayers and S. Rajan, "Color Holographic Storage in LiNbO3," Proceedings of Spatial Light Modulators and Applications, Technical Digest, Vol. 14, pp. 153-156, September 1990. 98. R. V. Yelamarty, J. Y. Cheung and F.T.S. Yu, "LCTV Based Optical-Digital Processor for Measurement of Shortening Velocity in Normal and Hypertensive Rat Heartcells," SPIE Proceedings, Vol. 1398 (1991). 99. F.T.S. Yu, "Liquid Crystal Television Optical Neural Network: Architecture, Design and Models," Proceedings of the SPIE/SPSE Conference on Liquid Crystal Devices and Materials, Vol. 1455, pp. 150-166, February 1991. 100. F.T.S. Yu, "Optical Neural Networks: Architecture, Design and Models," Proceedings of SPIE on Wave Propagation and Scattering in Varied Media II," Vol. 1558, pp. 390-405, July 1991, keynote speaker. 101. F.T.S. Yu, X. Yang and Don A. Gregory, "Polychromatic Neural Network," Proceedings of SPIE on Wave Propagation and Scattering in Varied Media II, Vol. 1558, pp. 450-458, July 1991. 102. F.T.S. Yu and X. Yang, "Polychromatic Optical Neuro-Computing," Proceedings of the Soviet-Chinese Joint Seminar on Holography and Optical Information Processing," pp. 19-21, Bishkek, Kirghizstan, USSR, September 21-25, 1991 (invited). 103. S. Wu, S. Yin and F.T.S. Yu, "Sensing with Fiber Speckle-Hologram," Proceedings of the Soviet-Chinese Joint Seminar on Holography and Optical Information Processing, pp. 337-310, Bishkek, Kirghizstan, USSR, September 21-25, 1991 (invited). 104. F.T.S. Yu, "Optical Neuro-Computing," Proceedings of AIAA Computing in Aerospace 8, Vol. II, pp. 489-495, Baltimore, MD, October 21-24, 1991. 105. F.T.S. Yu, "Optical Neural Network: Architecture, Design and Models," Proceedings of Intelligent Engineering Systems through Artificial Neural Networks, pp. 5-10, ASME Press, November 1991. 106. S. Jutamulia, A. Fujita, S. Toyoda, E. Ito, A. Tanone and F.T.S. Yu, "Electronic Pseudocolor Encoder for Optical Testing," Proceedings of the SPIE Conference on Optical Fabrication Testing, and Surface Education, Vol. 1720, June 1990. 107. F.T.S. Yu, X. Yang and D. A. Gregory, "Polychromatic Neuro-Computing," Proceedings of the Topical Meeting on Optical Computing, SPIE, Vol. 1806, June 1992. 108. F.T.S. Yu, X. Yang and D. A. Gregory, "Polychromatic Neuro-Computing," Proceedings on the ICO International Topical Meeting on Optical Computing, June 29-July 1, 1992, Minsk, Republic of Belarus. 109. F.T.S. Yu, C. M. Uang and X. Yang, "Exemplar-based Optical Neural Net Classifier for Color Pattern Recognition," Proceedings of the SPIE Conference on Computers, Communications, and Control, Vol. 1812, December 1992. 110. K. Matsushita, C. Uang, W. Reeser and F.T.S. Yu, "Multicolor Neural Network using Cascaded Color LCTVs," Proceedings of the SPIE Conference on Computers, Communications, and Control, Vol. 1812, December 1992. 111. C. Uang and F.T.S. Yu, "Application of Interpattern Association (IPA) to Gray-Level Neural Net," Proceedings of the SPIE Conference on Computers, Communications, and Control, Vol. 1812, December 1992. 112. S. Yin, C. Lu and F.T.S. Yu, "Application of Core-Ring-Intensity-Ratio to Fiber Specklegram Signal Processing," Proceedings of the SPIE Conference on Computers, Communications, and Control, Vol. 1812, December 1992. 113. F.T.S. Yu, "Optical Neural Networks; Architecture, Design and Models," Proceedings of Reunion Nacional De Optica, Vol. 1, pp. 225, September 1992. 114. A. W. Mayers, F.T.S. Yu and J. Newman, "Scattering and Color Crosstalk on Photorefractive Signal Correlation," Proceedings on SPIE Optical Pattern Recognition IV, Vol. 1959, April 1993. 115. F.T.S. Yu, S. Yin and C. M. Uang, "Large-Capacity Polychromatic Neural Net Using a Specially Doped LiNbO3 Photorefractive Crystal," Proceedings on SPIE Optical Pattern Recognition IV, Vol. 1959, April 1993. 116. F.T.S. Yu, C. M. Uang and S. Yin, "Rotation Invariant Interpattern Association (IPA) Model," Proceedings on SPIE Optical Pattern Recognition IV, Vol. 1959, April 1993. 117. F.T.S. Yu (invited), "Application of Photorefractive Fiber Holograms to Interconnections, Switchings, and Massive Memories," Proceeding of International Conference on Holography, Correction Optics, and Recording Materials, SPIE Vol. 2108, Chernovtsy, Ukrain, May 10-14, 1993. 118. F.T.S. Yu and S. Yin (invited), "Holographic Storage and Interconnection Using a (Ce: Fe: Doped LiNbO3) Photorefractive Crystal Fiber with a Tunable Visible-Light Diode Laser," in Photorefractive Materials, Effects, and Applications, Critical Review, edited by P. Yeh and C. Gu, SPIE, July 1993. 119. F.T.S. Yu (invited), "Photorefractive Fiber Storage, Switching, Interconnects, and the Technological Challenges," Proceedings of the International Conference on Optical Information Processing, SPIE Vol. 2051, St. Petersburg, Russia, August 2-7, 1993. 120. F.T.S. Yu and S. Yin, "Specially Doped (Ce: Fe:) LiNbO3 Based Crystal Holography," Proceedings of the International Conference on Optical Information Processing, SPIE Vol. 2051, St. Petersburg, Russia, August 2-7, 1993. 121. F.T.S. Yu and S. Yin, "Fiber Hologram Construction and Storage," Proceedings of World Optical Conference, Shanghai, China, August 30-September 3, 1993. 122. F.T.S. Yu, S. Yin and Z. Yang, "Thick Volume Photorefractive (PR) Crystal Wavelength-Multiplexed Reflection-Type Matched Filter," Proceedings of SPIE on Optical Pattern Recognition V, Vol. 2237, April 1994. 123. F.T.S. Yu, G. Lu C. Uang, S. Yin and Z. Wu, "A Unipolar Shift-Invariant Associative Hamming Net," Proceedings of SPIE on Optical Pattern Recognition V, Vol. 2237, April 1994. 124. F.T.S. Yu (invited), "Photorefractive Fiber Storage, Switching, Interconnects, and the Technical Challenges," Proceeding of ICO Frontiers in Information Optics, Kyoto, Japan, April 3-8, 1994. 125. C. Uang, G. Lu and F.T.S. Yu, "Implementation of the Unipolar Interpattern Association (IPA) Neural Network," Proceeding of ICO Frontiers in Information Optics, Kyoto, Japan, April 3-8, 1994. 126. F.T.S. Yu, G. Lu and C. M. Uang, "On the Analysis of a Multi-Layer Hopfield-Type Associative Memory," Proceedings of the 1994 International Symposium on Artificial Neural Networks. 127. F.T.S. Yu, A. S. Bhalla, S. Yin, F. Zhao, Z. Wu and D. M. Salerno, "Ce:Fe:LiNbO3 Photorefractive Crystal: Material Properties and Applications, Proceeding of the Ninth IEEE International Symposium on the Applications of Ferroelectrics, August 7-10, 1994. 128. F.T.S. Yu, "Fiber Specklegram Sensors," Proceeding of the Second International Conference on Optoelectronics Science and Engineering '94. SPIE Vol. 2321, August 9-14, 1994. 129. F.T.S. Yu, G. Lu and C. Uang, (Invited) "Unipolar Neural Networks Using Redundant Interconnections," Proceedings of the International Conference on Optical Memory and Neural Networks, SPIE, Vol. 2430, Moscow, Russia, August 27-30, 1994. 130. F.T.S. Yu, G. Lu and C. Uang, "On the Analysis of a Multi-Layer Hopfield-Type Associative Memory," Proceeding of the 1994 International Symposium on Artificial Neural Networks, Taiwan, December 1994. 131. S. Yin, B. D. Guenther and F.T.S. Yu, "Narrow-Band Filter Using Multiple Photorefractive Gratings," Proceeding of SPIE on Photorefractive Fiber and Crystal Devices, SPIE 2529, July 12-13, 1995. 132. F.T.S. Yu, M. Lu and S. Yin, "Fiber Specklegram Sensing with Phase Conjugation," Proceeding of SPIE on Photorefractive Fiber and Crystal Devices, SPIE 2529, July 12-13, 1995. 133. T. D. Hudson, D. K. McMillen, A. S. Kranstenber, S. Yin, M. Lu and F.T.S. Yu, "Rotation Invariant Bipolar Filter Design for Object Classification," Proceeding of SPIE on Photorefractive Fiber and Crystal Devices, SPIE 2529, July 12-13, 1995. 134. J. Zhang, F.T.S. Yu and D. K. McMillen, "Diffraction and Coupling Kinetics of Photorefractive Hologram," Proceeding of SPIE on Photorefractive Fiber and Crystal Devices, SPIE 2529, July 12-13, 1995. 135. S. Jutamulia, S. Yin and F.T.S. Yu, "Analysis on Holographic Endoscopes," Proceeding of SPIE on Photorefractive Fiber and Crystal Devices, SPIE 2529, July 12-13, 1995. 136. F.T.S. Yu, "Synthesis of Spatial-Domain Bipolar Composite Filter for Out-of-Plane Rotation Targets," (invited) Proceeding on International Conference on Lasers '95, Charleston, December 4-8, 1995. 137. F.T.S. Yu, "Fiber Specklegram Sensors: A New-Type of Fiber Optic Sensor Exploiting the Spatial Content," Proceedings Workshop on Fiber Optics for Missile Applications, pp. 483-497, May 7-8, 1996. 297. F.T.S. Yu, "Dynamics of Photorefractive Fiber Holograms," (invited) Workshop on Holography as Realized, Kecskemet, Hungary, June 3-5, 1996. 298. F.T.S. Yu, "Photofractive Fibers: Fabrication and Hologram Construction," (invited) International Symposium on Holographic Memories '96, Vouliagmeni, Greece, May 12-15, 1996. 299. F.T.S. Yu, "Garden of Joint Transform Correlators: An Account of Recent Advances," (invited) Second International Conference on Optical Information Processing, St. Petersburg, Russia, June 17-21, 1996. 300. T.D. Hudson, A.S. Kramstenka, D.K. McMillen, F.T.S. Yu and S. Yin, "Optical Implementation of Composite Filters as Volume Holograms in LiNbP03 for Pattern Recognition, "Proceeding on Nonlinear Optics: Material, Fundamentals and Applications, Maui, Hawaii, July 7-12, 1996. 142. S. Yin, J. Zhang, F.T.S. Yu, S. Jutamulia, D.Y. Lou, and R. Fedors, "Turnable Narrowband Filter Using Single Crystal Photorefrative Fiber," Proceeding of SPIE on Photonics and Radio Frequency, SPIE 2844, August 7-8, 1996. 143. J. Zhang, Z. Wu and F.T.S. Yu, "Electro-Optic Effect in LiNbO3 Photorefractive Single Crystal Fibers," Procceding of SPIE on Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications II, SPIE 2849, August 5-6, 1996. 144. J. Zhang, Z. Wu, and F.T.S. Yu, "Photorefractive Crystals: Materials Processing and Optical Properties," Proceeding of SPIE on Inorganic Optical Materials, SPIE-CR64, August 6-7, 1996. 301. F.T.S. Yu, "Optimum Target Detection Using a Simulated Annealing Composite Filter," Proceeding of the 17th Congress of the International Commission for Optics, Taejon, Korea, SPIE 2278, pp. 461-462, August 19-23, 1996. 146. F.T.S. Yu, "Dynamics of Photorefractive Fiber Holograms," (invited), Proceeding of the 1996 International Conference on Holography and Optical Information Processing, Nanjing, China, August 26-28, 1996. 147. T.D. Hudson, D.K. McMillen, F.T.S. Yu, and S. Lin, "Composite Filters as Volume Holograms in LiNb03 for Optical Pattern Recognition," Proceeding of Third Workshop on Conventional Weapon ATR Detection, Classification, Recogniton and Identification of Targets in Clutter, Redstone Arsenal, Alabama, November 13-15, 1996. 302. F.T.S. Yu and S. Yin, (invited), "Nonlinear Photorefractive Fibers: Fabrication and Devices," Proceeding of 1997 Progress in Electromagnetics Research Symposium, Hong Kong, January 6-9, 1997. 144. F.T.S. Yu (invited), “Exploitation of Incoherent Source for Partially Coherent Processing,” The 10th Meeting on Optical Engineering in Israel, Jerusalem, Israel, March 2-6, 1997. 145. D.K. McMillen, T.D. Hudson, S. Yin, and F.T.S. Yu, “Optical Properties of Twelve Doped LiNb03 Crystals,” SPIE Meeting on Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications III, SPIE 3137, July 28-29, 1997. 146. S. Yin, F.T.S. Yu, A.V. Petrov and O.B. Lenov, “Fabrication of LiNb03 Single Crystal Fiber Array for Wideband Antenna Signal Processing,” SPIE Meeting on Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications III, SPIE 3137, July 28-29, 1997. 147. S. Yin, J. Zhang, and F.T.S. Yu, “Application of Crystal Grating to Turnable Filters,” SPIE Meeting on Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications III, SPIE 3137, July 28-29, 1997. 148. F.T.S. Yu, S. Jutamulia and A. Tanone (invited) “Application of Liquid Crystal Spatial Light Modulators to Optical Information Processing Systems,” SPIE Meeting on Liquid Crystals, July 28-29, 1997. 149. S. Jutamulia and F.T.S. Yu, “SLMs Act as an Instant Photographic Transparency,” Optical Engineering Report, No. 16, May 1997. 150. F.T.S. Yu (Plenary paper), "Overview of Optical Pattern Recognition: Progress and Recent Advances," International Symposium on Optical Information Science and Technology, Moscow, Russia, August 27-30, 1997. 151. F.T.S. Yu (invited), "Exploitation of Incoherent Source for Coherent Processing," International Symposium on Optical Information Science and Technology, Moscow, Russia, August 27-30, 1997. 152. F.T.S. Yu (invited), "Optical Implementation of Neural Networks," Conference on Artificial Neural Networks and Expert Systems, Dunedin, New Zealand, November 24-28, 1997. 153 F.T.S. Yu, S. Yin and C. Li, “Shift-invariant Photoreflective-based Correlators,” Proceedings of SPIE on Photoreflective Fiber and Crystal Devices: Materials, Optical Properties, and Applications IV, Vol. 3470, San Diego, July 22-23, 1998. 154 S. Yin, F.T.S. Yu, O.B. Lenov, A.V. Petrov and K. Yang, “Progress on Developing an Optical Adaptive Processor Based on Multichannel Architecture,” Proceedings of SPIE on Photonics and Radio Frequency II, Vol. 3463, San Diego, July 21-23, 1998. 155 F.T.S. Yu (invited), “Recent Advances in Pattern Recognition using Fourier Optics,” Proceedings of SPIE on Far-and Near-field Optics, Vol. 3467, San Diego, July 23-24, 1998. 156 H. Liu, G. Lu, S. Wu, S. Yin, F.T.S. Yu, “Speckle-induced phase error in laser-based phase-shifting projected-fringe profilometry,” Proceedings of SPIE, 3520, 64-75 (1998). 157 F.T.S. Yu (Plenary paper), “Pattern Recognition with Optics,” Proceedings of OII ‘98 Topical Meeting of ICOM, Optics for Information Infrastructure, Tianjin, China, August 3-6, 1998. 158 F.T.S. Yu (invited), “Optical Implementation of Artificial Neural Networks,” Proceedings of the International Conference on Optics and Optoelectronics, Dehradun, India, December -12, 1998. 159 F.T.S. Yu and S. Yin (invited), “Study of Single Crystal Photorefractive Fibers and Their Potential Applications,” Proceedings of the 1998 International Photonics Conference, Taipei, Taiwan, December 13-18, 1998. 160 S. Yin, R. Yang, F.T.S. Yu, Y. Suzuki, K. Shinoda, “Advances on the Fabrication of Microchannel Plate Spatial Light Modulator on LiNbO3 Waveguide Array,” Proceedings of SPIE on Photorefractive Fibers and Crystal Devices, Vol. 38.1, July 18-23, 1999. 161 F.T.S. Yu, (Plenary Paper) “Neural Networks and Education,” Proceedings of Education and Training in Optics and Photonics,” Cancun, Mexico, July 27-30,1999. 162 F.T.S. Yu, (Invited), “Fiber Specklegram Sensors; A New Type Fiber Sensing
That Exploits the Spatial Content,” Proceedings 11th International Meeting
on Electro-Optics and Microelectronics in Israel, Tel Aviv, Israel, Nov.
9-11, 1999.
164 F.T.S. Yu, S. Yin and C. Li, “ Composite-filter capacity for a JTC,” Proceedings of SPIE on Optical Pattern Recognition XI, Vol. 4043, Orlando, FL, April 25-26, 2000. 165 F.T.S. Yu, (Plenary Speaker), “Entropy and Information Optics,” Proceedings of the International Forum on Wave Electronics and its Applications,” St. Petersburg, Russia, September 14-18, 2000. 167 F.T.S. Yu (Invited), “Information Entropy and Optics,” Proceedings of the 2000 International Photonics Conference, Hsinchu, Taiwan, December 12-15, 2000. 168 F.T.S. Yu (Invited), “Optical Neural Networks and Education,” Annual Meeting of the Chinese Optical Engineering Society, Hsindu, Taiwan, December 12, 2000. 169 F.T.S. Yu, (Invited), “Legacy of Optical Information Processing,” Proceedings of SPIE on Photonic Devices and Algorithms for Computing III,” Vol. 4470, San Diego, July 27-August 3, 2001. 170 F.T.S. Yu and S. Jutamulia (Invited), “Spatial Light Modulators in Telecommunications Systems,” Proceedings of SPIE on Spatial Light Modulations: Technology and Applications, Vol. 4457, San Diego, July 27-August 3, 2001. 171 F.T.S. Yu (Invited), “Simulated Annealing Spatial Filter; Synthesis, Implementation, and Performance,” OSA Annual Meeting, Long Beach, CA, October 14-19, 2001. 172 F.T.S. Yu (Plenary Presentation), Entropy and Information Optics,” International Symposium on Optoelectronics and Microelectronics, Nanjing, China, November 7-9, 2001. 173 F.T.S. Yu (Invited), “Optical Neural Networks and Education,” 7th International Conference on Education and Training in Optics and Photonics 2001 (ETOP), Singapore, November 26-30, 2001. 174 F.T.S. Yu (Invited), “Information Processing with Optics,” International Conference of Optics in Computing (OC2002), Taipei, April 8-11, 2002. 175 F.T.S. Yu (Plenary Presentation), Entropy and Information Optics,” International Symposium on Optoelectronics and Microelectronics, Nanjing, China, November 7-9, 2001. 176 FT.S Yu (Invited), “Optical Neural Networks and Education,” 7th International Conference on Education and Training in Optics and Photonics 2001 (ETOP), Singapore, November 26-30, 2001. 177. F.T.S. Yu (Invited), “Information Processing with Optics,” International Conference of Optics in Computing (OC2002), Taipei, April 8-11, 2002. 178 F.T.S.Yu (invited), “Introphy and information Optics”, International Conference on Opto-electrotechniques and Laser Application, ICOLA’02, Jakarta, October 2-3, 2002. 179 F.T.S. Yu, R. Guo. B. Wang and Y. Liu, “Fiber Sensing with Photorefractive Fiber”, Conference on “Photorefractive Fiber and Crystal Devices: Material, Optical Properties, SPIE.165. F.T.S. Yu and R. Guo, “Optical Implementation of Neural Networks” in the Symposium of SPIE conference, 2003. 180 F.T.S. Yu and R. Guo, “Optical Implementation of Neural Networks” in the Symposium of SPIE conference, 2003. 181 .And others.
INVITED SEMINARS1. Wright-Patterson Air Force Base, Avionic Laboratories, Laser Technology Branch, September 1968.2. Northwestern University, Electrical Engineering Department, October 1968. 3. Wayne State University, Electrical Engineering Department, March 1969. 4. Wayne State University, Research Institute for Engineering Sciences, December 1969. 5. General Motors Research Laboratories, Physics Department, June 1969. 6. General Motors Research Laboratories, Physics Department, July 1969. 7. Owens-Illinois Technical Center, Fundamental Research, May 1970. 8. Toledo University, Electrical Engineering Department, October 1970. 9. Wayne State University, Chemistry Department, April 1971. 10. Oakland University, School of Engineering, January 1971. 11. University of Detroit, Electrical Engineering Department, March 1972. 12. Royal Institute of Technology, Physics Department, Stockholm, Sweden, June 1973. 13. Institute of Optics, University of Paris, France, June 1973. 14. Cornell University, Electrical Engineering Department, October 1973. 15. University of Toronto, Electrical Engineering Department, October 1973. 16. Oakland University, School of Engineering, November 1973. 17. Purdue University, Electrical Engineering Department, February 1974. 18. Michigan State University, Electrical Engineering Department, and Speech and Language Department, April 1974. 19. Burroughs Corporation, Product Engineering Division, Recognition-System Group, September 1974. 20. University of Washington at Seattle, Electrical Engineering Department, May 1975. 21. Thirteenth Annual Southeastern Michigan Junior Science and Humanities Symposium, Wayne State University, March 4-5, 1977. 22. IEEE Southeastern Michigan Chapter, University of Michigan, February 21, 1978. 23. University of Michigan, Electrical and Computer Engineering Department, March 16, 1978. 24. IEEE Southeastern Michigan Chapter, Ann Arbor, Michigan, November 22, 1978. 25. Northwestern University, Department of Electrical Engineering and Computer Science, Evanston, Illinois, March 9, 1979. 26. IEEE Southeastern Michigan Chapter, Ann Arbor, Michigan, April 10, 1979. 27. Oakland University, School of Engineering, Rochester, Michigan, April 12, 1979. 28. Wu-Han University, Physics Department, Wu-Han, Hupie, People's Republic of China, July 19, 1979. 29. Sian Jiao-Tong University, Physics Department, Sian, Sansi, People's Republic of China, July 20, 1979. 30. Academic of Science in Peking, People's Republic of China, July 25-26, 1979. 31. Shanghai Jiao-Tong University, Applied Physics Department, Shanghai, People's Republic of China, July 31-August 18, 1979. 32. Pennsylvania State University, Department of Electrical Engineering, June 26, 1979. 33. Applied Research Laboratory, Pennsylvania State University, January 16, 1980. 34. Rome Air Development Center, Hanscom AFB, Mass., May 9, 1980. 35. Oakland University School of Engineering, Rochester, Michigan, October 17, 1980. 36. The Pennsylvania State University, Electrical Engineering Department, University Park, Pennsylvania, October 21, 1980. 37. Applied Research Laboratory, The Pennsylvania State University, University Park, Pennsylvania, November 9, 1980. 38. Naval Research Laboratory, Applied Optics Branch, Washington, D.C., February 18, 1981. 39. U.S. Army Missile Command, Redstone Arsenal, Alabama, February 24, 1981. 40. Physics Department, Duke University, Durham, N.C., February 25, 1981. 41. U.S. Army Research Office, Research Triangular Park, N.C., February 25, 1981. 42. Physics and Astronomy Department, The Pennsylvania State University, University Park, Pennsylvania, March 24, 1981. 43. IEEE Student Chapter, Electrical Engineering Department, The Pennsylvania State University, University Park, Pennsylvania, March 26, 1981. 44. Materials Research Laboratory, The Pennsylvania State University, University Park, Pennsylvania, May 11, 1981. 45. IEEE Allegheny Mountain Section, Ridway, Pennsylvania, May 20, 1981. 46. Hong Kong Physical Society, Hong Kong, July 10, 1981 - Speaker. 47. Physics Department, Nankai University, Tienjien, China, July 13-19, 1981 - Lecturer. 48. Tienjien Physical Society, Tienjien, China, July 17, 1981 - Speaker. 49. Changchun Institute of Optics and Fine Mechanics, Academia Sinica, Changchun, China, July 21, 1981 - Speaker. 50. Changchun Institute of Optics and Fine Mechanics, Academia Sinica, Changchun, China, July 22, 1981 - Speaker. 51. Physical Society and Academy of Sciences of Peking, Peking, China, July 24, 1981. 52. Applied Physics Department, Jiao Tung University, Shanghai, China, July 29-August 8, 1981 - Lecturer. 53. Shanghai Optical Instrument Research Institute, Shanghai, China, August 4, 1981. 54. Shanghai Institute of Optics and Fine Mechanics, Academia Sinica, Shanghai, China, August 3, 1981. 55. Shanghai Physical Society, Shanghai, China, August 6, 1981. 56. Department of Counterfeit Deterrence, Bureau of Engraving and Printing, Washington, D.C., October 19, 1981. 57. U.S. Army Night Vision - Electro-Optics Laboratory, Fort Belvoir, Virginia, October 20, 1981. 58. Electrical and Computer Science Department, Massachusetts Institute of Technology, Cambridge, MA, December 16, 1981. 59. Rome Air Development Center, Department of the Air Force, Hanscom Air Force Base, MA, December 17, 1981. 60. Applied Research Laboratory, The Pennsylvania State University, University Park, Pennsylvania, March 16, 1982. 61. Defense Advanced Research Projects Agency, Arlington, Virginia, April 23, 1982. 62. Naval Training Equipment Center, Orlando, Florida, April 28, 1982. 63. Rome Air Development Center, Hanscom Air Force Base, Massachusetts, May 21, 1982. 64. College of Engineering, Alumni Weekend, The Pennsylvania State University, June 5, 1982. 65. Gordon Research Conferences on Holography and Optical Information Processing, June 21-25, 1982. Plymouth, New Hampshire. 66. U.S. Army Missile Command, Redstone Arsenal, Alabama, September 9, 1982. 67. Optical Society of America, Huntsville Chapter, Huntsville, Alabama, September 9, 1982. 68. U.S. Army Research Office, Research Triangle Park, N.C., September 10, 1982. 69. Electrical Engineering and Computer Science Department, University of Illinois, Urbana-Champaign, Illinois, September 16, 1982. 70. Advanced School in Power Systems Engineering (Westinghouse), The Pennsylvania State University, University Park, October 9, 1982. 71. Electrical and Computer Engineering Department, Arizona State University, Tempe, Arizona, October 20, 1982. 72. Remote Sensing of Earth Resources, The Pennsylvania State University, University Park, Pennsylvania, November 5, 1982. 73. The Library of Congress, Washington, D.C., November 9, 1982. 74. Division of Electrical, Computer and System Engineering, National Science Foundation, November 10, 1982. 75. Office of Naval Research, Arlington, Virginia, November 10, 1982. 76. IBM Corporation, Mannasas, New Jersey, November 11, 1982. 77. Applied Research Laboratory, 16th Annual Advisory Board Meeting, The Pennsylvania State University, University Park, Pennsylvania, November 30, 1982. 78. Information Sciences Group, U.S. Air Force at Wright-Patterson Air Force Base, Ohio, December 10, 1982. 79. Physics Department, The Pennsylvania State University, University Park, Pennsylvania, January 6, 1983. 80. Industrial Products Division, Hughes Aircraft Company, Carlsbad, CA, January 17, 1983. 81. Electrical and Computer Engineering Department, University of California at Santa Barbara, January 18, 1983. 82. Electrical Engineering Department, University of California at Irvine, January 19, 1983. 83. Electrical Engineering Department, California Institute of Technology, Pasadena, January 21, 1983. 84. Department of Electrical Engineering and Computer Sciences, MIT, Cambridge, Massachusetts, February 23, 1983. 85. Department of Electrical Engineering and Science, University of Pennsylvania, Philadelphia, Pennsylvania, March 31, 1983. 86. HRB Singer Lecture Series, State College, Pennsylvania, March 23, 30, 1983. 87. C.A.C.I. Inc., Washington, D.C., May 17, 1983. 88. Harry Diamond Laboratory, Adelphi, Maryland, May 18, 1983. 89. Applied Research Laboratory, University Park, May 24, 1983. 90. Hughes Aircraft Company, Carlsbad, California, July 18, 1983. 91. Advanced Technology Department, Canon U.S.A. Inc., Costa Mesa, CA, July 18, 1983. 92. Litton Data Systems, Van Nuys, California, July 19, 1983. 93. Chang Chun Optical Research Institute, Jihao, China, July 21-22, 1983. 94. Physics Department, Nankar University, Tianjin, China, July 25-29, 1983. 95. Optical Engineering Department, Beijing Institute of Technology, Beijing, China, Aug. 1-3, 1983. 96. Physical Society of Shanghai, Shanghai, China, Aug. 4-6, 1983. 97. Shanghai Optical Instrument Research Institute, Shanghai, China, Aug. 8, 1983. 98. Institute of Technical Physics, Academia Sinica, Shanghai, China, Aug. 9, 1983. 99. Physics Department, Shanghai Jiao Tong University, Shanghai, China, Aug. 10-12, 1983. 100. Kodak Research Laboratory, Eastman Kodak Co., Rochester, New York, September 14, 1983. 101. Research & Development Center, Westinghouse Electric Corporation, Pittsburgh, Pennsylvania, October 6, 1983. 102. Manufacturing Science Group, Office of Naval Research, Arlington, Virginia, November 4, 1983. 103. Electrical Engineering & Electronics and Communication Engineering Department, Mapua Institute of Technology, Manila, Philippines, Dec. 9, 1983. 104. Industrial Products Division, Hughes Aircraft Company, Carlsbad, California, January 24, 1984. 105. Litton Data Systems, Van Nuys, California, January 25, 1984. 106. Electrical and Computer Engineering Department, University of California at Santa Barbara, Santa Barbara, California, January 27, 1984. 107. Electrical Engineering and Computer Sciences Department, University of California at Berkeley, Berkeley, California, January 30, 1984. 108. Electrical and Computer Engineering Department, University of California at Davis, Davis, California, January 31, 1984. 109. Hamamatsu Photonics K.K., Hamamatsu Co., Hamamatsu City, Japan, August 17, 1984. 110. Academia Sinica and Tsinghua University, Beijing, China, August 27-28, 1984. 111. Physics Department, Nankai University, Tianjin, China, August 30-31, 1984. 112. Optical Society of America, Pittsburgh Chapter, October 8, 1984. 113. Center of High Speed Image Processing, Electrical and Computer Engineering Department, University of California at Santa Barbara, Santa Barbara, California, January, 22, 1985. 114. Hughes Research Laboratories, Malibu, California, January 24, 1985. 115. U.S. Army Missile Laboratories, Redstone, Alabama, February 6, 1985. 116. Air Force Armament Laboratory, Electro-Optical and Radio Frequency Technology, Eglin Air Force Base, Florida, February 7, 1985. 117. Society of American Military Engineers, Pennsylvania State University, University Park, Pennsylvania, February 20, 1985. 118. University Scholars Program, Pennsylvania State University, University Park, Pennsylvania, March 28, 1985. 119. U.S. Naval Under Water System Center, New London Laboratory, New London, Connecticut, April 15, 1985. 120. Committee on Preservation of Historical Records, National Research Council, Washington, D.C., May 20, 1985. 121. Physics Department, The Norwaygian Institute of Technology, Trondheim, Norway, June 18, 1985. 122. Instituto Nacional de Astrofisica Optica Y Electronica, Puebla, Pue, Mexico, August 1-9, 1985. 123. Physics Department, National University of Mexico, Mexico City, Mexico, August 12, 1985. 124. Seminario Internacional de Holografia, Institute Nacional de Astrofiscica Optica Y Electronica, Puebla, Pue, Mexico, August 13-16, 1985. 125. Loral, Electro-Optical Systems, Inc., Pasadena, California, August 19, 1985. 126. Martin Marieta Laboratories, Baltimore, Maryland, October 18, 1985. 127. Optical Society of America, Rochester Chapter, New York, October 22, 1985. 128. NASA, Ames Research Center, Moffett Field, California, January 21, 1986. 129. Department of Electrical and Computer Engineering, University of Illinois, Urbana, Illinois, March 6, 1986. 130. Department of Electrical Engineering, The Pennslyvania State University, University Park, Pennsylvania, March 11, 1986. 131. SPIE Special Institution for Optical and Hybrid Computing, Xerox's International Center, VA., March 24, 1986. 132. Pannel Discussion on Hybrid Optical Computing, SPIE Proceedings on Hybrid Image Processing, Orlando, Florida, April 1, 1986. 133. Xiamen University, Physics Department, Xiamen, China June 16-19, 1986. 134. Shanghai Physical Society, Shanghai, China, June 20, 1986. 135. Nankai University, Tianjin, China, June 23-24, 1986. 136. Huazhong University of Science and Technology, Optical Engineering Department, Wuhan, China, June 26-27, 1986. 137. Harbin Institute of Technology, Physics Department, Harbin, China July 5-8, 1986. 138. Harbin Normal University, Physics Department, Harbin, China, July 9, 1986. 139. Philippine Engineers and Scientists Organization, Chicago, September 13, 1986. 140. Computer Engineering Center, Electrical Engineering Department, Pennsylvania State University, University Park, PA, September 29, 1986. 141. Electro-Optics, Litton Data Systems, Van Nuys, California. Oct. 16, 1986. 142. Jet Propulsion Laboratory, California Institute of Technology, Pasadena, California, Oct. 17, 1986. 143. Optical Pre-preprocessing Workshop, Boeing Company, Seattle, Washington, Oct. 27-28, 1986. 144. Optical Society of America, Pittsburgh Chapter, Pittsburgh Dec. 17, 1986. 145. SIGHT-MOD Division, Semetex Corporation, Torrance, California, January 13, 1987. 146. Industrial Products Division, Hughes Aircraft Company, Carlsbad, California, January 16, 1987. 147. IEEE, Central Pennsylvania Section, University Park, PA, March 12, 1987. 148. Physics Department, University of Alabama at Huntsville, March 27, 1987. 149. Electrical Engineering Department, The Pennsylvania State University, University Park, PA, April 2, 1987. 150. Institute of Optics, Rochester University, Rochester, NY, October l4, 1987. 151. Electrical and Computer Engineering Department, Wayne State University, Detroit, Michigan, November 4, 1987. 152. 1987 Advanced School in Power Systems, Pennsylvania State University, University Park, PA, November 6, 1987. 153. Computer Science Department, Tsinghua University, Beijing, China, June 27, l988. 154. Department of Photogrammetry, Zheng Zhou Institute of Surveying and Mapping, Zheng Zhou, Henan, June 29 - July l, l988. 155. Modern Optical Institute Nankai University, Tianjin, China, July 4-8, l988. 156. Optical Sciences Center, National Central University, Chung-Li, Taiwan, China, July l4-l6, l988. 157. Carl en Emily Fuchs Institut vin Mikroelektronika, University of Pretoria, South Africa, July l8-30, l988. 158. Laboratorio De Fisica, Universidade Do Porto, Portugal, August l-3, l988. 159. Department of Engineering Science and Mechanics, The Pennsylvania State University, University Park, PA, February 22, l989. 160. Department of Optics, University of Velencia, Valencia, Spain, May 2-3, l989. 161. Department of Physics, University of Barcelona, Barcelona, Spain, May 4, l989. 162. Department of Physics, Universidad Autonoma de Barcelona, Spain, May 5, l989. 163. Istituto Nazionale Di Ottica, Firenze, Italy, May 8, l989. 164. Research Center, Mitsubishi Kasei Corporation, Yakohama, Japan, June 2l, l989. 165. School of Electrical Engineering, Electronics and Communications Engineering and Computer Engineering, Mapua Institute of Technology, Manila, Philippines, June 26, l989. 166. Department of Electrical and Electronic Engineering, University of Hong Kong, June 29, l989. 167. Department of Electronics, the Chinese University of Hong Kong, June 30, l989. 168. Department of Physics, Indian Institute of Technology, New Delhi, India, July 6, l989. 169. National Physical Laboratory, New Delhi, India, July 7, l989. 170. Tata Institute of Fundamental Research, Bombay, India, July l0, l989. 171. Department of Optoelectronics and Laser Applications, University of Indonesia, Jakarta, Indonesia, July l3, l989. 172. Department of Engineering Physics, Bandung Institute of Technology, Bandung, Indonesia, July l4, l989. 173. Department of Electrical Engineering, Satya Wacana Christian University, Salatiga, Indonesia, July l7, l989. 174. Electro-optics section, Rome Air Development Center, Hanscom Air Force Base, November 17, 1989. 175. Applied Research Laboratory, The Pennsylvania State University, University Park, February 1, 1990. 176. Center for Spatial and Temporal Signal Processing, The Pennsylvania State University, University Park, March 8, 1990. 177. Institute of Optics, University of Rochester, Rochester, NY, March 21, 1990. 178. Modern Optical Institute, Nankai University, Tianjin, April 6, 1990. 179. Optical Engineering Department, Beijing Institute of Technology, Beijing, April 7, 1990. 180. Department of Electrical and Computer Engineering, Ohio University, Athens, Ohio, May 8, 1990. 181. Physics Department, University of Erlangen; Erlangen, Germany, August 10, 1990. 182. Physics Department, Wroclaw Politechnic Institute, Wroclaw, Poland, August 16, 1990. 183. Research Center, Mitsubishi Kasei Corporation, Yokohama, Japan, September 13, 1990. 184. Central Research Laboratory, Hamamatsu Photonics, Hamamatsu, Japan, September 14, 1990. 185. Fujian Association of Science and Technology, Fuzhou, China, September 21, 1990. 186. Department of Electrical and Computer Engineering, The Pennsylvania State University, University Park, PA, March 28, 1991. 187. Electrical Engineering Department, Texas A&M University, College Station, Texas, March 29, 1991. 188. Photonics Overview, Watson School of Engineering, Applied Science and Technology, State University of New York, Binghamton, NY, May 1, 1991. 189. Institute of Astrophysics, Optics and Electronics, Puebla, Pue, Mexico, May 31 - June 1, 1991. 190. Physics Department, University of Campinas, Campinas, Brazil, June 3, 1991. 191. Physics Department, Catholic University of Chili, Santiago, Chile, June 6-7, 1991. 192. National Institute of Physics, University of Philippines, Diliman, Quezon City, Philippines, June 27, 1991. 193. Mapua Institute of Technology, Manila, Philippines, June 28, 1991. 194. Institute of Modern Optics, Nankai University, Tianjin, China, July 3, 1991. 195. Information Optics Institute, Yunnan Institute of Technology, Kumming, China, July 9-10, 1991. 197. Department of Precision Instruments, Tsinghua University, Beijing, China, July 12, 1991. 198. Department of Optical Engineering, Beijing Institute of Technology, Beijing, China, July 15, 1991. 199. Physics Department, Nankai University, Tianjin, China, July 17, 1991. 200. Optical Communication, Bell Telephone Laboratory, Holmdel, NJ, October 24, 1991. 201. ANNIE '91 (Artificial Neural Networks In Engineering), St. Louis, MO, Luncheon Speaker, November 13, 1991. 202. Chiang Kai Shek College, Manila, Philippines, November 17, 1991. 203. Commencement Speech, 92nd Commencement Exerciese, Mapua Institute of Technology, Manila, Philippines, November 18, 1991. 204. IEEE Central Pennsylvania, University Park, PA, January 16, 1992. 205. NEC Research Institute, Princeton, NJ, February 21, 1992. 206. JPL, Pasadena, CA, March 10-11, 1992. 207. Control Optics, Baldwin Park, CA, March 12, 1992. 208. Physical Optics, Torrance, CA, March 16, 1992. 209. National Institute of Astrophysics, Optics and Electronics, Puebla, Pue, Mexico, May 25-29, 1992. 210. Mechanical Institute, St. Petersburg, Russia, June 23, 1992. 211. Physical Technical Institute, St. Petersburg, Russia, June 25, 1992. 212. Chiang Kai Shek College, Manila, Philippines, August 22, 1992. 213. Hamamatsu Photonics, Hamamatsu, Japan, August 26, 1992. 214. Department of Electrical Engineering, Osaka City University, Osaka, Japan, August 27, 1992. 215. Department of Optics, University of Valencia, Spain, September 25, 1992. 216. HRB Singer, State College, PA, November 5, 1992. 217. Department of Electrical and Computer Engineering, Syracuse University, Syracuse, November 10, 1992. 218. Institute of Electro-Optical Engineering, Chiao-Tung University, Hsinchu, Taiwan, December 21, 1992. 219. JPL, Pasadena, CA, March 8, 1993. 220. Applied Physics Department, Shanghai Jiao-Tong University, Shanghai, China, September 2, 1993. 221. Precision Instrument Department, Tsinghua University, Beijing, China, September 6, 1993. 222. Modern Optics Institute, Nankai University, Tianjin, China, September 7, 1993. 223. Electrical Engineering Graduate Colloquium, The Pennsylvania State University, University Park, PA, September 28, 1993. 224. Physics Department, University of Alabama A&M, Norman, Al, November 19, 1993. 225. Optical Processing Branch, ARL, Adephi, Virginia, November 30, 1993. 226. Electrical Engineering & Computer Science Dept., University of Michigan, Ann Arbor, Michigan, December 7, 1993. 227. Electrical & Computer Engineering Department, Wayne State Unviersity, Detroit, Michigan, December 8, 1993. 228. Osaka Science and Technology Center, Osaka University, Osaka, Japan, April 11, 1994. 229. Modern Optics Institute, Nankai University, Tianjin, China, August 10-12, 1994. 230. Graduate Colloquium, Electrical Engineering Department, PSU, University Park, September 13, 1994. 231. Physics Department, University of Alabama A&M, Norman, AL, October 7, 1994. 232. Science, Technology and Society Program, Penn State University, University Park, PA, November 15, 1994. 233. Department of Physics of Complex Systems, Weizmann Institute of Science, Rehovat, Israel, January 20, 1995. 234. Electrical Engineering Department, University Tel Aviv, Tel Aviv, January 23, 1995. 235. Physical Optics Corporation, Torrance, CA, March 3, 1995. 236. Electrical Engineering Department, University of Dayton, Dayton, OH, April 5, 1995. 237. Telecommunication Research Center, Shelby Campus, University of Louisville, KY, April 6, 1995. 238. Computer Science and Engineering Seminar, Electrical Engineering Department, University of Louisville, Louisville, KY, April 6, 1995. 239. Modern Optics Institute, Nankai University, Tianjin, China, April 29, 1995. 240. Department of Optoelectronic Instruments, Chongqing University, Chongqing, China, May 1-4, 1995. 241. Department of Physics, Sichuan Normal University, Beibei, Chongqing, China, May 5, 1995. 242. Department of Optoelectronics Engineering, Huazhong University of Science and Technology, Wuhan, China, May 9-10, 1995. 243. Department of Physics, Inner Mongolia University, Hohhot, China, May 12-13, 1995. 244. Central Research Laboratory, Hamamatsu Photonics, K.K., Hirabuchi, Hamamatsu, Japan, May 17, 1995. 245. Electrical Engineering Department, Osaka City University, Osaka, Japan, May 18, 1995. 246. Instituto De Investigacion en Comunicacion Potica, Universidad Autonoma De San Luis Potosi, Mexico, July 17-21, 1995. 247. Physical Optics Corporation, Torrance, CA, October 30, 1995. 248. Physics Department, San Diego State University, San Diego, CA, November 1, 1995. 249. Center at Eriksberg for Communication, Information and Logistics, Gothenburg, Sweden, November 12-15, 1995. 250. Applied Physics Department, Swiss Federal Institute of Technology, Zurich, November 17, 1995. 251. U.S. Army MICOM, Panel Discussion on Future Development in Fiber Optics, Huntsville, AL, May 8, 1996. 252. Electrical Engineering Department, Bilkent University, Ankara, Turkey, May 17, 1996. 253. Physics Department, Technical University of Denmark, Lynby, Denmark, June 10, 1996. 254. CECIL Seminar Series, Center at Eriksberg for Communication, Information and Logistics, Gothenberg, Sweden, June 12, 1996. 256. School of Electrical Engineering, Seoul National University, Seoul, Korea, August 23, 1996. 257. Modern Optical Institute, Nankai University, Tianjin, China, August 26, 1996. 258. Institute of Electro-Optics, National Chao Tung University, Hsindu, Taiwan, January 8, 1997. 259. Optical Sciences Center, National Central University, Chung-Li, Taiwan, January 9, 1997. 260. Department of Electrical Engineering, National Cheng Kung University, Taiwan, January 10, 1997. 261. Chiang Kai Shek College, Manila, Philippines, January 16, 1997. 262. Electrical Engineering Department, Tel-Aviv University, Israel, February 28, 1997. 263. Department of Physics of Complex System, Weizmann Institute of Science, Israel, March 1, 1997. 264. Department of Physics, National Singapore University, Singapore, May 19, 1997. 265. School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore, May 21-23, 1997. 266. Physics Department, University of Malaya, Kuala Lumpur, May 21-23, 1997. 267. Physics Department, Xiamen University, Xiamen, China, July 16, 1997. 268. Institute of Modern Optics, Nankai University, Tianjin, China, July 19, 1997. 269. Physics Department, Auckland University, Auckland, New Zealand, November 24, 1997. 270. School of Physics, University of Sydney, Sydney, Australia, December 1, 1997. 271. Division of Applied Physics, CSIR, Lindfield, Australia, December 2, 1997. 272. Department of Applied Physics, Victoria University, Melbourne, Australia, December 4, 1997. 273. Modern Optics Institution, Nankai University, August 8, 1998. 274. Physics Department, University of the Philippines, Quezon City, December 12, 1998. 275. Chiang Kai Shek College, Manila, Phillippines, December 14, 1998. 276. School of Electrical and Electronics Engineering, Nanyang Technological University, Singapore, February 26, 1999. 277. College of Engineering, University of Telekom, Melaka, Malaysia, March 2, 1999. 278. Department of Physics and Engineering, Steneo de Manila University, Quezon City, Philippines, March 4, 1999. 279. Department of Electrical Engineering, Yuan Ze University, Chung-Li, Taiwan, March 7, 1999. 280. Institute of Optical Sciences, National Central University, Chung-Li, Taiwan, March 7, 1999. 281. Institute of Electro-Optics, National Chiao-Tung University, Hsinchu, Taiwan, March 8, 1999. 282. Department of Physics, University of Porto, Porto, Portugal, May 8, 2000. 283. Department of Physics, University of Coimbra, Coimbra, Portugal, May 9, 2000. 284. National Institute of Engineering and Industrial Technology, University of Lisbon, Portugal, May 10, 2000. 285. Physics Department, University of Florence, Florence, May 24, 2000. 286. Department of Optical Engineering, Beijing Institute of Technology, Beijing, China, November 8, 2001. 287. Modern Optical Institute, Nankai University, Tianjin, China, November 9, 2001. 288. Physics Department, Xiamen University, Xiamen, China. 289. Faculty of Engineering and Technology, Multi-Media University, Melaka, Malaysia, November 29, 2001. 290. Penang Skills Development Center, Penang, Malaysia, November 30, 2001. And others. |