All papers are listed by primary topic.
*Where a paper is also listed under its secondary topic, it is denoted by an asterisk. Optics for Perception and Display Pattern Recognition and Machine Learning for Perception Optics in Computing and Neural Networks Book chapters and patents are listed separately. Optics for Perception and Display• A. Alkan Gülses and B. Keith Jenkins, “Effects of Spatial Extensions in Computer Generated Holograms on Reconstruction Quality in Multi-Focal Imaging Systems,” in Digital Holography and Three-Dimensional Imaging, OSA Technical Digest (Optical Society of America, 2014) (3 pages), July 2014. • A. Alkan Gulses and B. Keith Jenkins, “Cascaded diffractive optical elements for improved multiplane image reconstruction”, Applied Optics, Vol. 52, No. 15, pp. 3608-3616 (20 May 2013). • A. Alkan Gulses and B. Keith Jenkins, “Multi-Plane Image Reconstruction Using Cascaded Phase Elements,”Digital Holography and 3D Imaging, Optical Society of America, paper DM4C.2, (3 pages), April 2012. • S. Piazzolla and B. K. Jenkins, “First-Harmonic Diffusion Model for Holographic Grating Formation in Photopolymers,” Journal of the Optical Society of America B, Vol. 17, No. 7, pp. 1147-1157 (July 2000). • *A. R. Tanguay, Jr., B. K. Jenkins, C. von der Malsburg, B. Mel, G. Holt, J. O’Brien, I. Biederman, A. Madhukar, P. Nasiatka, and Y. Huang, “Vertically Integrated Photonic Multichip Module Architecture for Vision Applications,” in Optics in Computing 2000, R. A. Lessard, T. Galstian, Editors, SPIE Vol. 4089, pp. 584-600, June 2000 (SPIE, Bellingham, WA, 2000). • S. Piazzolla and B. K. Jenkins, “Dynamics during holographic exposure in photopolymers for single and multiplexed gratings,” Journal of Modern Optics, Vol. 46, No. 15, pp. 2079-2110 (December 1999). • *C. Huang, B. K. Jenkins, and C. B. Kuznia, “Space-Variant Interconnections Based on Diffractive Optical Elements for Neural Networks: Architectures and Crosstalk Reduction,” Applied Optics, Vol. 37, No. 5, pp. 889-911 (10 February 1998). • S. Piazzolla and B. K. Jenkins, “Holographic grating formation in photopolymers,” Optics Letters, Vol. 21, No. 14, pp. 1075-1077 (15 July 1996). • *G. C. Petrisor, A. A. Goldstein, B. K. Jenkins, E. J. Herbulock, and A. R. Tanguay, Jr., “Convergence of backward-error-propagation learning in photorefractive crystals,” Applied Optics, Vol. 35, No. 8, pp. 1328-1343 (10 March 1996). • *A. A. Goldstein, G. C. Petrisor and B. K. Jenkins, “Gain and Exposure Scheduling to Eliminate Photorefractive Neural Network Weight Decay”, Optics Letters, Vol. 20, No. 6, pp. 611-613 (March 15, 1995). • *C. Huang, B. K. Jenkins, and C. B. Kuznia, “Weighted space-variant local interconnections based on micro-optic components: crosstalk analysis and reduction,” in Optical Computing, 1995 OSA Technical Digest Series, Vol. 10, pp. 280-282, March 1995 (Optical Society of America, Washington DC, 1995). • *G. C. Petrisor, A. A. Goldstein, E. J. Herbulock, B. K. Jenkins, and A. R. Tanguay, Jr., “Convergence of backward error propagation learning in photorefractive crystals,” in Optical Computing, 1995 OSA Technical Digest Series, Vol. 10, pp. 158-160, March 1995 (Optical Society of America, Washington DC, 1995). • *K.-S. Huang, C. B. Kuznia, B. K. Jenkins and A. A. Sawchuk, “Parallel Architectures for Digital Optical Cellular Image Processing”, Proceedings of the IEEE, Vol. 82, No. 11, pp. 1711-1723, November 1994. • *G. C. Petrisor, S. Piazzolla, G. P. Nordin, B. K. Jenkins, A. R. Tanguay, Jr., “Volume Holographic Interconnection and Copying Architectures Based on Incoherent/Coherent Source Arrays,” Proc. Fourth International Conference on Holographic Components, Systems and Applications, Neuchatel, Switzerland, 13-15 September 1993, IEE Conference Publication No. 379 (Institution of Electrical Engineering, London, 1993) pp. 21-26. • *D. Wiley, I. Glaser, B. K. Jenkins, and A. A. Sawchuk, “Incoherent Dynamic Lenslet Array Processor,” Applied Optics, Vol. 32, No. 20, pp. 3641-3653 (10 July 1993) • C. H. Wang, B. K. Jenkins and J. M. Wang, “Visual Cortex Operations and Their Implementation Using the Incoherent Optical Neuron Model,” Applied Optics, Vol. 32, No. 11, pp. 1876-1887 (10 April 1993). • *K. S. Huang, A. A. Sawchuk, B. K. Jenkins, P. Chavel, J. M. Wang, A. G. Weber, C. H. Wang and I. Glaser, “A Digital Optical Cellular Image Processor (DOCIP): Experimental Implementation,” Applied Optics, Vol. 32, No. 2, pp. 166-173 (10 Jan 1993). • S. Piazzolla, B. K. Jenkins, and A. R. Tanguay, Jr., “Single-Step Copying Process for Multiplexed Volume Holograms,” Optics Letters, Vol. 17, No. 9, pp. 676-678 (1 May 1992). • *C. H. Wang and B. K. Jenkins, “Subtracting Incoherent Optical Neuron Model: Analysis, Experiment, and Applications,” Applied Optics, Vol. 29, No. 14, pp. 2171-2186 (10 May 1990). • *D. Wiley, I. Glaser, B. K. Jenkins, A. A. Sawchuk, and A. G. Weber, “Lenslet Array Based Dynamic Optical Neural Network,” 1990 International Topical Meeting on Optical Computing, International Commission for Optics, Technical Digest, pp. 245-246, Kobe, Japan, April 8-12, 1990. • *K. S. Huang, B. K. Jenkins, and A. A. Sawchuk, “Binary Image Algebra and Optical Cellular Logic Processor Design,” Computer Vision, Graphics, and Image Processing, Vol. 45, pp. 295-345 (1989). • *C. H. Wang and B. K. Jenkins, “Implementation of a Subtracting Incoherent Optical Neuron Model,” Proc. IEEE Third Annual Parallel Processing Symposium, Fullerton, CA (March 1989). • *B. K. Jenkins and C. H. Wang, “Model for an Incoherent Optical Neuron that Subtracts,” Optics Letters, Vol. 13, pp. 892-894 (Oct. 1988). • *K. S. Huang, B. K. Jenkins, and A. A. Sawchuk, “Optical Symbolic Substitution and Pattern Recognition Algorithms Based on Binary Image Algebra,” Proc. ICO Topical Meeting on Optical Computing, Toulon, France, pp. 711-719 (August 1988). • *B. K. Jenkins and C. L. Giles, “Superposition in Optical Computing,” Proc. ICO Topical Meeting on Optical Computing, Toulon, France, pp. 407-413 (August 1988). • *C. H. Wang and B. K. Jenkins, “Implementation Considerations of a Subtracting Incoherent Optical Neuron,”Proc. IEEE International Conference on Neural Networks, San Diego, Vol. II, pp. 403-410 (July 1988). • *K-S Huang, B. K. Jenkins, and A. A. Sawchuk, “Optical Cellular Logic Architecture Based on Binary Image Algebra,” Proc. IEEE Workshop on Computer Architecture for Pattern Analysis and Machine Intelligence (CAPAMI), Seattle, Washington, pp. 19-26 (Oct. 1987). • *K-S Huang, B. K. Jenkins, and A. A. Sawchuk, “A Cellular Hypercube Architecture for Image Processing,”Applications of Digital Image Processing X, Proc. SPIE Vol. 829, pp. 331-338, San Diego (Aug. 1987). • *K-S Huang, B. K. Jenkins, and A. A. Sawchuk, “Digital Optical Cellular Image Processing,” Technical Digest,OSA Topical Meeting on Optical Computing, Vol. 11, Incline Village, NV, March 16-18, pp. 20-23 (1987). • *B. K. Jenkins and A. A. Sawchuk, “Optical Cellular Logic Architectures for Image Processing,” Proc. IEEE Computer Society Workshop on Computer Architecture for Pattern Analysis and Image Database Management (CAPAIDM), pp. 61-65 (1985). • B. K. Jenkins, “Phase Gratings for Range Sensing Based on Diffraction,” Technical Digest, OSA Topical Meeting on Machine Vision, Lake Tahoe, California, March 20-22, pp. ThB5-1 – ThB5-4 (1985). Pattern Recognition and Machine Learning for Perception • Deniz Kumlu and B. Keith Jenkins, “Autonomous ship classification using synthetic and real color images”,Proceedings Imaging Science and Technology’s Electronic Imaging 2013 Conference, Image Processing: Machine Vision Applications VI, Paper No. 8661-21, (8 pages), Feb. 3-7, 2013. • Mishra, P., Jenkins, B. K. “Fusion of Biologically Inspired and Visual Perception Based Feature Sets for Object Recognition,” Proceedings of the 2010 International Conference on Image Processing, Computer Vision and Pattern Recognition, CSREA Press 2010, pp. 667-673, July 2010. • Mishra, P., Jenkins, B. K. “Hierarchical Model for Object Recognition Based on Natural-Stimuli Adapted Filters,” Proceedings of the IEEE Intl. Conference on Acoustics, Speech, and Signal Processing, paper 1759, IEEE, pp. 950-953, March 2010. • Mishra, P., Jenkins, B. K. “Hierarchical Model for Object Recognition Based on Biologically Inspired Filters,” David Fofi, Kurt S. Niel (Ed.), Proceedings of the IS&T/SPIE Electronic Imaging Conference, SPIE vol. 7538, (8 pages), Bellingham, WA January 2010. • Yunsong Huang and B. Keith Jenkins, “Non-iterative Estimation with Perturbed Gaussian Markov Processes,”Neural Information Processing Systems, Vancouver, B.C., December 2005, paper 621; in Yair Weiss, Bernhard Schölkopf, and John Platt, Eds., Advances in Neural Information Processing Systems 18, MIT Press, 2006. • *A. R. Tanguay, Jr., B. K. Jenkins, C. von der Malsburg, B. Mel, G. Holt, J. O’Brien, I. Biederman, A. Madhukar, P. Nasiatka, and Y. Huang, “Vertically Integrated Photonic Multichip Module Architecture for Vision Applications,” in Optics in Computing 2000, R. A. Lessard, T. Galstian, Editors, SPIE Vol. 4089, pp. 584-600, June 2000 (SPIE, Bellingham, WA, 2000). • *G. C. Petrisor, A. A. Goldstein, B. K. Jenkins, E. J. Herbulock, and A. R. Tanguay, Jr., “Convergence of backward-error-propagation learning in photorefractive crystals,” Applied Optics, Vol. 35, No. 8, pp. 1328-1343 (10 March 1996). • *A. A. Goldstein, G. C. Petrisor and B. K. Jenkins, “Gain and Exposure Scheduling to Eliminate Photorefractive Neural Network Weight Decay”, Optics Letters, Vol. 20, No. 6, pp. 611-613 (March 15, 1995). • *C. H. Wang, B. K. Jenkins and J. M. Wang, “Visual Cortex Operations and Their Implementation Using the Incoherent Optical Neuron Model,” Applied Optics, Vol. 32, No. 11, pp. 1876-1887 (10 April 1993). • H. Sano and B.K. Jenkins, “A Neural Network Model for Pitch Perception,” Computer Music Journal, pp. 41-48 (Fall 1989). • K. S. Huang, B. K. Jenkins, and A. A. Sawchuk, “Optical Symbolic Substitution and Pattern Recognition Algorithms Based on Binary Image Algebra,” Proc. ICO Topical Meeting on Optical Computing, Toulon, France, pp. 711-719 (August 1988). • Y.T. Zhou, R. Chellappa, A. Vaid, and B.K. Jenkins, “Image Restoration Using a Neural Network,” IEEE Trans. ASSP, special issue on neural networks, pp. 1141-1151 (July 1988). • *K-S Huang, B. K. Jenkins, and A. A. Sawchuk, “Optical Cellular Logic Architecture Based on Binary Image Algebra,” Proc. IEEE Workshop on Computer Architecture for Pattern Analysis and Machine Intelligence (CAPAMI), Seattle, Washington, pp. 19-26 (Oct. 1987). • Y. T. Zhou, R. Chellappa and B. K. Jenkins, “A Novel Approach to Image Restoration Based on a Neural Network,” Proc. IEEE First International Conference on Neural Networks, San Diego, Vol. IV, pp. 269-276 (June 1987) • Papers on image processing using optical or optical/electronic hardware are listed under the next topic. Optics in Computing and Neural Networks • *S. Piazzolla and B. K. Jenkins, “First-Harmonic Diffusion Model for Holographic Grating Formation in Photopolymers,” Journal of the Optical Society of America B, Vol. 17, No. 7, pp. 1147-1157 (July 2000). • A. R. Tanguay, Jr., B. K. Jenkins, C. von der Malsburg, B. Mel, G. Holt, J. O’Brien, I. Biederman, A. Madhukar, P. Nasiatka, and Y. Huang, “Vertically Integrated Photonic Multichip Module Architecture for Vision Applications,” in Optics in Computing 2000, R. A. Lessard, T. Galstian, Editors, SPIE Vol. 4089, pp. 584-600, June 2000 (SPIE, Bellingham, WA, 2000). • *S. Piazzolla and B. K. Jenkins, “Dynamics during holographic exposure in photopolymers for single and multiplexed gratings,” Journal of Modern Optics, Vol. 46, No. 15, pp. 2079-2110 (December 1999). • C. Huang, B. K. Jenkins, and C. B. Kuznia, “Space-Variant Interconnections Based on Diffractive Optical Elements for Neural Networks: Architectures and Crosstalk Reduction,” Applied Optics, Vol. 37, No. 5, pp. 889-911 (10 February 1998). • *S. Piazzolla and B. K. Jenkins, “Holographic grating formation in photopolymers,” Optics Letters, Vol. 21, No. 14, pp. 1075-1077 (15 July 1996). • G. C. Petrisor, A. A. Goldstein, B. K. Jenkins, E. J. Herbulock, and A. R. Tanguay, Jr., “Convergence of backward-error-propagation learning in photorefractive crystals,” Applied Optics, Vol. 35, No. 8, pp. 1328-1343 (10 March 1996). • C. Kyriakakis, Z. Karim, A. R. Tanguay, Jr., R. F. Cartland, A. Madhukar, S. Piazzolla, B. K. Jenkins, C. B. Kuznia, A. A. Sawchuk, and C. von der Malsburg, “Photonic implementations of neural networks,” invited paper, in Optical Computing, 1995 OSA Technical Digest Series, Vol. 10, pp. 128-130, March 1995 (Optical Society of America, Washington DC, 1995). • K.-Y. Li and B. K. Jenkins, “A collisionless wavelength-division multiple access protocol for free-space cellular hypercube parallel computer systems,” in Optical Computing, 1995 OSA Technical Digest Series, Vol. 10, pp. 266-268, March 1995 (Optical Society of America, Washington DC, 1995). • C. Waterson and B. K. Jenkins, “Routing algorithm for a circuit-switched optical extended generalized shuffle network,” in Optical Computing, 1995 OSA Technical Digest Series, Vol. 10, pp. 29-31, March 1995 (Optical Society of America, Washington DC, 1995). • C. Huang, B. K. Jenkins, and C. B. Kuznia, “Weighted space-variant local interconnections based on micro-optic components: crosstalk analysis and reduction,” in Optical Computing, 1995 OSA Technical Digest Series, Vol. 10, pp. 280-282, March 1995 (Optical Society of America, Washington DC, 1995). • G. C. Petrisor, A. A. Goldstein, E. J. Herbulock, B. K. Jenkins, and A. R. Tanguay, Jr., “Convergence of backward error propagation learning in photorefractive crystals,” in Optical Computing, 1995 OSA Technical Digest Series, Vol. 10, pp. 158-160, March 1995 (Optical Society of America, Washington DC, 1995). • K.-Y. Li and B. K. Jenkins, “Optical Parallel Access Shared Memory (OPASM) System: Analysis and Experimental Demonstration,” Applied Optics, Vol. 34, No. 2, pp. 358-369 (10 January 1995). • K.-S. Huang, C. B. Kuznia, B. K. Jenkins and A. A. Sawchuk, “Parallel Architectures for Digital Optical Cellular Image Processing”, Proceedings of the IEEE, Vol. 82, No. 11, pp. 1711-1723, November 1994. • C. Waterson and B. K. Jenkins, “Shared-Memory Optical/Electronic Computer: Architecture and Control,”Applied Optics, Vol. 33, No. 8, pp. 1559-1574 (10 March 1994). • C. Waterson and B. K. Jenkins, “Passive Optical Interconnection Network Employing a Shuffle-Exchange Topology,” Applied Optics, Vol. 33, No. 8, pp. 1575-1586 (10 March 1994). • G. C. Petrisor, S. Piazzolla, G. P. Nordin, B. K. Jenkins, A. R. Tanguay, Jr., “Volume Holographic Interconnection and Copying Architectures Based on Incoherent/Coherent Source Arrays,” Proc. Fourth International Conference on Holographic Components, Systems and Applications, Neuchatel, Switzerland, 13-15 September 1993, IEE Conference Publication No. 379 (Institution of Electrical Engineering, London, 1993) pp. 21-26. • D. Wiley, I. Glaser, B. K. Jenkins, and A. A. Sawchuk, “Incoherent Dynamic Lenslet Array Processor,” Applied Optics, Vol. 32, No. 20, pp. 3641-3653 (10 July 1993) • *C. H. Wang, B. K. Jenkins and J. M. Wang, “Visual Cortex Operations and Their Implementation Using the Incoherent Optical Neuron Model,” Applied Optics, Vol. 32, No. 11, pp. 1876-1887 (10 April 1993). • P. Asthana, G. P. Nordin, A. R. Tanguay, Jr. and B.K. Jenkins, “Analysis of Weighted Fan-out/Fan-in Volume Holographic Optical Interconnections,” Applied Optics, Vol. 32, No. 8, pp. 1441-1469 (10 March 1993). • K. S. Huang, A. A. Sawchuk, B. K. Jenkins, P. Chavel, J. M. Wang, A. G. Weber, C. H. Wang and I. Glaser, “A Digital Optical Cellular Image Processor (DOCIP): Experimental Implementation,” Applied Optics, Vol. 32, No. 2, pp. 166-173 (10 Jan 1993). • *S. Piazzolla, B. K. Jenkins, and A. R. Tanguay, Jr., “Single-Step Copying Process for Multiplexed Volume Holograms,” Optics Letters, Vol. 17, No. 9, pp. 676-678 (1 May 1992). • G. P. Nordin, P. Asthana, A. R. Tanguay, Jr., and B. K. Jenkins, “Analysis of Weighted Fan-out/Fan-in Volume Holographic Interconnections,” Topical Meeting on Diffractive Optics: Design, Fabrication, and Applications, 1992 Technical Digest Series, Vol. 9 (Optical Society of America, Washington, D.C., 1992), pp. 165-167. • B. K. Jenkins, S. H. Lee, and C. L. Giles, “Optical Computing: Introduction by the Feature Editors,” Applied Optics, Vol. 31, No. 26, pp. 5423-5425 (10 Sept 1992). • B. K. Jenkins, A. R. Tanguay, Jr., and A. Madhukar, “Photonic Technology for Densely-Interconnected Neural Networks,” Government Microcircuit Applications Conference, Las Vegas, Nevada, pp. 563-566 (November 9-12, 1992). • C. Waterson and B.K. Jenkins, “Shared Memory Optical/Electrical Computer: Architecture Design,” OSA Topical Meeting on Optical Computing, Optical Society of America, Salt Lake City, Utah, pp. Tu3-1 – TuA3-4 (March 4-6, 1991). • Ho-In Jeon, M.A.G. Abushagur, A.A. Sawchuk, and B.K. Jenkins, “Digital Optical Processor Based on Symbolic Substitution Using Holographic Matched Filtering,” Applied Optics, Vol. 29, No. 14, pp. 2113-2125 (10 May 1990). • C. H. Wang and B. K. Jenkins, “Subtracting Incoherent Optical Neuron Model: Analysis, Experiment, and Applications,” Applied Optics, Vol. 29, No. 14, pp. 2171-2186 (10 May 1990). • D. Wiley, I. Glaser, B.K. Jenkins, A.A. Sawchuk, and A.G. Weber, “Lenslet Array Based Dynamic Optical Neural Network,” 1990 International Topical Meeting on Optical Computing, International Commission for Optics, Technical Digest, pp. 245-246, Kobe, Japan, April 8-12, 1990. • P. Asthana, H. Chin, G. Nordin, A.R. Tanguay, Jr., S. Piazzolla, B.K. Jenkins, and A. Madhukar, “Photonic Components for Neural Net Implementations Using Incoherent/Coherent Holographic Interconnections,” 1990 International Topical Meeting on Optical Computing, International Commission for Optics, Technical Digest, pp. 323-324, Kobe, Japan, April 8-12, 1990. • B.K. Jenkins, G. Petrisor, S. Piazzolla, P. Asthana, and A.R. Tanguay, Jr., “Photonic Architecture for Neural Nets Using Incoherent/Coherent Holographic Interconnections,” 1990 International Topical Meeting on Optical Computing, International Commission for Optics, Technical Digest, pp. 317-318, Kobe, Japan, April 8-12, 1990. • K. S. Huang, B. K. Jenkins, and A. A. Sawchuk, “Binary Image Algebra and Optical Cellular Logic Processor Design,” Computer Vision, Graphics, and Image Processing , Vol. 45, pp. 295-345 (1989). • K. S. Huang, B. K. Jenkins, and A. A. Sawchuk, “Image Algebra Representation of Parallel Optical Binary Arithmetic,” Applied Optics, vol. 28, No. 6, pp. 1263-1278 (15 March 1989). • C.H. Wang and B.K. Jenkins, “Implementation of a Subtracting Incoherent Optical Neuron Model,” Proc. IEEE Third Annual Parallel Processing Symposium, Fullerton, CA (March 1989). • B. K. Jenkins and C. H. Wang, “Model for an Incoherent Optical Neuron that Subtracts,” Optics Letters, Vol. 13, pp. 892-894 (Oct. 1988). • K. S. Huang, A. A. Sawchuk, B. K. Jenkins, P. Chavel, J. M. Wang, A. G. Weber, C. H. Wang, and I. Glaser, “a Prototype Digital Optical Cellular Image Processor (DOCIP),” Proc. ICO Topical Meeting on Optical Computing,Toulon, France, pp. 687-694 (August 1988). • *K. S. Huang, B. K. Jenkins, and A. A. Sawchuk, “Optical Symbolic Substitution and Pattern Recognition Algorithms Based on Binary Image Algebra,” Proc. ICO Topical Meeting on Optical Computing, Toulon, France, pp. 711-719 (August 1988). • B. K. Jenkins and C. L. Giles, “Superposition in Optical Computing,” Proc. ICO Topical Meeting on Optical Computing, Toulon, France, pp. 407-413 (August 1988). • C. H. Wang and B. K. Jenkins, “Implementation Considerations of a Subtracting Incoherent Optical Neuron,”Proc. IEEE International Conference on Neural Networks, San Diego, Vol. II, pp. 403-410 (July 1988). • B. K. Jenkins, “Optical Digital Computing and Interconnections,” Proc. IEEE International Symposium on Circuits and Systems, Espoo, Finland, pp. 1075-1078 (June 1988). • C. H. Wang and B. K. Jenkins, “Potential Difference Learning and Its Optical Design,” Proc. Soc. Photo-Opt. Instr. Eng., Vol. 882 (January 1988). • K-S Huang, B. K. Jenkins, and A. A. Sawchuk, “Optical Cellular Logic Architecture Based on Binary Image Algebra,” Proc. IEEE Workshop on Computer Architecture for Pattern Analysis and Machine Intelligence (CAPAMI), Seattle, Washington, pp. 19-26 (Oct. 1987). • K-S Huang, B. K. Jenkins, and A. A. Sawchuk, “A Cellular Hypercube Architecture for Image Processing,”Applications of Digital Image Processing X, Proc. SPIE Vol. 829, pp. 331-338, San Diego (Aug. 1987). • A. A. Sawchuk, B. K. Jenkins, C. S. Raghavendra, A. Varma, “Optical Crossbar Networks,” Computer, special issue on interconnection networks, Vol. 20, No. 6, pp. 50-60 (June 1987). • K-S Huang, B. K. Jenkins, and A. A. Sawchuk, “Digital Optical Cellular Image Processing,” Technical Digest,OSA Topical Meeting on Optical Computing, Vol. 11, Incline Village, NV, March 16-18, pp. 20-23 (1987). • B. K. Jenkins and C. L. Giles, “Computational Issues in Digital Optical Computing,” invited paper, Proc. IEEE Computer Conference, San Francisco, California (February 1987). • Zhiwei Xu, Kai Hwang, and B. Keith Jenkins, “OpCom: An Architecture for Optical Computing Based on Pipeline Networking,” invited paper, Proc. Twentieth Annual Hawaii International Conference on System Sciences, Honolulu, Hawaii (Jan. 6-9 1987). • C.L. Giles and B.K. Jenkins, “Complexity Implications of Optical Parallel Computing,” invited paper, Proc. Twentieth Annual Asilomar Conference on Signals, Systems, and Computers, Pacific Grove, Calif., Nov. 10-12, IEEE Cat. No. 87CH2461-2, pp. 513-517 (1986). • A.A. Sawchuk, B.K. Jenkins, C.S. Raghavendra, and A. Varma, “Optical Matrix-Vector Implementations of Crossbar Networks,” Proc. International Conference on Parallel Processing, IEEE Cat. No. 86CH2355-6, pp. 401-404 (1986). • B.K. Jenkins and C.L. Giles, “Parallel Processing Paradigms and Optical Computing,” Proc. Soc. Photo-Opt. Instr. Eng., Vol. 625, pp. 22-29 (1986). • A.A. Sawchuk and B.K. Jenkins, “Dynamic Optical Interconnections for Parallel Processors,” Proc. Soc. Photo-Opt. Instr. Eng., Vol. 625, pp. 143-153 (1986). • B.K. Jenkins and A.A. Sawchuk, “Optical Cellular Logic Architectures for Image Processing,” Proc. IEEE Computer Society Workshop on Computer Architecture for Pattern Analysis and Image Database Management (CAPAIDM), pp. 61-65 (1985). • B.K. Jenkins, “Architectural Characteristics of Optical Logic Systems,” Proc. IEEE Computer Conference,IEEE Cat. No. 85CH2135-2 pp. 336-341 (1985). • A.A. Sawchuk, B.K. Jenkins, C.S. Raghavendra, and A. Varma, “Optical Interconnection Networks,” Proc. International Conference on Parallel Processing, IEEE Cat. No. 85CH2140-2, pp. 388-392 (1985). • A.A. Sawchuk and B.K. Jenkins, “Algorithms for Digital Optical Processors,” Technical Digest, OSA Topical Meeting on Optical Computing, Lake Tahoe, California, March 18-20, pp. TuA2-1 – TuA2-4 (1985). • B.K. Jenkins, P. Chavel, R. Forchheimer, A.A. Sawchuk, and T.C. Strand, “Architectural Implications of a Digital Optical Processor,” Applied Optics, vol. 23, pp. 3465-3474 (1984). • B.K. Jenkins, A.A. Sawchuk, T.C. Strand, R. Forchheimer, and B.H. Soffer, “Sequential Optical Logic Implementation,” Applied Optics, vol. 23, pp. 3455-3464 (1984). • B.K. Jenkins and A.A. Sawchuk, “Characteristics of Digital Optical Processors,” Proc. IEEE Global Telecommunications Conference, Atlanta, Georgia, pp. 893-902 (1984). • B.K. Jenkins and T.C. Strand, “Computer-Generated Holograms for Space-Variant Interconnections in Optical Logic,” Proc. Soc. Photo-Opt. Instrum. Eng., Vol. 437, pp. 110-118 (1983). • P. Chavel, R. Forchheimer, B.K. Jenkins, A.A. Sawchuk, and T.C. Strand, “Architectures for a Sequential Optical Logic Processor,” Proceedings of the Tenth International Optical Computing Conference, IEEE Cat. No. 83CH1880-4, pp. 6-12 (1983). Book Chapters • A. R. Tanguay, Jr. and B. K. Jenkins, “Hybrid Electronic/Photonic Multichip Modules for Vision and Neural Prosthetic Applications,” Ch. 14 in T. W. Berger and D. L. Glanzman, Eds, Toward Replacement Parts for the Brain: Implantable Biomimetic Electronics as the Next Era in Neural Prosthetics, pp. 295-334 (MIT Press, Cambridge, 2005). • B. K. Jenkins and A. R. Tanguay, Jr., “Photonic Implementations of Neurobiologically Inspired Networks,” in M. Arbib, Ed., Handbook of Brain Theory and Neural Networks, Second Edition (MIT Press, 2002), pp. 889-893. • A. R. Tanguay, Jr. and B. K. Jenkins, “Optical components for neural network implementations”, in M. Arbib, Ed., Handbook of Brain Theory and Neural Networks, (MIT Press, Cambridge, 1995), pp. 677-682. • B. K. Jenkins and A. R. Tanguay, Jr., “Optical architectures for neural network implementations”, in M. Arbib, Ed., Handbook of Brain Theory and Neural Networks, (MIT Press, Cambridge, 1995), pp. 673-677. • B. K. Jenkins and A. R. Tanguay, Jr., “Photonic Implementations of Neural Networks,” in B. Kosko, Ed., Neural Networks for Signal Processing, (Prentice-Hall, Englewood Cliffs, NJ 1992), pp. 287-382. • H. Sano and B. K. Jenkins, “A Neural Network Model for Pitch Perception and Extension to Multiple Tone Inputs,” in P. Todd and G. Loy, Eds., Music and Connectionism(MIT Press, Cambridge, 1991), pp. 42-53. Patents • B. K. Jenkins and A. R. Tanguay, Jr., “Apparatus for Simultaneous Spatial Modulation of Incoherent/Coherent Angularly Multiplexed Optical Beams,” assigned to University of Southern California, U. S. Patent No. 6,445,470, filed 27 August 2000 with U. S. Patent and Trademark Office (divisional of U. S. Pat. No. 5,416,616), issued 3 Sept. 2002. • B. K. Jenkins and A. R. Tanguay, Jr., “Apparatus for Incoherent/Coherent Readout and Display of Information Stored in Double Angularly Multiplexed Volume Holographic Optical Elements”, assigned to University of Southern California, U. S. Patent No. 6,128,109, file date 23 June 1997, (divisional of U. S. Pat. No. 5,416,616) issued 3 Oct. 2000. • B. K. Jenkins and A. R. Tanguay, Jr., “Incoherent/Coherent Double Angularly Multiplexed Volume Holographic Optical Elements,” assigned to University of Southern California, U.S. Patent No. 5,661,577, file date 15 May 1995 (divisional of U. S. Pat. No. 5,416,616), issued 26 Aug. 1997. • A. R. Tanguay, Jr. and B. K. Jenkins, “Modulator-Based Photonic Chip-to-Chip Interconnections for Dense Three-Dimensional Multichip Module Integration,” assigned to University of Southern California, U. S. Patent No. 5,568,574, file date 12 June 1995, issued 22 Oct. 1996. • B. K. Jenkins and A. R. Tanguay, Jr., “Incoherent/Coherent Readout of Double Angularly Multiplexed Volume Holographic Optical Elements,” assigned to University of Southern California, U. S. Patent No. 5,416,616, file date 8 June 1992 (continuation-in-part of U. S. Pat. No. 5,121,231), issued 16 May 1995. • B. K. Jenkins and A. R. Tanguay, Jr., “Incoherent/Coherent Source Array for Multiplexed Holographic Recording and Readout,” assigned to University of Southern California, U. S. Patent No. 5,339,177, file date 13 Feb. 1992 (divisional of U. S. Pat. No. 5,121,231), issued 16 Aug. 1994. • B. K. Jenkins and A. R. Tanguay, Jr., “Spatial Light Modulators for Incoherent/Coherent Multiplexed Holographic Recording and Readout,” assigned to University of Southern California, U. S. Pat. No. 5,285,308, file date 13 Feb. 1992 (divisional of U. S. Pat. No. 5,121,231), issued 8 Feb. 1994. • B. K. Jenkins and A. R. Tanguay, Jr., “Incoherent/Coherent Multiplexed Holographic Recording for Photonic Interconnections and Holographic Optical Elements,” assigned to University of Southern California, U. S. Pat. No. 5,121,231, file date 6 April 1990, issued 9 June 1992. |