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Szabolcs Tőkés, Ph.D., senior research fellow Address: 1111 Budapest, Kende u. 13-17. Room number: K 329 Phone: +36 1 279 6135 Fax: +36 1 466 7503 E-mail: tokesEZT_TOROLJE_KI@EZT_TOROLJE_KIsztaki.hu Homepage: http://www.sztaki.hu/~tokes/ http://lab.analogic.sztaki.hu/, http://www.sztaki.hu/people/008003382/ Department: Cellular Sensory and Optical Wave Computing Laboratory Szabolcs Tőkés PhD. is a Senior Scientist at the Analogic and Neural Computing Research Laboratory of the Computer and Automation Research Institute of the Hungarian Academy of Sciences. Besides academic work in the field of laser physics, holography, acousto-optics, optical information processing, diffractive optics he has industrial experience in the manufacture of gas lasers, development and manufacture of laser image-recording equipment and laser plotters. His research and development activity founded a new branch of industry in Hungary, namely the laser recorder’s industry. This includes the manufacturing of laser-plotters for printed circuit filming and imagesetters for printing-press. His current research centered about wave optics, mainly optical computing, optical implementation of the cellular neural network wave computer and digital holographic microscopy, adaptive optics. Publications [order by time] [order by categories ] [order by authors] Ayoub, A POAC: optical computer for large data sets Authors: Ayoub, A; Orzó, L; Tőkés, Sz Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ERCIM NEWS (Issue no.: 60, Page: 76-77) A new CNN template for POAC peak enhancement Authors: Ayoub, A; Tőkés, Sz Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ECCTDâ05. Proceedings of the 2005 European conference on circuit theory and design. Cork, 2005. (Page: 157-160) POAC (programmable optical array computer) applied for target recognition and tracking Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Military remote sensing. SPIE European symposium on optics/photonics in security and defense, London. (SPIE Proceedings 5613) (Page: 154-165) Laptop POAC: a compact optical implementation of CNN-UM Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 70-75) The first version of the optical programmable array/analogic computer (POAC) template library Authors: Ayoub, A; Tőkés, SZ Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Circuits and Systems. Proceedings of the 46th IEEE International Midwest Symposium Cairo, MWSCAS 2003 (Page: 4 pages) Evolution of the programmable optical array computer (POAC) Authors: Ayoub, A; Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 64-69) A review of the programmable optical array computer (POAC). (Research report of the Analogical and Neural Computing Laboratory DNS-2-2004) Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: A review of the programmable optical array computer (POAC). (Research report of the Analogical and Neural Computing Laboratory DNS-2-2004) (Page: 23) Flexibly programmable opto-electronic analogic CNN computer (POAC) implementation applying an efficient, unconventional optical correlator architecture Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS (Volume no.: 12, Issue no.: 6, Page: 739-767) Two-wavelength POAC (Programmable Opto-Electronic Analogic Computer) using bacteriorhodopsin as dynamic holographic material Authors: Tőkés, SZ; Orzó, L; Ayoub, A Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 97-100) Simulation of optical CNN template library based on t2-JTC Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 257-260) A study of correlation process of a modified JTC for optical CNN Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 105-108) An advanced joint Fourier transform correlator (JTC). Authors: Tőkés, SZ; Orzó, L; Török, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 128-129) Ayoub, Ahmed Programmable OASLM as a novel sensing celllular computer Authors: Tőkés, Szabolcs; Orzó, László; Ayoub, Ahmed Editor: Tavsanoglu, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2006. Published by: CNNA 2006. Proceedings of the 10th IEEE international workshop on cellular neural networks and their applications. Istanbul, 2006. (Page: 63-67) Optical cellular wave computer implementation and programming Authors: Ayoub, Ahmed; Tőkés, Szabolcs; Orzó, László Editor: Tavsanoglu, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2006. Published by: CNNA 2006. Proceedings of the 10th IEEE international workshop on cellular neural networks and their applications. Istanbul, 2006. (Page: 57-62) Divós, Péter Digital holographic microscopy and CNN based image processing for biohazard detection. Authors: Tőkés, Szabolcs; Szabó, Vilmos; Orzó, László; Divós, Péter; Krivosíja, Zoltán Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: CNNA 2008. 11th international workshop on cellular neural networks and their applications. Santiago de Compostela, 2008. (Page: 8.) Dér, A Programmable analogic cellular optical computer using bacteriorhodopsin as analog rewriteable image memory. Authors: Tőkés, SZ; Orzó, L; Váró, GY; Dér, A; Ormos, P; Roska, T Department: Internet Technology Department Date: 2001. Published by: Bioelectronic applications of photochromic pigments (NATO science series. Ser. 1. Life and behavioural sciences 335.) (Page: 54-73) Földesy, P Various implementations of topographic, sensory, cellular wave computers Authors: Zarándy, Á; Földesy, P; Szolgay, P; Tőkés, Sz; Rekeczky, Cs; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ISCAS 2005. IEEE international symposium on circuits and systems. Kobe, 2005. (Page: 5802-5805) Göröcs Zoltán, Sándor GPU implementation of volume reconstruction and object detection in digital holographic microscopy. Authors: Orzó, László; Göröcs Zoltán, Sándor; Szatmári, István; Tőkés, Szabolcs Editor: Roska, Tamás; Gilli, Marco; Zarándy, Ákos Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 02. 03. Published by: 12th international workshop on cellular nanoscale networks and their applications. CNNA 2010. Berkeley, 2010. (Page: 473-476.) Göröcs, Zoltán Sándor Multi-color digital holographic microscope (DHM) for biological purposes. Authors: Göröcs, Zoltán Sándor; Kiss, Márton Zsolt; Tóth, Veronika Mária; Orzó, László; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 01. 23. Published by: Imaging, manipulation, and analysis of biomolecules, cells, and tissues VIII. San Francisco, 2010. (Proceedings of SPIE 7568.) (Length: 1-10. page) Download article: [html] In-line color digital holographic microscope for water quality measurements. Authors: Göröcs, Zoltán Sándor; Orzó, László; Kiss, Márton Zsolt; Tóth, Veronika Mária; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 06. 09. Published by: International conference on laser applications in life sciences (LALS-2010). Oulu, 2010. (Proceedings of SPIE 7376.) (Length: 1-10. page) Download article: [html] Kas, I An interference patterning equipment using DOE array. Authors: Tőkés, SZ; Kas, I; Toth, A; Paakkonen, P; Turunen, J Department: Internet Technology Department Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 130-131) Multibeam 2D acousto-optic modulator combined with arrays of diffractive optical elements. Authors: Tőkés, SZ; Kas, I; Paakkonen, P; Turunen, J; Kettunen, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: Jena '99. Diffractive optics. Jena, 1999. (European Optical Society topical meetings digest series, 22.) (Page: 78-79) Kettunen, V Multibeam 2D acousto-optic modulator combined with arrays of diffractive optical elements. Authors: Tőkés, SZ; Kas, I; Paakkonen, P; Turunen, J; Kettunen, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: Jena '99. Diffractive optics. Jena, 1999. (European Optical Society topical meetings digest series, 22.) (Page: 78-79) Kiss, Márton Zsolt Multi-color digital holographic microscope (DHM) for biological purposes. Authors: Göröcs, Zoltán Sándor; Kiss, Márton Zsolt; Tóth, Veronika Mária; Orzó, László; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 01. 23. Published by: Imaging, manipulation, and analysis of biomolecules, cells, and tissues VIII. San Francisco, 2010. (Proceedings of SPIE 7568.) (Length: 1-10. page) Download article: [html] In-line color digital holographic microscope for water quality measurements. Authors: Göröcs, Zoltán Sándor; Orzó, László; Kiss, Márton Zsolt; Tóth, Veronika Mária; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 06. 09. Published by: International conference on laser applications in life sciences (LALS-2010). Oulu, 2010. (Proceedings of SPIE 7376.) (Length: 1-10. page) Download article: [html] Krivosíja, Zoltán Digital holographic microscopy and CNN based image processing for biohazard detection. Authors: Tőkés, Szabolcs; Szabó, Vilmos; Orzó, László; Divós, Péter; Krivosíja, Zoltán Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: CNNA 2008. 11th international workshop on cellular neural networks and their applications. Santiago de Compostela, 2008. (Page: 8.) Mező, György Combined optically addressable spatial light modulator for affordable adaptive optics. Authors: Orzó, László; Mező, György; Tőkés, Szabolcs; Radványi, András Editor: Hubin, Norbert; Max, Claire E.; Wizinowich, Peter L. Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: Adaptive optics systems. Marseille, 2008. Part 2. (SPIE proceedings 7015.) (Page: 3M1-3M8.) Ormos, P Programmable analogic cellular optical computer using bacteriorhodopsin as analog rewriteable image memory. Authors: Tőkés, SZ; Orzó, L; Váró, GY; Dér, A; Ormos, P; Roska, T Department: Internet Technology Department Date: 2001. Published by: Bioelectronic applications of photochromic pigments (NATO science series. Ser. 1. Life and behavioural sciences 335.) (Page: 54-73) Orzó, L POAC: optical computer for large data sets Authors: Ayoub, A; Orzó, L; Tőkés, Sz Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ERCIM NEWS (Issue no.: 60, Page: 76-77) POAC (programmable optical array computer) applied for target recognition and tracking Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Military remote sensing. SPIE European symposium on optics/photonics in security and defense, London. (SPIE Proceedings 5613) (Page: 154-165) Laptop POAC: a compact optical implementation of CNN-UM Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 70-75) Evolution of the programmable optical array computer (POAC) Authors: Ayoub, A; Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 64-69) A review of the programmable optical array computer (POAC). (Research report of the Analogical and Neural Computing Laboratory DNS-2-2004) Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: A review of the programmable optical array computer (POAC). (Research report of the Analogical and Neural Computing Laboratory DNS-2-2004) (Page: 23) Flexibly programmable opto-electronic analogic CNN computer (POAC) implementation applying an efficient, unconventional optical correlator architecture Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS (Volume no.: 12, Issue no.: 6, Page: 739-767) Two-wavelength POAC (Programmable Opto-Electronic Analogic Computer) using bacteriorhodopsin as dynamic holographic material Authors: Tőkés, SZ; Orzó, L; Ayoub, A Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 97-100) Two-wavelength POAC (Programmable Opto-Electronic Analogic Computer) using bacteriorhodopsin as dynamic holographic material Authors: Tímár, G; Rekeczky, CS; Orzó, L; Tőkés, SZ Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 2. (Page: 77-80) Simulation of optical CNN template library based on t2-JTC Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 257-260) A study of correlation process of a modified JTC for optical CNN Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 105-108) Programmable optical CNN implementation based on the template pixels' angular coding. Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2002. Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 148-155) Basic mammalian retinal effects on the prototype complex cell CNN uiversal machine. Authors: Orzó, L; Tőkés, SZ; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2002. Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 156-163) Programmable opto-electronic CNN implementation provides a new and powerful tool for image processing applications. (Research report of the Analogical and Neural Computing Laboratory DNS-9-2001.) Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Programmable opto-electronic CNN implementation provides a new and powerful tool for image processing applications. (Research report of the Analogical and Neural Computing Laboratory DNS-9-2001.) (Page: 16) Programmable analogic cellular optical computer using bacteriorhodopsin as analog rewriteable image memory. Authors: Tőkés, SZ; Orzó, L; Váró, GY; Dér, A; Ormos, P; Roska, T Department: Internet Technology Department Date: 2001. Published by: Bioelectronic applications of photochromic pigments (NATO science series. Ser. 1. Life and behavioural sciences 335.) (Page: 54-73) Design aspects of an optical correlator based CNN implementation. Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Circuit paradigm in the 21st century. ECCTD '01. Proceedings of the 15th European conference on circuit theory and design. Espoo, 2001. Vol. 1. (Page: 353-356) Dennis Gabor as the initiator of optical computing. Importance and prospects of optical computing and an optical implementation of the CCN-UM computer. Authors: Tőkés, SZ; Orzó, L; Rekeczky, CS; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Magyar informatikusok II. világtalálkozója. Budapest, 2000. 1. köt. (Page: 173-187) An advanced joint Fourier transform correlator (JTC). Authors: Tőkés, SZ; Orzó, L; Török, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 128-129) Dennis Gabor as the initiator of optical computing: Importance and prospects of optical computing and an optical implementation of the CNN-UM computer. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: Dennis Gabor. On centenary of his birth. Dennis Gabor memorial conference and symposium on holography and high resolution measurement techniques including information processing and precision measurement techniques. Budapest, 2000. (Page: 15) An optical CNN implementation with stored programmability. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Roska, T; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: The 2000 IEEE international symposium on circuits and systems. Emerging technologies for the 21st century. ISCAS 2000. Geneva, 2000. Vol. 2. (Page: 136-139) Orzó, László Multi-color digital holographic microscope (DHM) for biological purposes. Authors: Göröcs, Zoltán Sándor; Kiss, Márton Zsolt; Tóth, Veronika Mária; Orzó, László; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 01. 23. Published by: Imaging, manipulation, and analysis of biomolecules, cells, and tissues VIII. San Francisco, 2010. (Proceedings of SPIE 7568.) (Length: 1-10. page) Download article: [html] In-line color digital holographic microscope for water quality measurements. Authors: Göröcs, Zoltán Sándor; Orzó, László; Kiss, Márton Zsolt; Tóth, Veronika Mária; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 06. 09. Published by: International conference on laser applications in life sciences (LALS-2010). Oulu, 2010. (Proceedings of SPIE 7376.) (Length: 1-10. page) Download article: [html] GPU implementation of volume reconstruction and object detection in digital holographic microscopy. Authors: Orzó, László; Göröcs Zoltán, Sándor; Szatmári, István; Tőkés, Szabolcs Editor: Roska, Tamás; Gilli, Marco; Zarándy, Ákos Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 02. 03. Published by: 12th international workshop on cellular nanoscale networks and their applications. CNNA 2010. Berkeley, 2010. (Page: 473-476.) Combined optically addressable spatial light modulator for affordable adaptive optics. Authors: Orzó, László; Mező, György; Tőkés, Szabolcs; Radványi, András Editor: Hubin, Norbert; Max, Claire E.; Wizinowich, Peter L. Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: Adaptive optics systems. Marseille, 2008. Part 2. (SPIE proceedings 7015.) (Page: 3M1-3M8.) Digital holographic microscopy and CNN based image processing for biohazard detection. Authors: Tőkés, Szabolcs; Szabó, Vilmos; Orzó, László; Divós, Péter; Krivosíja, Zoltán Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: CNNA 2008. 11th international workshop on cellular neural networks and their applications. Santiago de Compostela, 2008. (Page: 8.) Programmable OASLM as a novel sensing celllular computer Authors: Tőkés, Szabolcs; Orzó, László; Ayoub, Ahmed Editor: Tavsanoglu, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2006. Published by: CNNA 2006. Proceedings of the 10th IEEE international workshop on cellular neural networks and their applications. Istanbul, 2006. (Page: 63-67) Optical cellular wave computer implementation and programming Authors: Ayoub, Ahmed; Tőkés, Szabolcs; Orzó, László Editor: Tavsanoglu, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2006. Published by: CNNA 2006. Proceedings of the 10th IEEE international workshop on cellular neural networks and their applications. Istanbul, 2006. (Page: 57-62) Paakkonen, P An interference patterning equipment using DOE array. Authors: Tőkés, SZ; Kas, I; Toth, A; Paakkonen, P; Turunen, J Department: Internet Technology Department Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 130-131) Multibeam 2D acousto-optic modulator combined with arrays of diffractive optical elements. Authors: Tőkés, SZ; Kas, I; Paakkonen, P; Turunen, J; Kettunen, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: Jena '99. Diffractive optics. Jena, 1999. (European Optical Society topical meetings digest series, 22.) (Page: 78-79) Radványi, András Combined optically addressable spatial light modulator for affordable adaptive optics. Authors: Orzó, László; Mező, György; Tőkés, Szabolcs; Radványi, András Editor: Hubin, Norbert; Max, Claire E.; Wizinowich, Peter L. Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: Adaptive optics systems. Marseille, 2008. Part 2. (SPIE proceedings 7015.) (Page: 3M1-3M8.) Rekeczky, C Dennis Gabor as the initiator of optical computing: Importance and prospects of optical computing and an optical implementation of the CNN-UM computer. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: Dennis Gabor. On centenary of his birth. Dennis Gabor memorial conference and symposium on holography and high resolution measurement techniques including information processing and precision measurement techniques. Budapest, 2000. (Page: 15) An optical CNN implementation with stored programmability. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Roska, T; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: The 2000 IEEE international symposium on circuits and systems. Emerging technologies for the 21st century. ISCAS 2000. Geneva, 2000. Vol. 2. (Page: 136-139) Rekeczky, CS Two-wavelength POAC (Programmable Opto-Electronic Analogic Computer) using bacteriorhodopsin as dynamic holographic material Authors: Tímár, G; Rekeczky, CS; Orzó, L; Tőkés, SZ Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 2. (Page: 77-80) Dennis Gabor as the initiator of optical computing. Importance and prospects of optical computing and an optical implementation of the CCN-UM computer. Authors: Tőkés, SZ; Orzó, L; Rekeczky, CS; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Magyar informatikusok II. világtalálkozója. Budapest, 2000. 1. köt. (Page: 173-187) Rekeczky, Cs Various implementations of topographic, sensory, cellular wave computers Authors: Zarándy, Á; Földesy, P; Szolgay, P; Tőkés, Sz; Rekeczky, Cs; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ISCAS 2005. IEEE international symposium on circuits and systems. Kobe, 2005. (Page: 5802-5805) Roska, T Various implementations of topographic, sensory, cellular wave computers Authors: Zarándy, Á; Földesy, P; Szolgay, P; Tőkés, Sz; Rekeczky, Cs; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ISCAS 2005. IEEE international symposium on circuits and systems. Kobe, 2005. (Page: 5802-5805) POAC (programmable optical array computer) applied for target recognition and tracking Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Military remote sensing. SPIE European symposium on optics/photonics in security and defense, London. (SPIE Proceedings 5613) (Page: 154-165) Laptop POAC: a compact optical implementation of CNN-UM Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 70-75) Evolution of the programmable optical array computer (POAC) Authors: Ayoub, A; Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 64-69) Flexibly programmable opto-electronic analogic CNN computer (POAC) implementation applying an efficient, unconventional optical correlator architecture Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS (Volume no.: 12, Issue no.: 6, Page: 739-767) Programmable optical CNN implementation based on the template pixels' angular coding. Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2002. Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 148-155) Basic mammalian retinal effects on the prototype complex cell CNN uiversal machine. Authors: Orzó, L; Tőkés, SZ; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2002. Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 156-163) Programmable opto-electronic CNN implementation provides a new and powerful tool for image processing applications. (Research report of the Analogical and Neural Computing Laboratory DNS-9-2001.) Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Programmable opto-electronic CNN implementation provides a new and powerful tool for image processing applications. (Research report of the Analogical and Neural Computing Laboratory DNS-9-2001.) (Page: 16) Programmable analogic cellular optical computer using bacteriorhodopsin as analog rewriteable image memory. Authors: Tőkés, SZ; Orzó, L; Váró, GY; Dér, A; Ormos, P; Roska, T Department: Internet Technology Department Date: 2001. Published by: Bioelectronic applications of photochromic pigments (NATO science series. Ser. 1. Life and behavioural sciences 335.) (Page: 54-73) Design aspects of an optical correlator based CNN implementation. Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Circuit paradigm in the 21st century. ECCTD '01. Proceedings of the 15th European conference on circuit theory and design. Espoo, 2001. Vol. 1. (Page: 353-356) Dennis Gabor as the initiator of optical computing. Importance and prospects of optical computing and an optical implementation of the CCN-UM computer. Authors: Tőkés, SZ; Orzó, L; Rekeczky, CS; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Magyar informatikusok II. világtalálkozója. Budapest, 2000. 1. köt. (Page: 173-187) An advanced joint Fourier transform correlator (JTC). Authors: Tőkés, SZ; Orzó, L; Török, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 128-129) Dennis Gabor as the initiator of optical computing: Importance and prospects of optical computing and an optical implementation of the CNN-UM computer. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: Dennis Gabor. On centenary of his birth. Dennis Gabor memorial conference and symposium on holography and high resolution measurement techniques including information processing and precision measurement techniques. Budapest, 2000. (Page: 15) An optical CNN implementation with stored programmability. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Roska, T; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: The 2000 IEEE international symposium on circuits and systems. Emerging technologies for the 21st century. ISCAS 2000. Geneva, 2000. Vol. 2. (Page: 136-139) Szabó, Vilmos Digital holographic microscopy and CNN based image processing for biohazard detection. Authors: Tőkés, Szabolcs; Szabó, Vilmos; Orzó, László; Divós, Péter; Krivosíja, Zoltán Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: CNNA 2008. 11th international workshop on cellular neural networks and their applications. Santiago de Compostela, 2008. (Page: 8.) Szatmári, István GPU implementation of volume reconstruction and object detection in digital holographic microscopy. Authors: Orzó, László; Göröcs Zoltán, Sándor; Szatmári, István; Tőkés, Szabolcs Editor: Roska, Tamás; Gilli, Marco; Zarándy, Ákos Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 02. 03. Published by: 12th international workshop on cellular nanoscale networks and their applications. CNNA 2010. Berkeley, 2010. (Page: 473-476.) Szolgay, P Various implementations of topographic, sensory, cellular wave computers Authors: Zarándy, Á; Földesy, P; Szolgay, P; Tőkés, Sz; Rekeczky, Cs; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ISCAS 2005. IEEE international symposium on circuits and systems. Kobe, 2005. (Page: 5802-5805) Toth, A An interference patterning equipment using DOE array. Authors: Tőkés, SZ; Kas, I; Toth, A; Paakkonen, P; Turunen, J Department: Internet Technology Department Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 130-131) Turunen, J An interference patterning equipment using DOE array. Authors: Tőkés, SZ; Kas, I; Toth, A; Paakkonen, P; Turunen, J Department: Internet Technology Department Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 130-131) Multibeam 2D acousto-optic modulator combined with arrays of diffractive optical elements. Authors: Tőkés, SZ; Kas, I; Paakkonen, P; Turunen, J; Kettunen, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: Jena '99. Diffractive optics. Jena, 1999. (European Optical Society topical meetings digest series, 22.) (Page: 78-79) Tímár, G Two-wavelength POAC (Programmable Opto-Electronic Analogic Computer) using bacteriorhodopsin as dynamic holographic material Authors: Tímár, G; Rekeczky, CS; Orzó, L; Tőkés, SZ Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 2. (Page: 77-80) Tóth, Veronika Mária Multi-color digital holographic microscope (DHM) for biological purposes. Authors: Göröcs, Zoltán Sándor; Kiss, Márton Zsolt; Tóth, Veronika Mária; Orzó, László; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 01. 23. Published by: Imaging, manipulation, and analysis of biomolecules, cells, and tissues VIII. San Francisco, 2010. (Proceedings of SPIE 7568.) (Length: 1-10. page) Download article: [html] In-line color digital holographic microscope for water quality measurements. Authors: Göröcs, Zoltán Sándor; Orzó, László; Kiss, Márton Zsolt; Tóth, Veronika Mária; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 06. 09. Published by: International conference on laser applications in life sciences (LALS-2010). Oulu, 2010. (Proceedings of SPIE 7376.) (Length: 1-10. page) Download article: [html] Török, L An advanced joint Fourier transform correlator (JTC). Authors: Tőkés, SZ; Orzó, L; Török, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 128-129) Tőkés, S Optical implementation of the CNN-UM computer and its realization with Fourier transform correlator (JTC). Authors: Tőkés, S Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: (Page: 128) Dennis Gabor as the initiator of optical computing: Importance and prospects of optical computing and an optical implementation of the CNN-UM computer. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: Dennis Gabor. On centenary of his birth. Dennis Gabor memorial conference and symposium on holography and high resolution measurement techniques including information processing and precision measurement techniques. Budapest, 2000. (Page: 15) An optical CNN implementation with stored programmability. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Roska, T; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: The 2000 IEEE international symposium on circuits and systems. Emerging technologies for the 21st century. ISCAS 2000. Geneva, 2000. Vol. 2. (Page: 136-139) Tőkés, Sz Various implementations of topographic, sensory, cellular wave computers Authors: Zarándy, Á; Földesy, P; Szolgay, P; Tőkés, Sz; Rekeczky, Cs; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ISCAS 2005. IEEE international symposium on circuits and systems. Kobe, 2005. (Page: 5802-5805) POAC: optical computer for large data sets Authors: Ayoub, A; Orzó, L; Tőkés, Sz Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ERCIM NEWS (Issue no.: 60, Page: 76-77) A new CNN template for POAC peak enhancement Authors: Ayoub, A; Tőkés, Sz Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ECCTDâ05. Proceedings of the 2005 European conference on circuit theory and design. Cork, 2005. (Page: 157-160) Tőkés, SZ POAC (programmable optical array computer) applied for target recognition and tracking Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Military remote sensing. SPIE European symposium on optics/photonics in security and defense, London. (SPIE Proceedings 5613) (Page: 154-165) Laptop POAC: a compact optical implementation of CNN-UM Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 70-75) The first version of the optical programmable array/analogic computer (POAC) template library Authors: Ayoub, A; Tőkés, SZ Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Circuits and Systems. Proceedings of the 46th IEEE International Midwest Symposium Cairo, MWSCAS 2003 (Page: 4 pages) Evolution of the programmable optical array computer (POAC) Authors: Ayoub, A; Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: Cellular Neural Networks and their Applications. Proceedings of the 8th IEEE international workshop Budapest (CNNA 2004) (Page: 64-69) A review of the programmable optical array computer (POAC). (Research report of the Analogical and Neural Computing Laboratory DNS-2-2004) Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: A review of the programmable optical array computer (POAC). (Research report of the Analogical and Neural Computing Laboratory DNS-2-2004) (Page: 23) Flexibly programmable opto-electronic analogic CNN computer (POAC) implementation applying an efficient, unconventional optical correlator architecture Authors: Tőkés, SZ; Orzó, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS (Volume no.: 12, Issue no.: 6, Page: 739-767) Two-wavelength POAC (Programmable Opto-Electronic Analogic Computer) using bacteriorhodopsin as dynamic holographic material Authors: Tőkés, SZ; Orzó, L; Ayoub, A Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 97-100) Two-wavelength POAC (Programmable Opto-Electronic Analogic Computer) using bacteriorhodopsin as dynamic holographic material Authors: Tímár, G; Rekeczky, CS; Orzó, L; Tőkés, SZ Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 2. (Page: 77-80) Simulation of optical CNN template library based on t2-JTC Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 257-260) A study of correlation process of a modified JTC for optical CNN Authors: Ayoub, A; Tőkés, SZ; Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2003. Published by: Circuit Theory and Design. Proceedings of the 16th European Conference ECCTD'03. Vol. 3. (Page: 105-108) Programmable optical CNN implementation based on the template pixels' angular coding. Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2002. Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 148-155) Basic mammalian retinal effects on the prototype complex cell CNN uiversal machine. Authors: Orzó, L; Tőkés, SZ; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2002. Published by: Cellular Neural Networks and Their Applications. Proceedings of the 7th IEEE International Workshop (Page: 156-163) Programmable opto-electronic CNN implementation provides a new and powerful tool for image processing applications. (Research report of the Analogical and Neural Computing Laboratory DNS-9-2001.) Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Programmable opto-electronic CNN implementation provides a new and powerful tool for image processing applications. (Research report of the Analogical and Neural Computing Laboratory DNS-9-2001.) (Page: 16) Programmable analogic cellular optical computer using bacteriorhodopsin as analog rewriteable image memory. Authors: Tőkés, SZ; Orzó, L; Váró, GY; Dér, A; Ormos, P; Roska, T Department: Internet Technology Department Date: 2001. Published by: Bioelectronic applications of photochromic pigments (NATO science series. Ser. 1. Life and behavioural sciences 335.) (Page: 54-73) Design aspects of an optical correlator based CNN implementation. Authors: Tőkés, SZ; Orzó, L; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Circuit paradigm in the 21st century. ECCTD '01. Proceedings of the 15th European conference on circuit theory and design. Espoo, 2001. Vol. 1. (Page: 353-356) Dennis Gabor as the initiator of optical computing. Importance and prospects of optical computing and an optical implementation of the CCN-UM computer. Authors: Tőkés, SZ; Orzó, L; Rekeczky, CS; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Magyar informatikusok II. világtalálkozója. Budapest, 2000. 1. köt. (Page: 173-187) An interference patterning equipment using DOE array. Authors: Tőkés, SZ; Kas, I; Toth, A; Paakkonen, P; Turunen, J Department: Internet Technology Department Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 130-131) An advanced joint Fourier transform correlator (JTC). Authors: Tőkés, SZ; Orzó, L; Török, L; Ayoub, A; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Diffractive optics 2001. EOS topical meeting on diffractive optics. Budapest, 2001. (European Optical Society topical meeting digest series 30.) (Page: 128-129) Multibeam 2D acousto-optic modulator combined with arrays of diffractive optical elements. Authors: Tőkés, SZ; Kas, I; Paakkonen, P; Turunen, J; Kettunen, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: Jena '99. Diffractive optics. Jena, 1999. (European Optical Society topical meetings digest series, 22.) (Page: 78-79) Tőkés, Szabolcs Multi-color digital holographic microscope (DHM) for biological purposes. Authors: Göröcs, Zoltán Sándor; Kiss, Márton Zsolt; Tóth, Veronika Mária; Orzó, László; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 01. 23. Published by: Imaging, manipulation, and analysis of biomolecules, cells, and tissues VIII. San Francisco, 2010. (Proceedings of SPIE 7568.) (Length: 1-10. page) Download article: [html] In-line color digital holographic microscope for water quality measurements. Authors: Göröcs, Zoltán Sándor; Orzó, László; Kiss, Márton Zsolt; Tóth, Veronika Mária; Tőkés, Szabolcs Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 06. 09. Published by: International conference on laser applications in life sciences (LALS-2010). Oulu, 2010. (Proceedings of SPIE 7376.) (Length: 1-10. page) Download article: [html] GPU implementation of volume reconstruction and object detection in digital holographic microscopy. Authors: Orzó, László; Göröcs Zoltán, Sándor; Szatmári, István; Tőkés, Szabolcs Editor: Roska, Tamás; Gilli, Marco; Zarándy, Ákos Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2010. 02. 03. Published by: 12th international workshop on cellular nanoscale networks and their applications. CNNA 2010. Berkeley, 2010. (Page: 473-476.) Combined optically addressable spatial light modulator for affordable adaptive optics. Authors: Orzó, László; Mező, György; Tőkés, Szabolcs; Radványi, András Editor: Hubin, Norbert; Max, Claire E.; Wizinowich, Peter L. Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: Adaptive optics systems. Marseille, 2008. Part 2. (SPIE proceedings 7015.) (Page: 3M1-3M8.) Digital holographic microscopy and CNN based image processing for biohazard detection. Authors: Tőkés, Szabolcs; Szabó, Vilmos; Orzó, László; Divós, Péter; Krivosíja, Zoltán Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: CNNA 2008. 11th international workshop on cellular neural networks and their applications. Santiago de Compostela, 2008. (Page: 8.) Programmable OASLM as a novel sensing celllular computer Authors: Tőkés, Szabolcs; Orzó, László; Ayoub, Ahmed Editor: Tavsanoglu, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2006. Published by: CNNA 2006. Proceedings of the 10th IEEE international workshop on cellular neural networks and their applications. Istanbul, 2006. (Page: 63-67) Optical cellular wave computer implementation and programming Authors: Ayoub, Ahmed; Tőkés, Szabolcs; Orzó, László Editor: Tavsanoglu, V Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2006. Published by: CNNA 2006. Proceedings of the 10th IEEE international workshop on cellular neural networks and their applications. Istanbul, 2006. (Page: 57-62) Tőkés, SZB Varifocal lens for multi-beam laser scanning Authors: Tőkés, SZB Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: 16th congress of the international commision for optics. Optics as a key to high technology. Budapest, 1993. Vol. 1. (SPIE volume 1983.) (Page: 177-181) Váró, GY Programmable analogic cellular optical computer using bacteriorhodopsin as analog rewriteable image memory. Authors: Tőkés, SZ; Orzó, L; Váró, GY; Dér, A; Ormos, P; Roska, T Department: Internet Technology Department Date: 2001. Published by: Bioelectronic applications of photochromic pigments (NATO science series. Ser. 1. Life and behavioural sciences 335.) (Page: 54-73) Zarándy, Á Various implementations of topographic, sensory, cellular wave computers Authors: Zarándy, Á; Földesy, P; Szolgay, P; Tőkés, Sz; Rekeczky, Cs; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2005. Published by: ISCAS 2005. IEEE international symposium on circuits and systems. Kobe, 2005. (Page: 5802-5805) Dennis Gabor as the initiator of optical computing. Importance and prospects of optical computing and an optical implementation of the CCN-UM computer. Authors: Tőkés, SZ; Orzó, L; Rekeczky, CS; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2001. Published by: Magyar informatikusok II. világtalálkozója. Budapest, 2000. 1. köt. (Page: 173-187) Dennis Gabor as the initiator of optical computing: Importance and prospects of optical computing and an optical implementation of the CNN-UM computer. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Zarándy, Á; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: Dennis Gabor. On centenary of his birth. Dennis Gabor memorial conference and symposium on holography and high resolution measurement techniques including information processing and precision measurement techniques. Budapest, 2000. (Page: 15) An optical CNN implementation with stored programmability. Authors: Tőkés, S; Orzó, L; Rekeczky, C; Roska, T; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: The 2000 IEEE international symposium on circuits and systems. Emerging technologies for the 21st century. ISCAS 2000. Geneva, 2000. Vol. 2. (Page: 136-139) New search