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László Orzó, Ph.D., senior research fellow Address: 1111 Budapest, Kende u. 13-17. Room number: K 329 Phone: +36 1 279 7182 Fax: +36 1 209 5264 E-mail: orzoEZT_TOROLJE_KI@EZT_TOROLJE_KIsztaki.hu Homepage: http://www.sztaki.hu/~orzo Department: Cellular Sensory and Optical Wave Computing Laboratory 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) 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) 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) Borostyánkői, ZS Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) Brendel, M Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) Bálya, D Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) Chua, Leon O. A nonlinear dynamics perspective of Wolfram's new kind of science. Part IX: Quasi-ergodicity. Authors: Chua, Leon O.; Pazienza, Giovanni Egidio; Orzó, László; Sbitnev, Valery I.; Shin, Jinwook Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: International Journal of Bifurcation and Chaos (Volume no.: 18, Issue no.: 9, Page: 2487-2642.) 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) Grawes, E CNN-based models for color vision and visual illusions. Authors: Zarándy, Á; Orzó, L; Grawes, E; Werblin, F Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 46, Issue no.: 2, Page: 229-238) Gál, V Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) 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] Hámori, J Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) CNN models of receptive field dynamics of the central visual system neurons. Authors: Orzó, L; László, K; Négyessy, L; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1998. Published by: 1998 fifth IEEE international workshop on cellular neural networks and their applications. CNNA 98. Proceedings. London, 1998. (Page: 198-203) CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) Authors: Orzó, L; Vidnyászky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) (Page: 19) CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system. Authors: Orzó, L; Vidnyánszky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: 1996 fourth IEEE international workshop on Cellular Neural Networks and their applications proceedings. CNNA-96. Seville, 1996. (Page: 291-296) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) Kincses, Z. Implementation of a parallel SAD based wavefront sensor architecture on FPGA. Authors: Kincses, Z.; Nagy, Zoltán; Orzó, László; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2009. 08. 23. Published by: ECCTD 2009. 19th European conference on circuit theory and design. Antalya, 2009. (Page: 823-826.) Kincses, Zoltán High-speed, SAD based wavefront sensor architecture implementation on FPGA. Authors: Kincses, Zoltán; Orzó, László; Nagy, Zoltán; Mező, György; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2011. Published by: Journal of Signal Processing Systems (Volume no.: 64, Issue no.: 3, Page: 279-290.) 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.) Lotz, K Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) Lábos, E Effects of the synaptic transmission's dynamics on possible neural codes. Authors: Orzó, L; Lábos, E Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: The 3rd international workshop on neural coding '99. Osaka, 1999. (Page: 163-166) Dynamics of synaptic transmission and neural code. Authors: Orzó, L; Lábos, E Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1998. Published by: Cybernetics and systems '98. Proceedings of the fourteenth European meeting on cybernetics and systems research. Vienna, 1998. Vol.1. (Page: 323-329) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) László, K CNN models of receptive field dynamics of the central visual system neurons. Authors: Orzó, L; László, K; Négyessy, L; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1998. Published by: 1998 fifth IEEE international workshop on cellular neural networks and their applications. CNNA 98. Proceedings. London, 1998. (Page: 198-203) Mező, György High-speed, SAD based wavefront sensor architecture implementation on FPGA. Authors: Kincses, Zoltán; Orzó, László; Nagy, Zoltán; Mező, György; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2011. Published by: Journal of Signal Processing Systems (Volume no.: 64, Issue no.: 3, Page: 279-290.) 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.) Nagy, Zoltán High-speed, SAD based wavefront sensor architecture implementation on FPGA. Authors: Kincses, Zoltán; Orzó, László; Nagy, Zoltán; Mező, György; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2011. Published by: Journal of Signal Processing Systems (Volume no.: 64, Issue no.: 3, Page: 279-290.) Implementation of a parallel SAD based wavefront sensor architecture on FPGA. Authors: Kincses, Z.; Nagy, Zoltán; Orzó, László; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2009. 08. 23. Published by: ECCTD 2009. 19th European conference on circuit theory and design. Antalya, 2009. (Page: 823-826.) Négyessy, L Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) CNN models of receptive field dynamics of the central visual system neurons. Authors: Orzó, L; László, K; Négyessy, L; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1998. Published by: 1998 fifth IEEE international workshop on cellular neural networks and their applications. CNNA 98. Proceedings. London, 1998. (Page: 198-203) 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) A CNN image-compression algorithm for improved utilization of on-chip resources Authors: 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: 297-302) Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) 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) Optimal CNN templates for deconvolution. Authors: Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2000. Published by: Proceedings of the 6th IEEE international workshop on cellular neural networks and their applications. (CNNA 2000). Catania, 2000. (Page: 111-116) CNN-based models for color vision and visual illusions. Authors: Zarándy, Á; Orzó, L; Grawes, E; Werblin, F Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 46, Issue no.: 2, Page: 229-238) Effects on the ganglion cell response nonlinear mapping on visual system's noise filtering characteristics. Authors: Orzó, L Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: Foundations and tools for neural modeling. International work-conference on artificial and natural neural networks, IWANN'99. Proceedings. Alicante, 1999. Vol. 1. ( Lecture notes in computer science, 1606.) (Page: 211-220) Effects of the synaptic transmission's dynamics on possible neural codes. Authors: Orzó, L; Lábos, E Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: The 3rd international workshop on neural coding '99. Osaka, 1999. (Page: 163-166) CNN models of receptive field dynamics of the central visual system neurons. Authors: Orzó, L; László, K; Négyessy, L; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1998. Published by: 1998 fifth IEEE international workshop on cellular neural networks and their applications. CNNA 98. Proceedings. London, 1998. (Page: 198-203) Dynamics of synaptic transmission and neural code. Authors: Orzó, L; Lábos, E Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1998. Published by: Cybernetics and systems '98. Proceedings of the fourteenth European meeting on cybernetics and systems research. Vienna, 1998. Vol.1. (Page: 323-329) CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) Authors: Orzó, L; Vidnyászky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) (Page: 19) CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system. Authors: Orzó, L; Vidnyánszky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: 1996 fourth IEEE international workshop on Cellular Neural Networks and their applications proceedings. CNNA-96. Seville, 1996. (Page: 291-296) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) Orzó, László High-speed, SAD based wavefront sensor architecture implementation on FPGA. Authors: Kincses, Zoltán; Orzó, László; Nagy, Zoltán; Mező, György; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2011. Published by: Journal of Signal Processing Systems (Volume no.: 64, Issue no.: 3, Page: 279-290.) 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.) Implementation of a parallel SAD based wavefront sensor architecture on FPGA. Authors: Kincses, Z.; Nagy, Zoltán; Orzó, László; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2009. 08. 23. Published by: ECCTD 2009. 19th European conference on circuit theory and design. Antalya, 2009. (Page: 823-826.) 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.) A nonlinear dynamics perspective of Wolfram's new kind of science. Part IX: Quasi-ergodicity. Authors: Chua, Leon O.; Pazienza, Giovanni Egidio; Orzó, László; Sbitnev, Valery I.; Shin, Jinwook Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: International Journal of Bifurcation and Chaos (Volume no.: 18, Issue no.: 9, Page: 2487-2642.) 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) Pazienza, Giovanni Egidio A nonlinear dynamics perspective of Wolfram's new kind of science. Part IX: Quasi-ergodicity. Authors: Chua, Leon O.; Pazienza, Giovanni Egidio; Orzó, László; Sbitnev, Valery I.; Shin, Jinwook Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: International Journal of Bifurcation and Chaos (Volume no.: 18, Issue no.: 9, Page: 2487-2642.) Petrás, I Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) 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 Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) 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) Roska, T 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) A CNN image-compression algorithm for improved utilization of on-chip resources Authors: 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: 297-302) Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) 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) CNN models of receptive field dynamics of the central visual system neurons. Authors: Orzó, L; László, K; Négyessy, L; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1998. Published by: 1998 fifth IEEE international workshop on cellular neural networks and their applications. CNNA 98. Proceedings. London, 1998. (Page: 198-203) CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) Authors: Orzó, L; Vidnyászky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) (Page: 19) CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system. Authors: Orzó, L; Vidnyánszky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: 1996 fourth IEEE international workshop on Cellular Neural Networks and their applications proceedings. CNNA-96. Seville, 1996. (Page: 291-296) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) Sbitnev, Valery I. A nonlinear dynamics perspective of Wolfram's new kind of science. Part IX: Quasi-ergodicity. Authors: Chua, Leon O.; Pazienza, Giovanni Egidio; Orzó, László; Sbitnev, Valery I.; Shin, Jinwook Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: International Journal of Bifurcation and Chaos (Volume no.: 18, Issue no.: 9, Page: 2487-2642.) Shin, Jinwook A nonlinear dynamics perspective of Wolfram's new kind of science. Part IX: Quasi-ergodicity. Authors: Chua, Leon O.; Pazienza, Giovanni Egidio; Orzó, László; Sbitnev, Valery I.; Shin, Jinwook Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2008. Published by: International Journal of Bifurcation and Chaos (Volume no.: 18, Issue no.: 9, Page: 2487-2642.) 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, Péter High-speed, SAD based wavefront sensor architecture implementation on FPGA. Authors: Kincses, Zoltán; Orzó, László; Nagy, Zoltán; Mező, György; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2011. Published by: Journal of Signal Processing Systems (Volume no.: 64, Issue no.: 3, Page: 279-290.) Implementation of a parallel SAD based wavefront sensor architecture on FPGA. Authors: Kincses, Z.; Nagy, Zoltán; Orzó, László; Szolgay, Péter Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2009. 08. 23. Published by: ECCTD 2009. 19th European conference on circuit theory and design. Antalya, 2009. (Page: 823-826.) Takács, J Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) 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 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 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) 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) 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) 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) Venetianer, P The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) Venetianer, PL The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) Venetiáner, P Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) Vidnyánszky, Z Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system. Authors: Orzó, L; Vidnyánszky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: 1996 fourth IEEE international workshop on Cellular Neural Networks and their applications proceedings. CNNA-96. Seville, 1996. (Page: 291-296) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) Vidnyászky, Z CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) Authors: Orzó, L; Vidnyászky, Z; Hámori, J; Roska, T Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1996. Published by: CNN model of the feature-linked synchronized activities in the visual thalamo-cortical system.(Research report of the Neuromorphic Information Technology Graduate Center. NIT-2-1966.) (Page: 19) 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) Werblin, F CNN-based models for color vision and visual illusions. Authors: Zarándy, Á; Orzó, L; Grawes, E; Werblin, F Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 46, Issue no.: 2, Page: 229-238) Zarándy, Á Receptive field atlas and related CNN models Authors: Gál, V; Hámori, J; Roska, T; Bálya, D; Borostyánkői, ZS; Brendel, M; Lotz, K; Négyessy, L; Orzó, L; Petrás, I; Rekeczky, CS; Takács, J; Venetiáner, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 2004. Published by: INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS (Volume no.: 14, Issue no.: 2, Page: 551-584) 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) CNN-based models for color vision and visual illusions. Authors: Zarándy, Á; Orzó, L; Grawes, E; Werblin, F Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1999. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 46, Issue no.: 2, Page: 229-238) The use of CNN models in the subcortical visual pathway Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, PL; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1993. Published by: IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-FUNDAMENTAL THEORY AND APPLICATIONS (Volume no.: 40, Issue no.: 3, Page: 182-195) The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the visual parthway. Part II: The amacrine cell in the modified retina model, simple LGN effects and motion related illusions. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-9-1992.) (Page: 51) The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) Authors: Roska, T; Hámori, J; Lábos, E; Lotz, K; Orzó, L; Takács, J; Venetianer, P; Vidnyánszky, Z; Zarándy, Á Department: Cellular Sensory and Optical Wave Computing Laboratory Date: 1992. Published by: The use of CNN models in the subcortical visual pathway. (Reseach report of the Dual and Neural Computing Systems Laboratory DNS-16-1992) (Page: 37) New search