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2010 – 2019
- 2019
[c17]Dóra Babicz, Attila Tihanyi, Miklós Koller
, Csaba Rekeczky, András Horváth:
Simulation of an Analogue Circuit Solving NP-Hard Optimization Problems. ISCAS 2019: 1-5- 2015
- [c16]Ákos Zarándy, Csaba Rekeczky, Péter Szolgay, Leon O. Chua:
Overview of CNN research: 25 years history and the current trends. ISCAS 2015: 401-404 - 2013
- [j24]Ricardo Carmona-Galán, Ákos Zarándy, Csaba Rekeczky, Péter Földesy, Alberto Rodríguez-Pérez, Carlos M. Domínguez-Matas, Jorge Fernández-Berni, Gustavo Liñán Cembrano, Maria Belen Pérez-Verdú, Zoltán Kárász, Manuel Suárez-Cambre, Víctor Manuel Brea Sánchez, Tamás Roska, Ángel Rodríguez-Vázquez:
A hierarchical vision processing architecture oriented to 3D integration of smart camera chips. J. Syst. Archit. 59(10-A): 908-919 (2013) - 2011
- [j23]Ákos Zarándy, Csaba Rekeczky:
2D operators on topographic and non-topographic architectures - implementation, efficiency analysis, and architecture selection methodology. Int. J. Circuit Theory Appl. 39(10): 983-1005 (2011) - 2010
- [j22]Dániel Hillier, Zsolt Czeilinger, András Vobornik, Csaba Rekeczky:
Online 3-D Reconstruction of the Right Atrium From Echocardiography Data via a Topographic Cellular Contour Extraction Algorithm. IEEE Trans. Biomed. Eng. 57(2): 384-396 (2010)
2000 – 2009
- 2009
- [c15]Péter Földesy, Ricardo Carmona-Galán, Ákos Zarándy, Csaba Rekeczky, Ángel Rodríguez-Vázquez, Tamás Roska:
3D multi-layer vision architecture for surveillance and reconnaissance applications. ECCTD 2009: 185-188 - [p1]Ákos Zarándy, Csaba Rekeczky:
Visual Algorithms for Cognition. Spatial Temporal Patterns for Action-Oriented Perception in Roving Robots 2009: 371-384 - 2008
- [j21]Péter Földesy, Ákos Zarándy, Csaba Rekeczky:
Configurable 3D-integrated focal-plane cellular sensor-processor array architecture. Int. J. Circuit Theory Appl. 36(5-6): 573-588 (2008) - 2007
- [c14]Péter Földesy, Ákos Zarándy, Csaba Rekeczky, Tamás Roska:
3D integrated scalable focal-plane processor array. ECCTD 2007: 954-957 - [c13]Bertram Emil Shi, Csaba Rekeczky:
Sensor Integration in Autonomous Systems. ISCAS 2007: 601-604 - [c12]Balázs Gergely Soós, Csaba Rekeczky:
Elastic Grid Based Analysis of Motion Field for Object-Motion Detection in Airborne Video Flows. ISCAS 2007: 617-620 - [c11]Péter Földesy, Ákos Zarándy, Csaba Rekeczky, Tamás Roska:
High performance processor array for image processing. ISCAS 2007: 1177-1180 - 2006
- [j20]Dániel Hillier, Viktor Binzberger, David López Vilariño, Csaba Rekeczky:
Topographic cellular active contour techniques: theory, implementations and comparisons. Int. J. Circuit Theory Appl. 34(2): 183-216 (2006) - [j19]Tamás Roska, Paolo Arena, Csaba Rekeczky:
Editorial (Part 2). Int. J. Circuit Theory Appl. 34(4): 357-358 (2006) - [j18]Péter Földesy, Ákos Zarándy, Csaba Rekeczky, Tamás Roska:
Digital implementation of cellular sensor-computers. Int. J. Circuit Theory Appl. 34(4): 409-428 (2006) - 2005
- [j17]David López Vilariño, Csaba Rekeczky:
Pixel-level snakes on the CNNUM: algorithm design, on-chip implementation and applications. Int. J. Circuit Theory Appl. 33(1): 17-51 (2005) - [j16]Gergely Tímár, Csaba Rekeczky:
A real-time multitarget tracking system with robust multichannel CNN-UM algorithms. IEEE Trans. Circuits Syst. I Regul. Pap. 52-I(7): 1358-1371 (2005) - [c10]Ákos Zarándy, Péter Földesy, Péter Szolgay, Szabolcs Tõkés, Csaba Rekeczky, Tamás Roska:
Various implementations of topographic, sensory, cellular wave computers. ISCAS (6) 2005: 5802-5805 - 2004
- [j15]Viktor Gál, József Hámori, Tamás Roska, Dávid Bálya, Zsolt Borostyánköi, Mátyás Brendel, Károly Lotz, Laszlo Négyessy, László Orzó, István Petrás, Csaba Rekeczky, József Takács, Péter L. Venetianer, Zoltán Vidnyánszky, Ákos Zarándy:
Receptive Field Atlas and Related CNN Models. Int. J. Bifurc. Chaos 14(2): 551-584 (2004) - [j14]Csaba Rekeczky, István Szatmári, Dávid Bálya, Gergely Tímár, Ákos Zarándy:
Cellular multiadaptive analogic architecture: a computational framework for UAV applications. IEEE Trans. Circuits Syst. I Regul. Pap. 51-I(5): 864-884 (2004) - [j13]David López Vilariño, Csaba Rekeczky:
Implementation of a pixel-level snake algorithm on a CNNUM-based chip set architecture. IEEE Trans. Circuits Syst. I Regul. Pap. 51-I(5): 885-891 (2004) - [c9]David López Vilariño, Csaba Rekeczky:
Efficient hardware-oriented cellular active contours. ISCAS (3) 2004: 33-36 - [c8]Dávid Bálya, István Petrás, Csaba Rekeczky:
Pattern formation on the prototype complex-cell CNN-UM chip (CACE1K). ISCAS (3) 2004: 53-56 - 2003
- [j12]György Cserey, Csaba Rekeczky, Péter Földesy:
PDE-Based Histogram Modification With Embedded Morphological Processing Of The Level-Sets. J. Circuits Syst. Comput. 12(4): 519-538 (2003) - [j11]István Petrás, Csaba Rekeczky, Tamás Roska, Ricardo Carmona, Francisco Jiménez-Garrido, Ángel Rodríguez-Vázquez:
Exploration Of Spatial-Temporal Dynamic Phenomena In A 32*32-Cell Stored Program Two-Layer CNN Universal Machine Chip Prototype. J. Circuits Syst. Comput. 12(6): 691-710 (2003) - [j10]Ákos Zarándy, Csaba Rekeczky, Péter Földesy, István Szatmári:
The New Framework Of Applications: The Aladdin System. J. Circuits Syst. Comput. 12(6): 769-781 (2003) - [j9]Gergely Tímár, Kristóf Karacs, Csaba Rekeczky:
Analogic Preprocessing And Segmentation Algorithms For Offline Handwriting Recognition. J. Circuits Syst. Comput. 12(6): 783-804 (2003) - [j8]Ricardo Carmona-Galán, Francisco Jiménez-Garrido, Rafael Domínguez-Castro, Servando Espejo-Meana, Tamás Roska, Csaba Rekeczky, István Petrás, Ángel Rodríguez-Vázquez:
A bio-inspired two-layer mixed-signal flexible programmable chip for early vision. IEEE Trans. Neural Networks 14(5): 1313-1336 (2003) - [c7]Ákos Zarándy, Csaba Rekeczky, István Szatmári:
Vision systems based on the 128×128 focal plane cellular visual microprocessor chips. ISCAS (3) 2003: 518-521 - [c6]Csaba Rekeczky, Dávid Bálya, Gergely Tímár, István Szatmári:
Bio-inspired flight control and visual search with CNN technology. ISCAS (3) 2003: 774-777 - 2002
- [j7]Csaba Rekeczky:
CNN architectures for constrained diffusion based locally adaptive image processing. Int. J. Circuit Theory Appl. 30(2-3): 313-348 (2002) - [c5]Dávid Bálya, Csaba Rekeczky, Tamás Roska:
A realistic mammalian retinal model implemented on complex cell CNN universal machine. ISCAS (4) 2002: 161-164 - 2001
- [j6]Csaba Rekeczky, Botond M. Roska, Erik Nemeth, Frank S. Werblin:
The network behind spatio‐temporal patterns: building low‐complexity retinal models in CNN based on morphology, pharmacology and physiology. Int. J. Circuit Theory Appl. 29(2): 197-239 (2001) - [c4]Csaba Rekeczky, István Szatmári, Péter Földesy:
Computing on silicon with trigger waves: experiments on CNN-UM chips. ISCAS (3) 2001: 49-52 - [c3]Frank S. Werblin, Botond M. Roska, Dávid Bálya, Csaba Rekeczky, Tamás Roska:
Implementing a retinal visual language in CNN: a neuromorphic study. ISCAS (3) 2001: 333-336 - 2000
- [j5]István Szatmári, Abraham Schultz, Csaba Rekeczky, Tibor Kozek, Tamás Roska, Leon O. Chua:
Morphology and autowave metric on CNN applied to bubble-debris classification. IEEE Trans. Neural Networks Learn. Syst. 11(6): 1385-1393 (2000) - [c2]Szabolcs Tõkés, László Orzó, Csaba Rekeczky, Tamás Roska, Ákos Zarándy:
An optical CNN implementation with stored programmability. ISCAS 2000: 136-139
1990 – 1999
- 1999
- [j4]Csaba Rekeczky, Ádám Tahy, Zoltán Végh, Tamás Roska:
CNN‐based spatio‐temporal nonlinear filtering and endocardial boundary detection in echocardiography. Int. J. Circuit Theory Appl. 27(1): 171-207 (1999) - [j3]Csaba Rekeczky, Leon O. Chua:
Computing with Front Propagation: Active Contour And Skeleton Models In Continuous-Time CNN. J. VLSI Signal Process. 23(2-3): 373-402 (1999) - [j2]István Szatmári, Csaba Rekeczky, Tamás Roska:
A Nonlinear Wave Metric and its CNN Implementation for Object Classification. J. VLSI Signal Process. 23(2-3): 437-447 (1999) - 1998
- [j1]Csaba Rekeczky, Tamás Roska, Akio Ushida:
CNN-based difference-controlled adaptive non-linear image filters. Int. J. Circuit Theory Appl. 26(4): 375-423 (1998) - 1995
- [c1]Csaba Rekeczky, Akio Ushida, Tamás Roska:
Diminishment and Enlargement of Binary Pictures Using Slightly Space Variant Cellular Neural Network Architecture. ISCAS 1995: 1301-1304
Coauthor Index
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last updated on 2024-10-07 21:24 CEST by the dblp team
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