Folyóiratcikkek
[1] K. Karacs, G. Prószéky, and T. Roska, “CNN algorithms with spatial semantic embedding for
handwritten text recognition,” International Journal of Circuit Theory and Applications, vol. 37, no.
10, pp. 1019–1050, Dec. 2009. (IF: 2.389)
[2] L. O. Chua, K. Karacs, V. I. Sbitnev, J. Guan, and J. Shin, “A Nonlinear Dynamics Perspective of
Wolfram’s New Kind Of Science. Part VIII: More Isles of Eden,” International Journal of Bifurcation
and Chaos, vol. 17, no. 11, pp. 3741–3894, Nov. 2007. (IF: 0.866)
 [2a] W. Jin, F. Chen, G. Chen, L. Chen, and F. Chen, “Extending the symbolic dynamics of Chua's Bernoulli-shift rule 56,”
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Journal of Cellular Automata, vol. 5, no. 1-2, 2010, pp. 121-138.
[2b] R. Dogaru, “A fast method for classification of emergent dynamics in cellular automata based on uncertainty profiles,”
Control Engineering and Applied Informatics, vol. 11, no. 4, Dec. 2009, pp. 18-25.
[2c] L. Chen, F. Chen, W. Jin, F. Chen, and G. Chen, “Some nonrobust Bernoulli-shift rules,” International Journal of
Bifurcation and Chaos, vol. 19, no. 10, Oct. 2009, pp. 3407-3415.
[2d] R. Dogaru and H. Kim, “Binary chaos synchronization in elementary cellular automata,” International Journal of
Bifurcation and Chaos, vol. 19, no. 9, Sep. 2009, pp. 2871-2884.
[2e] J. Ban and C. Chang, “The topological pressure of linear cellular automata,” Entropy, vol. 11, no. 2, Jun. 2009, pp.
271-284.
[2f] X. Xu, Y. Song, and S.P. Banks, “On the dynamical behavior of cellular automata,” International Journal of
Bifurcation and Chaos, vol. 19, no. 4, Apr. 2009, pp. 1147-1156.
[2g] F. Chen, W. Jin, G. Chen, F. Chen, and L. Chen, “Chaos of elementary cellular automata rule 42 of Wolfram's class
II,” Chaos, vol. 19, no. 1, Mar. 2009.
[2h] G. E. Pazienza, “Aspects of algorithms and dynamics of cellular paradigms,” Ph.D. dissertation, Universitat Ramon
Llull, Dec. 2008.
[3] G. Tímár, K. Karacs, and Cs. Rekeczky, “Analogic Preprocessing and Segmentation Algorithms for
Off-line Handwriting Recognition,” Journal of Circuits, Systems and Computers, vol. 12, no. 6, pp.
783–804, Dec. 2003. (IF: 0.047)
 [3a] K. Zulkiflee, Z. Razak, M. Y. I. Idris, E. M. Tamil, M. N. M. Noor, R. Salleh, M. Y. @ Z. M. Yusof, and M. Yaacob,
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“Off-line Handwriting Text Line Segmentation : A Review,” International Journal of Computer Science and Network
Security, vol. 8, no.6, pp. 12-20, June 2008
[3b] C. Schaller, “An offline handwriting recognition system using Constant Density Hidden Markov Models (CDHMM),”
MSc. Thesis, Imperial College, London, 2007
[3c] C. Botoca, “Some Aspects of Cellular Neural Networks and Their Applications,” Buletinul Stiintific al Universitatii
"Politehnica" din Timisoara, Transactions on Electronics and Communications, Tom 48(62), Fascicola 1, pp. B1-B8, 2003.
Konferenciacikkek
[4] M. Radványi, K. Karacs, “Navigation through Crosswalks with the Bionic Eyeglass,” in Proc. of 3rd
International Symposium on Applied Sciences in Biomedical and Communication Technologies
(ISABEL 2010), Rome, Italy, Nov, 2010
[5] B. Varga, K. Karacs, “GPGPU Accelerated Scene Segmentation Using Nonparametric Clustering,” in
Proc. of IEEE International Symposium on Nonlinear Theory and its Applications (NOLTA 2010),
Sept. 5–8, 2010, Krakow, Poland
[6] K. Karacs, Á. Kusnyerik, M. Radványi, T. Roska, M. Szuhaj, “Towards a Mobile Navigation Device,”
in Proc. of 12th IEEE International Workshop on Cellular Nanoscale Networks and their Applications
(CNNA 2010), Berkeley, CA, Feb, 2010
[7] M. Radványi, B. Varga, K. Karacs, “Advanced Crosswalk Detection for the Bionic Eyeglass,” in Proc.
of 12th IEEE International Workshop on Cellular Nanoscale Networks and their Applications (CNNA
2010), Berkeley, CA, Feb, 2010
[8] K. Karacs, M. Radványi, M. Görög, T. Roska, “A Mobile Visual Navigation Device: New algorithms
for crosswalk and pictogram recognition,” in Proc. of 2nd International Symposium on Applied
Sciences in Biomedical and Communication Technologies (ISABEL 2009), Bratislava, Slovakia, Nov,
2009
[9] K. Karacs, M. Radványi, Á. Kusnyerik, T. Roska, “Basic Scene Understanding and Navigation with a
Bionic Camera,” International Conference on The Eye and The Auto, Detroit, MI, Sept, 2009
[10] M. Radvanyi, G. E. Pazienza, and K. Karacs, “Crosswalk Recognition through CNNs for the Bionic
Camera: Manual vs. Automatic Design,” in Proc. of the European Conference on Circuit Theory and
Design (ECCTD’09), Antalya, Turkey, Aug, 2009, pp. 315–318.
[11] K. Karacs, Á. Kusnyerik, M. Szuhaj, T. Roska, “Situation-specific Scene Interpretation in a Bionic
Navigation Device for Visually Impaired,” International Conference on Vision in 3D Environments,
Toronto, Canada, Jul, 2009
[12] K. Karacs, A. Lázár, R. Wagner, B. Bálint, T. Roska, and M. Szuhaj, “Bionic Eyeglass: The First
Prototype, A Personal Navigation Device for Visually Impaired,” in Proc. of First International
Symposium on Applied Sciences in Biomedical and Communication Technologies (ISABEL 2008),
Aalborg, Denmark, Oct. 2008.
[13] K. Karacs, Á. Zarándy, and T. Roska, “Blind Mobile Navigation Device,” eVita konferencia –
“infokommunikáció az életvitel szolgálatában”, Budapest, Apr. 2008.
[14] K. Karacs and T. Roska, “Locating and Reading Color Displays with the Bionic Eyeglass,” in Proc. of
the 18th European Conference on Circuit Theory and Design (ECCTD 2007), Seville, Spain, Aug.
2007, pp. 515–518.
[15] G. E. Pazienza and K. Karacs, “An Automatic Tool to Design CNN-UM Programs,” in Proc. of the
18th European Conference on Circuit Theory and Design (ECCTD 2007), Seville, Spain, Aug. 2007,
pp. 492–495.
[16] K. Karacs, A. Lázár, R. Wagner, D. Bálya, T. Roska, and M. Szuhaj, “Bionic Eyeglass: an Audio
Guide for Visually Impaired,” in Proc. of the First IEEE Biomedical Circuits and Systems Conference
(BIOCAS 2006), London, UK, Dec. 2006, pp. 190–193.
[17] K. Karacs and T. Roska, “Route Number Recognition of Public Transport Vehicles via the Bionic
Eyeglass,” in Proc. of the 10th IEEE International Workshop on Cellular Neural Networks and their
Applications (CNNA 2006), Istanbul, Turkey, Aug. 2006, pp. 79–84.
 [13a] G. E. Pazienza, “Aspects of algorithms and dynamics of cellular paradigms,” Ph.D. dissertation, Universitat Ramon
Llull, Dec. 2008.
[18] T. Roska, D. Bálya, A. Lázár, K. Karacs, R. Wagner, and M. Szuhaj, “System aspects of a bionic
eyeglass,” in Proc. of the 2006 IEEE International Symposium on Circuits and Systems (ISCAS 2006),
Island of Kos, Greece, May 21–24, 2006, pp. 161–164.
 [14a] Zs. Vörösházi, “Investigation of Emulated-Digital CNN-UM architectures: Retina model and Cellular Wave
Computing architecture implementation on FPGA,” Ph.D. dissertation, University of Pannonia, Aug. 2009.
[19] K. Karacs and T. Roska, “Holistic Feature Extraction from Handwritten Words on Wave Computers,”
in Proc. of the 8th IEEE International Workshop on Cellular Neural Networks and their Applications
(CNNA 2004), Budapest, Hungary, July 2004, pp. 364–369.
 [15a] M. Lemaitre, “Approche markovienne bidimensionnelle d'analyse et de reconnaissance de documents manuscrits,”
Ph.D. dissertation, Université Paris 5 René Descartes, UFR de Mathématiques et Informatique, Nov. 2007.
[20] K. Karacs, G. Prószéky, and T. Roska, “Intimate Integration of Shape Codes and Linguistic
Framework in Handwriting Recognition via Wave Computers,” in Proc. of the 16th European
Conference on Circuits Theory and Design (ECCTD 2003), Krakow, Poland, Sept. 2003, pp. 409–412.
 [16a] M. Piasecki, G. Godlewski, “Language Modelling for the Needs of OCR of Medical Texts,” in Proc. of 7th
International Symposium of Biological and Medical Data Analysis (ISBMDA 2006), Thessaloniki, Greece, Dec. 2006.
Lecture Notes in Computer Science (Lecture Notes in Bioinformatics), Springer, 2006, pp. 273–284.
[21] G. Tímár, K. Karacs, and Cs. Rekeczky, “Analogic Preprocessing and Segmentation Algorithms for
Off-Line Handwriting Recognition,” in Proc. of the 7th IEEE International Workshop on Cellular
Neural Networks and their Applications (CNNA 2002), Frankfurt, Germany, July 2002, pp. 407–414.
 [17a] Z. Razak, K. Zulkiflee, M. Yaacob, R. Salleh, E. M. Tamil. “A Real-time Line Segmentation Algorithm for an
Offline Overlapped Handwritten Jawi Character Recognition Chip,” Malaysian Journal of Computer Science, vol 20, no. 2,
pp. 69-80, 2 (ISSN 0127-9084)
Egyéb publikációk
[22] L. Kék, K. Karacs, and T. Roska, Eds., Cellular Wave Computing Library (Templates, Algorithms and
Programs) V. 2.1, MTA-SZTAKI, Budapest, Hungary, 2007.
 [18a] Zs. Vörösházi, A. Kiss, Z. Nagy, P. Szolgay, “Implementation of embedded emulated-digital CNN-UM global
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analogic programming unit on FPGA and its application,” International Journal of Circuit Theory and Applications, vol.
36, no. 5-6, pp. 589-603, 2008.
[18b] G. E. Pazienza, “Aspects of algorithms and dynamics of cellular paradigms,” Ph.D. dissertation, Universitat Ramon
Llull, Dec. 2008.
[18c] Zs. Vörösházi, “Investigation of Emulated-Digital CNN-UM architectures: Retina model and Cellular Wave
Computing architecture implementation on FPGA,” Ph.D. dissertation, University of Pannonia, Aug. 2009.
[18d] Zs. Vörösházi, A. Kiss, Z. Nagy, P. Szolgay, “FPGA based emulated-digital CNN-UM implementation with GAPU,”
in Proc. of the 11th IEEE International Workshop on Cellular Neural Networks and their Applications (CNNA 2008),
Santiago de Compostela, Spain, Jul. 2008, pp. 175–180.
G. E. Pazienza, X. Vilasis-Cardona, R. Poli, “An alternative proof of the universality of the CNN-UM and its practical
applications,” in Proc. of the 11th IEEE International Workshop on Cellular Neural Networks and their Applications
(CNNA 2008), Santiago de Compostela, Spain, Jul. 2008, pp. 34–39.