Image Processing Reference
In-Depth Information
137. Dogaru, R.: A fast method for classification of emergent dynamics in cellular automata
based on uncertainty profiles. Journal of Control Engineering and Applied Informat-
ics 11, 18-25 (2009)
138. Dogaru, R.: Hybrid cellular automata as pseudo-random number generators with binary
synchronization property. In: Proceedings of the International Symposium on Signals
Circuits and Systems, ISSCS 2009, Iasi Romania (2009)
139. Dogaru, R.: HCA101: A chaotic map based on cellular automata with binary synchro-
nization properties. In: Proceedings of the 8th Int. Conference on Communications,
COMM 2010, Bucharest, Romania (2010)
140. Dogaru, R.: A low complexity image sensing method using pseudo-random scan and
recursive reconstruction with radial basis functions. In: Proceedings of the ISEEE Con-
ference, Galati, Romania (2013)
141. Dogaru, R., Dogaru, I.: Uncertainty profiles for predicting complex nonlinear dynamics
in cellular automata: the case of five cells neighborhood. In: Proceedings of the Inter-
national Symposium on Nonlinear Theory and its Applications, NOLTA 2010, Krakow,
Poland, September 5-8 (2010)
142. Dogaru, R., Dogaru, I., Kim, H.: Binary chaos synchronization in elementary cellular
automata. Int. J. Bifurcation Chaos 19, 2871-2884 (2009)
143. Dogaru, R., Dogaru, I., Kim, H.: Chaotic scan: A low complexity video transmission
system for efficiently sending relevant image features. IEEE Trans. on Circuits and
Systems for Video Technology 20, 317-321 (2010)
144. Dogaru, R., Murgan, A.T., Ortmann, S., Glesner, M.: A modified RBF neural network
for efficient current-mode VLSI implementation. In: Proceedings Micro-Neuro 1996,
February 12-14, pp. 265-270. IEEE Press, Laussane (1996)
145. Dogaru, R., Tetzlaff, R., Glesner, M.: Semi-totalistic CNN genes for compact image
compression. In: The IEEE Proceedings of 10th International Workshop on Cellular
Neural Networks and Their Applications, Istanbul, Turkey (2006)
146. Dorin, A.: Liquiprism: Generating polyrhythms with cellular automata. In: Proceed-
ings of the International Conference on Auditory Display (ICAD), Kyoto, Japan, vol. 5
(2002)
147. Du, Q., Faber, V., Gunzburger, M.: Centroidal voronoi tessellations: Applications and
algorithms. SIAM Rev. 41(4), 637-676 (1999)
148. Dufresne, T.E., Sarwal, A., Dhawan, A.P.: A gray-level thinning method for delineation
and representation of arteries. Computerized Medical Imaging and Graphics 18(5),
343-355 (1994)
149. Edgar, R., Ryan, J.: Lina. Exhibition of the 1986 International Computer Music Con-
ference. ICMA (1986)
150. El Yacoubi, S., Jacewicz, P.: A genetic programming approach to structural identifica-
tion of cellular automata. Journal of Cellular Automata 2, 67-76 (2007)
151. Ens, J., Lawrence, P.: An investigation of methods for determining depth from focus.
IEEE Trans. Pattern Analysis and Machine Intelligence 15(2), 97-108 (1993)
152. Ermentrout, G.B., Edelstein-Keshet, L.: Cellular automata approaches to biological
modeling. Journal of Theoretical Biology, 97-133 (1993)
153. Euler, L.: Elementa doctrinae solidorum. Novi Commentarii academiae scientiarum
Petropolitanae 4, 109-140 (1758)
154. Faraco, G., Pantano, P., Servidio, S.: The use of Cellular Automata in the learning of
emergence. Computers & Education 47(3), 280-297 (2006)
155. Farid, H.: Image forgery detection: A survey. IEEE Signal Processing Magazine 26(2),
16-35 (2009)
Search WWH ::
Custom Search