125
labyrinths.
Circuits and Systems I: Fundamental Theory and Applications, IEEE
Transactions on, 1993. 40(3): p. 174-181.
131.
Fernandez, A., et al.
Cellular neural networks simulation on a parallel graphics
processing unit
: IEEE.
132.
Kanwar, R.,
Real-Time Edge Detection using Sundance Video and Image Processing
System.
2009.
133.
Choudhary, A. and S. Ranka,
Guest editor's introduction: parallel processing for
computer vision and image understanding.
Computer, 1992. 25(2): p. 7-10.
134.
Wang, X. and S.G. Ziavras.
HERA: A reconfigurable and mixed-mode parallel
computing engine on platform FPGAs
. 2004: Citeseer.
135.
Tonde, C.,
Hardware and software platforms for computer vision.
136.
Tsuchiyama, R., et al.,
The OpenCL Programming Book.
Group, 2009.
137.
Barak, A., et al.
A package for OpenCL based heterogeneous computing on clusters
with many GPU devices
: IEEE.
138.
Chua, L.O. and T. Roska,
Cellular neural networks and visual computing: foundation
and applications
. 2002: Cambridge Univ Pr.
139.
Montúfar-Chaveznava, R. and D. Guinea,
A Cellular Neural Network System for Real-
Time Image Processing.
140.
Takenouchi, H., T. Watanabe, and A. Hideki,
Development of DT-CNN Emulator
Based on GPGPU.
141.
Arena, P., L. Fortuna, and M. Branciforte,
Reaction-diffusion CNN algorithms to
generate and control artificial locomotion.
Circuits and Systems I:
Fundamental
Theory and Applications, IEEE Transactions on, 1999. 46(2): p. 253-260.
142.
Arena, P., et al.
Bio-inspired robotics: application of a CNN-based CPG VLSI chip to
control an autonomous mini-hexapod robot
. 2006: IEEE.
143.
Arena, P., et al.,
An adaptive, self-organizing dynamical system for hierarchical
control of bio-inspired locomotion.
Systems, Man, and Cybernetics, Part B:
Cybernetics, IEEE Transactions on, 2004. 34(4): p. 1823-1837.
144.
Fortuna, L. and L. Patane.
Hexapod locomotion control through a cnn based
decentralized system
. 2002: IEEE.
145.
Arena, P., et al.
An autonomous mini-hexapod robot controlled through a CNN-based
CPG VLSI chip
. 2006: IEEE.
146.
Branciforte, M., et al.
Reaction-Diffusion CNN design for a new class of biologically-
inspired processors in artificial locomotion applications
. 1999: Published by the IEEE
Computer Society.
147.
Horn, J., N. Nafpliotis, and D.E. Goldberg.
A niched Pareto genetic algorithm for
multiobjective optimization
. 1994: Ieee.
148.
Cho, S.B.
Evolving multiple sensory-motor controllers based on cellular neural
network
. 2001: IEEE.
149.
Cigale, B. and D. Zazula,
Segmentation of ovarian ultrasound images using cellular
