New spatial-temporal patterns and the first programmable on-chip bifurcation test-bed
Proceedings of the 2002 7th IEEE International Workshop on Cellular Neural Networks and Their Applications - Trang 25-32
Tóm tắt
In this paper we introduce a new experimental tool, a real-time programmable, spatial-temporal bifurcation test-bed. We present the experimental analysis of an antisymmetric template class. This class produces novel spatial-temporal patterns that have complex dynamics. The character of these propagating patterns depends on the self-feedback and on the sign of the coupling below the self-feedback template element. We also show how to use these patterns for morphological detection.
Từ khóa
#Bifurcation #Testing #Cellular neural networks #Chaos #Computer architecture #Equations #Educational institutions #Numerical simulation #Circuits #Nonlinear dynamical systemsTài liệu tham khảo
10.1109/81.473585
10.1109/81.222797
biey, 2000, Complex Dynamic Phenomena in Space-Invariant Cellular Neural Networks, IEEE Trans On Circuits and Systems I
10.1007/978-3-642-60044-9
10.1109/31.101272
petrás, 2001, New spatial-temporal patterns and the first programmable on-chip bifurcation test-bed, Research report of the Analogic (Dual) and Neural Computing Systems Laboratory (DNS-6-2001)
10.1109/81.222795
10.1109/31.7601
10.1109/82.222812
10.1109/82.222815
10.1109/81.704819
10.1109/31.81867
10.1109/31.7600
liñan, 2000, The CNNUC3: An Analog I/O 64×64 CNN Universal Machine Chip Prototype with 7-Bit Analog Accuracy, Proceedings of IEEE Int Workshop on Cellular Neural Networks and Their Applications (CNNA'2000), 201
10.1109/81.704820