[1] MAASS W, BISHOP C M. Pulsed neural networks [M]. MA: MIT Press, 2001.[2] SICHTIG H. Building small machines by utilizing spiking neural networks [C]// Proceedings of IEEE CIBCB, Hilton Hawaiian Village, Resort & Spa Honolulu, HI. 2007: 346-350.[3] 方慧娟,王永骥. 多脉冲发放的Spiking神经网络 [J]. 应用科学学报,2008,26(6): 638-644.FANG Huijuan, Wang Yongji. Spiking neural networks with neurons firing multiple spikes [J]. Journal of Sciences,2008, 26(6): 638-644. (in Chinese)[4] MCBRIDE M F, MCGINNITY T M, MAGUIER L P. Robospike sensory processing for a mobile robot using spiking neural networks [C]//19th International Conference on Artificial Neural Networks (ICANN 2009), Limassol, Cyprus, 2009: 94-803. [5] OURDIGHI A, LACHEHEB S E, BENYETTOU A. Phonetic classification with spiking neural network using a gradient descent rule [C]//2009 International Conference on Computer and Electrical Engineering (ICCEE 2009), Dubai, UAE, ICCEE 2009, 2: 36-40.[6] IZHIKEVICH E M. Simple model of spiking neurons [J]. IEEE Transactions on Neural Networks, 2003, 14 (6): 1569-1572. [7] VOGELSTEIN R J, MALLIK U, VOGELSTEIN J T, CAUWENBERGHS G. Dynamically reconfigurable silicon array of spiking neurons with conductance-based synapses [J]. IEEE Transactions on Neural Networks, 2007, 18(1): 253-265. [8] FIDIELAND A K, ROESCH E B. Platform for neural modeling of spiking neurons using GPUs [C]// 20th IEEE International Conference on Application-specific Systems, Architectures and Processors ( ASAP 2009), Boston, MA, USA, 2009: 137-144.[9] RICE K L, BHUIYAN M A, TAHA T M, VUTSINAS C N, SMITH M C. FPGA implementation of Izhikevich spiking neural networks for character recognition [C]//2009 International Conference on Reconfigurable Computing and FPGAs (ReConFig'09), Cancun, Quintana Roo, Mexico, 2009: 451-456.[10] NIRMALADEVI M, ARUMUGAM S. VLSI implementation of artificial neural networks - a survey [J]. International Journal of Modelling and Simulation, 2010, 30(2): 148-154.[11] 冯朝文,蔡理,李芹.基于单电子器件的细胞神经网络实现及应用研究 [J].物理学报,2008(4): 2462-2467.FENG Chaowen, CAI Li, LI Qin. Implementation and application of cellular neural networks based on single electron device [J]. Acta Physica Sinica, 2008(4): 2462-2467. (in Chinese)[12] LIKHAREV K K. Biologically inspired computing in CMOL CrossNets [C]//2009 AAAI FAll Symposium, Arlington, Virginia, USA. 2009, AAAI Fall Symposium - Technical Report, vol.FS-09-01: 90. [13] WASSHUBER C. Single-electronics – how it works. how it’s used. how it’s simulated [J]. Quality Electronic Design, 2002: 502-507.[14] LIKHAREV K K. Single-electron devices and their applications [J]. Proceedings of the IEEE, 1999, 87(4): 606-632.[15] GERSTNER W, KISTLER W M. Spiking neuron models: single neurons, populations, plasticity [M]. [S.l.]: Cambridge University Press, 2002: 35-43. |