- Authors:
- Chris Eliasmith,
- Charles H. Anderson
From the Publisher: For years, researchers have used the theoretical tools of engineering to understand neural systems, but much of this work has been conducted in relative isolation. In Neural Engineering, Chris Eliasmith and Charles Anderson provide a synthesis of the disparate approaches current in computational neuroscience, incorporating ideas from neural coding, neural computation, physiology, communications theory, control theory, dynamics, and probability theory. This synthesis, they argue, enables novel theoretical and practical insights into the functioning of neural systems. Such insights are pertinent to experimental and computational neuroscientists and to engineers, physicists, and computer scientists interested in how their quantitative tools relate to the brain. The authors present three principles of neural engineering based on the representation of signals by neural ensembles, transformations of these representations through neuronal coupling weights, and the integration of control theory and neural dynamics. Through detailed examples and in-depth discussion, they make the case that these guiding principles constitute a useful theory for generating large-scale models of neurobiological function. A software package written in MatLab for use with their methodology, as well as examples, course notes, exercises, documentation, and other material, are available on the Web.
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- Axenie C, Shi R, Foroni D, Wieder A, Hassan M, Sottovia P, Grossi M, Bortoli S and Brasche G TRAMESINO: Traffic Memory System for Intelligent Optimization of Road Traffic Control Advanced Analytics and Learning on Temporal Data, (88-103)
- Parziale A, Senatore R and Marcelli A (2020). Exploring speed–accuracy tradeoff in reaching movements: a neurocomputational model, Neural Computing and Applications, 32:17, (13377-13403), Online publication date: 1-Sep-2020.
- Hampo M, Fan D, Jenkins T, DeMange A, Westberg S, Bihl T and Taha T Associative Memory in Spiking Neural Network Form Implemented on Neuromorphic Hardware International Conference on Neuromorphic Systems 2020, (1-8)
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- Mastrogiuseppe F and Ostojic S (2019). A geometrical analysis of global stability in trained feedback networks, Neural Computation, 31:6, (1139-1182), Online publication date: 1-Jun-2019.
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- Miró-Amarante L, Gómez-Rodríguez F, Jiménez-Fernández A and Jiménez-Moreno G (2017). A spiking neural network for real-time Spanish vowel phonemes recognition, Neurocomputing, 226:C, (249-261), Online publication date: 22-Feb-2017.
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- Trischler A and D'Eleuterio G (2016). Synthesis of recurrent neural networks for dynamical system simulation, Neural Networks, 80:C, (67-78), Online publication date: 1-Aug-2016.
- Krichmar J, Coussy P and Dutt N (2015). Large-Scale Spiking Neural Networks using Neuromorphic Hardware Compatible Models, ACM Journal on Emerging Technologies in Computing Systems, 11:4, (1-18), Online publication date: 27-Apr-2015.
- Recchia G, Sahlgren M, Kanerva P and Jones M (2015). Encoding sequential information in semantic space models, Computational Intelligence and Neuroscience, 2015, (58-58), Online publication date: 1-Jan-2015.
- Belhadj B, Joubert A, Li Z, Héliot R and Temam O (2013). Continuous real-world inputs can open up alternative accelerator designs, ACM SIGARCH Computer Architecture News, 41:3, (1-12), Online publication date: 26-Jun-2013.
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- Eliasmith C (2002). Discreteness and Relevance, Minds and Machines, 12:3, (437-438), Online publication date: 1-Aug-2002.
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