Jayawan Wijekoon scite author profile

Hardware implementations of spiking neurons can be extremely useful for a large variety of applications, ranging from high-speed modeling of large-scale neural systems to real-time behaving systems, to bidirectional brain–machine interfaces. The specific circuit solutions used to implement silicon neurons depend on the application requirements. In this paper we describe the most common building blocks and techniques used to implement these circuits, and present an overview of a wide range of neuromorphic silicon neurons, which implement different computational models, ranging from biophysically realistic and conductance-based Hodgkin–Huxley models to bi-dimensional generalized adaptive integrate and fire models. We compare the different design methodologies used for each silicon neuron design described, and demonstrate their features with experimental results, measured from a wide range of fabricated VLSI chips.

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VLSI circuits implementing computational models of neocortical circuits

Wijekoon¹,

Dudek²

2012

Journal of Neuroscience Methods

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Maternal perception of fetal movements in late pregnancy is affected by type and duration of fetal movement

Brown

Higgins

Johnstone

et al. 2015

The Journal of Maternal-Fetal & Neonatal Medicine

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Continuous objective recording of fetal heart rate and fetal movements could reliably identify fetal compromise, which could reduce stillbirth rates by facilitating timely management

et al. 2014

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Spiking and Bursting Firing Patterns of a Compact VLSI Cortical Neuron Circuit

Wijekoon

Dudek

2007

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