The intracerebral local field potential (LFP) is a measure of brain activity that reflects the
highly dynamic flow of information across neural networks. This is a composite signal that …

New technologies to record electrical activity from the brain on a massive scale offer
tremendous opportunities for discovery. Electrical measurements of large-scale brain …

Leaky integrate-and-fire (LIF) network models are commonly used to study how the spiking
dynamics of neural networks changes with stimuli, tasks or dynamic network states …

Recordings of extracellular electrical, and later also magnetic, brain signals have been the
dominant technique for measuring brain activity for decades. The interpretation of such …

With rapidly advancing multi-electrode recording technology, the local field potential (LFP)
has again become a popular measure of neuronal activity in both research and clinical …

Abstract Microelectrode arrays (MEAs), substrate-integrated planar arrays of up to
thousands of closely spaced metal electrode contacts, have long been used to record …

The activity of neuron populations gives rise to field potentials (FPs) that extend beyond the
sources. Their mixing in the volume dilutes the original temporal motifs in a site-dependent …

Local Field Potentials (LFPs) are population signals generated by complex spatiotemporal
interaction of current sources and dipoles. Mathematical computations of LFPs allow the …

Local field potentials (LFPs) reflect the coordinated firing of functional neural assemblies
during information coding and transfer across neural networks. As such, it was proposed that …

Brain field potentials (FPs) can reach far from their sources, making difficult to know which
waves come from where. We show that modern algorithms efficiently segregate the local …