Your search keyword '"Urbizagastegui, Pablo"' showing total 5 results

1. Electrical Signaling Beyond Neurons.

Author

Monk, Travis, Dennler, Nik, Ralph, Nicholas, Rastogi, Shavika, Afshar, Saeed, Urbizagastegui, Pablo, Jarvis, Russell, van Schaik, André, and Adamatzky, Andrew

Subjects

MEMBRANE potential, ACTION potentials, NERVOUS system, ELECTRIC transients, TIME pressure, COMPUTATIONAL neuroscience

Abstract

Neural action potentials (APs) are difficult to interpret as signal encoders and/or computational primitives. Their relationships with stimuli and behaviors are obscured by the staggering complexity of nervous systems themselves. We can reduce this complexity by observing that "simpler" neuron-less organisms also transduce stimuli into transient electrical pulses that affect their behaviors. Without a complicated nervous system, APs are often easier to understand as signal/response mechanisms. We review examples of nonneural stimulus transductions in domains of life largely neglected by theoretical neuroscience: bacteria, protozoans, plants, fungi, and neuron-less animals. We report properties of those electrical signals—for example, amplitudes, durations, ionic bases, refractory periods, and particularly their ecological purposes. We compare those properties with those of neurons to infer the tasks and selection pressures that neurons satisfy. Throughout the tree of life, nonneural stimulus transductions time behavioral responses to environmental changes. Nonneural organisms represent the presence or absence of a stimulus with the presence or absence of an electrical signal. Their transductions usually exhibit high sensitivity and specificity to a stimulus, but are often slow compared to neurons. Neurons appear to be sacrificing the specificity of their stimulus transductions for sensitivity and speed. We interpret cellular stimulus transductions as a cell's assertion that it detected something important at that moment in time. In particular, we consider neural APs as fast but noisy detection assertions. We infer that a principal goal of nervous systems is to detect extremely weak signals from noisy sensory spikes under enormous time pressure. We discuss neural computation proposals that address this goal by casting neurons as devices that implement online, analog, probabilistic computations with their membrane potentials. Those proposals imply a measurable relationship between afferent neural spiking statistics and efferent neural membrane electrophysiology. [ABSTRACT FROM AUTHOR]

Published

2024

2. Memory-efficient neurons and synapses for spike-timing-dependent-plasticity in large-scale spiking networks.

Author

Urbizagastegui, Pablo, van Schaik, André, and Runchun Wang

Subjects

ARTIFICIAL neural networks, RECOLLECTION (Psychology), NEUROPLASTICITY, DIGITAL computer simulation, SYNAPSES

Abstract

This paper addresses the challenges posed by frequent memory access during simulations of large-scale spiking neural networks involving synaptic plasticity. We focus on the memory accesses performed during a common synaptic plasticity rule since this can be a significant factor limiting the efficiency of the simulations. We propose neuron models that are represented by only three state variables, which are engineered to enforce the appropriate neuronal dynamics. Additionally, memory retrieval is executed solely by fetching postsynaptic variables, promoting a contiguous memory storage and leveraging the capabilities of burstmode operations to reduce the overhead associated with each access. Different plasticity rules could be implemented despite the adopted simplifications, each leading to a distinct synaptic weight distribution (i.e., unimodal and bimodal). Moreover, our method requires fewer average memory accesses compared to a naive approach. We argue that the strategy described can speed up memory transactions and reduce latencies while maintaining a small memory footprint. [ABSTRACT FROM AUTHOR]

Published

2024

3. Veganos no Yelp

Author

Urbizagastegui, Pablo and Bordieri, Gustavo

Abstract

Projeto contendo os metadados dos dados gerados pelos códigos disponibilizados.

Published

2022

4. Master thesis data

Author

Urbizagastegui, Pablo

Subjects

GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Abstract

Data generate from simulations during my masters

Published

2022

5. Modelagem de células de Renshaw e sua utilização em simulações do sistema neuromuscular.

Author

Urbizagastegui, Pablo Alejandro de Abreu, primary