José Francisco Gómez‐González scite author profile

It was recently shown that multiple excitatory inputs to CA1 pyramidal neuron dendrites must be activated nearly simultaneously to generate local dendritic spikes and supralinear responses at the soma; even slight input desynchronization prevented local spike initiation (Gasparini and Magee, 2006; Losonczy and Magee, 2006). This led to the conjecture that CA1 pyramidal neurons may only express their non-linear integrative capabilities during the highly synchronized sharp waves and ripples that occur during slow wave sleep and resting/consummatory behavior, whereas during active exploration and REM sleep (theta rhythm), inadequate synchronization of excitation would lead CA1 pyramidal cells to function as essentially linear devices. Using a detailed single neuron model, we replicated the experimentally observed synchronization effect for brief inputs mimicking single synaptic release events. When synapses were driven instead by double pulses, more representative of the bursty inputs that occur in vivo, we found that the tolerance for input desynchronization was increased by more than an order of magnitude. The effect depended mainly on paired-pulse facilitation of NMDA receptor-mediated responses at Schaffer collateral synapses. Our results suggest that CA1 pyramidal cells could function as non-linear integrative units in all major hippocampal states.

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Pyramidal Neuron Conductance State Gates Spike-Timing-Dependent Plasticity

Delgado

Gómez‐González

Desai

2010

J. Neurosci.

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Neocortical neurons in vivo process each of their individual inputs in the context of ongoing synaptic background activity, produced by the thousands of presynaptic partners a typical neuron has. Previous work has shown that background activity affects multiple aspects of neuronal and network function. However, its effect on the induction of spike-timing dependent plasticity (STDP) is not clear. Here we report that injections of simulated background conductances (produced by a dynamic-clamp system) into pyramidal cells in rat brain slices selectively reduced the magnitude of timing-dependent synaptic potentiation while leaving the magnitude of timing-dependent synaptic depression unchanged. The conductance-dependent suppression also sharpened the STDP curve, with reliable synaptic potentiation induced only when EPSPs and action potentials (APs) were paired within 8 ms of each other. Dual somatic and dendritic patch recordings suggested that the deficit in synaptic potentiation arose from shunting of dendritic EPSPs and APs. Using a biophysically detailed computational model, we were not only able to replicate the conductancedependent shunting of dendritic potentials, but show that synaptic background can truncate calcium dynamics within dendritic spines in a way that affects potentiation more strongly than depression. This conductance-dependent regulation of synaptic plasticity may constitute a novel homeostatic mechanism that can prevent the runaway synaptic potentiation to which Hebbian networks are vulnerable.

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Improving the anesthetic process by a fuzzy rule based medical decision system

Méndez

Leon

Marrero

et al. 2018

Artificial Intelligence in Medicine

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Reactive power management in photovoltaic installations connected to low-voltage grids to avoid active power curtailment

Gómez‐González¹,

Cañadillas-Ramallo²,

González‐Díaz³

et al. 2018

REPQJ

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Photovoltaic (PV) inverters are traditionally designed to operate with unity power factors. In order to use reactive power capabilities of smart inverters, in this work two strategies are analysed: limiting the amount of active power delivered or oversizing the inverter. The first of these options implies a reduction in the PV production and therefore, it would lead to reduced earnings for the PV system owner. On the other hand, oversizing the PV inverter allows having reactive power compensation capabilities, while delivering full power output from its PV field.

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Adaptive pharmacokinetic and pharmacodynamic modelling to predict propofol effect using BIS-guided anesthesia

Martín-Mateos

Pérez

Morales

et al. 2016

Computers in Biology and Medicine

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Short-Term Energy Demand Forecast in Hotels Using Hybrid Intelligent Modeling

Casteleiro‐Roca

Gómez‐González

Calvo-Rolle

et al. 2019

Sensors

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The hotel industry is an important energy consumer that needs efficient energy management methods to guarantee its performance and sustainability. The new role of hotels as prosumers increases the difficulty in the design of these methods. Also, the scenery is more complex as renewable energy systems are present in the hotel energy mix. The performance of energy management systems greatly depends on the use of reliable predictions for energy load. This paper presents a new methodology to predict energy load in a hotel based on intelligent techniques. The model proposed is based on a hybrid intelligent topology implemented with a combination of clustering techniques and intelligent regression methods (Artificial Neural Network and Support Vector Regression). The model includes its own energy demand information, occupancy rate, and temperature as inputs. The validation was done using real hotel data and compared with time-series models. Forecasts obtained were satisfactory, showing a promising potential for its use in energy management systems in hotel resorts.

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Prediction of the Energy Demand of a Hotel Using an Artificial Intelligence-Based Model

Casteleiro‐Roca

Gómez‐González

Calvo-Rolle

et al. 2018

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Reactive power management to enhance solar energy penetration in small grids: technical and framework approaches

González‐Díaz¹,

Gómez‐González²,

Cañadillas-Ramallo³

et al. 2019

REPQJ

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In the last few years, rising environmental concerns and especially, cost reductions that photovoltaic technology has experienced, have led to an unprecedented increase in the deployment of photovoltaic systems all over the world. Although nowadays most of the installed photovoltaic capacity is due to utility-scale plants, medium-and small-scale plants connected to distribution systems are becoming increasingly more frequent. Distribution networks were originally designed assuming a centralized operation, and the growing penetration of distributed generators is arising both technical and regulatory issues. In this work, we summarize different approaches from the technical and framework point of view.

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