Matar Haller scite author profile

Electrophysiological signals across species and recording scales exhibit both periodic and aperiodic features. Periodic oscillations have been widely studied and linked to numerous physiological, cognitive, behavioral, and disease states, while the aperiodic "background" 1/f component of neural power spectra has received far less attention. Most analyses of oscillations are conducted on a priori, canonically-defined frequency bands without consideration of the underlying aperiodic structure, or verification that a periodic signal even exists in addition to the aperiodic signal. This is problematic, as recent evidence shows that the aperiodic signal is dynamic, changing with age, task demands, and cognitive state. It has also been linked to the relative excitation/inhibition of the underlying neuronal population. This means that standard analytic approaches easily conflate changes in the periodic and aperiodic signals with one another because the aperiodic parameters-along with oscillation center frequency, power, and bandwidth-are all dynamic in physiologically meaningful, but likely different, ways. In order to overcome the limitations of traditional narrowband analyses and to reduce the potentially deleterious effects of conflating these features, we introduce a novel algorithm for automatic parameterization of neural power spectral densities (PSDs) as a combination of the aperiodic signal and putative periodic oscillations. Notably, this algorithm requires no a priori specification of band limits and accounts for potentially-overlapping oscillations while minimizing the degree to which they are confounded with one another. This algorithm is amenable to large-scale data exploration and analysis, providing researchers with a tool to quickly and accurately parameterize neural power spectra.

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Persistent neuronal activity in human prefrontal cortex links perception and action

Haller

Case

Crone

et al. 2017

Nat Hum Behav

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How do humans flexibly respond to changing environmental demands on a sub-second temporal scale? Extensive research has highlighted the key role of the prefrontal cortex in flexible decision-making and adaptive behavior, yet the core mechanisms that translate sensory information into behavior remain undefined. Utilizing direct human cortical recordings, we investigated the temporal and spatial evolution of neuronal activity, indexed by the broadband gamma signal, while sixteen participants performed a broad range of self-paced cognitive tasks. Here we describe a robust domain- and modality-independent pattern of persistent stimulus-to-response neural activation that encodes stimulus features and predicts motor output on a trial-by-trial basis with near-perfect accuracy. Observed across a distributed network of brain areas, this persistent neural activation is centered in the prefrontal cortex and is required for successful response implementation, providing a functional substrate for domain-general transformation of perception into action, critical for flexible behavior.

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Tell Me Something I Don't Know: Analyzing OkCupid Profiles

Shishido

Narasimhan²,

Haller³

2016

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In this paper, we present an analysis of 59,000 OkCupid user profiles that examines online self-presentation by combining natural language processing (NLP) with machine learning. We analyze word usage patterns by self-reported sex and drug usage status. In doing so, we review standard NLP techniques, cover several ways to represent text data, and explain topic modeling. We find that individuals in particular demographic groups self-present in consistent ways. Our results also suggest that users may unintentionally reveal demographic attributes in their online profiles.

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Temporally Sustained Activity in Lateral Prefrontal Cortex Supports Decision Making

Haller¹,

Paroma²,

Lynne³

et al. 2015

Front. Hum. Neurosci.

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Matar Haller

Parameterizing neural power spectra into periodic and aperiodic components

Parameterizing neural power spectra

Persistent neuronal activity in human prefrontal cortex links perception and action

Tell Me Something I Don't Know: Analyzing OkCupid Profiles

Temporally Sustained Activity in Lateral Prefrontal Cortex Supports Decision Making

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