Economic Choice as an Untangling of Options into Actions

Yoo, Seng Bum Michael; Hayden, Benjamin Y.

doi:10.1016/j.neuron.2018.06.038

Cited by 112 publications

(128 citation statements)

References 158 publications

(239 reference statements)

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“…That is, action nodes in the current ANM were not simply a mere 'output' system of higher-order decision-making areas, but instead, served as a neural hub that integrated different sources of decision-relevant information. In line with previous studies, multiple action representations evolved in parallel, in a dynamic and gradual manner that depended on the current state of evidence in favour of each action, and action selection was determined through a winner-take-all competition between these multiple co-existing affordances (Cisek & Kalaska, 2005;Cisek, 2007;Pastor-Bernier & Cisek, 2011;Selen, Shadlen, & Wolpert, 2012;Thura & Cisek, 2014;Yoo & Hayden, 2018). Moreover, motor outcomes of the model (i.e., simulated movement trajectories) affected subsequent decision updates by causing changes in motor costs (i.e., changes in distance to each target).…”

Section: Discussionsupporting

confidence: 57%

“…Moreover, motor outcomes of the model (i.e., simulated movement trajectories) affected subsequent decision updates by causing changes in motor costs (i.e., changes in distance to each target). Thus, our model provides a common framework for decision making and action selection, and accounts for their reciprocal relation, instead of assuming strictly separate and serial processing of decisions and actions (Cisek, 2007;Rushworth, Kolling, Sallet, & Mars, 2012;Yoo & Hayden, 2018). In this context, the model makes further predictions that can be directly tested in future studies.…”

Section: Discussionmentioning

confidence: 99%

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Two Ways to Change Your Mind: Effects of Intentional Strength and Motor Costs on Changes of Intention

Löffler

Sylaidi²,

Fountas

et al. 2019

Preprint

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Changes of Mind are a striking example of the human ability to flexibly reverse decisions after commitment to an initial choice, and to change actions according to circumstances. Previous studies of Changes of Mind largely focused on perceptual choices. Here we investigate reversals of voluntary, endogenous action decisions. In a novel version of the random-dot motion task, participants moved to a target that matched both the perceived dot-motion direction and an internally-generated intention (which colour target to move to). Movement trajectories revealed whether and when participants 1) perceived a change in dot-motion direction, or additionally 2) changed the colour that they chose to move to ('Change of Intention'). Changes of Intention were less frequent in participants with strong colour intentions, as indicated by high performance costs in trials where perceptual information conflicted with the endogenous intention (Exp. 1). Additionally, Changes of Intention were more frequent when motor costs of intention pursuit were high (Exp. 2). These findings were simulated using an attractor network model that continuously integrates voluntary intentions, sensory evidence, and motor costs. This argues in favour of a unifying framework for dynamic decision-making processes, in which voluntary actions emerge from a dynamic combination of internal action tendencies and external environmental factors.

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Section: Discussionsupporting

confidence: 57%

Section: Discussionmentioning

confidence: 99%

Two Ways to Change Your Mind: Effects of Intentional Strength and Motor Costs on Changes of Intention

Löffler

Sylaidi²,

Fountas

et al. 2019

Preprint

View full text Add to dashboard Cite

show abstract

“…Monkeys evolved through natural selection processes to adaptively fit their environments, not to serve as scientific subjects. They are, nonetheless, invaluable, and their behavior, in particular, promises major advances, especially if it can be understood in ever more naturalistic contexts (12,(34)(35)(36)(37). Despite this, much biological research using them contorts their behavior to our convenience.…”

Section: Resultsmentioning

confidence: 99%

OpenMonkeyStudio: Automated Markerless Pose Estimation in Freely Moving Macaques

Bala

Eisenreich

Yoo

et al. 2020

Preprint

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118

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The rhesus macaque is an important model species in several branches of science, including neuroscience, psychology, ethology, and several fields of medicine. The utility of the macaque model would be greatly enhanced by the ability to precisely measure its behavior, specifically, its pose (position of multiple major body landmarks) in freely moving conditions. Existing approaches do not provide sufficient tracking. Here, we describe OpenMonkeyStudio, a novel deep learning-based markerless motion capture system for estimating 3D pose in freely moving macaques in large unconstrained environments. Our system makes use of 62 precisely calibrated and synchronized machine vision cameras that encircle an open 2.45m×2.45m×2.75m enclosure. The resulting multiview image streams allow for novel data augmentation via 3D reconstruction of hand-annotated images that in turn train a robust view-invariant deep neural network model. This view invariance represents an important advance over previous markerless 2D tracking approaches, and allows fully automatic pose inference on unconstrained natural motion. We show that OpenMonkeyStudio can be used to accurately recognize actions and track two monkey social interactions without human intervention. We also make the training data (195,228 images) and trained detection model publicly available. deep learning | behavioral tracking | rhesus macaque | convolutional pose machineCorrespondence: Benjamin Hayden,

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“…For example, seasonal timescales could be generated through circuit reverberations evoked by important task events and top-down signals and thus could depend on the dynamics of interactions between neurons in the circuit. Therefore, independence of intrinsic and seasonal timescales within individual neurons challenges the idea that their cortical hierarchies occur due to successive processing of information(Hunt and Hayden, 2017;Yoo and Hayden, 2018) and points to the importance of the heterogeneity of local circuits to which a neuron belongs(Chaudhuri et al, 2015)…”

mentioning

confidence: 99%

Multiple timescales of neural dynamics and integration of task-relevant signals across cortex

Spitmaan

Seo

Lee

et al. 2020

Preprint

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150 words Introduction: 625 words Total word count (excluding Methods and References): 4700 Total character count (excluding Methods and References): 28000 AbstractRecent studies have proposed the orderly progression in the time constants of neural dynamics as an organizational principle of cortical computations. However, relationships between these timescales and their dependence on response properties of individual neurons are unknown. We developed a comprehensive method to simultaneously estimate multiple timescales in neuronal dynamics and integration of task-relevant signals along with selectivity to those signals. We found that most neurons exhibited multiple timescales in their response, which consistently increased from parietal to prefrontal to cingulate cortex. While predicting rates of behavioral adjustments, these timescales were not correlated across individual neurons in any cortical area, resulting in independent parallel hierarchies of timescales. Additionally, none of these timescales depended on selectivity to task-relevant signals. Our results not only suggest multiple canonical mechanisms for increasing timescales of neural dynamics across cortex but also point to additional mechanisms that allow decorrelation of these timescales to enable more flexibility.

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Economic Choice as an Untangling of Options into Actions

Cited by 112 publications

References 158 publications

Two Ways to Change Your Mind: Effects of Intentional Strength and Motor Costs on Changes of Intention

Two Ways to Change Your Mind: Effects of Intentional Strength and Motor Costs on Changes of Intention

OpenMonkeyStudio: Automated Markerless Pose Estimation in Freely Moving Macaques

Multiple timescales of neural dynamics and integration of task-relevant signals across cortex

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