The Leaky Competing Accumulator model (LCA) of Usher and McClelland is able to simulate the time course of perceptual decision making between an arbitrary number of stimuli. Reaction times, such as saccadic latencies, produce a typical distribution that is skewed toward longer latencies and accumulator models have shown excellent fit to these distributions. We propose a new implementation called the Spatial Leaky Competing Accumulator (SLCA), which can be used to predict the timing of subsequent fixation durations during a visual task. SLCA uses a pre-existing saliency map as input and represents accumulation neurons as a two-dimensional grid to generate predictions in visual space. The SLCA builds on several biologically motivated paramete...
The leaky competing accumulator (LCA) is a biologically inspired model of choice. It describes the p...
<p>Sensory neuron populations for each decision alternative feed into corresponding accumulators, wh...
Huang and Pashler (2007) suggested that feature-based attention creates a special form of spatial re...
The Leaky Competitive Accumulator (LCA) model for perceptual discrimination is rapidly growing in po...
Itti and Koch’s Saliency Model has been used extensively to simulate fixation selection in a variety...
We describe a stochastic accumulator model demonstrating that visual search performance can be under...
The time course of perceptual choice is discussed in a model based on gradual and stochastic accumul...
AbstractWe will describe a computational model of attention which explains the guidance of spatial a...
Decisions typically comprise several elements. For example, attention must be directed towards speci...
Stochastic accumulator models account for response time in perceptual decision-making tasks by assum...
The Leaky Competing Accumulator (LCA) is a biologically inspired model of choice. It describes the p...
In many real-life situations, we make decisions between a defined set of options, which can be eithe...
<p>The model combines two basic neural mechanisms: stimulus selection via biased competition between...
<div><p>Decisions typically comprise several elements. For example, attention must be directed towar...
A substantial number of works have aimed at modeling the receptive field properties of the primary v...
The leaky competing accumulator (LCA) is a biologically inspired model of choice. It describes the p...
<p>Sensory neuron populations for each decision alternative feed into corresponding accumulators, wh...
Huang and Pashler (2007) suggested that feature-based attention creates a special form of spatial re...
The Leaky Competitive Accumulator (LCA) model for perceptual discrimination is rapidly growing in po...
Itti and Koch’s Saliency Model has been used extensively to simulate fixation selection in a variety...
We describe a stochastic accumulator model demonstrating that visual search performance can be under...
The time course of perceptual choice is discussed in a model based on gradual and stochastic accumul...
AbstractWe will describe a computational model of attention which explains the guidance of spatial a...
Decisions typically comprise several elements. For example, attention must be directed towards speci...
Stochastic accumulator models account for response time in perceptual decision-making tasks by assum...
The Leaky Competing Accumulator (LCA) is a biologically inspired model of choice. It describes the p...
In many real-life situations, we make decisions between a defined set of options, which can be eithe...
<p>The model combines two basic neural mechanisms: stimulus selection via biased competition between...
<div><p>Decisions typically comprise several elements. For example, attention must be directed towar...
A substantial number of works have aimed at modeling the receptive field properties of the primary v...
The leaky competing accumulator (LCA) is a biologically inspired model of choice. It describes the p...
<p>Sensory neuron populations for each decision alternative feed into corresponding accumulators, wh...
Huang and Pashler (2007) suggested that feature-based attention creates a special form of spatial re...