The fundamental assumption of pacemaker accumulator models of interval timing is that timed behavior relies on the accumulation of brain-derived clock signals. Following this theoretical tradition, a recent series of interval timing models has formulated the processing dynamics of timing behavior within the drift-diffusion decision theoretic framework, which has been traditionally applied to explain accuracy and response times in perceptual decision making. The generative processes assumed by these models and their key features can be implemented by neural populations given simple assumptions, and their predictions have received recent support from electrophysiological studies. This paper discusses the conceptual links of the diffusion mode...
Reaction time has been increasingly used over the last few decades to provide information on neural ...
<p>A comparison of neural models of interval timing. In relation to our model, these models can be d...
Abstract. Neuromimetic models of time processing mechanisms in the sub-second to minute range are ma...
The fundamental assumption of pacemaker accumulator models of interval timing is that timed behavior...
International audienceIn recent years great progress has been made in the computational modeling of ...
The processing dynamics underlying temporal decisions and the response times they generate have rece...
This article appeared in a journal published by Elsevier. The attached copy is furnished to the auth...
Weber’s law is the canonical scale-invariance law in psychology: when the intensities of 2 stimuli a...
The drift diffusion model (DDM) has been successful in capturing the joint dynamics of accuracy and ...
Behaviour occurs in time, and precise timing in the range of seconds and fractions of seconds is for...
Pacemaker-accumulator (PA) systems have been the most popular kind of timing model in the half-centu...
Computational models of decision making are becoming increasingly popular to interpret reaction time...
Scalar Timing Theory (an information-processing version of Scalar Expectancy Theory) and its evoluti...
Scalar Timing Theory (an information-processing version of Scalar Expectancy Theory) and its evoluti...
While most models of response times have focused on reactive response times, many of the decisions w...
Reaction time has been increasingly used over the last few decades to provide information on neural ...
<p>A comparison of neural models of interval timing. In relation to our model, these models can be d...
Abstract. Neuromimetic models of time processing mechanisms in the sub-second to minute range are ma...
The fundamental assumption of pacemaker accumulator models of interval timing is that timed behavior...
International audienceIn recent years great progress has been made in the computational modeling of ...
The processing dynamics underlying temporal decisions and the response times they generate have rece...
This article appeared in a journal published by Elsevier. The attached copy is furnished to the auth...
Weber’s law is the canonical scale-invariance law in psychology: when the intensities of 2 stimuli a...
The drift diffusion model (DDM) has been successful in capturing the joint dynamics of accuracy and ...
Behaviour occurs in time, and precise timing in the range of seconds and fractions of seconds is for...
Pacemaker-accumulator (PA) systems have been the most popular kind of timing model in the half-centu...
Computational models of decision making are becoming increasingly popular to interpret reaction time...
Scalar Timing Theory (an information-processing version of Scalar Expectancy Theory) and its evoluti...
Scalar Timing Theory (an information-processing version of Scalar Expectancy Theory) and its evoluti...
While most models of response times have focused on reactive response times, many of the decisions w...
Reaction time has been increasingly used over the last few decades to provide information on neural ...
<p>A comparison of neural models of interval timing. In relation to our model, these models can be d...
Abstract. Neuromimetic models of time processing mechanisms in the sub-second to minute range are ma...