Abstract. Neuromimetic models of time processing mechanisms in the sub-second to minute range are mainly focussed on the mean and variance properties of time estimation (scalarity) but offer no appropriate account of attention manipulations: a systematic underestimation of time with decreasing levels of attention. Our model is able to reproduce the scalarity and attentional effects, and fits both behavioral and brain imaging data.
International audienceWe present the first developmental model of interval timing. It is a memory-ba...
Interval timing and working memory are critical components of cognition that are supported by neural...
How the human brain perceives time intervals is a fascinating topic that has been explored in many f...
In recent years great progress has been made in the computational modeling of interval timing. A wid...
Cognitive processes, such as decision making, rate calcu-lation and planning, are strongly affected ...
A fundamental principle of brain function is the use of temporal regularities to predict the timing ...
Theories on how time is perceived often lack integration between clock systems and other cognitive m...
<p>Humans and animals have remarkable capabilities in keeping time and using time as a guide to orie...
We use our sense of time to identify temporal relationships between events and to anticipate actions...
The human ability to accurately estimate time intervals in the order of 0 to 20 seconds can be expla...
International audienceGibbon's scalar expectancy theory assumes three processing stages in time esti...
The fundamental assumption of pacemaker accumulator models of interval timing is that timed behavior...
<p>A comparison of neural models of interval timing. In relation to our model, these models can be d...
The properties of the internal clock, temporal memory, and decision processes used to time short dur...
Keeping track of time is a fundamental challenge the brain needs to accomplish to successfully inter...
International audienceWe present the first developmental model of interval timing. It is a memory-ba...
Interval timing and working memory are critical components of cognition that are supported by neural...
How the human brain perceives time intervals is a fascinating topic that has been explored in many f...
In recent years great progress has been made in the computational modeling of interval timing. A wid...
Cognitive processes, such as decision making, rate calcu-lation and planning, are strongly affected ...
A fundamental principle of brain function is the use of temporal regularities to predict the timing ...
Theories on how time is perceived often lack integration between clock systems and other cognitive m...
<p>Humans and animals have remarkable capabilities in keeping time and using time as a guide to orie...
We use our sense of time to identify temporal relationships between events and to anticipate actions...
The human ability to accurately estimate time intervals in the order of 0 to 20 seconds can be expla...
International audienceGibbon's scalar expectancy theory assumes three processing stages in time esti...
The fundamental assumption of pacemaker accumulator models of interval timing is that timed behavior...
<p>A comparison of neural models of interval timing. In relation to our model, these models can be d...
The properties of the internal clock, temporal memory, and decision processes used to time short dur...
Keeping track of time is a fundamental challenge the brain needs to accomplish to successfully inter...
International audienceWe present the first developmental model of interval timing. It is a memory-ba...
Interval timing and working memory are critical components of cognition that are supported by neural...
How the human brain perceives time intervals is a fascinating topic that has been explored in many f...