<p>A comparison of neural models of interval timing. In relation to our model, these models can be distinguished along dimensions including the interval length addressed (IL); whether they show ramping activity, and if so, whether the ramp is ascending or descending (RA: up/down/both/no); whether they rely on multistable dynamics, and if so, whether the mechanism is cellular or network-based (MS: cel/net/both/no); whether neural activity shows a true gradient or an average of binary states (TG: yes/no); whether the scalar property of interval timing was shown: (SP: yes/no); and whether the learning of intervals was shown (L: yes/no).</p
This chapter reviews recent human and nonhuman animal studies investigating neural signatures of tim...
This chapter reviews recent human and nonhuman animal studies investigating neural signatures of tim...
We combined large-scale recordings and modeling to compare population dynamics between premotor cort...
International audienceIn recent years great progress has been made in the computational modeling of ...
Cognitive processes, such as decision making, rate calcu-lation and planning, are strongly affected ...
Interval timing and working memory are critical components of cognition that are supported by neural...
<p>Humans and animals have remarkable capabilities in keeping time and using time as a guide to orie...
A fundamental principle of brain function is the use of temporal regularities to predict the timing ...
The literature on human and nonhuman animal interval timing error indicates a lack of consensus as t...
Models of timing differ on two fundamental issues, the form of the representation and the content of...
State dependent network models of subsecond interval timing propose that duration is encoded in stat...
The fundamental assumption of pacemaker accumulator models of interval timing is that timed behavior...
The Scalar Timing Law, which is a temporal domain generalization of the well known Weber Law, states...
Abstract. Neuromimetic models of time processing mechanisms in the sub-second to minute range are ma...
SummaryTiming plays a crucial role in sensorimotor function. However, the neural mechanisms that ena...
This chapter reviews recent human and nonhuman animal studies investigating neural signatures of tim...
This chapter reviews recent human and nonhuman animal studies investigating neural signatures of tim...
We combined large-scale recordings and modeling to compare population dynamics between premotor cort...
International audienceIn recent years great progress has been made in the computational modeling of ...
Cognitive processes, such as decision making, rate calcu-lation and planning, are strongly affected ...
Interval timing and working memory are critical components of cognition that are supported by neural...
<p>Humans and animals have remarkable capabilities in keeping time and using time as a guide to orie...
A fundamental principle of brain function is the use of temporal regularities to predict the timing ...
The literature on human and nonhuman animal interval timing error indicates a lack of consensus as t...
Models of timing differ on two fundamental issues, the form of the representation and the content of...
State dependent network models of subsecond interval timing propose that duration is encoded in stat...
The fundamental assumption of pacemaker accumulator models of interval timing is that timed behavior...
The Scalar Timing Law, which is a temporal domain generalization of the well known Weber Law, states...
Abstract. Neuromimetic models of time processing mechanisms in the sub-second to minute range are ma...
SummaryTiming plays a crucial role in sensorimotor function. However, the neural mechanisms that ena...
This chapter reviews recent human and nonhuman animal studies investigating neural signatures of tim...
This chapter reviews recent human and nonhuman animal studies investigating neural signatures of tim...
We combined large-scale recordings and modeling to compare population dynamics between premotor cort...