Keeping track of time is essential for everyday behavior. Theoretical models have proposed a wide variety of neural processes that could tell time, but it is unclear which ones the brain actually uses. Low-level neural models are specific, but rarely explicate how cognitive processes, such as attention and memory, modulate prospective and retrospective timing. Here we develop a neurocomputational model of prospective and retrospective timing, using a spiking recurrent neural network. The model captures behavior of individual spiking neurons and population dynamics when producing and perceiving time intervals, thus bridging low- and high-level phenomena. When interrupting events are introduced, the model delays responding in a similar way to...
To guide action, animals anticipate what events will occur, and when they will occur, based on exper...
Contains fulltext : 221366.pdf (publisher's version ) (Open Access)Recent experime...
Time, the fourth dimension of the world, is an important parameter in many behaviours and cognitive ...
International audienceThe aim of this study in the field of computational neurosciences was to simul...
Humans effortlessly parse continuous experience based on its temporal structure, allowing us to reco...
Time is central to cognition. However, the neural basis for time-dependent cognition remains poorly ...
Time is centrally involved in most tasks the brain performs. However, the neurobiological mechanisms...
Time has mystified philosophers, artists, and scientists for centuries, but only recently has it be...
Psychological studies of the way in which animals time intervals show a key scalar regularity. Namel...
The neural network version of the Gaussian Activation Model of Interval Timing (GAMIT-Net) is a simp...
The brain maintains a record of recent events including information about the time at which events w...
Although the study of time has been central to physics and philosophy for millennia, questions of ho...
In daily life, we often need to remember to perform an action after, or at, a specific period of tim...
In order to overcome some of the challenges that current, conventional computing faces, a large set ...
In daily life, we often need to remember to perform an action after, or at, a specific period of tim...
To guide action, animals anticipate what events will occur, and when they will occur, based on exper...
Contains fulltext : 221366.pdf (publisher's version ) (Open Access)Recent experime...
Time, the fourth dimension of the world, is an important parameter in many behaviours and cognitive ...
International audienceThe aim of this study in the field of computational neurosciences was to simul...
Humans effortlessly parse continuous experience based on its temporal structure, allowing us to reco...
Time is central to cognition. However, the neural basis for time-dependent cognition remains poorly ...
Time is centrally involved in most tasks the brain performs. However, the neurobiological mechanisms...
Time has mystified philosophers, artists, and scientists for centuries, but only recently has it be...
Psychological studies of the way in which animals time intervals show a key scalar regularity. Namel...
The neural network version of the Gaussian Activation Model of Interval Timing (GAMIT-Net) is a simp...
The brain maintains a record of recent events including information about the time at which events w...
Although the study of time has been central to physics and philosophy for millennia, questions of ho...
In daily life, we often need to remember to perform an action after, or at, a specific period of tim...
In order to overcome some of the challenges that current, conventional computing faces, a large set ...
In daily life, we often need to remember to perform an action after, or at, a specific period of tim...
To guide action, animals anticipate what events will occur, and when they will occur, based on exper...
Contains fulltext : 221366.pdf (publisher's version ) (Open Access)Recent experime...
Time, the fourth dimension of the world, is an important parameter in many behaviours and cognitive ...