We process and integrate multiple timescales into one meaningful whole. Recent evidence suggests that the brain displays a complex multiscale temporal organization. Different regions exhibit different timescales as described by the concept of intrinsic neural timescales (INT); however, their function and neural mechanisms remains unclear. We review recent literature on INT and propose that they are key for input processing. Specifically, they are shared across different species, i.e., input sharing. This suggests a role of INT in encoding inputs through matching the inputs' stochastics with the ongoing temporal statistics of the brain's neural activity, i.e., input encoding. Following simulation and empirical data, we point out input integr...
Time has mystified philosophers, artists, and scientists for centuries, but only recently has it be...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
The brain exhibits a complex temporal structure which translates into a hierarchy of distinct neural...
We are continuously bombarded by external inputs of various timescales from the environment. How doe...
Optimized interaction of the brain with environment requires the four-dimensional representation of ...
Summary: Our brain continuously receives information over multiple timescales that are differently p...
Time, the fourth dimension of the world, is an important parameter in many behaviours and cognitive ...
To survive in an ever-changing environment, the brain must seamlessly integrate a rich stream of inc...
To survive in an ever-changing environment, the brain must seamlessly integrate a rich stream of inc...
Humans effortlessly parse continuous experience based on its temporal structure, allowing us to reco...
Time is not only the fundamental organizing principle of the universe, it is also the primary organi...
We use functional magnetic resonance imaging (fMRI) to analyze neural responses to natural auditory ...
Intrinsic timescales characterize dynamics of endogenous fluctuations in neural activity. Variation ...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
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...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
The brain exhibits a complex temporal structure which translates into a hierarchy of distinct neural...
We are continuously bombarded by external inputs of various timescales from the environment. How doe...
Optimized interaction of the brain with environment requires the four-dimensional representation of ...
Summary: Our brain continuously receives information over multiple timescales that are differently p...
Time, the fourth dimension of the world, is an important parameter in many behaviours and cognitive ...
To survive in an ever-changing environment, the brain must seamlessly integrate a rich stream of inc...
To survive in an ever-changing environment, the brain must seamlessly integrate a rich stream of inc...
Humans effortlessly parse continuous experience based on its temporal structure, allowing us to reco...
Time is not only the fundamental organizing principle of the universe, it is also the primary organi...
We use functional magnetic resonance imaging (fMRI) to analyze neural responses to natural auditory ...
Intrinsic timescales characterize dynamics of endogenous fluctuations in neural activity. Variation ...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
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...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
The brain exhibits a complex temporal structure which translates into a hierarchy of distinct neural...