Hippocampal reverse replay is thought to contribute to learning, and particularly reinforcement learning, in animals. We present a computational model of learning in the hippocampus that builds on a previous model of the hippocampal-striatal network viewed as implementing a three-factor reinforcement learning rule. To augment this model with hippocampal reverse replay, a novel policy gradient learning rule is derived that associates place cell activity with responses in cells representing actions. This new model is evaluated using a simulated robot spatial navigation task inspired by the Morris water maze. Results show that reverse replay can accelerate learning from reinforcement, whilst improving stability and robustness over multiple tri...
Sherpa Romeo green journal; open accessThe mammalian brain is thought to use a version of Model-base...
Abstract. For this special session of EU projects in the area of NeuroIT, we will review the progres...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Hippocampal reverse replay, a phenomenon in which recently active hippocampal cells reactivate in th...
Hippocampal reverse replay has been speculated to play an important role in biological reinforcement...
A number of computational models have recently emerged in an attempt to understand the dynamics of h...
Neurophysiological studies on hippocampal replay, which was a phenomenon first shown in rodents as t...
International audienceMultiple in vivo studies have shown that place cells from the hippocampus repl...
Animal learning is based on a process of trial and error. This is a fundamental observation in behav...
In a recent experiment, Foster and Wilson [1] have observed reverse replay of behavioral sequences i...
© 2020 National Academy of Sciences. All rights reserved.To better understand the functional roles o...
The hippocampus is necessary for the encoding and consolidation of new experiences, as well as impli...
The ability to successfully navigate the physical environment is a vital skill for numer- ous specie...
The original publication is available at www.springerlink.com Abstract. In this paper we present a m...
Since the hippocampus plays an important role in memory and spatial cognition, the study of spatial ...
Sherpa Romeo green journal; open accessThe mammalian brain is thought to use a version of Model-base...
Abstract. For this special session of EU projects in the area of NeuroIT, we will review the progres...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Hippocampal reverse replay, a phenomenon in which recently active hippocampal cells reactivate in th...
Hippocampal reverse replay has been speculated to play an important role in biological reinforcement...
A number of computational models have recently emerged in an attempt to understand the dynamics of h...
Neurophysiological studies on hippocampal replay, which was a phenomenon first shown in rodents as t...
International audienceMultiple in vivo studies have shown that place cells from the hippocampus repl...
Animal learning is based on a process of trial and error. This is a fundamental observation in behav...
In a recent experiment, Foster and Wilson [1] have observed reverse replay of behavioral sequences i...
© 2020 National Academy of Sciences. All rights reserved.To better understand the functional roles o...
The hippocampus is necessary for the encoding and consolidation of new experiences, as well as impli...
The ability to successfully navigate the physical environment is a vital skill for numer- ous specie...
The original publication is available at www.springerlink.com Abstract. In this paper we present a m...
Since the hippocampus plays an important role in memory and spatial cognition, the study of spatial ...
Sherpa Romeo green journal; open accessThe mammalian brain is thought to use a version of Model-base...
Abstract. For this special session of EU projects in the area of NeuroIT, we will review the progres...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...