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Memory Mechanisms in Man and Machine (M4)
Start date: May 1, 2013, End date: Apr 30, 2018 PROJECT  FINISHED 

"The project aims to validate a set of 10 provocative claims. 1) Humans can recognize visual and auditory stimuli that they have not experienced for decades. 2) Recognition is possible without ever reactivating the memory trace in the intervening period. 3) During memorization, sensory memory strength increases roughly linearly with the number of exposures. 4) A few tens of presentations can be enough to form a memory that can last a lifetime. 5) Attention-related oscillatory brain activity helps store memories efficiently. 6) Storing such very long-term memories involves the creation of highly selective ""Grandmother Cells"" that only fire if the original training stimulus is experienced again. 7) The neocortex contains large numbers of totally silent cells (""Neocortical Dark Matter"") that constitute the long-term memory store. 8) Grandmother Cells can be produced using simple spiking neural network models including Spike-Time Dependent Plasticity (STDP) and competitive inhibitory lateral connections. 9) This selectivity only requires binary synaptic weights that are either ""on"" or ""off"", greatly simplifying the problem of maintaining the memory over long periods. 10) Artificial systems using memristor-like devices can implement the same principles, allowing the development of powerful new processing architectures that could replace conventional computing hardware.We will test these claims with a highly interdisciplinary approach involving psychology, neuroscience, computational modeling and hardware development. Novel experimental paradigms will study the formation and maintenance of very long term sensory memories. They will be combined with imaging techniques including fMRI imaging, EEG recording, and intracerebral recording from epileptic patients. In parallel, computer simulations using networks of spiking neurons with Spike-Time Dependent Plasticity will model the experimental results, and develop bio-inspired hardware that mimics the brains memory systems."
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