?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=A+Quantitative+Neural+Coding+Model+of+Sensory+Memory%0D%0A&rft.creator=Liu%2C+PHD+Peilei&rft.creator=Wang%2C+Professor+Ting&rft.subject=Cognitive+Psychology&rft.subject=Computational+Neuroscience&rft.subject=Dynamical+Systems&rft.subject=Machine+Learning&rft.subject=Neural+Nets&rft.subject=Statistical+Models&rft.subject=Neural+Modelling&rft.subject=Logic&rft.subject=Philosophy+of+Mind&rft.description=The+coding+mechanism+of+sensory+memory+on+the+neuron+scale+is+one+of+the+most%0D%0Aimportant+questions+in+neuroscience.+We+have+put+forward+a+quantitative+neural+network+model%2C%0D%0Awhich+is+self-organized%2C+self-similar%2C+and+self-adaptive%2C+just+like+an+ecosystem+following%0D%0ADarwin's+theory.+According+to+this+model%2C+neural+coding+is+a+%E2%80%9Cmult-to-one%E2%80%9Dmapping+from%0D%0Aobjects+to+neurons.+And+the+whole+cerebrum+is+a+real-time+statistical+Turing+Machine%2C+with%0D%0Apowerful+representing+and+learning+ability.+This+model+can+reconcile+some+important+disputations%2C%0D%0Asuch+as%3A+temporal+coding+versus+rate-based+coding%2C+grandmother+cell+versus+population+coding%2C%0D%0Aand+decay+theory+versus+interference+theory.+And+it+has+also+provided+explanations+for+some+key%0D%0Aquestions+such+as+memory+consolidation%2C+episodic+memory%2C+consciousness%2C+and+sentiment.%0D%0APhilosophical+significance+is+indicated+at+last.%0D%0A&rft.date=2014-06-30&rft.type=Preprint&rft.type=NonPeerReviewed&rft.format=application%2Fpdf&rft.identifier=http%3A%2F%2Fcogprints.org%2F9753%2F1%2Fliutextfigs.pdf&rft.identifier=++Liu%2C+PHD+Peilei+and+Wang%2C+Professor+Ting++(2014)+A+Quantitative+Neural+Coding+Model+of+Sensory+Memory.++%5BPreprint%5D+++++&rft.relation=http%3A%2F%2Fcogprints.org%2F9753%2F