Patent Document ID: 8990132
Application ID: 13469090

Base Claim:
1. An artificial neural network for processing data, comprising at least one processing unit, a first processing unit including (a) at least one artificial neuronal encoder for encoding a vector into a neuronal code; (b) a means for evaluating a code deviation vector that is the deviation of a neuronal code obtained by said artificial neuronal encoder from a neuronal code average; (c) a plurality of artificial synapse memories each for storing a component of a code deviation accumulation vector; (d) a first means for evaluating a first product of a component of a code deviation accumulation vector, a masking factor, and a component of a code deviation vector; (e) an artificial nonspiking neuron processor for evaluating a first sum of first products obtained by said first means; (f) a plurality of artificial synapse memories each for storing an entry of a code covariance matrix; (g) a second means for evaluating a second product of an entry of a code covariance matrix, a masking factor, and a component of a code deviation vector; and (h) at least one artificial spiking neuron processor for evaluating a second sum of second products obtained by said second means, and for using at least said second sum and a first sum obtained by said artificial nonspiking neuron processor to evaluate a representation of a first empirical probability distribution of a component of a label of a vector that is input to said first processing unit.

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Claim 7:
7. The artificial neural network of claim 1 , said first processing unit further including (a) a third means for evaluating a third product of a component of a code deviation accumulation vector, a learning masking factor, and a component of a code deviation vector; (b) a summing means for evaluating a third sum of third products obtained by said third means; (c) a fourth means for evaluating a fourth product of an entry of a code covariance matrix, a learning masking factor, and a component of a code deviation vector; (d) a summing-evaluating means for evaluating a fourth sum of fourth products obtained by said fourth means and for using at least said fourth sum and a third sum obtained by said summing means to evaluate a representation of a second empirical probability distribution of a component of a label of a vector that is input to said first processing unit; and (e) an unsupervised learning means for using at least a pseudorandom number generated in accordance with a second empirical probability distribution generated by said summing-evaluation means and a component of a code deviation vector to adjust an entry of a code covariance matrix by an unsupervised covariance rule in response to a vector that is input to said first processing unit.