Patent ID: 8666499

Claim:
An artificial nerve networking system comprising: a first nerve conduit configured for connecting at one end of a cut nerve; a second nerve conduit configured for connecting at the other end of the cut nerve; and a means for recovering the function of the cut nerve electrically connected to the first nerve conduit and the second nerve conduit and recovering the function of the cut nerve by transmitting and receiving a signal to and from the cut nerve, wherein the signal is transmitted and received between the one end and the other end of the cut nerve through the means for recovering the function of the cut nerve, wherein the first nerve conduit and the second nerve conduit each comprise: a support configured for connecting at an end of the cut nerve, the support having a body containing a cavity-type channel with an inner wall; an electrode layer formed along the inner wall of the channel; and an external electrode electrically connected to the electrode layer, wherein the channel is configured in order that nerve cells grow along the channel at the end of the cut nerve, and the electrode layer is electrically connected to the grown nerve cells, wherein the means for recovering the function of the cut nerve comprises: a first implantable module configured to be implanted in an organism and electrically connected to the first nerve conduit; a second implantable module configured to be implanted in the organism and electrically connected to the second nerve conduit; and an external module provided outside the organism, wherein a nerve signal is transmitted among the first implantable module, the second implantable module and the external module via wireless communication wherein the first implantable module and the second implantable module each comprise: a digital signal processor that employs a multilayer perceptron algorithm, wherein the digital signal processor receives, analyzes, and transmits a signal from one of the cut nerve, the first implantable module, the second implantable module, and the external module via wireless communication.