Patent ID: 10241104

Abstract:
Disclosed is a system for interacting with a cell and further communicating over a communication network is provided. The system includes a controller, a frequency generator, a first electrode, and a cell-chip circuitry. The frequency generator provides modulated alternating electric field with variable frequency. The controller releases routing instructions and further communicates through the communication network. The first electrode receives alternating electric field charges from the controller. The cell-chip circuitry is capacitively coupled to the first electrode. The cell-chip circuitry includes a second electrode, a harvester, a processor, a pulser, an analog switch matrix, a bi-directional communication unit, a pit, an inherent artificial intelligence interpreter, a analyzer, a nano needle, a third electrode. The cell-chip circuitry measures the field strength of the received charges from the harvester and generates pulsed intervals depending upon the field strength. The cell-chip circuitry further measures and communicates data with the controller through the e-field. The pit receives the cell. The cell reacts to the e-field. The inherent artificial intelligence interpreter performs successive approximation to monitor the reaction on the cell inside the pit on receiving instructions from the controller. The analyzer measures analog values of the e-field on the cell under the command of the inherent artificial intelligence interpreter; the analyzer communicates data to the bi-directional communication unit. The nano needle is inserted in the pit for bi-directionally communicating the e-field on the cell, and the third electrode is configured to provide space for the pit and floats against the ground.