A cognitive management method and system that monitors and manipulates a response signal from a neurological organ to optimize cognitive performance and behavioral management of the neurological organ. The method allows a user to transmit a stimulus signal such as optical or auditory to the organ and receive a return signal in response. A sensor, such as EEG electrodes detects the response signal. The response signal generated by the neurological organ is then detected by the sensor and transmitted to data storage. The signal can be reconfigured and retransmitted to a display device. The signal includes Hertz and real time frequencies. The signal includes a signal parameter with a high range and a low range. An alert actuates when the signal exceeds the parameter. The signal is monitored by the user and invited followers to analyze and treat cognitive performance and behavior.
