A non-invasive system and process for projecting sensory data onto the human neural cortex is provided. The system includes a primary transducer array and a secondary transducer array. The primary transducer array acts as a coherent signal source, and the secondary transducer array acts as a controllable diffraction pattern that focuses energy onto the neural cortex in a desired pattern. In addition, the pattern of energy is constructed such that each portion projected into the neural cortex may be individually pulsed at low frequency. This low frequency pulsing is formed by controlling the phase differences between the emitted energy of the elements of primary and secondary transducer arrays.

A non-invasive system and process for converting sensory data, e.g., visual, audio, taste, smell or touch, to neural firing timing differences in a human brain and using acoustic signals to generate the neural firing time differences. Data related to neural firing time differences, the acoustic signals, and a user's response map may be stored in memory. The user's response map may be used to more accurately map the calculated neural firing time differences to the correct neural locations.