Stimulation of sensors comprising an orthogonal x-y array, by abrupt edges or events, emits pulses that converge at nodes in serial two-dimensional (2D) arrays, which reemit rapidly if input pulses are in temporal synchrony. By gating sensors at a frequency with a wavelength between emitted pulses equal to the spatial interval between serial surfaces, identical pulses synchronize, or impedance match, repetitively at the serially repeated arrays. The pulses impedance match stimulated edges or events, as emitted one-dimensional (1D) z locations, continuously through aligned nodes in the serial 2D arrays, so that distal nodes that latently converge identical 1D z pulses become synchronous in time. This dimensional reduction of 2D arrays with synchronized 1D pulses, is a process that eliminates the coding, transmittal and decoding of information to reconstruct a 2D sensory pattern.