Method and means to improve the effects of electrical cell and neuron stimulation with random stimulation in both locations and time at locations close to the target
An electric stimulator for brain, heart, skin and internal organs in animals and plants where the electrodes are distributed on a supporting structure. The supporting structure may be adapted for brain, heart, skin or other internal organs and for muscles. The invention discloses a plurality of electrodes at the surface of the supporting structure, from which electrically stimulating currents can be injected into the target. Turning off an electrode while turning on another electrode has the effect of moving the stimulation within the body of the organism from one point to another point. We call this electrode shifting. Rotational and translational electrode shifting are possible. The invention also discloses random changes of the electrode shifting, and random changes of the stimulation time and of the stimulation duration. The invention also discloses electrical stimulation closer to the target area than current electrical stimulation.
