Haptic communication using interference of haptic outputs on skin

The invention claimed is: 1. A method, comprising: determining characteristics of actuator signals providing a sensation of a virtual motion on a patch of skin; generating the actuator signals according to the determined characteristics by signal processing; and sending the generated actuators signals to cutaneous actuators; wherein the generated actuators cause non-random vibration patterns to be generated by the cutaneous actuators spaced apart from each other on the patch of skin such that the generated non-random vibration patterns constructively or destructively interfere on the patch of skin to create the sensation of the virtual motion, and wherein the generated non-random vibration patterns comprise: first non-random vibration patterns generated at a first cutaneous actuator of the cutaneous actuators on the patch of the skin responsive to one of the actuator signals, and second non-random vibration patterns generated by at least one second cutaneous actuator of the cutaneous actuators on the patch of the skin responsive to another of the actuator signals. 2. The method of claim 1 , wherein the at least one second cutaneous actuator is adjacent to the first cutaneous actuator, and a phase of the second vibrations is opposite to a phase of the first vibrations. 3. The method of claim 1 , wherein an amplitude of combined vibrations at the first cutaneous actuator as a result of interference is above a sensory threshold whereas an amplitude of the combined vibrations at the at least one second cutaneous actuator is below the sensory threshold. 4. The method of claim 1 , wherein combined vibrations resulting from interference between the first and second vibrations have peak amplitudes at the first cutaneous actuator or the at least one second cutaneous actuator above a sensory threshold. 5. The method of claim 1 , wherein the cutaneous actuators are arranged in a lattice pattern. 6. The method of claim 1 , wherein the vibrations generated by each of the cutaneous actuators is below a sensory threshold but combined vibrations resulting from constructive interference of the first vibrations and the second vibrations exceed the sensory threshold. 7. The method of claim 6 , wherein the actuator signals change over time so that one or more locations at which the combined vibrations have peak amplitude move along a path. 8. The method of claim 1 , wherein the first vibrations are of a first frequency and the second vibrations are of a second frequency different from the first frequency, combined vibrations resulting from interference between the first and second vibrations having a beat pattern embedded with haptic information. 9. The method of claim 1 , wherein interference between the first and second vibrations causes a physical sensation at a location on the skin that is distinct from a first location of the first cutaneous actuator and a second location of the at least one second cutaneous actuator. 10. The method of claim 1 , wherein interference between the first and second vibrations increases a physical sensation at a location of the first cutaneous actuator. 11. A haptic system comprising: a signal generator operably communicating with cutaneous actuators spaced apart from each other on a patch of skin and configured to generate non-random vibration patterns responsive to actuator signals, the signal generator configured to: determine characteristics of the actuator signals that cause the generated non-random vibration patterns to constructively or destructively interfere on the patch of skin to create a sensation of a virtual motion on a patch of skin; generate the actuator signals according to the determined characteristics by signal processing, and send the generated actuators signals to the cutaneous actuators, wherein the cutaneous actuators comprise: a first cutaneous actuator configured to generate first non-random vibration patterns on the patch of skin responsive to one of the actuator signals, and at least one second cutaneous actuator configured to generate second non-random vibration patterns on the patch of skin responsive to another of the actuator signals. 12. The haptic system of claim 11 , wherein the at least one auxiliary cutaneous actuator adjacent to the main cutaneous actuator, and a phase of the second vibrations is opposite to a phase of the first vibrations. 13. The haptic system of claim 11 , wherein an amplitude of combined vibrations at the first cutaneous actuator as a result of interference is above a sensory threshold whereas an amplitude of the combined vibrations at one or more second cutaneous actuators is below the sensory threshold. 14. The haptic system of claim 11 , wherein combined vibrations resulting from interference between the first vibrations and the second vibrations have peak amplitudes at the first cutaneous actuator or the second cutaneous actuator above a sensory threshold. 15. The haptic system of claim 11 , wherein the cutaneous actuators are arranged in a lattice pattern. 16. The haptic system of claim 11 , wherein the vibrations generated by each of the cutaneous actuators is below a sensory threshold but combined vibrations resulting from constructive interference of the vibrations exceed the sensory threshold. 17. The haptic system of claim 16 , wherein the actuator signals change over time so that one or more locations at which the combined vibrations have peak amplitude, the one or more locations moving along a path. 18. The haptic system of claim 11 , wherein the first vibrations are of a first frequency, and the second vibrations are of a second frequency different from the first frequency, combined vibrations resulting from interference between the first and second vibrations resulting a beat pattern embedded with haptic information. 19. The haptic system of claim 11 , wherein interference between the first and second vibrations causing a physical sensation at a location on the skin that is distinct from a first location of the first cutaneous actuator and a second location of the at least one second cutaneous actuator. 20. The haptic system of claim 11 , wherein interference between the first and second vibrations increases a physical sensation at the first location. 21. A non-transitory computer-readable storage medium storing instructions, the instructions when executed by a processor cause the processor to: determine characteristics of actuator signals providing a sensation of a virtual motion on a patch of skin; generate the actuator signals according to the determined characteristics by signal processing; and send the generated actuators signals to cutaneous actuators; wherein the generated actuators cause non-random vibration patterns to be generated by the cutaneous actuators spaced apart from each other on the patch of skin such that the generated non-random vibration patterns constructively or destructively interfere on the patch of skin to create the sensation of the virtual motion, and wherein the generated non-random vibration patterns comprise: first non-random vibration patterns generated at a first cutaneous actuator of the cutaneous actuators on the patch of the skin responsive to one of the actuator signals, and second non-random vibration patterns generated by at least one second cutaneous actuator of the cutaneous actuators on the patch of the skin responsive to another of the actuator signals.