Methods and devices for haptic communication

What is claimed is: 1. An apparatus configured to stimulate sensate skin, the apparatus comprising: a multilayer sheet comprising a polymer layer of piezoelectric polyvinylidene fluoride adapted to mechanically deform upon application of a voltage to the polymer layer, the multilayer sheet secured to a substrate, a first and a second electrode disposed upon the polymer layer, and a source of electrical stimulation coupled to drive the first and second electrode with an alternating current signal to vibrate the polymer layer; wherein the polymer layer, first electrode, and second electrode are cut to form a spiral, and wherein the multilayer sheet is attached to the substrate at a periphery of the spiral. 2. The apparatus of claim 1 wherein the haptic stimulator is disposed over a piezoelectric sensor. 3. An apparatus configured to stimulate sensate skin, the apparatus comprising: a multilayer sheet comprising a polymer layer of piezoelectric polyvinylidene fluoride adapted to mechanically deform upon application of a voltage to the polymer layer, the multilayer sheet secured to a substrate, a first and a second electrode disposed upon the polymer layer, and a source of electrical stimulation coupled to drive the first and second electrode with an alternating current signal to vibrate the polymer layer; wherein the multilayer sheet is formed as a rectangle having a first, second, third, and fourth edge, the first edge being attached to the substrate and the second, third, and fourth edges being detached from the substrate. 4. The apparatus of claim 3 wherein the polymer layer has a first slit positioned along a line defined by an intersection of the first and second edges to an intersection of the third and fourth edges, and a second slit positioned along a line defined by an intersection of the second and third edges to an intersection of the first and fourth edges, the first and second slit intersecting near a center of the rectangle. 5. The apparatus of claim 3 wherein the multilayer sheet is configured with a plurality of holes positioned around a periphery of the sheet. 6. An apparatus configured to stimulate sensate skin, the apparatus comprising: a multilayer sheet comprising a polymer layer of piezoelectric polyvinylidene fluoride adapted to mechanically deform upon application of a voltage to the polymer layer, the multilayer sheet secured to a substrate, a first and a second electrode disposed upon the polymer layer, and a source of electrical stimulation coupled to drive the first and second electrode with an alternating current signal to vibrate the polymer layer; the multilayer sheet further comprising a second piezoelectric polymer layer disposed between the second electrode and a third electrode, wherein piezoelectric devices formed by the polymer layer and first and second electrodes, and the second polymer layer and second and third electrodes are configured to cooperate in flexing the polymer layer and second piezoelectric polymer layer in a same direction. 7. The apparatus of claim 6 , further comprising a second multilayer sheet, the second multilayer sheet comprising a fourth electrode, a third piezoelectric polymer layer, a fifth electrode, a fourth piezoelectric polymer layer, and a sixth electrode; configured such that the fourth piezoelectric polymer layer and the second piezoelectric polymer layer are configured to flex in opposite directions. 8. A haptic stimulator comprising: a first electrode, a second electrode comprising an electrically conductive layer disposed on a first insulating sheet the first insulating sheet dimpled at the second electrode, the second electrode configured parallel to and with an air gap from the first electrode, a second insulating sheet disposed between the second electrode and the first electrode, and an apparatus configured to provide alternating voltage between the first electrically conductive layer and the first electrode, wherein the first insulating sheet is configured to stimulate the sensate skin. 9. The apparatus of claim 8 further comprising a third electrode disposed on the first insulating sheet and configured to be driven independently from the second electrode. 10. The method of claim 8 further comprising: disposing an insulating sheet between the first electrically conductive layer and the first electrode, and applying alternating voltage between the first electrode and a third electrode, the third electrode being disposed upon a first insulating sheet, a second electrode being disposed between the first and third electrodes. 11. A method of providing haptic stimulation to sensate skin comprising: coupling an alternating current signal generator to drive a first and second electrode, the first and second electrode disposed upon opposite sides of a piezoelectric polymer layer, the polymer layer, first electrode and second electrode comprising a multilayer sheet; vibrating the polymer layer by enabling the alternating current signal generator; and coupling vibrations of the polymer layer to the sensate skin; wherein the first and second electrode are disposed on opposite sides of the polymer layer; and wherein the polymer layer, first electrode, and second electrode are cut to form a spiral, and wherein the multilayer sheet is attached to the substrate at a periphery of the spiral. 12. A method of providing haptic stimulation to sensate skin comprising: coupling an alternating current signal generator to drive a first and second electrode, the first and second electrode disposed upon opposite sides of a piezoelectric polymer layer, the polymer layer, first electrode and second electrode comprising a multilayer sheet; vibrating the polymer layer by enabling the alternating current signal generator; and coupling vibrations of the polymer layer to the sensate skin; wherein the first and second electrode are disposed on opposite sides of the polymer layer; and wherein the multilayer sheet is formed as a rectangle having a first, second, third, and fourth edge, the first edge being attached to the substrate and the second, third, and fourth edges being detached from the substrate. 13. The method of claim 12 wherein the multilayer sheet is formed as a rectangle having first, second, third, and fourth edges attached to the substrate, the polymer layer having a first slit positioned along a line defined by an intersection of the first and second edges to an intersection of the third and fourth edges, and a second slit positioned along a line defined by an intersection of the second and third edges to an intersection of the first and fourth edges, the first and second slit intersecting near a center of the rectangle. 14. The method of claim 12 wherein the multilayer sheet is configured with a plurality of holes positioned around a periphery of the sheet.