Digitally controlled dynamic lens

What is claimed is: 1. A lens system, comprising: a controller; and an electro-optic lens electrically connected to the controller, the electro-optic lens comprising: a first substantially transparent substrate; a first electrode layer disposed on the first substantially transparent substrate, the first electrode layer comprising a plurality of electrodes; a first liquid crystal alignment layer disposed directly on the first electrode layer; a second substantially transparent substrate; a second electrode layer disposed on the second substantially transparent substrate; a second liquid crystal alignment layer directly disposed on the second electrode layer; and a liquid crystal layer located between the first liquid crystal alignment layer and the second liquid crystal alignment layer, wherein the first liquid crystal alignment layer and the second crystal alignment layer are configured to induce a particular directional orientation in the liquid crystal when no voltage is applied to the lens; and wherein the controller is configured to generate a refractive index pattern of the liquid crystal layer by controlling voltage applied across the first electrode layer and the second electrode layer, and wherein the refractive index pattern has a refractive index profile corresponding to a desired focal length of the electro-optic lens, wherein the refractive index profile consists of alternating opaque and transparent zones, wherein adjustments of the voltage applied across the first electrode layer and the second electrode layer causes adjustments to sizes of the opaque and transparent zones. 2. The lens system of claim 1 , wherein the controller is further configured to vary magnitude of the voltage applied across the first electrode layer and the second electrode layer over time. 3. The lens system of claim 1 , wherein the controller is further configured to individually control the voltage applied on each of the plurality of electrodes in the first electrode layer. 4. The lens system of claim 3 , wherein the controller is further configured to control at least one of magnitude or timing of the voltage applied on each of the plurality of electrodes. 5. The lens system of claim 1 , wherein the refractive index pattern of the liquid crystal layer corresponds to an interference pattern of a hologram, and the controller is further configured to change the refractive index pattern over time to generate a moving hologram. 6. The lens system of claim 1 , further comprising: a plurality of electro-optic lenses formed into a lens array; wherein the controller is further configured to individually control voltage applied on each of the plurality of electro-optic lenses. 7. The lens system of claim 1 , wherein the first electrode layer comprises a first plurality of ring electrodes. 8. The lens system of claim 7 , wherein the electro-optic lens is adjustable from a first optical power to a second optical power when a first voltage is applied to the first plurality of ring electrodes. 9. The electro-optic lens of claim 7 , wherein the second electrode layer comprises a second plurality of ring electrodes. 10. The system of claim 1 , wherein the adjustments of the voltage comprise adjustments to the timing and magnitude of the voltage.