System and method for eye orientation

What is claimed is: 1. A method for locating the center of a lens in an eye center location system, comprising: emitting, by an illumination device, one or more light beams to illuminate a patient's eye; capturing, by an imaging device, one or more eye images of the patient's eye, the one or more eye images including a single Purkinje III reflection which is a reflection of the one or more light beams by an anterior surface of a lens of the eye and which forms a part of a circle, and a single Purkinje IV reflection which is a reflection of the one or more light beams by a posterior surface of a lens of the eye and which forms a part of another circle; by a processor: determining a Purkinje III diameter and a Purkinje III center location which are respectively a diameter and a center of the circle of the single Purkinje III reflection; determining a Purkinje IV diameter and a Purkinje IV center location which are respectively a diameter and a center of the circle of the single Purkinje IV reflection; determining a distance between the Purkinje III center location and the Purkinje IV center location; and determining a location of a center of the lens of the eye using only the Purkinje III diameter, the Purkinje III center location, the Purkinje IV diameter, the Purkinje IV center location, and the distance between the Purkinje III center location and the Purkinje IV center location which have been determined from the single Purkinje III reflection and the single Purkinje IV reflection. 2. The method of claim 1 , wherein the step of determining the location of the center of the lens of the eye includes: determining the location of the center of the lens of the eye as corresponding to a position on a line between the Purkinje III center location and the Purkinje IV center location at a distance X 1 from the Purkinje III center location, where X 1 is defined as: X 1 = L ⁡ ( D 4 D 3 + D 4 ) where L is defined as the distance between the Purkinje III center location and the Purkinje IV center location, D 3 is defined as the Purkinje III diameter, and D 4 is defined as the Purkinje IV diameter. 3. The method of claim 1 , wherein the step of determining the location of the center of the lens of the eye includes: determining the location of the center of the lens of the eye as corresponding to a position on a line between the Purkinje III center location and the Purkinje IV center location at a distance X 2 from the Purkinje IV center location, where X 2 is defined as: X 2 = L ⁡ ( D 3 D 3 + D 4 ) where L is defined as the distance between the Purkinje III center location and the Purkinje IV center location, D 3 is defined as the Purkinje III diameter, and D 4 is defined as the Purkinje IV diameter. 4. The method of claim 1 , wherein the step of illuminating the eye includes illuminating the eye with a set of light sources arranged in a spherical shape including semi-circles (hemispheres) and circles. 5. The method of claim 1 , further comprising adjusting the one or more light beams until a position and/or boundary of the lens capsule is detected. 6. The method of claim 1 , where a wavelength of the one or more light beams emitted by the illumination device is infrared or near infrared. 7. The method of claim 1 , further comprising outputting the calculated center onto a guided user interface display. 8. The method of claim 1 , wherein the one or more eye images detected with the detector of the imaging device further includes a Purkinje I reflection, the method further comprising determining, by the processor, a Purkinje I diameter and a Purkinje I center location. 9. The method of claim 1 , further comprising measuring, by a wavefront aberrometer, a wavefront reflected from the eye of the patient. 10. The method of claim 9 , further comprising controlling, by the processor, the imaging device and the wavefront aberrometer to simultaneously measure the Purkinje III reflection, the Purkinje IV reflection and the wavefront reflected from the eye of the patient. 11. The method of claim 10 , wherein a center of the wavefront is correlated to the center of lens of the eye. 12. The method of claim 9 , wherein the one or more eye images detected with the detector of the imaging device further includes a Purkinje I reflection, the method further comprising determining, by the processor, a Purkinje I diameter and a Purkinje I center location, wherein the Purkinje I reflection is measured simultaneously with the Purkinje III reflection, Purkinje IV reflection and the reflected wavefront. 13. The method of claim 9 , wherein the one or more eye images detected with the detector of the imaging device further includes a Purkinje I reflection, the method further comprising determining, by the processor, a Purkinje I diameter and a Purkinje I center location, and correlating a center of the reflected wavefront to a difference between the location of the center of the lens to the Purkinje I center location.