Adjustable contact lens system

The invention claimed is: 1. An adaptive vision modification system, comprising: a sensor; an adjustable contact lens including an adjustable optical element for modifying a visual input to a subject; a processor operatively connected to the sensor and to the adjustable contact lens, the processor including a signal input for receiving from the sensor an image quality signal indicative of a quality of an image at a retina of the subject; a pre-processor for preliminary signal processing of the image quality signal to produce a pre-processed signal; a signal analyzer configured to analyze the pre-processed signal to generate as output at least one quality parameter characterizing a quality of the visual input at a retina of the subject; a lens system controller configured to receive the at least one quality parameter and to generate a lens system control signal for controlling the adjustable contact lens in response to the at least one quality parameter; wherein in one or more of the pre-processor, the signal analyzer, and the lens system controller are packaged separately from the adjustable contact lens. 2. A contact lens controller, comprising: a first receiver for receiving a visual focal condition signal indicative of a visual focal condition of a visual input at a retina of a subject; a signal analyzer configured to analyze the visual focal condition signal to generate as output at least one quality parameter characterizing a quality of the visual input at a retina of the subject; a lens system controller configured to receive as input the at least one quality parameter and to generate as output a lens system control signal for controlling an adjustable contact lens in response to the at least one quality parameter; and a transmitter for transmitting the lens system control signal to the adjustable contact lens, the adjustable contact lens including an adjustable optical element for modifying the visual input to the subject, a second receiver for receiving the lens system control signal, and an actuator for actuating the adjustable optical element responsive to the lens system control signal. 3. The contact lens controller of claim 2 , wherein the adjustable contact lens is adjustable between a first lens setting and a second lens setting responsive to the lens system control signal, wherein the first lens setting and the second lens setting are adapted to provide correction for near and far vision of the subject, respectively. 4. The contact lens controller of claim 3 , wherein the lens system controller is adapted to receive an input from the subject and to generate the lens system control signal to control switching between the first lens setting and the second lens setting in response to the input from the subject. 5. The contact lens controller of claim 4 , wherein the input from the subject includes a signal indicative of an intentional action of the subject. 6. The contact lens controller of claim 2 , wherein the lens system controller is adapted to receive a magnification factor input, and to generate the lens system control signal to control a magnification factor of the adjustable contact lens based at least in part upon the magnification factor input. 7. The contact lens controller of claim 6 , wherein the lens system controller is adapted to receive a magnification factor input from the subject. 8. The contact lens controller of claim 6 , wherein the lens system controller is configured to adaptively determine the magnification factor input. 9. The contact lens controller of claim 8 , wherein the lens system controller is configured to adaptively determine the magnification factor input by reading a stored or calculated value from memory location. 10. The contact lens controller of claim 7 , wherein the lens system controller is adapted to receive at least one of a magnification factor input indicative of a value entered by the subject via a user-input device, a magnification factor input indicative of activation of a button by the subject to cycle through a plurality of magnification factor values to select a magnification factor value, and a magnification factor input from a continuously variable magnification factor controller. 11. The contact lens controller of claim 2 , wherein the lens system controller is adapted to receive a lens state signal from the adjustable contact lens and to generate the lens system control signal based at least in part upon the lens state signal. 12. The contact lens controller of claim 2 , wherein the lens system controller is adapted to receive an image quality signal indicative of a quality of an image at a retina of the subject and to generate the lens system control signal based at least in part upon the image quality signal. 13. The contact lens controller of claim 12 , wherein the lens system controller is adapted to receive the image quality signal from a sensor or detector on the at least one contact lens. 14. The contact lens controller of claim 2 , wherein the input from the subject includes a signal indicative of manual activation of a switch by the subject, a signal indicative of vergence movement of the eyes of the subject, or a signal indicative of at least one eyeblink of the subject. 15. A method of controlling an adaptive contact lens, comprising: receiving at a signal input of a processor an image quality signal indicative of a quality of a visual input at a retina of the subject, the processor including the signal input for receiving the image quality signal from at least one sensor, a pre-processor for performing preliminary signal processing of the image quality signal, a signal analyzer, and a lens system controller; performing preliminary signal processing of the first signal with the pre-processor to produce a pre-processed signal; analyzing the pre-processed signal with the signal analyzer to generate as output at least one quality parameter characterizing the quality of the visual input at the retina of the subject; generating with the lens system controller, in response to the at least one quality parameter, a lens system control signal for controlling an adjustable contact lens; and transmitting the lens system control signal from the processor to the adjustable contact lens with the transmitter. 16. A system for modifying the vision of a subject, comprising: at least one contact lens configured to be worn on a cornea of an eye of a subject, the at least one contact lens including an adjustable optical system; a receiving device for receiving a lens system control signal; and an actuator configured to actuate the adjustable optical system responsive to the lens system control signal; and a remote device including a case configured to be carried by or positioned on the body of the subject; a processor; a power supply; a lens system controller for generating the lens system control signal; and a transmitting device for transmitting the lens system control signal to the first receiving device. 17. The system of claim 16 , wherein the adjustable optical system is adjustable between a first lens setting and a second lens setting responsive to the lens system control signal, wherein the first lens setting and the second lens setting are adapted to provide correction for near and far vision of the subject, respectively. 18. The system of claim 17 , wherein the lens system controller is adapted to receive an input from the subject and to generate the lens system control signal to control switching between the first lens setting and the second lens setting in re