Methods and apparatus for power-efficient iris recognition

1 - 20 . (canceled) 21 . A system for power-efficient iris recognition, the system comprising: a sensor to acquire at least one image of an iris of a user; and circuitry operably coupled to the sensor, configured to: provide electrical power to the sensor; determine an operational mode of the system using an output from the sensor, the operational mode indicative of a feasibility of performing iris recognition of the user based on the at least one image of the iris; and adjust a time period between successive sensing enablements of the sensor according to the determined operational mode so as to control the electrical power provided to the sensor. 22 . The system of claim 21 wherein the circuitry is configured to set the time period between successive sensing enablements of the sensor to be less than 20 seconds in response to a determination that the operational mode is indicative that no his recognition is possible. 23 . The system of claim 21 wherein the circuitry is configured to set the time period between successive sensing enablements of the sensor to be less than 5.5 seconds in response to a determination that the operational mode is indicative that iris recognition is possible but preferred or that iris recognition is possible and preferred. 24 . The system of claim 21 wherein the circuitry is configured to determine the operational mode according to at least one of: a determination that one or both eyes of the user are detected to be within a region illuminated by a light source used for iris recognition; a determination that the user is detected to be within a depth of field of the sensor; a determination that the user is moving at a speed less than a speed threshold; a determination that the brightness level of the at least one image is less than a brightness threshold; a determination that a change between a first image and a second image acquired by the sensor is below a change threshold; or a determination that an acceleration of the sensor is below an acceleration threshold. 25 . The system of claim 24 wherein the speed threshold is 13.75 cm/second. 26 . The system of claim 21 wherein the sensor is configured to move an active sensor region of interest of the sensor over time so as to image a region larger than the active sensor region of interest. 27 . The system of claim 21 wherein the sensor is configured to be in a first sensor configuration for iris acquisition mode determination and to be in a second sensor configuration for iris recognition. 28 . The system of claim 21 , wherein the circuitry is further configured to: determine at least one common feature between at least two images of an eye of the user acquired over time and to align the at least two images to the at least one common feature; and estimate motion of at least one other features of the eye. 29 . A system for a power efficient iris recognition, the system comprising: at least one sensor to acquire at least one image of an iris of a user, the at least one sensor haying a spatial area of coverage; and circuitry operably coupled to the at least one sensor, configured to: determine an operational mode of the system using an output from the at least one sensor the operational mode indicative of a feasibility of performing iris recognition of the user based on the at least one image of the iris; and adjust a proportion of the spatial area of coverage, within which the at least one sensor's sensor pixels are active, according to the operational mode. 30 . The system of claim 29 wherein the circuitry is configured to determine the operational mode according to at least one of: a determination that one or both eves of the user are detected to be within a region illuminated by a light source used for iris recognition; a determination that the user is detected to be within a depth of field of the at least one sensor; a determination that the user is moving at a speed less than a speed threshold; a determination that the brightness level of the at least one image is less than a brightness threshold; a determination that a change between a first image and a second image acquired by the at least one sensor is below a change threshold; or a determination that an acceleration of the at least one sensor is below an acceleration threshold. 31 . The system of claim 30 wherein the speed threshold is 13.75 cm/second. 32 . The system of claim 29 wherein the circuitry is configured to adjust the proportion of the spatial area of coverage, within which the at least one sensor's sensor pixels are active, to be less than a region of interest of the at least one sensor in response to a determination that the operational mode is indicative that no iris recognition is possible. 33 . The system of claim 29 wherein the circuitry is configured to adjust the proportion of the spatial area of coverage, within which the at least one sensor's sensor pixels are active, such that the ratio of an active vertical window of the at least one sensor to a diameter of the iris is equal to or greater than 3.12. 34 . The system of claim 29 , wherein the circuitry is configured to illuminate a first region of the image with a first illumination power and a second region of the image with a second illumination power so as to produce a resultant bright and dark banded image. 35 . The system of claim 34 wherein the circuitry is configured to process the bright and dark banded image by normalizing the intensities in the image corresponding to the first illumination power and the image corresponding to the second illumination power. 36 . The system of claim 29 wherein the at least one sensor is configured to be in a first sensor configuration for iris acquisition mode determination and to be in a second sensor configuration for iris recognition. 37 . The system of claim 29 , wherein the circuitry is configured to: determine at least one common feature between at least two images of an eye of the user acquired over time and to align the at least two images to the at least one common feature; and estimate motion of at least one other features of the eye. 38 . A method for a power efficient iris recognition, the method comprising: acquiring, by at least one sensor, at least one image of an iris, the at least one sensor having a spatial area of coverage; determining, by an iris acquisition mode detector operably coupled to the sensor and to the iris recognition engine, an operational mode of the at least one sensor using an output from the at least one sensor, the operational mode indicative of a feasibility of performing iris recognition based on the at least one image of the iris; and adjusting, by a sensor region of interest controller operably coupled to the sensor, a proportion of the spatial area of coverage, within which the at least one sensor's sensor pixels are active, according to the determined operational mode. 39 . The method of claim 38 , comprising adjusting, by the sensor region of interest controller, the proportion of the spatial area of coverage, within which the at least one sensor's sensor pixels are active, to be less than a region of interest of the sensor in response to a determination that the operational mode is indicative that no iris recognition is possible. 40 . The method of claim 38 , comprising adjusting, by the sensor region of interest controller, the proportion of the spatial area of coverage, within Which the at least one sensor's sensor pixels are active, s