Multi-band biometric camera system having iris color recognition

What is claimed is: 1. A biometric iris scan camera system for a host device, comprising: a first illumination source disposed on the host device to illuminate a person with near infrared (NIR) light; a second illumination source disposed on the host device to illuminate a person with visible light; and a biometric camera disposed on the host device, the biometric camera comprising: a first imaging sensor to detect NIR light; a second imaging sensor to detect visible light; and a processor coupled to the first and second imaging sensors, the processor to: generate an initialization image of an iris from an initialization signal output by one of the first imaging sensor and the second imaging sensor; determine a contrast of the initialization image; activate the second illumination source to illuminate the iris with a visible wavelength during an authenticate capture time when the contrast of the initialization image falls below a value; activate the second imaging sensor to detect visible light reflected from the iris during the authenticate capture time when the second illumination source is activated, the second imaging sensor to generate a visible signal in response to detected visible light reflected from the iris during the authenticate capture time; generate a visible image from the visible signal; and determine an authentication status based on the visible image. 2. The system according to claim 1 , wherein the processor: activates the first illumination source to illuminate the iris with NIR light during the authenticate capture time when the contrast of the initialization signal lies above the value; activates the first imaging sensor to detect NIR light during the authenticate capture time when the first illumination source is activated, the first imaging sensor to generate a NIR signal in response to NIR light reflected from the iris during the authenticate capture time; generate a NIR image from the NIR signal; and determine an authentication status based on the NIR image. 3. The system according to claim 2 , wherein the value is a threshold contrast level. 4. The system according to claim 1 , wherein the first and the second illumination sources illuminate the iris with both NIR light and visible light at a same time during an initial capture time. 5. The system according to claim 4 , wherein the initialization image is an initial NIR image, the initialization signal is an initial NIR signal output by the first imaging sensor in response to NIR light reflected from the iris and detected during the initial capture time, and the contrast of the initialization image is the contrast of the initial NIR image. 6. The system according to claim 5 , and further comprising: generating an initial visible image from an initial visible signal output by the second imaging sensor in response to visible light reflected from the iris and detected during the initial capture time; and determining a contrast of the initial visible image. 7. The system according to claim 6 , wherein the value is the contrast of the initial visible image. 8. A method of capturing an image of a person for biometric identification, the method comprising: generating an initialization image of an iris from an initialization signal; determining a contrast of the initialization image; selecting a visible illumination wavelength when the contrast of the initialization image falls below a value; illuminating the iris with light at the visible illumination wavelength during an image capture; receiving visible illumination reflected from the iris at the visible illumination wavelength during the image capture; generating an electrical signal in response to the received visible illumination reflected from the iris at the visible illumination wavelength; processing the electrical signal to generate an iris image of the person; and determining an authentication status of the person based on the iris image. 9. The method according to claim 8 further comprising: illuminating the iris with NIR light during the authenticate capture time when the contrast of the initialization signal lies above the value; detecting NIR light reflected from the iris during the authenticate capture time; generating a NIR signal in response to NIR light reflected from the iris during the authenticate capture time; generating a NIR image from the NIR signal; and determining an authentication status based on the NIR image. 10. The method according to claim 9 , further wherein the value is a threshold contrast level. 11. The method according to claim 8 , further comprising illuminating the iris with both NIR light and visible light at a same time during an initial capture time. 12. The method according to claim 8 , wherein the authentication status is determined by a match of the iris image with a previously registered image stored in an iris database. 13. The method according to claim 11 , wherein the initialization image is an initial NIR image, the initialization signal is an initial NIR signal output in response to NIR light reflected from the iris and detected during the initial capture time, and the contrast of the initialization image is the contrast of the initial NIR image. 14. The method according to claim 13 , and further comprising: generating an initial visible image from an initial visible signal output in response to visible light reflected from the iris and detected during the initial capture time; and determining a contrast of the initial visible image. 15. The method according to claim 14 , wherein the value is the contrast of the initial visible image. 16. A mobile apparatus operable for biometric user authentication, the apparatus comprising: a first illumination source disposed on a host device that outputs first light; a second illumination source disposed on the host device that outputs second light, the first and second illumination sources to illuminate an iris with first and second light, respectively, at a same time during an initial capture time; a camera disposed on the host device, comprising: a first imaging sensor to receive first light reflected from the iris during the initial capture time, and generate a first electrical signal that represents the received first light reflected from the iris during the initial capture time; a second imaging sensor to receive second light reflected from the iris during the initial capture time, and generate a second electrical signal that represents the received second light reflected from the iris during the initial capture time; and a processor coupled to the first and second imaging sensors, the processor to: generate first and second images in response to the first and second electrical signals, respectively; determine which image between the first and second images has a highest contrast; select a first illumination wavelength to be a selected illumination wavelength when the first image has the highest contrast, and a second illumination wavelength to be the selected illumination wavelength when the second image has the highest contrast; activate one of the first illumination source and the second illumination source to illuminate the iris at the selected illumination wavelength during an authenticate capture time; activate one of the first imaging sensor and the second imaging sensor to receive reflected illumination from the iris at the selected illumination wavelength during the authenticate capture time, and generate a selected electrical signal that represents the reflected illumination from the iris at the selected illum