Biometric optical antispoofing

The invention claimed is: 1. A biometric imaging arrangement comprising: a photodetector pixel array including at least a first portion of pixels arranged to receive light transmitted from an infrared cut-off filter with a spectral transmission band including the entire range of visible light and at least a second portion of pixels arranged to receive light transmitted through at least one opening in the infrared cut-off filter, the light received by the second portion of pixels including visible light, wherein the biometric imaging arrangement is configured to acquire more than one image of an object during illumination of the object with visible light, perform user authentication at least partly based on, in the acquired images, an outcome of a time evolution of a comparison between an intensity of visible light received by the first portion of pixels and an intensity of visible light received by the second portion of pixels in the acquired images, and conclude whether the object in the images is a spoof biometric object or a live biometric object based on the time evolution of the comparison. 2. The biometric imaging arrangement according to claim 1 , wherein the infrared cut-off filter is located on a support structure which spatially separates the infrared cut-off filter from the photodetector pixel array. 3. The biometric imaging arrangement according to claim 1 , wherein a single infrared cut-off filter is arranged to filter light received by a plurality of pixels, wherein the second portion of pixels are arranged to not receive light filtered by the infrared cut-off filter. 4. The biometric imaging arrangement according to claim 1 , wherein the infrared cut-off filter includes multiple openings, and thereby further portions of pixels arranged to receive light passing through a respective opening, wherein the biometric imaging arrangement is configured to perform user authentication at least partly based on, in the acquired images, an outcome of a time evolution of a comparison between the intensity of light received by the first portion of pixels and the intensity of light received by at least one of the portions of pixels that are arranged to receive light passing through the openings. 5. The biometric imaging arrangement according to claim 4 , wherein the biometric imaging arrangement is configured to perform user authentication at least partly based on, spatial differences in the comparison between the intensity of light received by the first portion of pixels and the intensity of light received by portions of pixels that are arranged to receive light passing through the openings. 6. The biometric imaging arrangement according to claim 1 , wherein the second portion of pixels are arranged to receive light that has not passed through a spectral filter. 7. The biometric imaging arrangement according to claim 1 , wherein the biometric imaging arrangement is configured to control a color controllable light source to emit light in at least one predetermined spectral band during acquisition of the images. 8. The biometric imaging arrangement according to claim 7 , wherein the at least one predetermined spectral band include at least one of blue light, and red light, and green light, and infrared light. 9. The biometric imaging arrangement according to claim 7 , wherein the at least one predetermined spectral band includes at least part of a spectral band rejected by the infrared cut-off filter. 10. The biometric imaging arrangement according to claim 7 , wherein the color controllable light source is controllable to emit light with predetermined light intensity and/or spectral composition, wherein the user authentication is further based on the predetermined light intensity and/or spectral composition. 11. The biometric imaging arrangement according to claim 1 configured to be arranged under an at least partially transparent display panel and configured to capture an image of an object located on an opposite side of the at least partially transparent display panel. 12. The biometric imaging arrangement according to claim 11 wherein the transparent display panel comprises a color controllable light source. 13. The biometric imaging arrangement according to claim 1 , wherein the comparison between the intensity of light received by the first portion of pixels and the intensity of light received by the second portion of pixels is a ratio. 14. An electronic device comprising: an at least partly transparent display panel; the biometric imaging arrangement according to claim 1 , and processing circuitry configured to: receive a signal from the biometric imaging arrangement indicative of a fingerprint of a finger touching the transparent display panel, perform a fingerprint authentication procedure based on the detected fingerprint. 15. The electronic device according to claim 14 , wherein the electronic device is a mobile device. 16. A method for authenticating a user of an electronic device including a biometric imaging arrangement having a photodetector pixel array including at least a first portion of pixels arranged to receive light transmitted from an infrared cut-off filter with a spectral transmission band including the entire range of visible light and at least a second portion of pixels arranged to receive light transmitted from through at least one opening in the infrared cut-off filter, the light received by the second portion of pixels including visible light, the method comprising: acquiring, using the biometric imaging arrangement, more than one image of an object during illumination of the object with visible light, performing user authentication at least partly based on a time evolution of a comparison between an intensity of visible light received by the first portion of pixels and an intensity of visible light received by the second portion of pixels in the acquired images, and concluding whether an object in the images is a spoof biometric object or a live biometric object based on an outcome of the comparison. 17. The method according to claim 16 , wherein the comparison is a ratio between the intensity of light received by the first portion of pixels and the intensity of light received by the second portion of pixels. 18. The method according to claim 17 , wherein the ratio is compared to a threshold value to conclude whether an object in the images is a spoof biometric object or a live biometric object. 19. The method according to claim 16 , comprising: illuminating the object with light in at least one predetermined spectral band during acquisition of the images. 20. The method according to claim 19 , wherein the at least one predetermined spectral band include at least one of blue light, and red light, and green light, and infrared light. 21. The method according to claim 19 , wherein the at least one predetermined spectral band includes at least part of a spectral band rejected by the infrared cut-off filter. 22. One or more processors configured to perform the steps of claim 16 . 23. A computer program product comprising a non-transitory computer readable medium having stored thereon a computer program for authenticating a user of an electronic device including a biometric imaging arrangement having a photodetector pixel array including at least a first portion of pixels arranged to receive light transmitted from an infrared cut-off filter with a spectral transmission band including the entire range of visible light and at leas