Spoof detection based on specular and diffuse reflections

The invention claimed is: 1. A method for biometric authentication using an optical biometric arrangement comprising an image sensor comprising a photodetector pixel array configured to capture an image of an object, the image sensor being arranged under a controllable light source comprising light source units, the method comprising: providing a light pattern comprising portions of different light intensity for illuminating the object; acquiring an image of the object, the image comprising image portions corresponding to the portions of different light intensity of the light pattern illuminating the object, at least one image portion of a first type being captured by pixels in the photodetector pixel array configured to capture light of a first distinguishable color and arranged directly under a light source unit being active during image acquisition to capture predominantly specular light reflected off the object, and at least one image portion of a second type being captured by pixels in the photodetector pixel array configured to capture light of a second distinguishable color and arranged under an at least partly in-active illumination area of the controllable light source during image acquisition to capture predominantly diffuse light reflected off the object, and performing biometric authentication including spoof detection based on metrics extracted from the image portions of both the first type and the second type. 2. The method according to claim 1 , wherein the light pattern is structured light. 3. The method according to claim 1 , wherein the light pattern is provided from spatially separated light source units of the controllable light source. 4. The method according to claim 3 , wherein the spatially separated light source units are arranged in a periodic pattern. 5. The method according to claim 1 , wherein the light pattern includes light of at least two distinguishable colors. 6. The method according to claim 5 , wherein a first set of light source units provides light of a first distinguishable color and a second set of light source units provides light of a second distinguishable color for illuminating the object. 7. The method according to claim 5 , wherein color information in the image portions is included in the metrics. 8. The method according to claim 5 , wherein biometric authentication is at least partly based on metrics extracted from the image portions for each of the at least two distinguishable colors. 9. The method according to claim 1 , wherein any one pixel configured to capture light of a first distinguishable color or any one pixel configured to capture light of the second distinguishable color is arranged directly under a light source unit being active for image acquisition. 10. The method according to claim 1 , wherein any one pixel configured to capture light of a first distinguishable color or any one pixel of configured to capture light of the second distinguishable color is arranged under an at least partly in-active illumination area of the controllable light source during image acquisition. 11. The method according to claim 1 , comprising illuminating the object with broad band illumination. 12. The method according to claim 1 , wherein the metrics are extracted based on histogram analysis of image portions. 13. The method according to claim 1 , the photodetector pixel array comprising pixels arranged to capture predominantly specular light reflected off the object and pixels arranged to capture predominantly diffuse light reflected off the object. 14. The method according to claim 1 , comprising pre-processing the acquired image for forming metrics based on properties in the image portions. 15. The method according to claim 1 , wherein the light pattern is a dot pattern, wherein a first group of image portions are acquired by pixels direct under the dots, and a second group of image portions are acquired by pixels under and between the dots. 16. The method according to claim 1 , wherein the biometric authentication is based on processing the metrics using a model. 17. The method according to claim 1 , wherein the biometric authentication is based on processing the metrics using a machine learning algorithm. 18. An optical biometric imaging arrangement configured to capture an image of an object, the biometric imaging arrangement comprising: an image sensor comprising a photodetector pixel array, the image sensor being arranged under a controllable light source comprising light source units, wherein the photodetector pixel array comprises a first set of pixels to acquire a first type of image portion, pixels of the first set of pixels being configured to capture light of a first distinguishable color and being arranged directly under a light source unit of the controllable light source that is active during image acquisition to capture predominantly specular light reflected off the object, and a second set of pixels to acquire a second type of image portion, pixels of the second set of pixels being configured to capture light of a second distinguishable color and being arranged directly under a portion of the controllable light source that is at least partly in-active during image acquisition to capture predominantly diffuse light reflected off the object, the optical biometric imaging arrangement being configured to: illuminate the object with a light pattern comprising portions of different light intensity using the controllable light source; acquire an image of the object, the image comprising image portions of the first type and of the second type corresponding to the portions of different light intensity of the light pattern illuminating the object, perform biometric authentication including spoof detection based on metrics extracted from the image portions of both the first type and the second type. 19. An electronic device comprising: the optical biometric imaging arrangement according to claim 18 , and processing circuitry configured to: receive a signal from the optical 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. 20. A control unit configured to perform biometric authentication using an optical biometric arrangement comprising an image sensor comprising a photodetector pixel array configured to capture an image of an object, the image sensor being arranged under a controllable light source comprising light source units, the control unit being configured to: obtain an image of the object, the image being acquired while illuminating the object with a light pattern comprising portions of different light intensity, whereby the obtained image comprises image portions corresponding to the portions of different light intensity of the light pattern illuminating the object, at least one image portion of a first type being captured by pixels in the photodetector pixel array configured to capture light of a first distinguishable color and arranged directly under a light source unit being active during image acquisition to capture predominantly specular light reflected off the object, and at least one image portion of a second type being captured by pixels in the photodetector pixel array configured to capture light of a second distinguishable color and arranged under an at least partly in-active illumination area of the controllable light source during image acquisition to capture predominantly diffuse light reflected off