Displaying images on local-dimming displays

The invention claimed is: 1. Apparatus for driving a local-dimming display comprising a backlight and a spatial light modulator, the backlight comprising a plurality of individually-controllable elements, the apparatus comprising: a decoder configured to: receive, from an encoder, image data comprising (i) a first image data component comprising a low-dynamic range version of an image; and (ii) a second image data component comprising values that can be used to modify the low-dynamic range version of the image to recover a high-dynamic range version of the image, wherein the low-dynamic range version of the image is a tone-mapped image of the high-dynamic range version of the image, and extract, from the image data, the first image data component and the second image data component; a first system configured to generate, using the first image data component and without using the high-dynamic range version of the image, first driving signals for the spatial light modulator; and a second system configured to: combine the tone-mapped image and the values from the second image data component to generate the high-dynamic range image, extract luminance values of the high-dynamic range image, down-sample the luminance values of the high-dynamic range image to generate down-sampled data, and generate, using the second image data component and without using the high-dynamic range version of the image, second driving signals for controlling the individually controllable elements of the backlight by generating the second driving signals based on the down-sampled data. 2. Apparatus according to claim 1 , wherein the second system comprises a driving value calculator configured to normalize the second image data component. 3. Apparatus according to claim 2 , wherein the driving value calculator is configured to normalize the second image data component by dividing values of the second image data by a representative value. 4. Apparatus according to claim 3 , wherein the representative value comprises a maximum value, mean value, average value, median value, or percentile value. 5. Apparatus according to claim 3 , wherein the driving value calculator is configured to clip the values of the second image component to the representative value. 6. Apparatus according to claim 1 , wherein the second system comprises a linearizer. 7. Apparatus according to claim 1 , wherein the first image data comprises a tone map and the first system comprises: a light field simulator configured to generate an estimated light field that would be produced at the spatial light modulator upon applying the second driving signals to drive the backlight; and a tone map modifier configured to modify the tone map according to the estimated light field. 8. Apparatus according to claim 1 , wherein the second image data has a resolution lower than a resolution of the first image data. 9. Apparatus according to claim 1 , wherein the first system comprises a color correction stage. 10. Apparatus according to claim 1 , wherein the first system comprises a sharpening filter. 11. A method for driving a local-dimming display comprising a backlight and a spatial light modulator, the backlight comprising a plurality of individually-controllable elements, the method comprising: obtaining, from an encoder, image data comprising (i) a first image data component comprising a low-dynamic range version of an image; and (ii) a second image data component comprising values that can be used to modify the low-dynamic range version of the image to recover a high-dynamic range version of the image, wherein the low-dynamic range version of the image is a tone-mapped image of the high-dynamic range version of the image; extracting, from the image data, the first image data component and the second image data component; generating, using the first image data component and without using the high-dynamic range version of the image, first driving signals for the spatial light modulator; combining the tone-mapped image and the values from the second image data component to generate the high-dynamic range image; extracting luminance values of the high-dynamic range image; down-sample the luminance values of the high-dynamic range image to generate down-sampled data; and generating, using the second image data component and without using the high-dynamic range version of the image, second driving signals for controlling the individually controllable elements of the backlight by generating the second driving signals based on the down-sampled data. 12. A method according to claim 11 , comprising clipping values of the second image data to a reference value. 13. A method according to claim 11 , wherein the second image data has a resolution lower than a resolution of the first image data. 14. A method according to claim 11 , wherein generating the second driving signals comprises linearizing the second image data component. 15. A method according to claim 11 , wherein generating the first driving signals comprises applying a sharpening filter to the first image data component. 16. A method according to claim 11 , wherein generating the first driving signals comprises applying a color correction to the first image data component. 17. A display apparatus comprising: a backlight comprising a plurality of individually controllable elements; a spatial light modulator configured to receive light from the plurality of individually controllable elements of the backlight; a decoder configured to: receive, from an encoder, image data comprising (i) a first image data component comprising a low-dynamic range version of an image; and (ii) a second image data component comprising values that can be used to modify the low-dynamic range version of the image to recover a high-dynamic range version of the image, wherein the low-dynamic range version of the image is a tone-mapped image of the high-dynamic range version of the image; and extract, from the image data, first image data component and the second image data component; a first system configured to generate, using the first image data component and without using the high-dynamic range version of the image, first driving signals for the spatial light modulator; and a second system configured to: combine the tone-mapped image and the values from the second image data component to generate the high-dynamic range image, extract luminance values of the high-dynamic range image, down-sample the luminance values of the high-dynamic range image to generate down-sampled data, and generate, using the second image data component and without using the high-dynamic range version of the image, second driving signals for controlling the individually controllable elements of the backlight.