Display device

The invention claimed is: 1. A display device comprising a liquid crystal display panel for displaying an image by spatial light modulation, the image being represented by a plurality of image elements each having an image data value, and the display device further comprising a display controller arranged to determine a signal voltage to be applied to the panel for each image element in dependence upon its image data value and a secondary data value for the element, there being a predetermined mapping between the data values and the signal voltage, the secondary data values being arranged to vary across the image so as to introduce variations in luminance as a result of the mapping, the mapping and secondary data values being mutually arranged to take account of the signal voltage to on-axis luminance response of the panel so that the luminance variations introduced on-axis tend to balance locally through spatial averaging to, and hence would not be perceivable by, an on-axis viewer, the panel furthermore having a non-linear off-axis luminance to on-axis luminance relationship, so that at least some of the luminance variations introduced off-axis do not balance locally through spatial averaging to, and hence would be perceivable by, an off-axis viewer, wherein each secondary value comprises a side data value and a spatial data value, the spatial data value controlling at least in part whether a luminance increase or decrease is introduced by the secondary data value and the side data value controlling at least in part an amount of the luminance increase or decrease, and the display controller comprises mapping circuitry having respective inputs for receiving the image data value and the secondary data value for an image element of the plurality, circuitry for looking up a stored value in dependence upon the input data values, and an output for outputting the stored value, the signal voltage for the image element being determined in dependence upon the output value. 2. A display device as claimed in, claim 1 wherein the mapping and secondary data values are mutually arranged such that, for each of a plurality of groups of image elements perceived by a viewer as having a single luminance through spatial averaging, any increase in luminance introduced by the secondary data value or values of one subset of elements in the group is substantially matched by a substantially equal decrease in luminance introduced by the secondary data value or values of another subset of elements in the group, at least where the respective image data values of the elements in the subsets are equal. 3. A display device as claimed in claim 2 , wherein at least some of the groups comprise a pair of image elements, the secondary data value for one of the image elements of the pair being arranged to introduce an increase in luminance of an amount, and the secondary data value for the other image element of the pair being arranged to introduce a decrease in luminance by substantially the same amount, at least where the respective image data values of the two image elements of the pair are equal. 4. A display device as claimed in claim 3 , wherein the luminance change introduced by the secondary data value is determined such that either the resulting luminance of one of the image elements of the pair is close to a maximum luminance or the resulting luminance of the other image element of the pair is close to a minimum luminance. 5. A display device as claimed in claim 1 , wherein the on-axis luminance response of the display panel is non-linear with respect to variations in the image data value. 6. A display device as claimed in claim 1 , wherein the side data values together form a distracting side image that is perceived by the off-axis viewer. 7. A display device as claimed in claim 6 , comprising means to reduce the resolution of the side image, so as to introduce localised blocks having side data values of equal value. 8. A display device as claimed in claim 1 , wherein the mapping incorporates a conversion of the image and side data values to equivalent respective luminance values in dependence upon a property of the display panel. 9. A display device as claimed in claim 8 , wherein the property comprises a gamma value γ associated with the display panel, and wherein the equivalent luminance value M Lum of an image data value M in is calculated as M Lum =M in γ and the equivalent luminance value S Lum of a side data value S in is calculated as S Lum =S in γ , with each of M Lum , M in , S Lum and S in being represented on a scale from 0 to 1. 10. A display device as claimed in claim 8 , wherein the mapping incorporates a transformation of the equivalent luminance value for the image data value. 11. A display device as claimed in claim 10 , wherein the transformation is asymmetric. 12. A display device as claimed in claim 11 , wherein the transformation comprises a scaling and translation of the form M cmp =β·M Lum +δ, where β and δ are predetermined respective scaling and translation parameters, M Lum is the equivalent luminance value for the image data value and M cmp is the scaled and translated value for the image data value, with M Lum and M cmp being represented on a scale from 0 to 1. 13. A display device as claimed in claim 12 , wherein β is a value between 0.35 and 0.55, and δ is a value between 0.02 and 0.08. 14. A display device as claimed in claim 13 , wherein β is a value between 0.42 and 0.5, and δ is a value between 0.03 and 0.07. 15. A display device as claimed claim 10 , wherein the transformation is dependent upon the side data value. 16. A display device as claimed in claim 10 , wherein the transformation is asymmetric, the transformation comprises a scaling and translation of the form M cmp =β·M Lum +δ, where β and δ are predetermined respective scaling and translation parameters, M Lum is the equivalent luminance value for the image data value and M cmp is the scaled and translated value for the image data value, with M Lum and M cmp being represented on a scale from 0 to 1, and wherein different values for β and δ are used depending on the side data value. 17. A display device as claimed in claim 10 , wherein the off-axis to on-axis relationship has a first section which is more non-linear than a second section, and wherein a first subset of the image elements are transformed in a first manner so that the transformed luminance range has a first degree of overlap with the first section, and a second subset of the image elements are transformed in a second manner, different to the first manner, so that the transformed luminance range has a second degree of overlap with the first section, the first degree of overlap being larger than the second degree of overlap. 18. A display device as claimed in claim 12 , wherein the off-axis to on-axis relationship has a first section which is more non-linear than a second section, and wherein a first subset of the image elements are transformed in a first manner so that the transformed luminance range has a first degree of overlap with the first section, and a second subset of the image elements are transformed in a second manner, different to the first manner, so that the transformed luminance range has as second degree of overlap with the first section, the first degree of overlap being larger than the second degree of overlap; and wherein β is replaced by χ·β, and where χ takes a first value for those image data values of the first subset, and a second value, different from the first value, for those image data values of t