Head-up display

The invention claimed is: 1. A head-up display for a vehicle arranged to be operated by a driver having an eye positioned within an eye-box, the head-up display comprising: a driver monitoring system arranged to illuminate and monitor a driver, wherein the driver monitoring system comprises an infrared display channel comprising: an infrared light source arranged to emit infrared light; and a first spatial light modulator arranged to display a light-modulation distribution comprising computer-generated first hologram, the first spatial light modulator being arranged to receive the infrared light from the infrared light source and output spatially-modulated light in accordance with the first hologram to form an infrared light pattern on a replay plane; and a first controller arranged to output the first light-modulation distribution to the first spatial light modulator: an infrared camera arranged to obtain infrared images of the driver in the eye-box; and an image processor arranged to receive captured images of the driver from the infrared camera and to determine an absolute position of the driver in the eye-box and/or a change in position of the driver in the eye-box and output to the first controller data representative of the position of the driver in the eye-box, wherein the first controller is arranged to change the first light-modulation distribution based on the data representative of the position of the driver in the eye-box; a picture generating unit arranged to display a picture on the replay plane, wherein the picture generating unit comprises a visible light display channel, wherein the visible light display channel comprises: a visible light source arranged to emit visible light; a second spatial light modulator arranged to display a second hologram, the second hologram being computer-generated, and to receive the visible light from the visible light source and output spatially-modulated light in accordance with the computer-generated second hologram displayed on the second spatial light modulator to form a visible light pattern on the replay plane; and a controller arranged to output a second light-modulation distribution comprising the computer-generated hologram to the second spatial light modulator; and an optical system arranged to relay the infrared light pattern and the visible light pattern from the replay plane to an optical combiner arranged to direct the relayed light to the eye-box, to provide to the eye-box a combined view that is a combination of a view of the relayed visible light with a view of an area viewable by driver from the eye-box through the optical combiner, such that the infrared light pattern illuminates the driver in the eye-box to provide an illuminated area for an image of the driver obtained by the infrared camera and such that the visible light pattern is visible within the eye-box, wherein the optical system is configured to receive the infrared light pattern and the visible light pattern from the replay plane and to output light of the infrared light pattern and light of the visible light pattern to the optical combiner; and comprises: at least one mirror arranged to guide light from the replay plane to the optical combiner along an optical path. 2. A head-up display as claimed in claim 1 further arranged such that all infrared light from the infrared display channel is directed to the eye-box. 3. A head-up display as claimed in claim 1 wherein the light pattern formed by the infrared display channel is a structured or shaped infrared light pattern. 4. A head-up display as claimed in claim 1 wherein the intensity of the infrared light illuminating the eye-box is substantially uniform. 5. A head-up display as claimed in claim 1 wherein the infrared display channel is at least partially integrated with the visible light channel. 6. A head-up display as claimed in claim 1 wherein at least a portion of the infrared display channel is substantially collinear with a corresponding portion of the visible light display channel. 7. A head-up display as claimed in claim 1 wherein the controller of the infrared display channel is arranged to: receive a first input comprising a light pattern for projection using infrared light; receive a second input comprising infrared correction data based on the change in position of the driver; and determine the first light-modulation distribution based on the first input and second input. 8. A head-up display as claimed in claim 1 wherein the controller of the visible light display channel is further arranged to: receive a first input comprising an image for projection using visible light; receive a second input comprising visible light correction data; and determine the second light-modulation distribution based on the first input and second input. 9. A head-up display as claimed in claim 1 wherein the first hologram is a fixed holographic recording in a recording medium. 10. A head-up display as claimed in claim 1 wherein the angle of reflection off the optical combiner is approximately equal to Brewster's angle. 11. A head-up display as claimed in claim 1 , wherein the light emitted by each light source is polarized. 12. A head-up display as claimed in claim 1 , wherein each light source is a laser diode. 13. A method for providing a head-up display in a vehicle operated by a driver having an eye positioned within an eye-box, the method comprising: illuminating and monitoring the driver by steps including: emitting infrared light from an infrared light source, receiving the infrared light at a first spatial light modulator displaying a first light-modulation distribution comprising a computer-generated first hologram and outputting spatially-modulated light from the first spatial light modulator to form an infrared light pattern on a replay plane, obtaining infrared images of the driver in the eye-box with an infrared camera, receiving captured images of the driver from the infrared camera and determining an absolute position of the driver in the eye-box and/or a change in position of the driver in the eye-box to provide data representative of the position of the driver in the eye-box, and changing the first light-modulation distribution based on the data representative of the position of the driver in the eye-box; displaying a picture on the replay plane by steps including emitting visible light from a visible light source, displaying a second hologram that is a second light-modulation distribution on a second spatial light modulator, the second hologram being a computer-generated hologram, and receiving the visible light at the second spatial light modulator and outputting spatially-modulated light in accordance with the computer-generated second hologram displayed on the second spatial light modulator to form a visible light pattern on the replay plane; and relaying the infrared light pattern and the visible light pattern from the replay plane to the eye-box by an optical combiner, to provide to the eye-box a combined view that is a combination of a view of the relayed visible light with a view of an area viewable by the driver from the eye-box through the optical combiner, such that the infrared light pattern illuminates the driver in the eye-box to provide an illuminated area for an image of the driver obtained by the infrared camera and such that the visible light pattern is visible within the eye-box. 14. The method of claim 13 , further comprising processing the infrared images of the driver to provide an input to a controller and using the input to provide the second light-modulation distribution to the se