Method of calibrating a patient monitoring system for use with a radiotherapy treatment apparatus

The invention claimed is: 1. A method of determining the relative location of an image capture device of a monitoring system for monitoring the positioning of a patient during radiation treatment and an isocenter of a treatment room towards which a treatment apparatus is arranged to direct radiation, the method comprising: locating a calibration phantom in a treatment room, wherein in plan-view at least one surface of the calibration phantom closest to at least one image capture device is angled relative to the camera plane of that image capture device; obtaining an image of the calibration phantom using the image capture device; processing the obtained image to identify the relative location of the calibration phantom and the camera plane of the image capture device; and utilizing the identified location of the calibration phantom and the camera plane of the image capture device to determine the relative location of the camera plane of the image capture device and the isocenter of a treatment room towards which the treatment apparatus is arranged to direct radiation. 2. A method in accordance with claim 1 wherein the calibration phantom is configured to be located approximately at the isocenter of the treatment room using a lighting system to highlight the isocenter of the treatment room; and, wherein locating the calibration phantom by aligning light from the lighting system with markings provided on the exterior of the calibration phantom. 3. A method in accordance with claim 2 wherein the calibration phantom comprises a cube having markings provided on the exterior; which markings are selected from a group comprising markings extending along the edges of the cube; markings bisecting the cube; and a cross extending between diagonally opposite corners of the cube. 4. A method in accordance with claim 1 wherein the calibration phantom contains one or more irradiation targets, the method further comprising: obtaining a radiographic image of the calibration phantom irradiated by the treatment apparatus; analyzing the obtained radiographic image of the calibration phantom to determine the relative location of the treatment room isocenter and the calibration phantom. 5. A method in accordance with claim 4 , further comprising repositioning the calibration phantom so that the calibration phantom is located at the isocenter of the treatment room. 6. A method in accordance with claim 1 wherein the monitoring system comprises a plurality of image capture devices for providing stereoscopic images of the calibration phantom. 7. A method in accordance with claim 6 wherein the monitoring system further comprises a projector operable to project light onto the surface of an object located in the vicinity of the isocenter of the treatment room. 8. A method in accordance with claim 7 wherein the projector is operable to project structured light in the form of a grid pattern or a line of laser light onto the at least one surface of the calibration phantom located in the vicinity of the isocenter of the treatment room, wherein the processing an obtained image comprises generating a model, of the imaged at least one surface of the calibration phantom onto which structured light has been projected, on the basis of the distortion of a pattern of structured light appearing in the image. 9. A method in accordance with claim 7 wherein the projector is operable to project a speckled pattern of light onto the at least one surface of the calibration phantom located in the vicinity of the isocenter of the treatment room, wherein the processing an obtained image comprises generating a model, of the imaged at least one surface of the calibration phantom onto which a speckled pattern of light has been projected, on the basis of identification of corresponding portions of the at least one imaged object in stereoscopic images. 10. A method in accordance with claim 1 wherein the monitoring system comprises one or more camera pods each containing one or more image capture devices wherein the locating a calibration phantom approximately at the isocenter of the treatment room, wherein the at least one surface of the calibration phantom closest to one of the camera pods is angled relative to the camera plane of the image capture device on that camera pod. 11. A method in accordance with claim 10 wherein the one or more camera pods comprise a plurality of image capture devices and the camera pods are all located on the same side of a treatment room. 12. A method in accordance with claim 11 wherein the locating a calibration phantom approximately at the isocenter of a treatment room, wherein in plan-view the of the at least one surface of the calibration phantom closest to an image capture device of a centrally located camera pod, flanked by two other camera pods is angled relative to the camera plane of the image capture device on the centrally located camera pod. 13. A method in accordance with claim 10 wherein the one or more camera pods are arranged in a symmetrical pattern within the treatment room. 14. A method in accordance with claim 10 wherein the camera pods are suspended from the ceiling of the treatment room. 15. A monitoring system for monitoring the positioning of a patient during radiation treatment and comprising: at least one image capture device configured to obtain an image of at least one surface of a calibration phantom wherein in plan-view the at least one surface closest to the image capture device is angled relative to camera plane of the image capture device; and a computer configured to receiving the obtained image from the image capture device, to determining the relative location of the calibration phantom and the camera plane of the image capture device, and to utilizing the identified location of the calibration phantom and the camera plane of the image capture device to determine the relative location of the camera plane of the image capture device and the isocenter of the treatment room towards which the treatment apparatus is arranged to direct radiation. 16. A monitoring system in accordance with claim 15 further comprising a lighting system to highlight the isocenter of a treatment room and wherein the lighting system is configured to aligning light to highlight the isocenter of a treatment room with markings provided on the exterior of the calibration phantom. 17. A monitoring system in accordance with claim 15 wherein the calibration phantom contains one or more irradiation targets. 18. A monitoring system in accordance with claim 15 further comprising a projector configured to project light onto the surface of an object located in the vicinity of the treatment room isocenter. 19. A monitoring system in accordance with claim 15 , wherein the at least one image capture device comprises a plurality of image capture devices configured for providing stereoscopic images of the calibration phantom.