Monitoring the operation of a work machine

The invention claimed is: 1. A method of monitoring the operation of at least one work machine comprising: operating at least one surveying device to measure a surface profile of a terrain of a worksite and generate actual surface profile data indicative of the surface profile; operating at least one work machine to move along a route over the terrain in accordance with at least one actual operating parameter and generating actual machine operational data indicative of the at least one actual operating parameter; operating a navigation system to determine the route and generate actual route data indicative of the route; and operating a processing unit to process the actual route data, actual machine operational data and actual surface profile data to generate monitored operating condition data indicative of at least one monitored operating condition of the at least one work machine moving along the route in accordance with the at least one actual operating parameter. 2. The method as claimed in claim 1 further comprising operating at least one work machine and generating an alert for an operator based upon the monitored operating condition data or displaying the monitored operating condition data on a display. 3. The method as claimed in claim 2 wherein the monitored operating condition data is generated based upon at least one machine model or simulation algorithm. 4. The method as claimed in claim 3 wherein the at least one work machine comprises at least one machine structure and the monitored operating data is indicative of at least one monitored operating condition of the at least one machine structure. 5. The method as claimed in claim 4 wherein the at least one monitored operating condition comprises a monitored stress or strain magnitude or rate experienced by at least one machine structure as the at least one work machine moves along the route. 6. The method as claimed in claim 5 further comprising determining an expected lifetime of the at least one machine structure based upon the monitored operating condition data and a maximum lifetime stress or strain accumulation or rate associated with the at least one machine structure. 7. The method as claimed in claim 5 further comprising generating an alert indicative of at least one machine structure requiring repair or replacement, the alert being generated if the monitored stress or strain magnitude or rate meets a threshold magnitude or rate, respectively. 8. The method as claimed in claim 7 further comprising: assigning a worksite duty segment to the worksite based upon the monitored stress or strain magnitude or rate meeting or falling within a range of magnitudes or rates of change, respectively, of stress or strain associated with the worksite duty segment; and generating an alert indicative of the worksite duty segment; or generating an alert indicative of whether the at least one work machine is matched to the worksite duty segment based upon data associated with a plurality of work machines, a plurality of worksite duty segments and the suitability of each of the plurality of work machines to each of the plurality of worksite duty segments. 9. The method as claimed in claim 8 wherein at least one terrain event is identified and at least one work machine is operated based upon the identified terrain event and an alert is generated, the at least one terrain event being identified at a location of the terrain where: at least one monitored operating condition exceeds an event threshold value; the monitored stress or strain magnitude or rate on at least one machine structure exceeds an event threshold value; the rate of change of, or a summation of, simulated stress or strain rate exceeds an event threshold value; or the magnitude or rate of change of a gradient of the surface profile is above an event threshold value, the magnitude or rate of change of the gradient being determined by processing the actual surface profile data. 10. A system for monitoring at least one work machine and comprising: at least one work machine; at least one surveying device configured to measure a surface profile of a terrain of a worksite and generate actual surface profile data indicative of the surface profile; a navigation system configured to determine the route of the at least one work machine as it moves over the terrain and generate actual route data indicative of the route; at least one sensor configured to generate actual machine operational data indicative of at least one actual operating parameter of the at least one work machine whilst moving along the route; and a processing unit configured to process the actual route data, actual machine operational data and actual surface profile data to generate monitored operating condition data indicative of at least one monitored operating condition of the at least one work machine moving along the route in accordance with the at least one actual operating parameter. 11. The system as claimed in claim 10 further comprising a computer system, the computer system comprising the processing unit, and a machine control system for controlling the operation of the at least one work machine, wherein the computer system is separate from or integrated with the machine control system. 12. The system as claimed in claim 11 wherein the at least one surveying device: is separate from or integrated with the at least one work machine; comprises at least one of a manned aircraft, an unmanned aerial vehicle or a manned or unmanned dedicated surface profile scanning vehicle; and obtains the actual surface profile data via photogrammetry, radar, LIDAR, laser scanners, video systems or audio systems. 13. A method of monitoring the operation of at least one work machine comprising: operating at least one surveying device to measure a surface profile of a terrain of a worksite and generate actual surface profile data indicative of the surface profile; receiving route data indicative of a route of at least one work machine moving over the terrain; receiving simulated machine operational data indicative of at least one simulated operating parameter of the at least one work machine whilst moving along the route, processing the route data, simulated machine operational data and actual surface profile data to generate monitored operating condition data indicative of at least one monitored operating condition of the at least one work machine moving along the route in accordance with the at least one simulated operating parameter. 14. The method as claimed in claim 13 comprising: receiving simulated route data indicative of a simulated route of at least one work machine moving over the terrain; operating at least one work machine to move along an actual route over the terrain in accordance with at least one actual operating parameter and generating actual machine operational data indicative of the at least one actual operating parameter; operating a navigation system to determine the route and generate actual route data indicative of the actual route; and processing the simulated route data and actual route data and updating the simulated route data based upon the actual route data, and processing the simulated machine operational data and actual machine operational data and updating the simulated machine operational data based upon the actual machine operational data. 15. A method of monitoring the operation of at least one work machine comprising: operating at least one surveying device to measure a surface profile of a terrain of a worksite and generate actual surface profile data indicative of the surface profil