Failure analysis system

We claim: 1. A failure analysis system for monitoring sub-system failures in an aircraft, the system comprising: a plurality of monitors to monitor status of at least one sub-system of the aircraft, and to determine if a failure of at least one of the at least one sub-system has occurred; a memory to store a list of a plurality of flight phases or operating modes to be completed by the at least one sub-system and to store data associating at least one function, which is associated with at least one of the at least one sub-system, with each of the flight phases or the operating modes; and a processor to communicate with the plurality of monitors and the memory, and to model a response of at least one of the at least one sub-system to a failure determined by the monitors to identify which of the at least one function required by the flight phases or the operating modes is degraded or is not available, wherein when a plurality of the at least one function is not available, a human-computer interface produces an alert indicating that at least one of the at least one function associated with a next flight phase or operating mode is degraded or is not available. 2. The system of claim 1 , wherein the list of the plurality of flight phases or the operating modes is an ordered list representing a mission plan. 3. The system of claim 2 , wherein the aircraft comprises at least one un-monitored sub-system, which is not monitored by the plurality of monitors; and the processor is further to model a response of at least one of the at least one un-monitored sub-system to a failure determined by the monitors of at least one of the at least one sub-system to identify which of the at least one function is not available. 4. The system of claim 3 , wherein the system further comprises the human-computer interface to indicate that at least one of the at least one function is not available or is degraded. 5. The system of claim 1 , wherein the human-computer interface is to display a list of alerts ordered in dependence upon an order of the flight phases or the operating modes stored in the memory. 6. The system of claim 5 , wherein the memory is further to store for each of the flight phases or the operating modes a priority level for at least one of the at least one function associated with the flight phase or the operating mode; and wherein when more than one of the at least one function is degraded or is not available, the human-computer interface produces an alert indicating the at least one function that is degraded or not available having a highest priority level and indicating the associated next flight phase or operating mode for which the at least one function is not available. 7. The system of claim 6 , wherein the human-computer interface is further to alert a user of an action to take when at least one of the at least one function is unavailable. 8. The system of claim 7 , wherein the memory is further to store an order in which the plurality of the flight phases or the operating modes are to be carried out; wherein the processor is further to determine when more than one of the at least one function associated with at least one of the flight phases or the operating modes is not available; and wherein when more than one of the at least one function is unavailable, the human-computer interface is to produce an alert indicating an action to take in relation to a next task for which the at least one function is unavailable. 9. The system of claim 8 , wherein the memory is further to store an order of importance of the plurality of flight phases or the operating modes; and wherein the processor is to determine when more than one of the flight phases or the operating modes cannot be carried out; and wherein when more than one of the at least one function associated with at least one of the flight phases or the operating modes is degraded or is not available, the human-computer interface is to produce an alert indicating an action to take in relation to the at least one function that is degraded or unavailable having the highest associated priority level for the next flight phase or the next operating mode for which the at least one function is unavailable. 10. A failure analysis method for monitoring sub-system failures in an aircraft, the method comprising: storing a list of a plurality of flight phases or operating modes to be completed by the aircraft and storing data associating at least one function with each of the flight phases or the operating modes; monitoring, by a plurality of monitors, at least one sub-system of the aircraft, wherein the at least one function is associated with at least one of the at least one sub-system; determining a failure of at least one of the at least one sub-system; modelling a response to at least one of the at least one sub-system to the failure; identifying which of the at least one function is not available or is degraded; determining whether at least one of the at least one function associated with each of the plurality of flight phases or the operating modes is degraded or not available; and issuing an alert based on at least one of the at least one function that is not available or is degraded. 11. The method of claim 10 , wherein the list of the plurality of flight phases or the operating modes is an ordered list representing a mission plan. 12. The method of claim 11 , wherein the method further comprises: identifying a next flight phase or operating mode in the ordered list for which at least one of the at least one function is not available or is degraded. 13. The method of claim 12 , wherein the method further comprises issuing a list of alerts based on an order of the flight phases or the operating modes in the ordered list. 14. The method of claim 12 , wherein the method further comprises identifying at least one action to be taken in relation to at least one of the at least one function that is degraded or not available, wherein the alert is accompanied by an indication of the at least one action that is identified. 15. The method of claim 13 , wherein the method further comprises identifying at least one action to be taken in relation to at least one of the at least one function that is degraded or not available, wherein each of the alerts in the list is accompanied by an indication of the at least one action that is identified. 16. The method of any one of claim 15 , wherein the aircraft comprises at least one un-monitored sub-system that is not monitored by the plurality of monitors, and wherein the method further comprises modelling a response of at least one of the at least one un-monitored sub-system to a failure of at least one of the at least one sub-system determined by the monitors.