Flexible pipe fatigue monitoring below the bend stiffener of a flexible riser

The invention claimed is: 1. A flexible pipe fatigue monitoring system for a flexible pipe having a bend stiffener located thereon, the system comprising: a pipe monitoring system comprising: a sensor carrier apparatus retrofittedly coupleable circumferentially about the flexible pipe; and at least one strain sensor embedded in the sensor carrier apparatus and configured to measure one or more mechanical parameters of the flexible pipe; a pipe incline monitoring system operable to determine an incline of the flexible pipe; and a central processor configured to receive the mechanical parameter information from the pipe monitoring system and the incline measurement information from the pipe incline monitoring system and operable to determine fatigue of section of the flexible pipe located adjacent to the bend stiffener based upon the information. 2. The flexible pipe fatigue monitoring system of claim 1 , wherein the pipe monitoring system is configured to measure one or more of bending, torsion and tension of the flexible pipe. 3. The flexible pipe fatigue monitoring system of claim 1 or 2 , wherein the pipe incline monitoring system comprises an inclinometer located on the sensor carrier apparatus, the inclinometer being operable to measure the incline of the sensor carrier apparatus. 4. The flexible pipe fatigue monitoring system of claim 1 , wherein the flexible pipe comprises a flexible riser pipe connected at one end to a moving platform and the bend stiffener is located at the one end. 5. The flexible pipe fatigue monitoring system of claim 4 , wherein the pipe incline monitoring system further comprises a positioning system located on the platform and operable to determine the orientation of the platform. 6. The flexible pipe fatigue monitoring system of claim 5 , wherein the central processor is configured to receive incline measurement information from the inclinometer and orientation measurement information from the positioning system and is operable to determine the incline of the flexible pipe. 7. The flexible pipe fatigue monitoring system of claim 6 , wherein the central processor is configured to determine one or more of bending, torsion and tension of the flexible pipe. 8. The flexible pipe fatigue monitoring system of claim 7 , wherein the central processor is further configured to determine pipe fatigue from said bending, torsion and tension of the flexible pipe. 9. A method of monitoring the fatigue of a flexible pipe having a bend stiffener located thereon, the method comprising: retrofitting a sensor carrier apparatus circumferentially about the flexible pipe, the sensor carrier apparatus comprising at least one strain sensor embedded therein; measuring one or more mechanical parameters of the flexible pipe at a location on the flexible pipe with the at least one strain sensor; determining the incline of the flexible pipe relative to the location via pipe incline monitoring system; and determining fatigue of a section of the flexible pipe located adjacent to the bend stiffener based on the mechanical parameter information and the incline of the flexible pipe. 10. The method of monitoring the fatigue of a flexible pipe of claim 9 , further comprising measuring one or more of bending, torsion and tension of the flexible pipe. 11. The method of monitoring the fatigue of a flexible pipe of claim 9 or 10 , further comprising determining the incline of the flexible pipe relative to the earth and determining the orientation of the bend stiffener relative to the earth, and from the incline relative to the earth and the orientation of the bend stiffener, determining the incline of the flexible pipe relative to the bend stiffener. 12. The method of monitoring the fatigue of a flexible pipe of claim 9 , wherein the flexible pipe comprises a flexible riser pipe connected at one end to a moving platform and the bend stiffener is located at the one end, and the method further comprises determining the orientation of the platform. 13. The method of monitoring the fatigue of a flexible pipe of claim 12 , further comprising determining one or more of bending, torsion and tension of the pipe. 14. The method of monitoring the fatigue of a flexible pipe of claim 13 , further comprising determining pipe fatigue from the bending, torsion and tension of the pipe adjacent to the bend stiffener. 15. The flexible pipe fatigue monitoring system of claim 1 , wherein the sensor carrier apparatus comprises a first and second carrier members of half-cylindrical shapes configured to be coupled to the external surface of the flexible pipe.