Method and system for determining deformation in a cable

The invention claimed is: 1. A method for determining deformation in a cable, wherein an optical fiber arrangement includes an optical fiber for sensing, and is applied along the cable, the method comprising—injecting a forward pulse pump signal in the optical fiber arrangement in a forward direction of the optical fiber; —injecting a reverse probe signal in the optical fiber arrangement in a reverse direction of the optical fiber; —measuring a stimulated Brillouin backscattering; —based on the Brillouin backscattering measurement, providing information about a deformation of the cable; wherein the forward pulse pump signal is provided as a sum of a stationary signal component and an interrogation pulse component, and wherein the stationary signal component has an energy below a Brillouin activation level and the interrogation pulse signal component has an energy which results in that the sum of the stationary signal component and the interrogation pulse signal component exceeds the Brillouin activation level. 2. The method for determining deformation in a cable according to claim 1 , wherein the information about the deformation of the cable includes information about a localization along the cable of the deformation of the cable. 3. The method for determining deformation in a cable according to claim 2 , further comprising, based on the Brillouin backscattering measurement, providing information about temperatures along the cable. 4. The method for determining deformation in a cable according to claim 1 , wherein the cable is a subsea power cable. 5. The method for determining deformation in a cable according to claim 1 , performed during a deployment of the cable from a vessel floating on a sea surface to a seafloor. 6. The method for determining deformation in a cable according to claim 1 , wherein the optical fiber arrangement comprises a length of optical fiber arranged as a loop, the loop reversing direction at a far end, with two proximate ends of the length of optical fiber connected to an interrogation instrument arranged to inject the pulse pump signal and the probe signal into respective ends of the optical fiber. 7. The method for determining deformation in a cable according to claim 6 , further comprising one or more splitters at distal end of the optical fiber, the one or more splitters connected to a segment of optical fiber having a circulating device arranged at its distal end. 8. The method for determining deformation in a cable according to claim 1 , wherein the optical fiber arrangement comprises a single length of optical fiber, with a proximate end connected to an interrogation instrument arranged to introduce both the pulse pump signal and the probe signal into the same end of the optical fiber, the optical fiber having a distal end comprising a circulating device arranged to reflect or redirect the probe signal in the reverse direction. 9. The method for determining deformation in a cable according to claim 8 , wherein the circulating device comprises a reflective surface. 10. The method for determining deformation in a cable according to claim 8 , wherein the circulating device comprises a loop and a splitter device. 11. A system for deployment of a subsea power cable to a sea bottom from a cable reel positioned on a deck of a cable-laying vessel floating on a sea surface, wherein a sensing optical fiber arrangement is applied along the subsea power cable, and wherein the system for deployment of the subsea power cable comprises a system for determining deformation in the cable as set forth in claim 8 . 12. The method for determining deformation in a cable according to claim 1 , wherein the optical fiber arrangement comprises a single length of optical fiber, with an interrogation instrument arranged at each end, one interrogation instrument arranged to inject the pulse pump signal and the other interrogation instrument arranged to inject the probe signal. 13. A method for deployment of a subsea power cable to a seafloor from a cable reel positioned on a deck of a cable-laying vessel floating on a sea surface, wherein a sensing optical fiber is applied along the subsea power cable, the method comprising determining deformation in the subsea power cable by means of a method as set forth in claim 1 . 14. A system for determining deformation in a cable, wherein an optical fiber arrangement includes an optical fiber for sensing, and is applied along the cable, the system comprising: —a pulse pump signal injecting device, injecting a pulse pump signal in the optical fiber in a forward direction of the optical fiber; —a probe signal injecting device, injecting a probe signal in the optical fiber in a reverse direction of the optical fiber; —a measuring device, measuring a stimulated Brillouin backscattering; —a computing device, configured to provide information about a deformation of the cable based on the Brillouin backscattering measurement, wherein the pulse pump signal injecting device is configured to provide the forward pulse pump signal as a sum of a stationary signal component and an interrogation pulse component, and wherein the stationary signal component has an energy below a Brillouin activation level and the interrogation pulse signal component has an energy which results in that the sum of the stationary signal component and the interrogation pulse signal component exceeds the Brillouin activation level. 15. The system for determining deformation in a cable according to claim 14 , wherein the information about the deformation of the cable includes information about a localization of the deformation of the cable. 16. The system for determining deformation in a cable according to claim 14 , wherein the computing device is further configured to, based on the Brillouin backscattering measurement, providing information about temperatures along the cable. 17. The system for determining deformation in a cable according to claim 14 , wherein the cable is a subsea power cable. 18. The system for determining deformation in a cable according to claim 14 , configured to operate during a deployment of the cable from a floating vessel to a seafloor. 19. The system for determining deformation in a cable according to claim 14 , wherein the optical fiber arrangement is arranged as a loop, the loop reversing direction at a far end, with two proximate ends of the length of optical fiber connected to an interrogation instrument arranged to inject the pulse pump signal and the probe signal into respective ends of the optical fiber.