Detecting parameter in flexible pipe system comprising a turret

What is claimed is: 1. A flexible pipe system comprising: an unbonded flexible pipe comprising at least one armouring layer and being connected to a floating vessel; a sensor system adapted for detecting changes in strain and/or temperature in the unbonded flexible pipe and comprising: at least one optical fibre integrated in the at least one armouring layer of the unbonded flexible pipe; and interrogating equipment comprising an optical transmitter configured to transmit optical signals into said at least one optical fibre; and an optical detector configured to receive optical signals reflected from said at least one optical fibre and to detect therefrom at least one parameter in said unbonded flexible pipe; a turret for rotationally connecting the unbonded flexible pipe to the floating vessel, said turret being supported by a substantially vertical shaft in the floating vessel and comprising an end-fitting for terminating and securing said unbonded flexible pipe to the turret; and a swivel device for rotationally connecting the turret to the shaft of the floating vessel and providing a fluid transfer passage between the turret and the floating vessel, wherein said interrogating equipment is located on said turret and between the swivel device and the end-fitting so that optical signals reflected from the fibre can reach the interrogating equipment without being distorted in the swivel device and is further configured to transfer signals indicative of said at least one detected parameter to receiving equipment on said floating vessel, and wherein said interrogating equipment comprises a transmitter for transmitting said signals indicative of said at least one detected parameter as wireless signals to the receiving equipment on said floating vessel. 2. A flexible pipe system according to claim 1 , wherein said interrogating equipment comprises a storage medium for storing said indicative signals for subsequent manual retrieval. 3. A flexible pipe system according to claim 1 , wherein said receiving equipment is arranged in a local instrumentation room on said floating vessel. 4. A flexible pipe system according to claim 1 , wherein said interrogating equipment is arranged in an enclosure that is certified according to ATEX Zone 1 and rated to IP68. 5. A flexible pipe system according to claim 1 , wherein said turret is an internal turret located in the hull of said floating vessel. 6. A flexible pipe system according to claim 1 , wherein said turret is an external turret located in a projection extending from the hull of said floating vessel. 7. A flexible pipe system according to claim 1 , wherein a plurality of optical fibre sensors are arranged along said optical fibre. 8. A flexible pipe system according to claim 6 , wherein said plurality of optical fibre sensors are intrinsic sensors integrated in said optical fibre. 9. A flexible pipe system according to claim 6 , wherein said plurality of optical fibre sensors are extrinsic sensors connected to said optical fibre. 10. A method of detecting at least one parameter in an unbonded flexible pipe having at least one armouring layer in a flexible pipe system further comprising: a turret for rotationally connecting the unbonded flexible pipe to a floating vessel, said turret being supported by a substantially vertical shaft in the floating vessel and comprising an end-fitting for terminating and securing said unbonded flexible pipe to the turret; a swivel device for rotationally connecting the turret to the shaft of the floating vessel and providing a fluid transfer passage between the turret and the floating vessel; and a sensor system for detecting said at least one parameter comprising at least one optical fibre integrated in the at least one armouring layer of the unbonded flexible pipe, wherein said at least one parameter being changes in strain and/or temperature in the unbonded flexible pipe, and wherein the method comprising the steps of: transmitting optical signals into said at least one optical fibre from an optical transmitter of interrogating equipment arranged on said turret, wherein the interrogating equipment is located between the swivel device and the end-fitting: receiving optical signals reflected from said at least one optical fibre without being distorted in the swivel device and detecting therefrom said at least one parameter in said unbonded flexible pipe in an optical detector of said interrogating equipment located on said turret; and transferring signals indicative of said at least one detected parameter to receiving equipment on said floating vessel from said interrogating equipment arranged on said turret, wherein the method further comprises the step of transmitting said signals indicative of said at least one detected parameter to the receiving equipment on said floating vessel from said interrogating equipment arranged on said turret as wireless signals. 11. A method according to claim 10 , wherein the method further comprises the step of storing said indicative signals on a storage medium in said interrogating equipment for subsequent manual retrieval.