Method and system for laying a submarine pipeline

The invention claimed is: 1. A method of laying an off-shore pipe comprising: installing in a target position on a seabed a fixed receiving structure having a redirecting device for a damping cable, on a laying vessel, providing the pipe with an initial end length to which a pipeline end termination device is mounted, connecting an underwater suspension buoy to the pipeline end termination device, the underwater suspension buoy applying to the pipeline end termination device a suspension force which is directed vertically upwards, paying-out a first length of the pipe with the pipeline end termination device from the laying vessel vertically towards the seabed to a provisional anchoring position, in which the initial end length has an approximately vertical orientation with a vertical safety distance between the pipeline end termination device and the seabed, extending the damping cable from the pipeline end termination device through the redirecting device to an underwater damping buoy, so that the damping cable, slidingly supported and redirected by the redirecting device and tensioned by a buoyancy force of the damping buoy, forms a damping provisional anchoring of the pipeline end termination device to the fixed receiving structure, moving the laying vessel horizontally away from the fixed receiving structure and paying-out, from the laying vessel, a further length of the pipe so as to incline the initial end length progressively from the vertical orientation towards a horizontal orientation up to a lowered position, with the initial end length in the lowered position, moving the laying vessel to position the initial end length in the horizontal direction in a final abutment position with respect to said target position, then abutting the pipeline end termination device in the final abutment position, during the steps of inclining to the lowered position and of horizontally positioning the initial end length: using the suspension force of the suspension buoy to counterbalance at least part of a weight of the pipeline end termination device, using the buoyancy force of the damping buoy to counterbalance a pulling force of the initial end length of the pipe and to damp movements of the initial end length of the pipe, using a sliding support of the redirected damping cable to allow relative compensation movements between the pipeline end termination device and the fixed receiving structure the method further comprising the steps of: A) before the step of paying-out the pipe towards the provisional anchoring position: positioning and fixing an auxiliary cable to the fixed receiving structure, wherein the auxiliary cable extends through the redirecting device and forms two opposite ends extending outside the redirecting device, B) after the step of paying-out the pipe to the provisional anchoring position: connecting a first end of the auxiliary cable to a free end of the damping cable extending from the pipeline end termination device, gripping a second end of the auxiliary cable and pulling it to pull the free end of the damping cable through the redirecting device, gripping the free end of the damping cable and connecting it to the damping buoy held by a retaining cable in the ready position. 2. A method according to claim 1 , comprising a step of temporarily fixing the damping buoy to the fixed receiving structure, before the step of extending the pipe towards the temporary anchoring position, by the retaining cable which is shorter than the damping cable and retains the damping buoy in a ready position at a distance vertically above the fixed receiving structure. 3. A method according to claim 2 , comprising the steps of: before the step of paying-out the pipe towards the provisional anchoring position, pre-installing the damping cable to the fixed receiving structure with the damping cable extending through the redirecting device, after the step of paying-out the pipe to the provisional anchoring position, gripping an end of the damping cable and connecting it to the pipeline end termination device, and gripping another free end of the damping cable and connecting it to the damping buoy held by the retaining cable in the ready position. 4. A method according to claim 1 , comprising the steps of: loosening the retaining cable and tensioning the damping cable by lifting the pipe for a length back into the laying vessel or by moving the laying vessel away from the target position, with the retaining cable loosened, detaching the retaining cable from the fixed receiving structure or from the damping buoy. 5. A method according to claim 1 , comprising, during the step of inclining the initial end length from the vertical orientation to the lowered position, a step of varying an inclination angle between the pipe exiting the laying vessel and the laying vessel. 6. A method according to claim 1 , comprising, during the step of inclining the initial end length from the vertical orientation to the lowered position, the steps of: monitoring a position of the damping cable via an optical detector, and adjusting a position of the laying vessel and a paying-out speed of the pipe also in dependency of the position of the damping cable. 7. A method according to claim 1 , comprising the steps of: when the initial end length of the pipe is in the lowered position, monitoring a position of the damping cable with respect to a target orientation marking formed on the fixed receiving structure, via an optical detector, and in case of misplacement of the damping cable with respect to the target orientation marking, correcting the position by adjusting a position of the laying vessel. 8. A method according to claim 1 , wherein the step of abutting and anchoring the pipeline end termination device in the final abutting position comprises: the laying vessel approaching the pipeline end termination device towards the fixed receiving structure until abutting the pipeline end termination device in the final abutting position directly on the fixed receiving structure, subsequently locking the pipeline end termination device in the final abutting position by positioning locking members in engagement with the pipeline end termination device and with the fixed receiving structure, subsequently moving the laying vessel and further lowering the initial end length until abutting the seabed. 9. A method according to claim 1 comprising, during the step of abutting the pipeline end termination device: abutting and sliding front sliding bars of the pipeline end termination device on a landing ramp of the fixed receiving structure until abutting the front sliding bars against stop portions of the fixed receiving structure, checking positioning of the pipeline end termination device using marks applied on the front sliding bars and corresponding marks applied on the stop portions. 10. A method according to claim 9 , comprising: locking an orientation on a horizontal plane of the pipeline end termination device with respect to the fixed receiving structure by inserting locking pins into selected holes of a hole array of the pipeline end termination device so as to engage the landing ramp laterally. 11. A method according to claim 1 , wherein the step of anchoring the pipeline end termination device in the final abutting position comprises: overturning a locking yoke of the pipeline end termination device from a raised disengaged position to a lowered position of engagement with a stop pole of the fixed receiving structure, subsequently separating a connection between the damping buoy and the pipeline end termination device. 12. A system for laying an off-shore pipe, th