Method and device for estimating an inter-node distance between nodes arranged along towed acoustic linear antennas

The invention claimed is: 1. A method comprising: estimating an inter-node distance between a sender node and a receiver node belonging to a network comprising a plurality of nodes arranged along towed acoustic linear antennas, an acoustic signal being transmitted from the sender node to the receiver node through an underwater acoustic channel, wherein estimating comprises: estimating the inter-node distance as a function of an estimate of a sound speed profile of the underwater acoustic channel, said sound speed profile depending on depth, including acts of obtaining a travel time of the acoustic signal from the sender node to the receiver node, immersion depths of the sender node and the receiver node, a sound speed at the immersion depth of the sender node and said estimate of the sound speed profile; determining an approximated inter-node distance, corresponding to a straight line path between the sender node and the receiver node, as a function of the travel time and the sound speed at the immersion depth of the sender node; estimating the sound propagation between the sender node and the receiver node, using a sound propagation model and knowing the immersion depths of the sender node and the receiver node, the approximated inter-node distance and the estimate of the sound speed profile, said step of estimating the sound propagation providing an arc length of an arc path between the sender node and the receiver node; and determining an estimate of the inter-node distance, as the difference between said approximated inter-node distance and a distance estimation error defined as the difference between said arc length and said approximated inter-node distance. 2. The method according to claim 1 , wherein the act of obtaining the estimate of the sound speed profile is carried out using at least one method belonging to the group consisting of: methods of consulting at least one sound speed profiles database; or methods of direct measuring, using a measurement device and/or an acoustic method. 3. The method according to claim 1 , wherein the act of obtaining the estimate of the sound speed profile is carried out with a method of indirect measuring, using an inversion process which extracts the estimate of the sound speed profile from at least one distorted acoustic signal resulting from the transmission of an acoustic signal between a couple of nodes through said underwater acoustic channel. 4. The method according to claim 3 , wherein said inversion process extracts the estimate of the sound speed profile from a distorted acoustic signal resulting from the transmission of said acoustic signal between said sender node and said receiver node through said underwater acoustic channel. 5. The method according to claim 3 , wherein at least two iterations of said inversion process are executed exploiting a spatial diversity, using at least two different couples of nodes, and/or a time diversity, using a same couple of nodes at at least two different instants, each iteration providing an intermediate estimate of the sound speed profile, and wherein the step of obtaining the estimate of the sound speed profile comprises a step of combining the intermediate estimates of the sound speed profile to obtain a final estimate of the sound speed profile. 6. The method according to claim 5 , wherein said at least two different couples of nodes have different depths, a first and a second couple of nodes being defined as having different depths if a sender node of the first couple has not the same depth as a sender node of the second couple, and/or if a receiver node of the first couple has not the same depth as a receiver node of the second couple. 7. The method according to claim 1 , wherein the method is implemented by said receiver node or a centralized system. 8. A non-transitory computer-readable carrier medium storing a program which, when executed by a computer or a processor, causes the computer or the processor to carry out a method of estimating an inter-node distance between a sender node and a receiver node belonging to a network comprising a plurality of nodes arranged along towed acoustic linear antennas, an acoustic signal being transmitted from the sender node to the receiver node through an underwater acoustic channel, the method comprising estimating with the computer or processor the inter-node distance as a function of an estimate of a sound speed profile of the underwater acoustic channel, said sound speed profile depending on depth, wherein estimating comprises: obtaining a travel time of the acoustic signal from the sender node to the receiver node, immersion depths of the sender node and the receiver node, a sound speed at the immersion depth of the sender node and said estimate of the sound speed profile; determining an approximated inter-node distance, corresponding to a straight line path between the sender node and the receiver node, as a function of the travel time and the sound speed at the immersion depth of the sender node; estimating the sound propagation between the sender node and the receiver node, using a sound propagation model and knowing the immersion depths of the sender node and the receiver node, the approximated inter-node distance and the estimate of the sound speed profile, said step of estimating the sound propagation providing an arc length of an arc path between the sender node and the receiver node; and determining an estimate of the inter-node distance, as the difference between said approximated inter-node distance and a distance estimation error defined as the difference between said arc length and said approximated inter-node distance. 9. A device for estimating an inter-node distance between a sender node and a receiver node belonging to a network comprising a plurality of nodes arranged along towed acoustic linear antennas, wherein the device comprises: either a reprogrammable computing machine, comprising a read-only memory, a random access memory and a processor, or a dedicated hardware machine or component, configured to perform acts comprising: receiving an acoustic signal being transmitted from the sender node to the receiver node of the network through an underwater acoustic channel; and estimating the inter-node distance between the sender node and the receiver node belonging to the network comprising the plurality of nodes arranged along the towed acoustic linear antennas, wherein estimating comprises: estimating the inter-node distance as a function of an estimate of a sound speed profile of the underwater acoustic channel, said sound speed profile depending on depth, including: obtaining a travel time of the acoustic signal from the sender node to the receiver node, immersion depths of the sender node and the receiver node, a sound speed at the immersion depth of the sender node and said estimate of the sound speed profile; determining an approximated inter-node distance, corresponding to a straight line path between the sender node and the receiver node, as a function of the travel time and the sound speed at the immersion depth of the sender node; estimating the sound propagation between the sender node and the receiver node, using a sound propagation model and knowing the immersion depths of the sender node and the receiver node, the approximated inter-node distance and the estimate of the sound speed profile, said step of estimating the sound propagation providing an arc length of an arc path between the sender node and the receiver node; and determining an estimate of the inter-node distance, as the difference between said approximated inter-node distance and a distance estimation error defined as the difference between said arc length and said approximated inter-node distance.