Method for controlling quality of operation of a PAM system, corresponding computer program product, non-transitory computer-readable carrier medium and quality control device

The invention claimed is: 1. A method for controlling quality of operation of a passive acoustic monitoring system having a control unit, said method comprising, at least for one given source: a) said given source emits at least one acoustic test signal; b) the passive acoustic monitoring system obtains acoustic signal measurements and estimates at least one parameter, characteristic of and/or associated with said at least one test acoustic signal, as a function of said acoustic signal measurements; c) comparing the at least one estimated parameter with at least one reference parameter, characteristic of and/or associated with said at least one test acoustic signal; d) obtaining at least one piece of quality information of operation of the passive acoustic monitoring system, as a function of results of said comparing step; and wherein a quality control device performs: 1) transmitting an emission command to the source to trigger said step a), and transmitting a measurement command to the control unit of the passive acoustic monitoring system; 2) obtaining said at least one estimated parameter; and 3) carrying-out said step c) so that the quality control device compares said at least one estimated parameter with said at least one reference parameter, and carrying-out said step d) so that the quality control device obtains said at least one piece of quality information. 2. The method according to claim 1 , wherein said quality control device belongs to the group consisting of: a quality control device integrated in said passive acoustic monitoring system; and a quality control device integrated in said given source. 3. The method according to claim 1 , wherein a navigation system implements a seismic shooting session, and wherein said quality control device carries out a synchronization of said step of transmitting the emission command to the source, with said seismic shooting session. 4. The method according to claim 3 , wherein the seismic shooting session comprises at least one shooting time slot and at least one non-shooting time slot, and wherein said synchronization of said step of transmitting the emission command to the source, with said seismic shooting session, is such that said at least one test acoustic signal is emitted either during said at least one shooting time slot or during said at least one non-shooting time slot. 5. The method according to claim 1 , wherein an iteration of said steps a) to d) is carried out for each of at least two sources, each source being located in a distinct location, and wherein said quality control device carries out said steps 1) to 3) for each of said at least two sources. 6. The method according to claim 1 , an iteration of said steps a) to d) being carried out for each of at least two sources, each source using a distinct emission frequency range, and wherein said quality control device carries out, simultaneously for said at least two sources, said steps 1) to 3). 7. The method according to claim 1 , wherein said given source belongs to the group consisting of: a marine mammal vocalization simulator; a marine seismic source; a marine depth-sounder; and a marine transponder. 8. The method according to claim 1 , wherein said at least one reference parameter belongs to the group consisting of: characteristics of said at least one test acoustic signal; an emission time of said at least one test acoustic signal; and an emission location of said at least one source. 9. The method according to claim 1 , wherein at least two iterations of said steps a) to d) and said steps 1) to 3) are carried out for said given source, with at least one characteristic of said at least one test acoustic signal which is different for each iteration. 10. The method according to claim 1 , wherein at least two iterations of said steps a) to d) and said steps 1) to 3) are carried out for said given source, with at least one characteristic defining said step of obtaining acoustic signal measurements which is different for each iteration. 11. The method according to claim 1 , wherein at least two iterations of said steps b) to d) and said steps 2) to 3) are carried out for said given source, with at least one characteristic defining said step of estimating which is different for each iteration. 12. A non-transitory computer-readable carrier medium storing a computer program product comprising program code instructions for implementing a method for controlling quality of operation of a passive acoustic monitoring system having a control unit, when said program is executed on a computer or a processor, said method comprising, at least for one given source: a) said given source emits at least one acoustic test signal; b) the passive acoustic monitoring system obtains acoustic signal measurements and estimates at least one parameter, characteristic of and/or associated with said at least one test acoustic signal, as a function of said acoustic signal measurements; c) comparing the at least one estimated parameter with at least one reference parameter, characteristic of and/or associated with said at least one test acoustic signal; d) obtaining at least one piece of quality information of operation of the passive acoustic monitoring system, as a function of results of said comparing step; and wherein a quality control device, which comprises the computer or processor executing the instructions, performs: 1) transmitting an emission command to the source to trigger said step a), and transmitting a measurement command to the control unit of the passive acoustic monitoring system; 2) obtaining said at least one estimated parameter; and 3) carrying-out said step c) so that the quality control device compares said at least one estimated parameter with said at least one reference parameter, and carrying-out step d) so that the quality control device obtains said at least one piece of quality information. 13. A quality control device adapted to control quality of operation of a passive acoustic monitoring system having a control unit, the device comprising: means for transmitting an emission command to a given source to trigger emission of at least one acoustic test signal by said given source and for transmitting a measurement command to the control unit of the passive acoustic monitoring system; means for obtaining at least one parameter, characteristic of and/or associated with said at least one test acoustic signal, estimated by the passive acoustic monitoring system as a function of acoustic signal measurements obtained by the passive acoustic monitoring system; means for comparing the at least one estimated parameter with at least one reference parameter, characteristic of and/or associated with said at least one test acoustic signal; and means for obtaining at least one piece of quality information of operation of the passive acoustic monitoring system, as a function of results delivered by said comparing means.