Method of acoustic surveying

The invention claimed is: 1. A system for surveying a wellbore, the system comprising: a distributed optical fiber sensor having: a) a sensing optical fiber deployed along the wellbore, the wellbore having a plurality of respective acoustic propagation regions respectively corresponding to two or more of: an interior of an inner pipe, a wall of the inner pipe, an annulus surrounding the inner pipe, and/or a casing surrounding the annulus; b) a light source arranged to send optical pulses along the sensing optical fiber; and c) means for processing light reflected and/or backscattered from the optical pulses as they travel along the optical sensing fiber to measure acoustic signals incident along the length of the sensing optical fiber in order to provide distributed acoustic measurements from along the length of the sensing fiber; and a processor arranged to: i)process the distributed acoustic measurements from along the length of the sensing fiber to obtain a plurality of distributed speed of sound measurements along the length of the sensing fiber respectively relating to the plurality of respective acoustic propagation regions; and ii) analyze variations in the plurality of distributed speed of sound measurements and determine respective acoustic modes corresponding to the plurality of respective acoustic propagation regions in dependence thereon to thereby derive information relating to any of a surrounding rock formation, fluid in the wellbore, and/or the condition of the wellbore in dependence on the determined respective acoustic modes, wherein the analysis comprises inverting a wellbore model against the plurality of distributed speed of sound measurements in order to determine a value of one or more unknown parameters in the wellbore model. 2. The system according to claim 1 , wherein the plurality of respective acoustic propagation regions respectively corresponds to three or more of: the interior of the inner pipe, the wall of the inner pipe, the annulus surrounding the inner pipe, and/or the casing surrounding the annulus. 3. The system according to claim 1 , wherein the plurality of respective acoustic regions respectively corresponds to: the interior of the inner pipe, the wall of the inner pipe, the annulus surrounding the inner pipe, and the casing surrounding the annulus. 4. The system according to claim 1 , wherein the analysis comprises determining an acoustic amplitude corresponding to the, each, or a distributed speed of sound measurement. 5. The system according to claim 1 , wherein the analysis comprises determining relative amplitudes corresponding to different acoustic modes. 6. The system according to claim 1 , wherein the analysis comprises determining dispersion characteristics of the, each, or an acoustic mode. 7. The system according to claim 1 , wherein the analysis comprises determining an upper-frequency cut-off for the presence of modal phenomena. 8. The system according to claim 1 , wherein the wellbore model is configured to receive as an input one or more speed of sound measurements and output one or more corresponding wellbore parameters. 9. The system according to claim 1 , wherein the wellbore model is configured to treat speed of sound as a known parameter and other model parameters as unknowns. 10. The system according to claim 1 , wherein the analysis comprises identifying one or more features in the, each, or a distributed speed of sound measurement and attributing the one or more features to one or more corresponding events. 11. The system according to claim 10 , wherein identifying one or more features comprises determining the presence and/or location of one or more discontinuities; variations; and/or relative variations between modes, in relation to speed of sound and/or amplitude corresponding to an acoustic signal. 12. The system according to claim 1 , wherein the analysis comprises averaging the, each, or a distributed speed of sound measurement along at least a portion of the wellbore. 13. The system according to claim 1 , wherein the processor is further arranged to derive information relating to fluid flow within the wellbore. 14. The system according to claim 1 , wherein the processor is further arranged to track eddies, detect outgassing events, and/or detect the presence and position of solids or particulate material in the wellbore. 15. The system according to claim 14 , wherein the tracking and/or detecting are performed in real-time. 16. The system according to claim 1 , wherein the wellbore model is based on full 3-D elastodynamic equations and parameters of the well. 17. The system according to claim 1 , wherein the one or more corresponding wellbore parameters further comprise a hardness of the formation. 18. A system for surveying a wellbore, the system comprising: a distributed optical fiber sensor having: a) a sensing optical fiber deployed along the wellbore, the well bore having a plurality of respective acoustic propagation regions respectively corresponding to two or more of: an interior of an inner pipe; a wall of the inner pipe, an annulus surrounding the inner pipe, and/or a casing surrounding the annulus; b) a light source arranged to send optical pulses along the sensing optical fiber; and c) means for processing light reflected and/or backscattered from the optical pulses as they travel along the optical sensing fiber to measure acoustic signals incident along the length of the sensing optical fiber in order to provide distributed acoustic measurements from along the length of the sensing fiber; the system further comprising a processor arranged to: i) process the distributed acoustic measurements from along the length of the sensing fiber to obtain a plurality of distributed speed of sound measurements along the length of the sensing fiber respectively relating to the plurality of respective acoustic propagation regions; and ii) analyze variations in the plurality of distributed speed of sound measurements and determining respective acoustic modes corresponding to the plurality of respective acoustic propagation regions in dependence thereon to thereby derive information relating to any of a surrounding rock formation, fluid in the wellbore, and/or the condition of the wellbore in dependence on the determined respective acoustic modes; wherein the analysis comprises identifying one or more features in the plurality of distributed speed of sound measurements and attributing the one or more features to one or more corresponding events, wherein identifying the one or more features comprises determining the presence and/or location of one or more discontinuities, variations, and/or relative variations between acoustic modes, in relation to speed of sound and/or amplitude corresponding to an acoustic signal.