Detecting the direction of acoustic signals with a fiber optical distributed acoustic sensing (DAS) assembly

What is claimed is: 1. A directionally sensitive Distributed Acoustic Sensing (DAS) fiber optical assembly comprising at least two substantially parallel lengths of adjacent optical fibers with different directional acoustic sensitivities, wherein the at least two lengths of adjacent optical fiber comprise a first length of optical fiber with a first ratio between its axial and radial acoustic sensitivity and the second length of optical fiber with a second ratio between its axial and radial acoustic sensitivity; and an algorithm is provided for detecting a direction of propagation of an acoustic signal relative to a longitudinal axis of the first and second lengths of optical fiber on the basis of a comparison of differences of radial and axial strain in the first and second lengths of optical fiber resulting from the acoustic signal. 2. The DAS assembly of claim 1 , wherein algorithm comprises the formula's: Δ ⁢ ⁢ ϕ A DAS = f ⁡ ( ɛ axial outside ) + g ⁡ ( ɛ radial outside ) Δ ⁢ ⁢ ϕ B DAS = h ⁡ ( ɛ axial outside ) + k ⁡ ( ɛ radial outside ) for determining the axial and radial strains ε axial and ε radial , respectively, incident at the outside of channels X and Y of the adjacent substantially straight lengths of optical fiber A and B by measuring the signals ΔΦ A DAS and ΔΦ B DAS of the first and second lengths of optical fiber A and B and wherein the factors f, g, h and k are empirically obtained factors relating to the ratio of sensitivity of the lengths of optical fiber A and B to axial and radial strain ε axial and ε radial , respectively. 3. The DAS assembly of claim 1 , wherein the first ratio is between 300 and 1000 and the second ratio is between 100 and 300. 4. The DAS assembly of claim 1 , wherein the at least two lengths of adjacent optical fiber comprise a first length of coated fiber having a first coating and a second length of coated fiber having a second coating, wherein the first and second coatings are selected such that the Young's Modulus and Poisson's ratio of the first length of coated fiber is less than the Young's Modulus and Poisson's ratio of the second length of coated fiber. 5. The DAS assembly of claim 1 , wherein the first length of optical fiber has an acrylate coating and the second length of optical fiber has a copper coating. 6. The DAS assembly of claim 1 , wherein the at least two lengths of adjacent optical fiber comprise a first length of optical fiber with a first diameter and a second length of optical fiber with a second diameter. 7. The DAS assembly of claim 1 , wherein the at least two lengths of adjacent optical fiber comprise adjacent sections of a single fiber optic cable having a coating with at least one property that varies along the length of the cable, the at least one property being selected from the group consisting of Poisson's ratio and Young's modulus. 8. The DAS assembly of claim 1 , wherein the adjacent lengths of optical cable with different directional acoustic properties comprise at least one of the following features: adjacent lengths of optical cable having a different Young's Modulus; adjacent lengths of optical cable with different diameters; adjacent lengths of optical cable comprising fiber layers having a different Young's Modulus; adjacent lengths of optical cable comprising fiber layers having different inner and/or outer diameters; adjacent lengths of optical cable comprising annular fiber layers filled with fillings, such as gels having different properties, such as different viscosities and/or Young's Modulus; adjacent lengths of optical cable surrounded by metal tubes having a different Young's Modulus, different material compositions, and/or thicknesses; adjacent lengths of optical cable having varying and/or alternating acoustic properties along the length thereof. 9. A directionally sensitive Distributed Acoustic Sensing (DAS) method, the method comprising providing a (DAS) fiber optical assembly comprising at least two substantially parallel lengths of adjacent optical fibers with different directional acoustic sensitivities, wherein the at least two lengths of adjacent optical fiber comprise a first length of optical fiber with a first ratio between its axial and radial acoustic sensitivity and the second length of optical fiber with a second ratio between its axial and radial acoustic sensitivity; and deploying an algorithm for detecting a direction of propagation of an acoustic signal relative to a longitudinal axis of the first and second lengths of optical fiber on the basis of a comparison of differences of radial and axial strain in the first and second lengths of optical fiber resulting from the acoustic signal. 10. The directionally sensitive DAS method of claim 9 , wherein algorithm comprises the formula's: Δ ⁢ ⁢ ϕ A DAS