Resetting and hilbert filtering of self-mixing interferometric signal

The invention claimed is: 1. An optical device, based on the self-mixing effect, for determining a physical parameter, including: a laser light source for generating a light beam, called the emitted beam, in the direction of a target; a means for detecting an interferometric signal SM(t), said interferometric signal including interference fringes and information on the physical parameter to be determined, and being generated by interference between the emitted beam and a light beam reflected by the target; and means for converting the interferometric signal SM(t) obtained by the detecting means into a measurement of the physical parameter; wherein said converting means include: first means for removing a continuous component Off(t) from the interferometric signal SM(t), said first means being configured to remove the continuous component locally for each of the interference fringes of the interferometric signal; and second means for determining interferometric peaks of the interferometric signal SM(t), said peaks being obtained from the signal obtained as output from the first means, the second means including a Hilbert filter. 2. The optical device as claimed in claim 1 , not including means for calibrating the laser light source. 3. A method for processing an interferometric signal SM(t) obtained by self-mixing, via an optical device according to claim 1 , said interferometric signal including interference fringes, wherein the method includes, in succession, the steps of: removing a continuous component Off(t) from the interferometric signal SM(t), in order to obtain a corrected signal SM c (t), using the first means, said continuous component Off(t) of the interferometric signal being removed locally, for each detected interference fringe of the interferometric signal SM(t); and determining interferometric peaks of said interferometric signal SM(t) from the corrected signal SM c (t) using the second means, said interferometric peaks being determined by applying a Hilbert filter to the corrected signal SM c (t). 4. A method for determining a physical parameter, including a step of processing an interferometric signal SM(t) using the method as claimed in claim 3 , said interferometric signal including information on the physical parameter to be determined, then a step of determining the physical parameter from the determined interferometric peaks of the interferometric signal SM(t). 5. The method as claimed in claim 4 , including a prior step of acquiring the interferometric signal SM(t) carried out using the optical device. 6. The method as claimed in claim 5 , not including a step of calibration of the laser light source. 7. A method for determining a movement of a target, including a step of processing an interferometric signal SM(t) using the method as claimed in claim 3 , said interferometric signal including information on the physical parameter to be determined, then a step of reconstructing the movement of the target from the determined interferometric peaks of the interferometric signal SM(t).