Quality control method for optometric measurements

The invention claimed is: 1. A method for controlling the quality of optometric measurements for determining the optical-mechanical properties and the quality of a corrective spectacle lens suitable for a spectacle wearer, the controlling method comprising the following steps: (a) computationally recording a first recording comprising at least one first value of a first identifier allowing a spectacle wearer to be identified and at least one other value of another identifier allowing an optometric apparatus at a first optometric measurement site to be identified; (b) carrying out, by means of the optometric apparatus of the first site, at least one optometric measurement comprising at least one measurement of an ocular refraction parameter of at least one eye of the spectacle wearer and/or a measurement of horizontal and vertical positions of the pupil of the eye of this wearer relative to a frame intended to accommodate the corrective lens; (c) transmitting to a second site a numerical measurement dataset comprising the optometric measurement result of step (b), the numerical dataset being computationally associated with the first recording; and (d) digitally processing the optometric measurement result computationally associated with the first recording depending on numerical reference data and/or the respective identifier of the optometric apparatus of the first recording; (e) determining a numerical visual-correction prescription dataset of a new corrective lens depending on the numerical dataset computationally associated with the first recording; (f) having the numerical visual-correction prescription dataset digitally signed and validated by a professional qualified to prescribe the refraction powers of a new corrective lens; (g) transmitting to a third site the numerical prescription dataset associated with the first identifier of the wearer and with a signature attached to the qualified professional; (h) certifying the signature transmitted in step (g) and transmitting the result of this certification to the third site; (i) generating at the third site a digital corrective-lens order dataset triggering the manufacture of this eyeglass; (j) selecting an optical design or a category of optical design or adapting the calculation of the design depending on the signature attached to the qualified professional; (k) computationally recording an image file of a pre-existing visual-correction prescription of the wearer associated with the first identifier of the wearer; (l) transmitting to the second site a numerical measurement dataset comprising the result of the measurement of step (b) and the image file of a pre-existing prescription, which are associated with the first identifier of the wearer and with a digital signature attached to the first site or to the optometric apparatus; and (m) determining by processing of the image file of a pre-existing prescription and by processing the optometric measurement of step (b) computationally associated with the first recording a numerical visual-correction prescription dataset wherein the prescription dataset comprises three refraction powers of the new corrective lens. 2. The method as claimed in claim 1 , wherein step (d) comprises a step of calibrating said optometric measurement result. 3. The method as claimed in claim 1 , wherein step (d) comprises the following step: (d1) assigning at least one evaluation criterion to the optometric measurement result, the evaluation criterion depending on the respective identifier of the optometric apparatus of the first recording. 4. The method as claimed in claim 1 , wherein step (d) comprises the following step: (d1) assigning at least one given evaluation criterion to a cluster associated with a plurality of optometric apparatuses and/or a plurality of optometric measurement sites. 5. The method as claimed in claim 4 , furthermore comprising a step of transmitting the at least one evaluation criterion to the first optometric measurement site and/or to the optometric apparatus or respectively to said plurality of optometric apparatuses and/or to said plurality of optometric measurement sites. 6. The method as claimed in claim 3 , wherein step (d) includes a step of recording the evaluation criterion in a database. 7. The method as claimed in claim 1 , wherein the first recording is recorded in a database at the end of step (a), a numerical measurement of the at least one optometric measurement is determined at step (b) and is recorded in the same database at the end of step (b) and the result of the digital processing is recorded in the same database at the end of step (d). 8. The method as claimed in claim 6 , wherein step (c) of transmitting the numerical measurement dataset includes a step of recording a digital signature in the first recording of the database. 9. The method as claimed in claim 1 , further comprising: a step of analyzing the digitally processed measurement result in association with numerical reference data, and a step of calculating a deviation between the optometric measurement result and the numerical reference data and a step of transmitting this deviation to the first optometric measurement site and/or to the optometric apparatus. 10. The method as claimed in claim 1 , further comprising a step of analyzing the digitally processed measurement result in association with numerical reference data, wherein the numerical reference data comprise at least one evaluation criterion representative selected from the group of: the respect of a pre-established measurement protocol, the reproducibility of the optometric apparatus, the qualifications of a technician operating the optometric apparatus, the type of optometric apparatus and the complexity of the optometric measurements. 11. The method as claimed in claim 1 , furthermore comprising at least one other execution of the complete method of claim 1 , this other execution being associated with the same first identifier value corresponding to the same spectacle wearer. 12. The method as claimed in claim 1 , further comprising a step of assigning a digital signature to the first and/or to the second site, and further certifying the first and/or the second site depending on the digital signature assigned to the first and/or the second site, respectively. 13. The method as claimed in claim 7 , wherein step (c) of transmitting the numerical measurement dataset includes a step of recording a digital signature in the first recording of the database. 14. The method as claimed in claim 3 , wherein step (d) comprises the following step: (d2) assigning at least one given evaluation criterion to a cluster associated with a plurality of optometric apparatuses and/or a plurality of optometric measurement sites. 15. The method as claimed in claim 14 , wherein step (d) includes a step of recording the evaluation criterion in a database. 16. The method as claimed in claim 15 , wherein the first recording is recorded in a database at the end of step (a), a numerical measurement of the at least one optometric measurement is determined at step (b) and is recorded in the same database at the end of step (b) and the result of the digital processing is recorded in the same database at the end of step (d).