Eyewear lens production by multi-layer additive techniques

1. A method of producing a customized eyewear lens comprising:

• a) obtaining a lens substrate comprising a first surface nearest the eye when worn and a second surface farthest from the eye when worn, wherein the lens substrate comprises optical power properties that are discernibly different to the unaided eye from the customized eyewear lens'"'"' optical power properties;
  
  b) calculating the total modification needed to convert the lens substrate'"'"'s optical power properties to a desired set of optical power properties for the customized eyewear lens, generating an additive layer design comprising two or more additive layers to achieve the total calculated modification and identifying at least one control point with error limits for confirmation or revision of the additive layer design;
  
  c) applying a first liquid layer comprising a first radiation-polymerizable material to at least a portion of one of the surfaces of the lens substrate;
  
  d) irradiating a selected area of the first liquid layer with radiation that is controlled for wavelength range, energy and spatial distribution to form a first additive layer by polymerization only in the selected area irradiated, wherein the first liquid layer is irradiated according to the additive layer design, and wherein the first additive layer is integrally bonded to the lens substrate;
  
  e) applying a second liquid layer comprising a second radiation-polymerizable material to a first application zone selected from the group consisting of at least a portion of one of the surfaces of the lens substrate, at least a portion of the first additive layer, or a combination of both a portion of a lens substrate surface and a portion of the first additive layer;
  
  f) irradiating a selected area of the second liquid layer with radiation that is controlled for wavelength range, energy and spatial distribution to form a second additive layer by polymerization only in the selected area of the second liquid layer irradiated, wherein the second liquid layer is irradiated according to the additive layer design, and wherein the second additive layer is integrally bonded to the first application zone, andg) performing the following steps at the at least one control point,g1) measuring one or more localized properties comprising at least the localized slope of at least one of the layers selected from the first liquid layer, the first additive layer, the second liquid layer and the second additive layer, wherein the measurement of the localized slope is made at one or more measurement locations;
  
  g2) calculating an error between the measured localized properties and expected results for the additive layer design at each measurement location;
  
  g3) comparing the error with error limits of the at least one control point, andg4) revising the additive layer design if the error is greater than the error limits of the at least one control point,wherein the method of applying each of the first and second liquid layers is selected from the group consisting of spin, dip, spray, roller, blade and curtain coating.