Vision correction system and method, and light field display and barrier therefor

What is claimed is: 1 . A digital display device for use by a user having reduced visual acuity, the device comprising: a digital display medium comprising an array of pixels and configured to render a pixelated image; a diffractive light field barrier overlaying said digital display at a distance therefrom and including an array of diffractive optical elements, wherein each one of said diffractive optical elements includes a concentrically patterned barrier centered over a corresponding set of said pixels to diffractively influence a light field emanating therefrom and thereby govern a projection thereof from said display medium toward the user; and a hardware processor configured to process image pixel data for an image to be displayed to output corrected image pixel data to be rendered as a function of a stored characteristic of said diffractive light field barrier and a selected vision correction parameter related to the user's reduced visual acuity such that said processed image is rendered via said light field barrier to at least partially compensate for the user's reduced visual acuity. 2 . The display device of claim 1 , wherein each of said diffractive optical elements defines a Fresnel zone plate including two or more concentric rings. 3 . The display device of claim 2 , wherein each said Fresnel zone plate is defined by a refractive geometry defined by at least one of a respective width of, or distance between, each of said rings. 4 . The display device of claim 1 , wherein each of said diffractive optical elements defines a photon sieve including two or more concentric rings of pin holes. 5 . The display device of claim 4 , wherein each said photon sieve is defined by a refractive geometry defined by at least one of: a respective size of said pin holes for each of said concentric rings, a respective radial distance between each of said concentric rings, a respective number of pinholes defined for each of said concentric rings, or a circumferential spacing between each of said pinholes defined for each of said concentric rings. 6 . The display device of claim 1 , wherein said stored characteristic of said diffractive light field barrier comprises at least one of: a set distance between said display medium and said diffractive light field barrier, a distance between each of said diffractive optical elements or a number of pixels associated with each of said diffractive optical elements. 7 . The display device of claim 1 , wherein the hardware processor is further configured to render an interactive graphical user interface (GUI) via said display medium, wherein said interactive GUI incorporates a dynamic vision correction scaling function that dynamically adjusts said designated vision correction parameter in real-time in response to a designated user interaction therewith via said GUI. 8 . The display device of claim 7 , wherein said dynamic vision correction scaling function comprises a graphically rendered scaling function and wherein said designated user interaction comprises a slide motion operation, and wherein said GUI is configured to capture and translate a user's given continuous slide motion operation to a corresponding adjustment to said designated vision correction parameter scalable with a degree of said user's given slide motion operation. 9 . The display device of claim 1 , wherein the display device comprises a digital vehicle user interface, a digital watch, a smartphone, or a digital reader. 10 . The display device of claim 1 , wherein said concentrically patterned barrier is defined by concentric cut-outs. 11 . The display device of claim 1 , wherein said image is processed and rendered via the light field barrier to produce a virtual image on a virtual plane at a designated distance from the display medium. 12 . A diffractive light field barrier for use with a display medium comprising an array of pixels and configured to render a pixelated image to be viewed by a viewer having a reduced visual acuity, wherein the diffractive light field barrier is dimensioned to overlay the digital display medium at a distance therefrom and comprises an array of diffractive optical elements, each one of which being including a concentrically patterned barrier that, when overlaid onto the digital display medium, is centered over a corresponding set of the pixels to diffractively influence a light field emanating therefrom and thereby govern a projection thereof from the display medium toward the user such that an image can be processed and rendered via the light field barrier to at least partially compensate for the viewer's reduced visual acuity. 13 . The diffractive light field barrier of claim 12 , wherein said image is processed and rendered via the light field barrier to produce a virtual image on a virtual plane at a designated distance from the display medium. 14 . The diffractive light field barrier of claim 12 , wherein each of said diffractive optical elements defines a Fresnel zone plate including two or more concentric rings. 15 . The diffractive light field barrier of claim 14 , wherein each said Fresnel zone plate is defined by a refractive geometry defined by at least one of a respective width of, or distance between, each of said rings. 16 . The diffractive light field barrier of claim 12 , wherein each of said diffractive optical elements defines a photon sieve including two or more concentric rings of pin holes. 17 . The diffractive light field barrier of claim 16 , wherein each said photon sieve is defined by a refractive geometry defined by at least one of a respective size of said pin holes for each of said concentric rings, a respective radial distance between each of said concentric rings, a respective number of pinholes defined for each of said concentric rings, or a circumferential spacing between each of said pinholes defined for each of said concentric rings. 18 . The diffractive light field barrier of claim 12 , wherein the display comprises a digital vehicle user interface, a digital watch, a smartphone, or a digital reader. 19 . The diffractive light field barrier of claim 12 , wherein said concentrically patterned barrier is defined by concentric cut-outs.