Curved edge display with controlled distortion

The invention claimed is: 1. An electronic display comprising: a display matrix including a light-releasing surface and a series of pixels extending across a flat face portion and around a curved corner portion of the display matrix; and an image-correcting lens coupled to the light-releasing surface of the display matrix, the image-correcting lens having substantially constant thickness in a region arranged over the flat face portion and continuously varied thickness in a region arranged over the curved corner portion, the image-correcting lens being configured to transmit light released from the flat face portion and to reorient light released from the curved corner portion such that the transmitted light and the reoriented light exit the image-correcting layer substantially in parallel, forming an apparent plane image of the series of pixels. 2. The electronic display of claim 1 further comprising a luminance-correcting layer arranged between the display matrix and the image-correcting layer and configured to deflect the light released from the curved corner portion into an acceptance of the image-correcting layer. 3. The electronic display of claim 1 wherein the display matrix includes a flexible organic light-emitting diode matrix. 4. The electronic display of claim 1 wherein the image-correcting layer includes one or more prismatic and/or holographic films. 5. The electronic display of claim 1 wherein the image-correcting layer includes a refractive optic. 6. The electronic display of claim 1 wherein each of a thickness and a refractive index of the image-correcting layer, as functions of distance along the light-releasing surface, are controlled such that the transmitted light and the reoriented light exit the image-correcting layer substantially in parallel, forming the apparent plane image of the series of pixels. 7. The electronic display of claim 1 wherein the apparent plane image is substantially parallel to the flat face portion of the display matrix. 8. The electronic display of claim 1 wherein a spacing ΔS between the pixels in the image is functionally related to a spacing ΔA of the pixels in the series, wherein ΔS=c×ΔA, and wherein c is a function of distance along the light-releasing surface. 9. The electronic display of claim 8 wherein the spacing between the pixels in the image is equal to the spacing between the pixels of the series. 10. The electronic display of claim 1 wherein the curved corner portion admits of a cylindrical curvature, and wherein a radius of the cylindrical curvature is one to five millimeters. 11. The electronic display of claim 1 wherein the image-correcting layer is comprised of hardened glass. 12. The electronic display of claim 1 further comprising a second flat face portion, wherein the curved corner portion is between the flat face portion and the second flat face portion, and wherein the series of pixels is viewable through both the flat face portion and the second flat face portion. 13. A display comprising: a light-releasing display surface including first and second flat face portions and a curved corner portion between the first and second flat face portions; and an image-correcting transparent polymer lens coupled to the light-releasing display surface and extending over the first flat face portion and around the curved corner portion, the image-correcting transparent polymer layer having a substantially constant thickness in a region arranged over the first flat face portion and a continuously varied thickness in a region arranged over the curved corner portion, the image-correcting transparent polymer layer being configured to transmit light released from the first flat face portion and to reorient light released from the curved corner portion such that the transmitted light and the reoriented light exit the image-correcting transparent polymer layer substantially in parallel, forming an apparent plane image of the first flat face portion and the curved corner portion, wherein the series of pixels is viewable through the first flat face portion and through the second flat face portion. 14. The display of claim 13 further comprising a luminance-correcting layer arranged between the light-releasing display surface and the image-correcting transparent polymer layer, wherein the luminance-correcting layer is configured to deflect the light released from the curved corner portion into an acceptance of the image-correcting transparent polymer layer. 15. The display of claim 14 wherein the luminance-correcting layer includes a prismatic layer. 16. The display of claim 14 wherein the luminance-correcting layer includes a holographic layer. 17. An electronic display system comprising: a borderless display module comprising: a display matrix including a light-releasing surface and a series of pixels extending across a flat face portion and around a curved corner portion of the display matrix; and an image-correcting lens coupled to the light-releasing surface of the display matrix, the image-correcting lens having substantially constant thickness in a region arranged over the flat face portion and continuously varied thickness in a region arranged over the curved corner portion, the image-correcting lens being configured to transmit light released from the flat face portion and to reorient light released from the curved corner portion such that the transmitted light and the reoriented light exit the image-correcting layer substantially in parallel, forming an apparent plane image of the series of pixels; and a computer operatively coupled to the borderless display module. 18. The electronic display system of claim 17 wherein the borderless display module is one of a plurality of abutting borderless display modules, and wherein the computer is configured to provide image data to each of the abutting borderless display modules, to present a continuous, unbroken display image extending across the plurality of borderless display modules.