Light-redirecting window covering

What is claimed is: 1. A light redirecting window covering, comprising: a flexible translucent sheet of a plastic material having a first broad-area surface and an opposing second broad-area surface extending parallel to the first broad-area surface; a plurality of random surface microstructures formed in the first broad-area surface and configured for randomizing light propagation directions; a parallel array of truncated linear prismatic structures formed on the second broad-area surface and extending parallel to an edge of the flexible translucent sheet, wherein each of the prismatic structures has a tapered shape and comprises a first curved side wall forming a first non-zero angle with respect to a normal to the second broad-area surface, a second curved side wall extending at a different non-zero angle with respect to the normal, and a terminal surface facing away from the flexible translucent sheet and connecting the first and second curved side walls; and a flexible optically transmissive sheet bonded to the terminal surfaces of the truncated linear prismatic structures using an optically transmissive adhesive so as to form a single layered flexible film structure adapted for being retained in a planar form and further adapted for being retained in a form of a roll, wherein at least one of the first and second curved side walls is configured for reflecting light using a total internal reflection, and wherein at least one of the first and second curved side walls is configured for deflecting light using refraction. 2. The light redirecting window covering of claim 1 , wherein the flexible translucent sheet is configured to diffusely redirect incident light generally towards a direction that is not coincident with an incident propagation direction. 3. The light redirecting window covering of claim 1 , further comprising a roller, wherein an end of at least one of the flexible translucent sheet and flexible optically transmissive sheet is windingly received around the roller. 4. The light redirecting window covering of claim 1 , further comprising a roller, wherein an end of at least one of the flexible translucent sheet and flexible optically transmissive sheet is windingly received around the roller, and wherein at least one the truncated linear prismatic structures is parallel to a rotation axis of the roller. 5. The light redirecting window covering of claim 1 , wherein each of the truncated linear prismatic structures is configured to be operable in horizontal orientation. 6. The light redirecting window covering of claim 1 , wherein a portion of at least one of the first and second curved side walls is disposed in contact with an optically transmissive material. 7. The light redirecting window covering of claim 1 , wherein a portion of at least one of the first and second curved side walls is disposed in contact with an optically transmissive material having a different refractive index than the material of the truncated linear prismatic structures. 8. The light redirecting window covering of claim 1 , wherein the layered flexible film structure is configured to appreciably distort or blur images viewable through the layered flexible film structure. 9. The light redirecting window covering of claim 1 , wherein a root mean square surface profile roughness parameter of at least a portion of the first or second curved side walls is less than 60 nanometers at a sampling length of between 20 and 100 micrometers. 10. The light redirecting window covering of claim 1 , wherein the layered flexible film structure comprises an elastomeric material. 11. The light redirecting window covering of claim 1 , comprising an optically transmissive protective layer bonded to a surface of the layered flexible film structure. 12. The light redirecting window covering of claim 1 , wherein the truncated linear prismatic structures define a plurality of voids in the layered flexible film structure. 13. The light redirecting window covering of claim 1 , wherein a thickness of the layered flexible film structure is between 200 micrometers and 2 millimeters. 14. The light redirecting window covering of claim 1 , wherein the layered flexible film structure has two or more sections having different optical transparency. 15. The light redirecting window covering of claim 1 , wherein the layered flexible film structure has two or more sections having different light redirecting properties. 16. The light redirecting window covering of claim 1 , wherein a terminal end of at least one of the truncated linear prismatic structures has a triangular shape in a cross-section. 17. The light redirecting window covering of claim 1 , wherein the parallel array of truncated linear prismatic structures defines a plurality of voids filled with air. 18. The light redirecting window covering of claim 1 , comprising an optically transmissive protective layer bonded to a surface of the layered flexible film structure, wherein a thickness of the layered flexible film structure is between 200 micrometers and 2 millimeters, wherein a portion of at least one of the first and second curved side walls is disposed in contact with an optically transmissive material, wherein the parallel array of linear prismatic structures defines a plurality of voids filled with air, wherein each of the linear prismatic structures is configured to be operable in horizontal orientation, and wherein the flexible translucent sheet is configured to diffusely redirect incident light generally towards a direction that is not coincident with an incident propagation direction. 19. The light redirecting window covering of claim 1 , comprising an optically transmissive protective layer bonded to a surface of the layered flexible film structure, wherein a thickness of the layered flexible film structure is between 200 micrometers and 2 millimeters, wherein a portion of at least one of the first and second curved side walls is disposed in contact with an optically transmissive material, wherein the parallel array of linear prismatic structures defines a plurality of voids filled with air, wherein a terminal end of at least one of the truncated linear prismatic structures has a triangular shape in a cross-section, wherein each of the linear prismatic structures is configured to be operable in horizontal orientation, and wherein the flexible translucent sheet is configured to diffusely redirect incident light generally towards a direction that is not coincident with an incident propagation direction. 20. A light redirecting window covering, comprising: a flexible translucent sheet of a plastic material having a first broad-area surface and an opposing second broad-area surface extending parallel to the first broad-area surface; a plurality of random surface microstructures formed in the first broad-area surface and configured for randomizing light propagation directions; a parallel array of linear prismatic structures formed on the second broad-area surface and tapering away from the second broad-area surface in a perpendicular direction, wherein each of the linear prismatic structures has a first curved side wall forming a first non-zero angle with respect to a normal to the second broad-area surface, a second curved side wall forming a different non-zero angle with respect to the normal, and a terminal surface facing away from the flexible translucent sheet and connecting the first and second curved side walls; and a flexible optically transmissive sheet bonded to the terminal surfaces of the linear p