Methods and assembly for illuminating a surface of an aircraft passenger cabin

What is claimed is: 1. A method of making a light guide for an aircraft passenger cabin, said method comprising: determining, for each of a plurality of points on an interior surface of the cabin, a corresponding fixture angle of a ray drawn to the point from a light fixture receptacle, a distance of the point from the light fixture receptacle, and an angle of incidence of the ray at the point, wherein the light fixture receptacle extends in a longitudinal direction and the fixture angles are measured in a plane normal to the longitudinal direction; calculating a theoretical incident light intensity for each of the plurality of points based on the distance, the angle of incidence, and theoretical light of uniform intensity emitted from the light fixture receptacle at each fixture angle; calculating a relative ray strength from each fixture angle needed to produce a desired incident light intensity at each corresponding point, wherein the relative ray strength is the desired incident light intensity at the corresponding point divided by the theoretical incident light intensity at the corresponding point; spacing a plurality of light sources longitudinally along the light guide, the light guide configured to extend longitudinally in the light fixture receptacle and including a base surface and a curved outer surface, wherein each of the plurality of light sources includes a light emitting surface coupled directly to the base surface, wherein the light guide is configured to propagate light received from the light sources as internal flux within the light guide along the longitudinal direction; and disposing a plurality of light extraction features in a first pattern on the outer surface of a first unit length of the light guide, each of the light extraction features configured to emit the internal flux from the light guide substantially in a direction normal to the outer surface at the light extraction feature, the first pattern arranged in rows, each of the rows extends longitudinally along the outer surface, each of the rows is configured to emit light at a corresponding one of the fixture angles at a fixture angle intensity corresponding to the calculated relative ray strength for the respective fixture angle, such that light emitted from the outer surface over a range of the fixture angles in the plane normal to the longitudinal direction is substantially non-uniform, wherein a number of light extraction features in each of the rows is proportional to the relative ray strength calculated for the corresponding fixture angle. 2. The method in accordance with claim 1 , further comprising disposing a corresponding plurality of light extraction features in the first pattern on each of a plurality of unit lengths of the light guide. 3. The method in accordance with claim 1 , wherein spacing the plurality of light sources longitudinally along the light guide comprises coupling a plurality of LEDs to the light guide to form a light guide assembly, the plurality of LEDs configured to provide a total flux output necessary to achieve the desired incident light intensity at each of the plurality of points. 4. The method in accordance with claim 3 , further comprising disposing a second pattern of light extraction features on a second unit length of the light guide, the second pattern arranged in rows, each of the rows in the second pattern extends longitudinally along the outer surface, each of the rows of the second pattern is configured to emit light at a corresponding one of the fixture angles, wherein a number of light extraction features in each of the rows in the second pattern is adjusted from the number of light extraction features in the corresponding row in the first pattern in proportion to a distance along the longitudinal direction of the second unit length from one or more of the plurality of LEDs. 5. The method in accordance with claim 1 , wherein the desired incident light intensity at each point comprises a desired decorative design, wherein said disposing the plurality of light extraction features in the first pattern further comprises arranging the first pattern to generate a corresponding swath of the desired decorative design on the surface. 6. The method in accordance with claim 1 , wherein said calculating a relative ray strength from each fixture angle needed to produce a desired incident light intensity at each corresponding point comprises calculating a relative ray strength from each fixture angle needed to produce a uniform incident light intensity at each corresponding point. 7. A method of providing uniform illumination for a panel of an aircraft cabin, the panel comprising a plurality of points each associated with a corresponding fixture angle of a ray drawn to the point from a light fixture receptacle, wherein the light fixture receptacle extends in a longitudinal direction and the fixture angles are measured in a plane normal to the longitudinal direction, said method comprising: positioning a light guide assembly in the light fixture receptacle, the light guide assembly comprising a light guide and a plurality of light sources spaced longitudinally along the light guide, the light guide configured to extend longitudinally in the light fixture receptacle and including a base surface and a curved outer surface, wherein each of the plurality of light sources includes a light emitting surface coupled directly to the base surface, wherein the light guide is configured to propagate light received from the light sources as internal flux within the light guide along the longitudinal direction, and wherein a plurality of light extraction features is disposed in a first pattern on the outer surface of a first unit length of the light guide, each of the light extraction features configured to emit the internal flux from the light guide substantially in a direction normal to the outer surface at the light extraction feature, the first pattern arranged in rows, each of the rows extends longitudinally along the outer surface, each of the rows is configured to emit light at a corresponding one of the fixture angles at a fixture angle intensity corresponding to the calculated relative ray strength for the respective fixture angle, such that light emitted from the outer surface over a range of the fixture angles in the plane normal to the longitudinal direction is substantially non-uniform, wherein a number of light extraction features in each of the rows is inversely proportional to a theoretical incident light intensity given by I = P 4 ⁢ π ⁢ ⁢ r 2 ⁢ cos ⁡ ( θ ) where, for each fixture angle, r is a distance of the corresponding point from the light fixture receptacle, θ is an angle of incidence of the ray at the point, and P is an arbitrary constant value. 8. The method in accordance with claim 7 , wherein said positioning the light guide assembly further comprises positioning the light guide assembly that includes the light guide extending for a plurality of unit lengths, wherein a corresponding plurality of light extraction features in the first pat