Apparatus, method, and system for independent aiming and cutoff steps in illuminating a target area

What is claimed is: 1 . A method of illuminating a target area according to a composite beam pattern comprising: a. identifying one or more factors related to the target area; b. developing a plurality of individual beam patterns which, when assembled, approximates the composite beam pattern; c. developing a lighting system comprising a plurality of lighting fixtures each of which produces an output which contributes to at least one individual beam pattern and comprises: i. one or more light sources pivotable about at least one axis; ii. one or more light directing means pivotable about at least one axis; iii. one or more light redirecting means pivotable about at least one axis and independently pivotable of said light directing means; and d. installing the lighting system at the target area so to produce the composite beam pattern. 2 . The method of claim 1 wherein the one or more factors related to the target area comprises one or more of: a. size of the target area; b. shape of the target area; c. number and layout of one or more elevating structures to which said one or more lighting fixtures are affixed; d. wind conditions; e. temperature conditions; f light level; g. lighting uniformity; and h. color of light. 3 . The method of claim 1 wherein said light directing means comprises one or more of: a. a lens; b. a structural component of the lighting system; and c. a filter. 4 . The method of claim 1 wherein said light redirecting means comprises one or more of: a. a reflective device; b. a diffuser; and c. a light absorbing device. 5 . The method of claim 1 wherein one or more of the at least one axis for the light sources, light directing means and light redirecting means is parallel to the target area. 6 . The method of claim 1 wherein two of the at least one axis for the light sources, light directing means and light redirecting means is the target area are offset from one another either in spacing or direction. 7 . The method of claim 1 wherein the light sources are solid state light sources. 8 . The method of claim 1 wherein the wide-area comprises a sports field. 9 . The method of claim 1 wherein the fixtures are elevated on elevating structures at pre-determined locations relative to the target. 10 . The method of claim 9 wherein a first portion of the fixtures are mounted lower on said elevating structures than a second portions of the fixtures, and wherein the output of the first portion of fixtures contributes to one or more different individual beam patterns than the second portion of fixtures when installed at the target area. 11 . A method of illuminating a target area according to a composite beam pattern generated from different locations relative the target area comprising: a. identifying one or more factors related to the target area, including the plurality of different locations; b. developing a plurality of individual beam patterns which, when generated from each of the different locations, approximate the composite beam pattern; c. each of the individual beam patterns generated by: i. one or more light sources; ii. one or more light directing components adjustable relative to at least some of the light sources; iii. one or more light redirecting components adjustable relative to at least some of the light sources independently of said one or more light directing components. 12 . The method of claim 11 wherein the one or more factors related to the target area comprises one or more of: a. size of the target area; b. shape of the target area; c. number and layout of one or more elevating structures for each of the locations; d. wind conditions; e. temperature conditions; f light level for the target area; g. lighting uniformity for the target area; and h. color of light. 13 . The method of claim 11 wherein said light directing components comprise one or more of: a. a lens; b. a structural component of the lighting system; and c. a filter. 14 . The method of claim 11 wherein said light redirecting components comprise one or more of: a. a reflective device; b. a diffuser; and c. a light absorbing device. 15 . A lighting fixture comprising: a. a housing having a first end, a second end, a length of body therebetween, an internal space in the body between the first and second ends, and an opening in the body into the internal space; b. a light transmissive device sealed against the opening in the body; c. one or more light sources mounted within the internal space of the body of the housing nearest the first end and at a predetermined angle relative the light transmissive device, each light source producing a light output; d. one or more reflective devices mounted within the internal space of the body of the housing at a predetermined angle relative the light transmissive device and adapted to redirect the light output of the light sources; e. one or more reflective devices mounted proximate the light transmissive device at the second end of the body outside the internal space and adapted to redirect the light output of the light sources; and f. a pivoting device adapted to pivot the one or more reflective devices mounted at the second end of the body about an axis extending transversely through the body of the fixture and nearer the second end of the fixture than the first end. 16 . The lighting fixture of claim 15 wherein the one or more reflective devices mounted within the internal space of the housing comprises one or more reflective strips between said one or more light sources. 17 . The lighting fixture of claim 15 further comprising a visor pivotably mounted at the second end of the body outside the internal space, and wherein the one or more reflective devices mounted outside the internal space of the housing comprises a reflective surface of said visor. 18 . The lighting fixture of claim 15 further comprising a heat management component associated with the housing. 19 . The lighting fixture of claim 18 wherein the heat management component comprising at least one of an active or passive heat removal system. 20 . The lighting fixture of claim 18 wherein the heat management component comprises a heat sink comprising a plurality of exposed fins extending outwardly from the housing and in direct thermal contact with the light sources.