Apparatus, method, and system for precise led lighting

1 . A method of installing a precise LED lighting system with sharper cutoff and increased beam control as compared to general purpose lighting at a target area comprising: a. shipping to a site a plurality of lighting assemblies, each lighting assembly comprising: i. a support structure assembly; ii. a crossarm assembly adapted for mounting to the support structure assembly; iii. a plurality of knuckle assemblies adapted for mounting to the crossarm assembly; and iv. a plurality of LED lighting fixtures adapted for mounting to the crossarm assembly via the knuckle assemblies, each of the LED lighting fixtures comprising a plurality of LED light sources and at least one of: 1. local light directing means; 2. local visoring means; or 3. remote visoring means; b. assembling at or near a ground level of the site the plurality of lighting assemblies to create an initial version of the precise LED lighting system; c. lifting the initial version of the precise LED lighting system onto a base; d. orienting the initial version of the precise LED lighting system on the base towards the target area; e. securing the initial version of the precise LED lighting system to the base; and f. adjusting at least one of the local light directing means, local visoring means, or remote visoring means of the precise LED lighting system relative to the target area to create a final precise lighting system and provide precise lighting at the target area. 2 . The method of claim 1 wherein the local light directing means comprise any of: a. a knuckle of the knuckle assembly adjustable in at least one plane; b. one or more secondary lenses associated with the plurality of LED light sources; or c. a diffuser. 3 . The method of claim 2 further comprising a step of adjusting at least one of the local light directing means prior to lifting the initial version of the precise LED lighting system onto a base. 4 . The method of claim 1 wherein the step of adjusting at least one of the local light directing means, local visoring means, or remote visoring means of the precise LED lighting system relative to the target area comprises adjusting local visoring means or remote visoring means in one or more of a vertical plane and a horizontal plane. 5 . The method of claim 4 wherein the local visoring means comprises one or more reflective visors, and wherein the step of adjusting the local visoring means comprises adjusting one or more devices associated with the one or more reflective visors to produce a selective deflection of the one or more reflective visors to provide an adjustable sharper cutoff. 6 . The method of claim 4 wherein the local visoring means comprises one or more blackened or at least partially light absorbing visors, and wherein the step of adjusting the local visoring means comprises adjusting one or more devices associated with the one or more reflective visors to produce a selective deflection of the one or more reflective visors to provide an adjustable sharper cutoff. 7 . The method of claim 1 wherein the step of adjusting at least one of the local light directing means, local visoring means, or remote visoring means of the precise LED lighting system relative to the target area comprises adjusting local visoring means and remote visoring means in one or more of a vertical plane and a horizontal plane. 8 . The method of claim 7 wherein the local visoring means comprises an adjustable, blackened local visor at an emitting face of an LED lighting fixture and wherein the step of adjusting the local visoring means comprises adjusting the blackened local visor in a vertical plane to provide an adjustable sharper cutoff. 9 . The method of claim 1 wherein the remote visoring means comprise: a. an adjustable stabilizing assembly for mounting to the crossarm assembly having a proximate end at the support structure assembly and LED lighting fixtures and a distal end away from the support structure assembly and LED lighting fixtures; b. one or more remote visors at or near the distal end; and wherein the step of adjusting at least one of the local light directing means, local visoring means, or remote visoring means of the precise LED lighting system relative to the target area comprises adjusting the adjustable stabilizing assembly in one or more of a vertical plane and a horizontal plane to facilitate adjustment of the one or more remote visors into or out of the composite beam of the LED lighting fixtures to provide sharper cutoff or increased beam control. 10 . The method of claim 1 wherein the support structure assembly, the crossarm assembly, and the plurality of knuckle assemblies are at least partially hollow, and wherein the method of claim 1 further comprises routing wiring from the plurality of LED lighting fixtures through an internal space formed by the hollow in the support structure assembly, crossarm assembly, and plurality of knuckle assemblies to a power source and powering the plurality of LED lighting fixtures prior to creating the final precise lighting system. 11 . A precise LED lighting system with sharper cutoff and increased beam control as compared to general purpose lighting adapted to light a target area comprising: a. a support structure assembly; b. a crossarm assembly mountable to the support structure assembly; c. a plurality of knuckle assemblies mountable to the crossarm assembly; d. a plurality of LED lighting fixtures mountable to the crossarm assembly via the knuckle assemblies, each LED lighting fixture comprising: i. a heat sink; ii. a housing with an emitting face and an opening in the emitting face into an internal space of the LED lighting fixture; iii. a light transmissive glass sealed against the emitting face; iv. a plurality of LED light sources; v. a plurality of secondary lenses associated with the plurality of LED light sources; and vi. an optics holder to hold the LED light sources together with the secondary lenses in their correct operational orientation in the internal space of LED lighting fixture; and e. at least one of: i. a diffuser; ii. a local visor assembly; iii. a remote visoring assembly. 12 . The LED lighting system of claim 11 wherein each knuckle assembly is associated with one LED lighting fixture, and wherein each knuckle assembly is adapted to permit pivoting of its associated said LED lighting fixture in at least two planes. 13 . The LED lighting system of claim 11 wherein the diffuser is in the form of a sheet applied to the light transmissive glass. 14 . The LED lighting system of claim 11 wherein the local visor assembly comprises an adjustable light reflecting surface or an at least partially light absorbing surface at or near an associated said LED lighting fixture. 15 . The LED lighting system of claim 14 wherein the adjustable light reflective surface is adjustable via one or more devices which produce a selective deflection of the light reflecting surface. 16 . The LED lighting system of claim 11 wherein the local visor assembly comprises both a light reflecting surface and an at least partially light absorbing surface at or near an associated said LED lighting fixture. 17 . The LED lighting system of claim 15 wherein both the light reflecting surface and the at least partially light absorbing surface are adjustable. 18 . The LED lighting system of claim 11 wherein the remote visoring assembly is mountable to the crossarm assembly and adjustable in two planes via an adjustable support having a proximate end at the support stru