Modular sighting assembly and method

What is claimed is: 1. An apparatus for assisting the aiming of a weapon, comprising: a laser sighting system for providing an aiming mark on a target of the weapon; an optical range finder system for determining a distance to the target of the weapon, the optical rangefinder in communication with the laser sighting system; the laser sighting system comprising: a fixed section having a housing and a first fastener for providing a rigid connection of the fixed section at a first location on the weapon; a laser assembly including one or more lasers, the laser assembly rotatably attached to the fixed section and rotatable about an axis which extends in a direction which is generally transverse to a longitudinal axis of a barrel of the weapon; a processor assembly including a processor and an associated computer readable memory encoded with executable instructions, the processor configured, upon execution of the executable instructions, to receive input from the optical rangefinder representative of a distance to a target and calculate a trajectory angle of the weapon based on the distance to the target whereby the weapon will launch a projectile a distance that corresponds to the distance to the target; a motor mount disposed within the fixed section and including a projecting portion which extends into a complimentary cavity in the laser assembly, wherein the laser assembly is rotatable with respect to the motor mount; a motor received within the motor mount and having a drive shaft coupled to the laser assembly, the motor configured to operate under the control of the processor assembly; and the processor configured, upon execution of the executable instructions, to operate the motor to rotate the laser assembly relative to the fixed section such that the barrel of the weapon will be aligned with the trajectory angle when an optical axis of the one or more lasers is aligned with the target; the optical rangefinder system comprising an optical emitter for sending an optical signal to the target, an optical detector for detecting the signal reflected from the target, and a second fastener for mounting the optical rangefinder system at a second location on the weapon. 2. The apparatus of claim 1 , wherein the laser sighting system further comprises: a sight attached to the laser assembly and optically aligned with the one or more lasers, the sight selected from the group consisting of a mechanical sight, a reflex sight, a telescopic sight, or any combination thereof. 3. The apparatus of claim 1 , wherein the laser sighting system further comprises a display configured to display the distance to the target in human viewable form. 4. The apparatus of claim 1 , wherein the optical rangefinder is operatively coupled to the laser sighting system via a cable connection. 5. The apparatus of claim 1 , wherein the processor is configured, upon execution of the executable instructions, to operate in a first mode wherein the input representative of a distance to a target is received from an associated range finder and a second mode wherein the input representative of a distance to a target is manually input by a user. 6. The apparatus of claim 5 , wherein the laser assembly is manually rotatable with respect to the fixed section and further wherein the processor is configured, upon execution of the executable instructions, to receive input representative of a distance to a target based on a degree of manual rotation of the laser assembly. 7. The apparatus of claim 1 , wherein the motor mount is movable within the housing. 8. The apparatus of claim 1 , further comprising a windage adjustment assembly, the windage adjustment assembly including: a windage adjustment rod having a first end rotatable by a user and a second end attached to the motor mount, wherein rotation of the windage adjustment rod in a first direction is configured to impart a side-to-side adjustment of an aiming direction of the laser assembly in a first side-to-side direction and rotation of the windage adjustment rod in a second direction is configured to impart a side-to-side adjustment of the aiming direction of the laser assembly in a second side-to-side direction. 9. The apparatus of claim 8 , wherein the windage adjustment assembly includes a threaded rod rotatably engaging a threaded opening in the motor mount. 10. The apparatus of claim 9 , further comprising a ball and socket joint joining the threaded rod and the windage adjustment rod. 11. The apparatus of claim 1 , further comprising an elevation adjustment assembly, the elevation adjustment assembly including: an elevation adjustment rod having a first end rotatable by a user and a second end coupled to the motor mount, wherein rotation of the elevation adjustment in a first direction is configured to impart an upward adjustment of an aiming direction of the laser assembly and rotation of the elevation adjustment in a second direction is configured to impart a downward adjustment of an aiming direction of the laser assembly. 12. The apparatus of claim 11 , wherein the elevation adjustment assembly includes an eccentric cam attached to the elevation adjustment rod and received within an opening in the motor mount, the eccentric cam configured to impart vertical movement of the motor mount responsive to rotation of the elevation adjustment rod. 13. The apparatus of claim 1 , further comprising a remote control unit operatively coupled to the processor assembly for controlling operation of the laser sighting system. 14. The apparatus of claim 1 , wherein laser assembly includes one or more pointing lasers. 15. The apparatus of claim 14 , wherein the laser assembly further includes at least one illumination laser. 16. The apparatus of claim 1 , wherein the laser assembly includes a first pointing laser which is operable to emit infrared radiation, a second pointing laser which is operable to emit visible radiation, and an illumination laser which is operable to emit infrared radiation, wherein the first pointing laser, the second pointing laser, and the illumination laser are optically aligned with each other to emit radiation in the same direction along parallel optical axes. 17. The apparatus of claim 1 , wherein the laser assembly includes a plurality of lasers and a plurality of adjustment set screws engaging each laser, each of the adjustment set screws rotatable to adjust an optical axis of such laser independently of the other lasers in said plurality of lasers. 18. The apparatus of claim 1 , wherein the weapon includes a grenade launcher attached to a rifle. 19. The laser sighting system of claim 1 , wherein each of the first fastener and second fastener is a weapon accessory rail clamp. 20. The laser sighting system of claim 19 , wherein the weapon accessory rail clamp is configured for removable attachment to a Picatinny accessory rail. 21. A method for aligning a barrel of a weapon with a trajectory angle in relation to a line of sight between the weapon and a target so that the weapon will launch a projectile a distance that corresponds to a distance to the target, said method comprising: providing a laser sighting system and a first fastener to attach the laser sighting system at a first location on the weapon, the laser sighting system for providing an aiming mark on a target of the weapon, the laser sighting system having: a fixed section having a housing, the fixed section being rigidly connected to the weapon; a laser assembly including one or more lasers, the