Abstract: Methods and systems are disclosed for a modular weapon sight assembly. A weapon sight may include a base, an optical bench, an adjuster assembly, and/or a housing. The base may be configured to be releasably secured to a weapon. The optical bench may include a plurality of optical elements attached to a unitary component carrier. A relative position of the plurality of optical elements may define an optical path of the weapon sight. The base, the optical bench, the adjuster assembly, and the housing may be configured as separate modules. For example, the optical path of the optical bench may remain constant during adjustment and/or replacement of the base, the adjuster assembly, and/or the housing. A change in position of the base, the adjuster assembly, and/or the housing may not alter the relative position of the plurality of optical elements with respect to one another.

Abstract: An enhanced vision system includes a first optic subsystem and a transparent photodetector subsystem disposed within a common housing. The first optic subsystem may include passive devices such as simple or compound lenses, active devices such as low-light enhancing image intensifiers, or a combination of passive and active devices. The transparent photodetector subsystem receives the visible image exiting the first optic subsystem and converts a portion of the electromagnetic energy in the visible image to a signal communicated to image analysis circuitry. On a real-time or near real-time basis, the image analysis circuitry detects and identifies structures, objects, and/or individuals in the visible image. The image analysis circuitry provides an output that includes information regarding the structure, objects, and individuals to the system user contemporaneous with the system user viewing the visible image.