Abstract: An imaging device can stop displaying a reticle or other information when the imaging device determines that it is being used in a prohibited way. The imaging device can include an image capture device configured to view an image of a scene that includes an object viewed by the imaging device; a display to display an image of a reticle and the image of the scene; a hardware processor; and a memory storing computer-readable instructions, the instructions executable by the hardware processor to perform operations. The operations can include performing image recognition analysis on the image of the scene; determining that the object in the image is a prohibited object; and causing the display to cease displaying the image of the reticle.

Abstract: A securely mounting electronic device battery pack (B-PACK) for electronic devices includes an outer casing (102) and one or more power cells (202) disposed within the outer casing to provide power to an electronic device. A locking pin (104) is configured to traverse through a locking pin engagement opening (306) and locking spring (304) of a locking lever (114) of the electronic device when the locking lever is in an unlocked configuration. The locking lever is rotatable around a central axis between the unlocked and a locked configuration. A power interface port (106) engages a charging interface port (302) of the electronic device.

Abstract: An optical device includes a digital visual data system, a forward optical assembly, and an elevation manual adjustment and a windage manual adjustment. The elevation manual adjustment and the windage manual adjustment are configured to adjust a position of a movable optical assembly containing an optical merging assembly independently moveable in relation to the forward optical assembly. The optical merging assembly includes a first wedge-shaped component receiving optical data from the forward optical assembly and a second wedge-shaped component adjacent to the first wedge-shaped component that receives and transmits the optical data from the first wedge-shaped component through the second wedge-shaped component toward an eyepiece assembly and that reflects digital visual data from a micro-display toward the eyepiece assembly to present a merged data view when viewed through the eyepiece assembly.

Abstract: An optical device includes a digital visual data system, a forward optical assembly, and an elevation manual adjustment and a windage manual adjustment. The elevation manual adjustment and the windage manual adjustment are configured to adjust a position of a movable optical assembly containing an optical merging assembly independently moveable in relation to the forward optical assembly. The optical merging assembly includes a first wedge-shaped component receiving optical data from the forward optical assembly and a second wedge-shaped component adjacent to the first wedge-shaped component that receives and transmits the optical data from the first wedge-shaped component through the second wedge-shaped component toward an eyepiece assembly and that reflects digital visual data from a micro-display toward the eyepiece assembly to present a merged data view when viewed through the eyepiece assembly.

Abstract: In an implementation, a computer-implemented method includes receiving a digital signal from an image acquisition sensor, the digital signal encoded with an initial resolution. A video image is constructed from the digital signal to display on a micro display of an optical system, an initial linear dimension of the video image smaller than a linear dimension of an active area of the micro display. A display of the video image is initiated on the micro display using monochrome sub-pixels configured to act as independent pixels for display of the video image. A magnification request is received for the video image on the micro display, and the video image is adjusted on the micro display by increasing a linear dimension of the video image on the micro display by combining groups of monochrome sub-pixels to collectively represent a single pixel of the video image at the initial resolution.