Abstract: Augmented reality display systems, apparatuses, and methods are disclosed for enabling a wearer of an augmented reality optical display to continue wearing the same optical display while moving between different platforms or vehicles. Example embodiments include optical displays that use a wired connection to connect with each platform to minimize the electromagnetic signature of the system. Embodiments include changing the information displayed to the user depending on the type of vehicle to which the optical display is connected. Additional embodiment display information about weapon systems associated with the platform to which the optical display is connected.
Abstract: A head-up display (HUD) system is provided. The HUD system comprises a microdisplay-based projection system, a diffuser, a relay optical system, and a combiner. The microdisplay-based HUD system includes aberration correction capabilities and may easily and effectively replace a CRT-based HUD system in aircrafts while providing light-weight, multi-color, superior imaging capabilities with a large field-of-view.
Abstract: Augmented reality display systems, apparatuses, and methods are disclosed for enabling a wearer of an augmented reality optical display to continue wearing the same optical display while moving between different platforms or vehicles. Example embodiments include optical displays that use a wired connection to connect with each platform to minimize the electromagnetic signature of the system. Embodiments include changing the information displayed to the user depending on the type of vehicle to which the optical display is connected. Additional embodiment display information about weapon systems associated with the platform to which the optical display is connected.
Abstract: This invention concerns an optical system for a projection display device that includes: a first lens which may emit light entering from a light source with a same angle to a single point; a second lens which is positioned in a way that the light collected from the first lens may be transmitted to a digital micromirror device (DMD) with a predetermined angle; a DMD which may reflect the light entering from the second lens; a prism positioned between the second lens and the DMD that transmits and transfers the light emitted from the second lens to the DMD, and transfers the light reflected from the DMD to a projection lens by totally reflecting the light; and a projection lens that is positioned in the optical path of the light totally reflected from the prism, to project the light onto a screen.