Abstract: A safety critical, time sensitive data system for projecting safety/mission critical data onto a display pair of Commercial Off The Shelf (COTS) light weight projection glasses or monocular creating an immersive omnidirectional HUD (Heads Up Display) system with 6 degrees of freedom movement with user immersion and user inputs & outputs. The system includes the display, haptic glove, haptic suit, vestibular interface, temperature emulation, smell emulation, and omnidirectional sound, the workstation, the application software, and inputs containing the safety/mission critical information (Current User Position, Total Collision Avoidance System—TCAS, Global Positioning System—GPS, Magnetic Resonance Imaging—MRI Images, CAT scan images. Weather data. Military troop data, real-time space type markings etc.). The workstation software processes the incoming safety/mission critical data and converts it into a three dimensional space for the user to immerse into the environment.

Abstract: An anti-sniper targeting system where a spherical omni-directional depth stereoscopic multi-lens camera, a radar (e.g., LIDAR), and microphone identify, detect, and determine target positions and bearings, detect target weapon flash, detect glint, track bullet trajectory, coordinate, track, share, and assign targets. Target bearings and ranges are determined by sound and heat signature detection from an infrared camera, from glint, and radar to rapidly position a fire control arm with a camera onto assigned targets rapidly from calculations on target positions and optimal trajectory. It may account for firing corrections due to target range and wind effects using wind sensors, terrain data, pressure, temperature, and earth curvature accommodating for bullet trajectory over large ranges. It can be an offensive sniper system whereby a target is locked in spite of movements, such as from a vehicle using stabilizing gyros and accelerometers, image processing, or sensor data to adjust for movements.

Abstract: An anti-sniper targeting system where a spherical omni-directional depth stereoscopic multi-lens camera, a radar (e.g., LIDAR), and microphone identify, detect, and determine target positions and bearings, detect target weapon flash, detect glint, track bullet trajectory, coordinate, track, share, and assign targets. Target bearings and ranges are determined by sound and heat signature detection from an infrared camera, from glint, and radar to rapidly position a fire control arm with a camera onto assigned targets rapidly from calculations on target positions and optimal trajectory. It may account for firing corrections due to target range and wind effects using wind sensors, terrain data, pressure, temperature, and earth curvature accommodating for bullet trajectory over large ranges. It can be an offensive sniper system whereby a target is locked in spite of movements, such as from a vehicle using stabilizing gyros and accelerometers, image processing, or sensor data to adjust for movements.

Abstract: This application relates to a stereoscopic multi-angle camera system allowing a user to take pictures and/or video and record stereoscopic sound not only as a spherical view but also using stereoscopic imaging/recording by having two cameras, global positioning systems, magnetic sensors, environment sensors, and/or two microphones per solid angle of view such that omnidirectional visual and omnidirectional acoustic depth perception may be achieved.

Abstract: An occlusion or unknown space volume confidence determination and planning system using databases, position, and shared real-time data to determine unknown regions allowing planning and coordination of pathways through space to minimize risk is disclosed. Data from a plurality of cameras, or other sensor devices can be shared and routed between units of the system. Hidden surface determination, also known as hidden surface removal (HSR), occlusion culling (OC) or visible surface determination (VSD), can be achieved by identifying obstructions from multiple sensor measurements and incorporating relative position with depth between sensors to identify occlusion structures. Weapons ranges, and orientations are sensed, calculated, shared, and can be displayed in real-time. Data confidence levels can be highlighted from time, and frequency of data. The real-time data can be displayed stereographically for and highlighted on a display.

Abstract: A Heads-Up-Display (“HUD”) system for projecting safety/mission critical data onto a display pair of light weight projection glasses or monocular creating a virtual 360 degree is disclosed. The HUD system includes a see-through display surface, a workstation, application software, and inputs containing the safety/mission critical information (Current User Position, Total Collision Avoidance System—TCAS, Global Positioning System—GPS, Magnetic Resonance Imaging—MRI Images, CAT scan images, Weather data, Military troop data, real-time space type markings etc.). The workstation software processes the incoming safety/mission critical data and converts it into a three-dimensional stereographic space for the user to view. Selecting any of the images may display available information about the selected item or may enhance the image. Predicted position vectors may be displayed as well as three-dimensional terrain.

Abstract: A safety critical, time sensitive data system for projecting safety/mission critical data onto a display pair of Commercial Off The Shelf (COTS) light weight projection glasses or monocular creating an immersive omnidirectional HUD (Heads Up Display) system with 6 degrees of freedom movement with user immersion and user inputs & outputs. The system includes the display, haptic glove, haptic suit, vestibular interface, temperature emulation, smell emulation, and omnidirectional sound, the workstation, the application software, and inputs containing the safety/mission critical information (Current User Position, Total Collision Avoidance System—TCAS, Global Positioning System—GPS, Magnetic Resonance Imaging—MRI Images, CAT scan images. Weather data. Military troop data, real-time space type markings etc.). The workstation software processes the incoming safety/mission critical data and converts it into a three dimensional space for the user to immerse into the environment.

Abstract: A wireless onboard data bus system for aircraft, spacecraft, ships, or other vessel where data from the onboard bus or buses are transmitted to a mobile receiver for display and/or processing.