摘要:
The present disclosure is directed to a dynamic field of view (FOV) for a synthetic vision system (SVS) scene. The FOV within the SVS scene may switch between a FOV conformal to the real world outside of a vehicle and a wider FOV when beneficial. In an aircraft, for example, generating the SVS scene with the narrower FOV may be optimal during flight, while on the ground a wider FOV may improve situational awareness during taxiing. Determination of the airborne or grounded status of the aircraft may be based on speed, altitude, user input, or a received signal. Although the foregoing has been described within a particular context, the present disclosure is not limited to this scenario and may be applied to any vehicle in any situation where dynamically changing between a narrower FOV and a wider FOV is beneficial.
摘要:
Present novel and non-trivial system, device, and method for combining image data received from two or more vision systems are disclosed. A system may be comprised of a first vision source, a second vision source, and an image generator (“IG”). The first vision source may be could configured to generate a first image data set and a depth buffer data set, and the second vision data source could configured to generate a second image data set. The IG could be configured to receive both the first and second image data sets; the depth buffer data set; and generate a third image data set as a function of both image data sets, the depth buffer data set, and a pixel cutoff distance that may be fixed or variable. In addition, the pixel cutoff distance may be determined as a function of input variable data.
摘要:
A present novel and non-trivial system, apparatus, and method for enhancing an image presented to the pilot on an aircraft display unit. Locations of visible and invisible objects related to aviation such as airports, navigation aids and facilities, and airspace are enhanced by providing location highlighters of the objects. Data representative of the terrain and location of objects located in a scene outside the aircraft are retrieved from one or more data sources. An image generating processor generates an image data set representative of a three-dimensional perspective of a scene outside the aircraft, wherein the image data set is determined as a function of the terrain data and highlighter data associated with the location data. The image data set may be provided to a Head-Down Display unit, Head-Up Display unit, or both for display.
摘要:
A present novel and non-trivial system, apparatus, and method for presenting a monochrome, three-dimensional image of terrain on a Head-Up Display (“HUD”) unit is disclosed. Based upon aircraft navigation and terrain data, an image data set representative of a lighted solid image of terrain comprised of a plurality of intensities of one color may be generated. The image data set may be determined as a function of terrain data and color intensity data, where the color intensity data could be comprised of one or more shading effects, one or more texturing effects, or a combination of both. Based upon the image data set, a three-dimensional perspective of a terrain scene outside the aircraft may be presented to the pilot.