Head mounted digital viewing system

The invention claimed is: 1. A head mounted digital viewing system, comprising: a) a sensor system having night vision, said sensor system including a first sensor and a second sensor, each sensor being positionable substantially directly in front of a respective eye of the user, said sensor system providing sensor video data; b) an image processing system configured to receive the sensor video data, said image processing system for digitally combining and modifying said sensor video data, said image processing system providing display video data; and, c) a display system positionable substantially in front of the eyes of the user, said display system including a first display and a second display, each display being positionable substantially in front of a respective eye of the user said display system configured to receive the display video data and provide a display image to the eyes of the user, wherein each said display is positionable between each sensor and a respective eye of the user; wherein the line of sight of each sensor and display are configured to be substantially aligned with the line of sight of an eye of the user during night vision use, wherein said sensor system and said display system are mechanically separate from each other and are mechanically aligned with each other and, wherein only said sensor system is configured to be flipped up for daytime use. 2. The head mounted digital viewing system of claim 1 , wherein each sensor is positioned within a 2 inch diameter of an imaginary circle defined perpendicular to and parallel with the associated user's eye line of sight. 3. The head mounted digital viewing system of claim 1 , wherein each of the displays comprises a waveguide optic minimizing the size and optimizing the center of gravity of the head mounted digital viewing system, wherein the distance between the sensor system and the user's face and the display system and the user's face are reduced relative to conventional night vision goggles, thus reducing the torque on the neck relative to conventional night vision goggles, improving ejection and crash safety and comfort. 4. The head mounted digital viewing system of claim 3 , wherein each of the waveguide optics provides monochrome green; monochrome black and white; tri-color red, green and yellow; or full color red, green, blue (RGB) color display. 5. The head mounted digital viewing system of claim 1 , wherein each of the displays comprises a waveguide optic configured to provide sunlight eye protection and laser eye protection from high luminance threats. 6. The head mounted digital viewing system of claim 1 , wherein said image processing system comprises on helmet image processing thus providing a low power, low latency capability obviating a requirement for a separate aircraft installed electronics unit. 7. The head mounted digital viewing system of claim 1 , wherein said image processing system is configured to accept external data from the set of external data including video input source data, and/or symbology set data for display to the user. 8. The head mounted digital viewing system of claim 1 , wherein said image processing system comprises single image enhancement algorithms. 9. The head mounted digital viewing system of claim 1 , wherein said image processing system comprises multiple image enhancement algorithms. 10. The head mounted digital viewing system of claim 1 , wherein the sensor system is configured to be flipped up to the forehead area for daytime use. 11. The head mounted digital viewing system of claim 1 , wherein said sensor system, comprises multi-spectral capability in available sensor ranges. 12. The head mounted digital viewing system of claim 1 , further comprising a low light, low resolution color camera operatively connected to the imaging processing system, configured to provide true colorized night capability. 13. The head mounted digital viewing system of claim 1 , further comprising a thermal camera operatively connected to the image processing system, configured to provide electronically fused thermal image capability. 14. The head mounted digital viewing system of claim 1 , wherein the reduced weight and shortened distance relative to the user's anatomical tragion notch reduces the moment of inertia on the user's neck and improves comfort and safety. 15. The head mounted digital viewing system of claim 1 , wherein wireless connections are utilized to exchange video and control between the sensor system, the image processing system, and the display system. 16. The head mounted digital viewing system of claim 1 , further comprising an interface to a navigation system such as a global positioning satellite (GPS) system, inertial navigation system, inertial measurement unit (IMU); and/or a recording system and telemetry system. 17. A method for providing enhanced head mounted digital viewing, comprising the steps of: a) positioning a sensor system having night vision, said sensor system including a first sensor and a second sensor, each sensor being substantially directly in front of a respective eye of the user, said sensor system providing sensor video data; b) receiving the sensor video data utilizing an image processing system configured to digitally combine and modify said sensor video data, said image processing system providing display video data; and, c) positioning a display system substantially in front of the eyes of the user, said display system including a first display and a second display, each display being positionable substantially in front of a respective eye of the user said display system configured to receive the display video data and provide a display image to the eyes of the user, wherein each said display is positionable between each sensor and a respective eye of the user while during night vision use, and, wherein only said sensor system is configured to be flipped up for daytime use; wherein the line of sight of each sensor and display are substantially aligned with the line of sight of an eye of the user and wherein said sensor system and said display system are mechanically separate from each other and are mechanically aligned with each other.