Infrared binocular system with dual diopter adjustment

The invention claimed is: 1. A binocular system, comprising: a housing; a left and a right input optics coupled to the housing; a left camera comprising a left sensor and a right camera comprising a right sensor that create left and right video signals from detected optical radiation received from the corresponding left and right input optics about a same field of view along respective left and right input optical axes that are parallel to and offset from each other, at least one of the cameras including a sensor that is sensitive to infrared radiation, wherein the left and right cameras are coupled to and within the housing, wherein the left and right sensors are configured to independently move to change a length of an optical path relative to the corresponding left and right input optics, and wherein the left and right input optics are configured to be stationary while the left and right sensors move; and a left display and a right display coupled to and within the housing and arranged to be viewed by a pair of eyes of a user and configured to present left and right video images formed with visible light based respectively on the left and right video signals, wherein each left and right display is operatively connected to a respective left and right eyepiece, wherein the left and right eyepiece are adjustable independently of each other by moving the left and/or right display and associated eyepiece in a direction orthogonal to respective left and right output optical axes; and wherein a focus of the left and right eyepiece is adjustable independently of each other by moving the corresponding display along respective left and right output optical axes while the left and right eyepiece remains stationary. 2. The binocular system of claim 1 , further comprising an eye cup connected to each eyepiece and configured to form a substantial seal generally around a user's eye to restrict leakage of light. 3. The binocular system of claim 1 , wherein each camera includes an objective lens that includes a diamond coating and/or a diamond-like carbon coating on an exterior surface region of the objective lens. 4. The binocular system of claim 1 , wherein the displays are capable of presenting alphanumeric characters and/or other symbols with a single display as both displays present video images, such that the other information is only seen with one eye when the video images are viewed by a pair of eyes. 5. The binocular system of claim 4 , wherein the alphanumeric characters are automatically flipped for presentation in a right-side up orientation to a user when the binocular system is turned upside down. 6. The binocular system of claim 1 , further comprising a controller programmed to process image data in the video signals and to control presentation of video images by the displays based on the processed image data, wherein the controller is programmed to process the image data to perform facial recognition, scintillation mitigation, nonuniform correction, intent determination, or any combination thereof. 7. The binocular system of claim 1 , further comprising a controller programmed to implement an electronic zoom of presented video images. 8. The binocular system of claim 7 , wherein the controller is programmed to implement a stepped zoom in response to user input. 9. The binocular system of claim 7 , wherein the controller is programmed to implement a smooth zoom in response to user input. 10. The binocular system of claim 1 , wherein a relative intensity of left video images compared to right video images is adjustable by a user. 11. The binocular system of claim 1 , further comprising a controller operatively connected to the displays and programmed to drive presentation of left video images and right video images formed using a different palette for each display. 12. The binocular system of claim 11 , wherein the controller is programmed to drive presentation of monochromatic video images by one or both of the displays and video images including one or more colors absent from the monochromatic video images by the other display. 13. The binocular system of claim 12 , wherein the video images including one or more colors are substantially monochromatic. 14. The binocular system of claim 11 , wherein the controller is programmed to color-code regions in video images presented by one of the displays while the other display presents video images that are not color-coded. 15. The binocular system of claim 11 , wherein the controller is programmed to drive presentation of monochromatic video images having inverse polarity relative to one another. 16. The binocular system of claim 1 , further comprising head-mounting structure configured to permit the binocular system to be mounted on a user's head. 17. The binocular system of claim 1 , further comprising a communication port configured to permit a dual-channel video signal representing the left and right video signals to be outputted by the binocular system. 18. The binocular system of claim 1 , further comprising a controller programmed (a) to determine a distance from the system to an object represented in the video images based on processing the left and right video signals, and (b) to drive presentation by at least one of the displays of an indication of the distance. 19. The binocular system of claim 1 , further comprising a controller programmed to drive presentation of alphanumeric characters and/or other symbols with a positional offset in left video images relative to right video images. 20. The binocular system of claim 1 , wherein the system is sealed to restrict water entry, to permit submersion in water without damaging the cameras or displays.