Method and design for optimum camera and display alignment of center of the room video conferencing systems

What is claimed is: 1. A videoconferencing unit comprising: a base structure adaptable for placement on a planar surface; a camera device coupled to the base structure, the camera device having a first height along a first line orthogonal to the base structure; and a first display surface having a central region, the central region having a second height along a second line parallel to the first line, the second height shorter than the first height, wherein the camera device is configured to capture image data such that when eyes of a participant are at a point within a predetermined distance from the central region of the first display surface, and a third line orthogonal to the first display surface forms an acute angle with a fourth line from the camera device intersecting the point, the captured image data corresponding to the eyes is renderable to a second display surface so as to be perceivable as making eye contact with a viewer; and the angle so formed is between five and twenty degrees. 2. The videoconferencing unit of claim 1 , wherein the angle is greater than or equal to 15 degrees, and less than or equal to 16 degrees. 3. The videoconferencing unit of claim 1 , wherein the angle is ten degrees. 4. The videoconferencing unit of claim 1 , wherein the first display surface is rectangular and a diagonal distance from one corner to another is greater than or equal to 23 inches and less than or equal to 27 inches. 5. The videoconferencing unit of claim 1 , wherein the base structure is configured to be located on a floor, and the point corresponding to the eyes of a participant is a vertical distance from the floor attainable in a seated position. 6. The videoconferencing unit of claim 1 , wherein the height of the camera device is 1062 millimeters, and the display surface is a 655 millimeter by 435 millimeter rectangular surface. 7. The videoconferencing unit of claim 1 , wherein the distance from the central region of the display surface is 1800 millimeters along a line parallel to a bottom of the base structure. 8. The videoconferencing unit of claim 1 , further comprising: an electronics module coupled to the first display surface and the camera and adapted to connect to a far site videoconferencing unit, the electronics module capable of converting images from the camera into a videoconferencing format signal for transmission to the far site videoconferencing unit, and configured to convert a received videoconferencing format signal from the far site videoconferencing unit for display on the first display surface. 9. A videoconferencing unit comprising: a base structure adaptable for placement on a planar surface; a camera device coupled to the base structure, the camera device having a first height along a first line orthogonal to the base structure; a first display surface having a central area, the central area having a second height along a second line parallel to the first line, the second height shorter than the first height; a processor coupled to the camera device and the first display surface; and a memory storing instructions executable by the processor to: capture, using the camera device, image data corresponding to eyes of a participant from a point within a predetermined distance from the central area of the first display surface; and render, to a second display surface, the captured image data corresponding to the eyes so as to be perceivable as making eye contact with a viewer when a third line orthogonal to the first display surface forms an angle with a fourth line from the camera device intersecting the point, wherein the angle is between five and twenty degrees. 10. The videoconferencing unit of claim 9 , wherein the angle is greater than or equal to 15 degrees, and less than or equal to 16 degrees. 11. The videoconferencing unit of claim 9 , wherein the angle is ten degrees. 12. The videoconferencing unit of claim 9 , wherein the first display surface is rectangular and a diagonal distance from one corner to another is greater than or equal to 23 inches and less than or equal to 27 inches. 13. The videoconferencing unit of claim 9 , wherein the base structure is configured to be located on a floor, and the point corresponding to the eyes of the participant is a vertical distance from the floor attainable in a seated position. 14. The videoconferencing unit of claim 9 , wherein the height of the first camera device is 1062 millimeters, and the display surface is a 655 millimeter by 435 millimeter rectangular surface. 15. The videoconferencing unit of claim 9 , wherein the distance from the central area of the display surface is 1800 millimeters along a line parallel to a bottom of the base structure. 16. The videoconferencing unit of claim 9 , further comprising: an electronics module coupled to the first display surface and the camera and adapted to connect to a far site videoconferencing unit, the electronics module capable of converting images from the camera into a videoconferencing format signal for transmission to the far site videoconferencing unit, and configured to convert a received videoconferencing format signal from the far site videoconferencing unit for display on the first display surface. 17. A method of simulating eye contact within a teleconferencing system, the method comprising: providing a base structure adaptable for placement on a planar surface; providing a camera device coupled to the base structure, the camera device having a first height along a first line orthogonal to the base structure; providing a first display surface having a central portion, the central portion having a second height along a second line parallel to the first line, the second height shorter than the first height; capturing, using the camera device, image data corresponding to eyes of a participant from a point within a predetermined distance from the central portion of the first display surface; and rendering, to a second display surface, the captured image data corresponding to the eyes so as to be perceivable as making eye contact with a viewer when a third line orthogonal to the display surface forms an angle with a fourth line from the camera device intersecting the point, the angle being greater than or equal to 15 degrees, and less than or equal to 16 degrees.