Systems for facilitating virtual presence

What is claimed is: 1. A virtual presence system, comprising: a display having a structural matrix configured to arrange a plurality of spaced pixel elements, the plurality of spaced pixel elements collectively forming an active visual area wherein an image is displayable; said active visual area capable of being continuously active for continuously displaying a display; at least one image capture device disposed within the active visual area; said image capture device disposed amongst said spaced pixel elements; said image capture device capable of being continuously active for continuously capturing an image; and said spaced pixel elements and said image capture device capable of being simultaneously operative for simultaneously displaying an image and simultaneously capturing an image for processing. 2. The virtual presence system of claim 1 , further comprising: at least one signal processor in communication with the at least one imaging capture device. 3. The virtual presence system of claim 2 including a plurality of image capture devices disposed within the active visual area at varying vertical and horizontal locations and being disposed within the active visual area among or between two or more respective spaced pixel elements. 4. The virtual presence system of claim 3 wherein the plurality of image capture devices capture a respective sub-image, and wherein the plurality of sub-images are combined by the at least one signal processor to form a larger image, and wherein the larger image is displayed (i) on the active visual area creating a mirror effect and/or (ii) at a remote location creating a window effect. 5. The virtual presence system of claim 1 , wherein the at least one image capture device captures an image, and wherein the image is displayed (i) on the active visual area creating a mirror effect and/or (ii) at a remote location creating a window effect. 6. The virtual presence system of claim 1 , further comprising a signal carrier device including at least one of a fiber optic cable, a waveguide, or a conduit carrying a transmission signal to and from the at least one image capture. 7. A virtual presence system, comprising: a display having a structural matrix configured to arrange a plurality of spaced pixel elements, the plurality of spaced pixel elements collectively forming an active visual area for displaying an image; said active visual area capable of being continuously active for continuously displaying a display; at least one acoustic and/or infrared transmitter and/or receiver device disposed within the active visual area about or between two or more respective spaced pixel elements for sensing an attribute of an individual located within the active visual area for modifying the image based upon a sensed attribute of the individual; said transmitter and/or receiver capable of being continuously active for continuously capturing an image; and said spaced pixel elements and said transmitter and/or receiver capable of being simultaneously operative for simultaneously displaying an image and simultaneously capturing an image for processing. 8. The virtual presence system of claim 7 , further comprising: at least one signal processor in communication with the at least one audio and/or infrared transmitter and/or receiver device. 9. The virtual presence system of claim 7 , wherein the at least one acoustic and/or infrared transmitter and/or receiver device transmits and/or receives acoustic and/or infrared waves, and wherein the acoustic and/or infrared waves are projected (i) on the active visual area creating a mirror effect and/or (ii) at a remote location creating a window effect. 10. A virtual presence system, comprising: a display having a structural matrix configured to arrange a plurality of spaced pixel elements, the plurality of spaced pixel elements collectively forming an active visual area wherein an image is displayable; said pixel elements include LED devices carried by a substrate, said LED devices having a predetermined spacing defining a pixel gap between adjacent pixels on a respective substrate, and wherein adjacent substrates having adjacent pixels have a similar sized pixel gap corresponding to the pixel gap within a particular substrate; said LED devices of said active visual area capable of being continuously active for continuously displaying a display; at least one image capture device disposed within said pixel gap of said active visual area; said image capture device disposed amongst said spaced pixel elements; said image capture device capable of being continuously active for continuously capturing an image; and said spaced pixel elements and said image capture device capable of being simultaneously operative for simultaneously displaying an image and simultaneously capturing an image for processing.