3D image signal transmission method, 3D image display apparatus and signal processing method therein

The invention claimed is: 1. A method comprising: receiving, by a tuner, encoded video signals containing a plurality of video streams based on respectively different image viewpoints that support stereoscopic or 3D digital video images; decoding, by a video decoder, the received video signals and identifying a first parameter and a second parameter from the decoded video signals to be used in addressing potential stereoscopic window violations with respect to displaying of stereoscopic or 3D digital video images; and processing, by a controller, the decoded video signals using the identified first and second parameters to support the displaying of stereoscopic or 3D digital video images with minimal stereoscopic window violations, wherein the stereoscopic window violations are suppressed by using floating window information, which includes a size of the floating window, added into a header extension for a video elementary stream (ES) among the plurality of video streams, wherein the size of the floating window is determined based on a position difference between an object in a right image and a corresponding object included in a left image, and wherein the header extension includes at least one field indicating the number or coordinates of a first luminance sample and a last luminance sample to identify the size of the floating window. 2. The method of claim 1 , wherein the first parameter is a user data identifier and the second parameter is a user data type code. 3. The method of claim 2 , wherein the user data identifier has a value of 0x47413934 and the user data type code has a value of 0x09, whereby both values indicate the floating window information. 4. The method of claim 1 , wherein the floating window information relates to image processing of at least one of a left edge of a left image/view, a right edge of a left image/view, a left edge of a right image/view, and a right edge of a right image/view of the stereoscopic or 3D digital video images. 5. The method of claim 1 , wherein at least one of the steps of receiving, decoding and processing comply with at least one of ATSC technology, MPEG-2 technology, AVC technology, 3D television technology, multi-view 3D television technology, and 3D technologies using lenticular, integral imaging, or holography techniques. 6. A method comprising: encoding, by a video encoder, video signals containing a plurality of video streams based on respectively different image viewpoints that support stereoscopic or 3D digital video images, said encoded video signals comprising a first parameter and a second parameter to be used in addressing potential stereoscopic window violations with respect to displaying of stereoscopic or 3D digital video images; and transmitting, by a transmitter to a receiver, the encoded video signals to be decoded at the receiver using the first and second parameters identified from the decoded video signals to support the displaying of stereoscopic or 3D digital video images with minimal stereoscopic window violations, wherein the stereoscopic window violations are suppressed by using floating window information, which includes a size of the floating window, added into a header extension for a video elementary stream (ES) among the plurality of video streams, wherein the size of the floating window is determined based on a position difference between an object in a right image and a corresponding object included in a left image, and wherein the header extension includes at least one field indicating the number or coordinates of a first luminance sample and a last luminance sample to identify the size of the floating window. 7. The method of claim 6 , wherein the first parameter is a user data identifier and the second parameter is a user data type code, whereby the user data identifier has a value of 0x47413934 and the user data type code has a value of 0x09, whereby both values indicate the floating window information. 8. The method of claim 6 , wherein the floating window information relates to image processing of at least one of a left edge of a left image/view, a right edge of a left image/view, a left edge of a right image/view, and a right edge of a right image/view of the stereoscopic or 3D digital video images. 9. The method of claim 6 , wherein at least one of the steps of encoding and transmitting comply with at least one of ATSC technology, MPEG-2 technology, AVC technology, 3D television technology, multi-view 3D television technology, and 3D technologies using lenticular, integral imaging, or holography techniques. 10. An apparatus comprising: a tuner for receiving encoded video signals containing a plurality of video streams based on respectively different image viewpoints that support stereoscopic or 3D digital video broadcasting services; a video decoder for decoding the received video signals and identifying a first parameter and a second parameter from the decoded video signals to be used in addressing potential stereoscopic window violations with respect to displaying of stereoscopic or 3D digital video images; and a controller for processing the decoded video signals using the identified first and second parameters to support the displaying of stereoscopic or 3D digital video images with minimal stereoscopic window violations, wherein the stereoscopic window violations are suppressed by using floating window information, which includes a size of the floating window, added into a header extension for a video elementary stream (ES) among the plurality of video streams, wherein the size of the floating window is determined based on a position difference between an object in a right image and a corresponding object included in a left image, and wherein the header extension includes at least one field indicating the number or coordinates of a first luminance sample and a last luminance sample to identify the size of the floating window. 11. The apparatus of claim 10 , wherein the first parameter is a user data identifier and the second parameter is a user data type code, whereby the user data identifier has a value of 0x47413934 and the user data type code has a value of 0x09, whereby both values indicate the floating window information, wherein the floating window information relates to image processing of at least one of a left edge of a left image/view, a right edge of a left image/view, a left edge of a right image/view, and a right edge of a right image/view of the stereoscopic or 3D digital video images, and wherein at least one of the means adapted for receiving, the means adapted for decoding and the means adapted for processing comply with at least one of ATSC technology, MPEG-2 technology, AVC technology, 3D television technology, multi-view 3D television technology, and 3D technologies using lenticular, integral imaging, or holography techniques. 12. An apparatus comprising: a video encoder for encoding video signals containing a plurality of video streams based on respectively different image viewpoints that support stereoscopic or 3D digital video images, said encoded video signals comprising a first parameter and a second parameter to be used in addressing potential stereoscopic window violations with respect to displaying of stereoscopic or 3D digital video images; and a transmitter for transmitting, to a receiver, the encoded video signals to be decoded at the receiver using the first and second parameters identified from the decoded video signals to support the displaying of stereoscopic or 3D digital video images with minimal stereoscopic window violations, wherein the stereoscopic window violations are suppressed by using floating window information, which i