Audio and video transmission and receiving system
First Claim
Patent Images
1. A method for providing audiovisual information to at least one remotely located user receiving system, the method comprising:
- providing access to a plurality of source materials, each source material containing at least one audiovisual item comprising audiovisual information, the audiovisual item having a format, the plurality of source materials including a first source material containing a first audiovisual item and a second source material containing a second audiovisual item;
assigning by an encoder at least a unique identification code and a unique address code to the first audiovisual item;
receiving the first audiovisual item by a converter and converting by the converter the format of the first audiovisual item into a predetermined format comprising a series of digital data bytes which represent frames of video data and samples of audio data;
receiving the series of digital data bytes which represent the frames of video data of the first audiovisual item by a time encoder, receiving by the time encoder the series of digital data bytes which represent the samples of audio data of the first audiovisual item, assigning by the time encoder a relative time marker to at least one frame of the video data, outputting by the time encoder time-encoded video data of the first audiovisual item, assigning by the time encoder a relative time marker to at least one of the samples of the audio data, and outputting by the time encoder time-encoded audio data of the first audiovisual item, the relative time markers of the time-encoded video data and the time-encoded audio data allowing for realignment thereof;
receiving the time-encoded video data of the first audiovisual item for processing thereof separate from the time-encoded audio data by a video data processor, and, if necessary, converting by the video data processor at least on of an aspect ratio of the frames of the time-encoded video data and a frame rate of the time-encoded video data;
receiving the time-encoded video data of the first audiovisual item from the video data processor by a video frame buffer and temporarily storing the time-encoded video data by the video frame buffer;
receiving the time-encoded audio data of the first audiovisual item for processing thereof separate from the time-encoded video data by an audio data processor, and transcoding by the audio data processor the time-encoded audio data and blocking the time-encoded audio data into frames;
receiving the time-encoded audio data of the first audiovisual item from the audio data processor by an audio frame buffer and temporarily storing the time-encoded audio data by the audio frame buffer;
receiving the time-encoded video data of the first audiovisual item from the video frame buffer by a video data compressor and data compressing by the video data compressor the time-encoded video data using discrete cosine transform and motion compensation, the time-encoded video data being compressed by the video data compressor separately from the time-encoded audio data;
receiving the time-encoded audio data of the first audiovisual item from the audio frame buffer by an audio data compressor and data compressing by the audio data compressor the time-encoded audio data, the time-encoded audio data being compressed by the audio data compressor separately from the time-encoded video data;
receiving the compressed, time-encoded video data and the compressed, time-encoded audio data of the first audiovisual item by a compressed data formatter, realigning the compressed, time-encoded video data and the compressed, time-encoded audio data by the compressed data formatter using the relative time markers of the time-encoded video data and the time-encoded audio data, and placing by the compressed data formatter the realigned compressed, time-encoded video and audio data of the first audiovisual item into a first file;
receiving and storing the first file by at least one storage device, the first file being addressable on the at least one storage device by the unique address code assigned to the first audiovisual item, and the relative time markers of the time-encoded video data and the time-encoded audio data making a subset of the first file retrievable;
receiving the first file from the at least one storage device by a format conversion CPU and converting by the format conversion CPU the contents of the first file into a format suitable for transmission; and
receiving the converted contents of the first file from the format conversion CPU by a transmitter, multiplexing first formatted digital data blocks corresponding to the video data of the first file and second formatted digital data blocks corresponding to the audio data of the first file, and transmitting by the transmitter the multiplexed data blocks corresponding to at least a portion of the first file to at least one remotely located user receiving system over a communication channel.
3 Assignments
0 Petitions
Accused Products
Abstract
A system of distributing video and/or audio information employs digital signal processing to achieve high rates of data compression. The compressed and encoded audio and/or video information is sent over standard telephone, cable or satellite broadcast channels to a receiver specified by a subscriber of the service, preferably in less than real time, for later playback and optional recording on standard audio and/or video tape.
437 Citations
68 Claims
-
1. A method for providing audiovisual information to at least one remotely located user receiving system, the method comprising:
-
providing access to a plurality of source materials, each source material containing at least one audiovisual item comprising audiovisual information, the audiovisual item having a format, the plurality of source materials including a first source material containing a first audiovisual item and a second source material containing a second audiovisual item; assigning by an encoder at least a unique identification code and a unique address code to the first audiovisual item; receiving the first audiovisual item by a converter and converting by the converter the format of the first audiovisual item into a predetermined format comprising a series of digital data bytes which represent frames of video data and samples of audio data; receiving the series of digital data bytes which represent the frames of video data of the first audiovisual item by a time encoder, receiving by the time encoder the series of digital data bytes which represent the samples of audio data of the first audiovisual item, assigning by the time encoder a relative time marker to at least one frame of the video data, outputting by the time encoder time-encoded video data of the first audiovisual item, assigning by the time encoder a relative time marker to at least one of the samples of the audio data, and outputting by the time encoder time-encoded audio data of the first audiovisual item, the relative time markers of the time-encoded video data and the time-encoded audio data allowing for realignment thereof; receiving the time-encoded video data of the first audiovisual item for processing thereof separate from the time-encoded audio data by a video data processor, and, if necessary, converting by the video data processor at least on of an aspect ratio of the frames of the time-encoded video data and a frame rate of the time-encoded video data; receiving the time-encoded video data of the first audiovisual item from the video data processor by a video frame buffer and temporarily storing the time-encoded video data by the video frame buffer; receiving the time-encoded audio data of the first audiovisual item for processing thereof separate from the time-encoded video data by an audio data processor, and transcoding by the audio data processor the time-encoded audio data and blocking the time-encoded audio data into frames; receiving the time-encoded audio data of the first audiovisual item from the audio data processor by an audio frame buffer and temporarily storing the time-encoded audio data by the audio frame buffer; receiving the time-encoded video data of the first audiovisual item from the video frame buffer by a video data compressor and data compressing by the video data compressor the time-encoded video data using discrete cosine transform and motion compensation, the time-encoded video data being compressed by the video data compressor separately from the time-encoded audio data; receiving the time-encoded audio data of the first audiovisual item from the audio frame buffer by an audio data compressor and data compressing by the audio data compressor the time-encoded audio data, the time-encoded audio data being compressed by the audio data compressor separately from the time-encoded video data; receiving the compressed, time-encoded video data and the compressed, time-encoded audio data of the first audiovisual item by a compressed data formatter, realigning the compressed, time-encoded video data and the compressed, time-encoded audio data by the compressed data formatter using the relative time markers of the time-encoded video data and the time-encoded audio data, and placing by the compressed data formatter the realigned compressed, time-encoded video and audio data of the first audiovisual item into a first file; receiving and storing the first file by at least one storage device, the first file being addressable on the at least one storage device by the unique address code assigned to the first audiovisual item, and the relative time markers of the time-encoded video data and the time-encoded audio data making a subset of the first file retrievable; receiving the first file from the at least one storage device by a format conversion CPU and converting by the format conversion CPU the contents of the first file into a format suitable for transmission; and receiving the converted contents of the first file from the format conversion CPU by a transmitter, multiplexing first formatted digital data blocks corresponding to the video data of the first file and second formatted digital data blocks corresponding to the audio data of the first file, and transmitting by the transmitter the multiplexed data blocks corresponding to at least a portion of the first file to at least one remotely located user receiving system over a communication channel. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
-
-
17. A method for providing audiovisual information to a remotely located user receiving system, the method comprising:
-
providing access to a plurality of source materials, each source material containing at least one audiovisual item comprising audiovisual information, the audiovisual item having a format, the plurality of source materials including a first source material containing a first audiovisual item and a second source material containing a second audiovisual item; assigning by an encoder at least a unique identification code and a unique address code to the first audiovisual item; receiving the first audiovisual item by a converter and converting by the converter the format of the first audiovisual item into a predetermined format comprising a series of digital data bytes which represent frames of video data and samples of audio data; receiving the series of digital data bytes which represent the frames of video data of the first audiovisual item by a time encoder, receiving by the time encoder the series of digital data bytes which represent the samples of audio data of the first audiovisual item, assigning by the time encoder a relative time marker to at least one frame of the video data, outputting by the time encoder time-encoded video data of the first audiovisual item, assigning by the time encoder a relative time marker to at least one of the samples of the audio data, and outputting by the time encoder time-encoded audio data of the first audiovisual item, the relative time markers of the time-encoded video data and the time-encoded audio data allowing for realignment thereof; receiving the time-encoded video data of the first audiovisual item for processing thereof separate from the time-encoded audio data by a video data processor, and, if necessary, converting by the video data processor at least one of an aspect ratio of the frames of the time-encoded video data and a frame rate of the time-encoded video data; receiving the time-encoded video data of the first audiovisual item from the video data processor by a video frame buffer and temporarily storing the time-encoded video data by the video frame buffer; receiving the time-encoded audio data of the first audiovisual item for processing thereof separate from the time-encoded video data by an audio data processor, and transcoding by the audio data processor the time-encoded audio data, and blocking the time-encoded audio data into frames; receiving the time-encoded audio data of the first audiovisual item from the audio data processor by an audio frame buffer and temporarily storing the time-encoded audio data by the audio frame buffer; receiving the time-encoded video data of the first audiovisual item from the video frame buffer by a video data compressor and data compressing by the video data compressor the time-encoded video data using discrete cosine transform and motion compensation, the time-encoded video data being compressed by the video data compressor separately from the time-encoded audio data; receiving the time-encoded audio data of the first audiovisual item from the audio frame buffer by an audio data compressor and data compressing by the audio data compressor the time-encoded audio data, the time-encoded audio data being compressed by the audio data compressor separately from the time-encoded video data; receiving the compressed, time-encoded video data and the compressed, time-encoded audio data of the first audiovisual item by a compressed data formatter, realigning the compressed, time-encoded video data and the compressed, time-encoded audio data by the compressed data formatter using the relative time markers of the time-encoded video data and the time-encoded audio data, and placing by the compressed data formatter the realigned compressed, time-encoded video and audio data of the first audiovisual item into a first file, the time markers of the time-encoded video data and the time-encoded audio data making a subset of the first file retrievable; receiving and storing the first file by at least one storage device, the first file being addressable on the at least one storage device by the unique address code assigned to the first audiovisual item; receiving by an access interface a user transmission request for at least a portion of the first file; receiving the first file from the at least one storage device by a format conversion CPU and converting by the format conversion CPU the contents of the first file into a format suitable for transmission; providing a control computer in data communication with the access interface, and the at least one storage device; and receiving the converted contents of the first file from the format conversion CPU by a transmitter, multiplexing first formatted digital data blocks corresponding to the video data of the first file and second formatted digital data blocks corresponding to the audio data of the first file, and transmitting by the transmitter, in response to a user transmission request received via the access interface, the multiplexed data blocks corresponding to the at least a portion of the first file to at least one remotely located user receiving system over a communication channel. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
-
-
33. A system for providing audiovisual information to at least one remotely located user receiving system, the system comprising:
-
a plurality of source materials, each source material containing at least one audiovisual item comprising audiovisual information, the audiovisual item having a format, the plurality of source materials including a first source material containing a first audiovisual item and a second source material containing a second audiovisual item; an encoder for assigning at least a unique identification code and a unique address code to the first audiovisual item; a converter for receiving the first audiovisual item and for converting the format of the first audiovisual item into a predetermined format comprising a series of digital data bytes which represent frames of video data and samples of audio data; a time encoder for receiving the series of digital data bytes which represent the frames of video data of the first audiovisual item, for receiving the series of digital data bytes which represent the samples of audio data of the first audiovisual item, for assigning a relative time marker to at least one frame of the video data, for outputting time-encoded video data of the first audiovisual item, for assigning a relative time marker to at least one of the samples of the audio data, and for outputting time-encoded audio data of the first audiovisual item, the relative time markers of the time-encoded video data and the time-encoded audio data allowing for realignment thereof; a video data processor for receiving the time-encoded video data of the first audiovisual item for processing thereof separate from the time-encoded audio data, the video data processor for converting, if necessary, at least one of an aspect ratio of the frames of the time-encoded video data and a frame rate of the time-encoded video data; a video frame buffer for receiving the time-encoded video data of the first audiovisual item from the video data processor and for temporarily storing the time-encoded video data; an audio data processor for receiving the time-encoded audio data of the first audiovisual item for processing thereof separate from the time-encoded video data, and the audio data processor for transcoding the time-encoded audio data and to block the time-encoded audio data into frames; an audio frame buffer for receiving the time-encoded audio data of the first audiovisual item from the audio data processor and for temporarily storing the time-encoded audio data; a video data compressor for receiving the time-encoded video data of the first audiovisual item from the video frame buffer and for data compressing the time-encoded video data using discrete cosine transform and motion compensation, the time-encoded video data being compressed by the video data compressor separately from the time-encoded audio data; an audio data compressor for receiving the time-encoded audio data of the first audiovisual item from the audio frame buffer and for data compressing the time-encoded audio data, the time-encoded audio data being compressed by the audio data compressor separately from the time-encoded video data; a compressed data formatter for receiving the compressed, time-encoded video data and the compressed, time-encoded audio data of the first audiovisual item, for realigning the compressed, time-encoded video data and the compressed, time-encoded audio data using the relative time markers of the time-encoded video data and the time-encoded audio data, and for placing the compressed, time-encoded video data and the compressed, time-encoded audio data of the first audiovisual item into a first file; at least one storage device for receiving and storing the first file, the first file being addressable on the at least one storage device by the unique address code assigned to the first audiovisual item, and the relative time markers of the time-encoded video data and the time-encoded audio data making a subset of the first file retrievable; a format conversion CPU for receiving the first file from the at least one storage device and for converting the contents of the first file into a format suitable for transmission; and a transmitter for receiving the converted contents of the first file from the format conversion CPU, for multiplexing first formatted digital data blocks corresponding to the video data of the first file and second formatted digital data blocks corresponding to the audio data of the first file, and for transmitting the multiplexed data blocks corresponding to at least a portion of the first file to at least one remotely located user receiving system over a communication channel. - View Dependent Claims (34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50)
-
-
51. A system for providing audiovisual information to a remotely located user receiving system, the system comprising:
-
a plurality of source materials, each source material containing at least one audiovisual item comprising audiovisual information, the audiovisual item having a format, the plurality of source materials including a first source material containing a first audiovisual item and a second source material containing a second audiovisual item; an encoder for assigning at least a unique identification code and a unique address code to the first audiovisual item; a converter for receiving the first audiovisual item and for converting the format of the first audiovisual item into a predetermined format comprising a series of digital data bytes which represent frames of video data and samples of audio data; a time encoder for receiving the series of digital data bytes which represent the frames of video data of the first audiovisual item, for receiving the series of digital data bytes which represent the samples of audio data of the first audiovisual item, for assigning a relative time marker to at least one frame of the video data, for outputting time-encoded video data of the first audiovisual item, for assigning a relative time marker to at least one of the samples of the audio data, and for outputting time-encoded audio data of the first audiovisual item, the relative time markers of the time-encoded video data and the time-encoded audio data allowing for realignment thereof; a video data processor for receiving the time-encoded video data of the first audiovisual item for processing thereof separate from the time-encoded audio data, and the video data processor for converting, if necessary, at least one of an aspect ratio of the frames of the time-encoded video data and a frame rate of the time-encoded video data; a video frame buffer for receiving the time-encoded video data of the first audiovisual item from the video data processor and for temporarily storing the time-encoded video data; an audio data processor for receiving the time-encoded audio data of the first audiovisual item for processing thereof separate from the time-encoded video data, and the audio data processor for transcoding the time-encoded audio data, and to block the time-encoded audio data into frames; an audio frame buffer for receiving the time-encoded audio data of the first audiovisual item from the audio data processor and for temporarily storing the time-encoded audio data; a video data compressor for receiving the time-encoded video data of the first audiovisual item from the video frame buffer and for data compressing the time-encoded video data using discrete cosine transform and motion compensation, the time-encoded video data being compressed by the video data compressor separately from the time-encoded audio data; an audio data compressor for receiving the time-encoded audio data of the first audiovisual item from the audio frame buffer and for data compressing the time-encoded audio data, the time-encoded audio data being compressed by the audio data compressor separately from the time-encoded video data; a compressed data formatter for receiving the compressed, time-encoded video data and the compressed, time-encoded audio data of the first audiovisual item, for realigning the compressed, time-encoded video data and the compressed, time-encoded audio data using the relative time markers of the time-encoded video data and the time-encoded audio data, and for placing the compressed, time-encoded video data and the compressed, time-encoded audio data of the first audiovisual item into a first file, the time markers of the time-encoded video data and the time-encoded audio data making a subset of the first file retrievable; at least one storage device for receiving and storing the first file, the first file being addressable on the at least one storage device by the unique address code assigned to the first audiovisual item; an access interface for receiving a user transmission request for at least a portion of the first file; a format conversion CPU for receiving the first file from the at least one storage device and for converting the contents of the first file into a format suitable for transmission; a control computer in data communication with the access interface, and the at least one storage device; and a transmitter for receiving the converted contents of the first file from the format conversion CPU, for multiplexing first formatted digital data blocks corresponding to the video data of the first file and second formatted digital data blocks corresponding to the audio data of the first file, and for transmitting, in response to a user transmission request received via the access interface, the multiplexed data blocks corresponding to the at least a portion of the first file to at least one remotely located user receiving system over a communication channel. - View Dependent Claims (52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68)
-
Specification