Dynamic mapping of broadcast resources

Multiplex communications – Communication techniques for information carried in plural... – Transmission bandwidth conservation

Reexamination Certificate

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Details

C370S350000, C370S386000, C348S086000

Reexamination Certificate

active

06278717

ABSTRACT:

CROSS REFERENCE TO RELATED APPLICATIONS
This application is related to U.S. patent application Ser. No. 08/708,524, now issued as U.S. Pat. No. 5,886,995, which application is hereby incorporated by reference herein.
BACKGROUND OF THE INVENTION
The present invention relates in general to the processing of high data rate information signals. In particular embodiments it relates to processing of video, audio and/or data information in a direct broadcast satellite (DBS) consumer entertainment system.
The information carrying capacity of any data network is limited by, among other things, its effective bandwidth. Limitations in available bandwidth, resulting from technical limitations of the processing and transmission elements (e.g. transmission line limitations), from government limitations (e.g. limited RF spectrum allocation), or otherwise, restrict the amount of information which can be carried by the related system. This may result in a limitation on the quantity or quality (or both) of the services which may be provided by the system, often requiring compromises or tradeoffs.
Transmission of television programming to home viewers has long been subject to the these limitations and tradeoffs. Terrestrial RF broadcasts are limited in a given locality to a few frequency bands (channels) allocated by government authority for television transmission, and selected to be non-interfering over the limited range of the transmission. The frequency band allocated to each channel was selected to accommodate the then-standard transmission scheme employed (e.g. NTSC in the United States), and to minimize or avoid out-of-band interference. Although additional frequencies (e.g. UHF in the United States) were later allocated, restrictions on available RF spectrum have long limited the number of programs which could be made available to the consumer.
Distribution of program material via cable networks provided additional bandwidth to broadcasters (i.e. cable operators), overcoming in part the restriction imposed by scarcity of available RF spectrum. However, cable systems are technically limited to the useable bandwidth of the network, including the transmission line and associated electronics.
Advances in signal processing technology have permitted more programming information, improved quality, and new services (e.g. data services) to be transmitted within a given available bandwidth. For example, digital processing of both video and audio signals, together with advances in encoding and compression techniques (e.g. MPEG and MPEG-2), have permitted a reduction in the bandwidth required for transmission of video and audio signals of acceptable quality, and/or transmission of higher quality video and audio signals. Together with advances in the associated transmission and reception equipment allowing greater utilization of available spectrum, a dramatic increase in the amount of user programming that can be transmitted over a given medium is possible. In addition, systems have been developed to utilize alternative delivery systems and other portions of the RF spectrum. For example, direct broadcast satellite (DBS) systems provide entertainment and information broadcasts directly to consumers, in some cases by means of high power satellite transponders and small (e.g. 18-inch) consumer receiving dishes. Although one such system is today capable of transmitting over 175 channels of video, audio and/or data programming at higher quality levels than previously known, there remains a desire to provide additional transmission capability and to fully utilize all available bandwidth for benefit of the consumer.
Distribution systems, whether broadcast (satellite or terrestrial), cable, optical, or otherwise, typically provide a plurality of accessible broadcast resources. In an early model, a terrestrial television broadcast system included a number of individual channels or frequency bands, selectable by the consumer. Taking the television system as a whole, each channel available in a given locality provided a broadcast resource accessible by the users in that region and capable of carrying a single video/audio program. Similar frequency division multiplexing on known analog cable systems provides a generally larger number of broadcast resources in the system, again each typically carrying a single program including both video and audio, selectable as a viewer channel. In a digital DBS system, frequency and phase division multiplexing (e.g. multiple transponders operating within assigned frequencies and with LHCP and RHCP polarization) and time division multiplexing (e.g. TDM within a given frequency) may be used. In this context, each individually addressable bitstream (i.e. each selectable time slot on each selectable frequency and phase) may be considered as a separate “broadcast resource.” Where different satellite locations or different delivery media are also employed in an extended system, selection of the desired satellite and transmission media, etc., is also part of identifying an individual broadcast resource.
A broadcast service will therefore have available to it a limited number of broadcast resources. If the quality of individual transmissions can be acceptably reduced, additional broadcast resources might be supported within a given RF spectrum allocation. However, the number of broadcast resources available for transmitting high quality video, audio and data programming remains limited.
A broadcaster or service provider desires to transmit to its customers (e.g. subscribers) the maximum number of programs possible utilizing the available transmission system, at the highest relative quality. As used herein, “programs” shall include video programming, audio programs, and/or data transmission of various types (e.g. software, control codes, multimedia content, digitized pictures, data, etc.). A program may include more than one form of data, such as video and one or more audio, and in some embodiments, associated data. Each of these data streams may, in preferred embodiments, be transmitted over separate broadcast resources.
A large number of content providers exist today and make available to broadcasters one or more content streams comprising programs and related content (e.g. program IDs, commercials, etc.). Many of these streams are continuous or substantially continuous, and are distributed by the content provider through various distribution media (e.g. satellite, cable, or prerecorded media) to, among other potential recipients, other broadcast services for retransmission to their viewers. For example, numerous regional sports networks exist which assemble program streams containing sporting events, often with sports-related “filler” in the times between individual sporting events.
Although content providers often generate original programs (e.g. by covering a live sporting event), it is common in the industry for one content provider to purchase programs or filler from another content provider. For example, a sports network might purchase retransmission rights to a sporting event being covered by another service provider. In these cases, the purchasing provider receives a program feed from the distribution medium (e.g. satellite) utilized by the originating provider, then retransmits this signal to its customers (e.g. cable system operators for further retransmission to consumers, or directly to consumers). The purchasing provider may insert its own commercials or identity, or may elect to use the purchased feed in its “raw” form. Often several service providers will purchase and carry the same programming originated by another provider.
A multi-channel broadcast system will typically purchase a number of input program streams from a number of content providers, for retransmission to viewers or subscribers of that system. In a digital transmission system, each individual program stream can be viewed as a continuous input data stream, where the data represents video, audio, or other (e.g. multimedia or data) information, and will be referred to herein as an “input data stream.” A

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