The present invention relates to architectures and systems for and methods of distributing content to user locations. More specifically, this invention related distributing program transmissions to user locations from a program schedule account.
There are numerous media services which provide scheduled programs on a viewing device, such as a television set. There are standard broadcast services which provide channels that can be received by virtually any television tuner through an antenna connector. There are cable services which typically offer packages of preselected channels to the consumers and that required a decoder at the television tuner or on the cable line at an external location. Cable services continuously broadcast scheduled programming through a preselected set of channels which are received through a cable connector on a television set. There are also a number of pay-per-view services which allow consumers to receive non-scheduled one time program transmissions through the cable network. Other available services include satellite programming which allow consumers to select on demand pay-per view-programs from a set of available programs.
Each of these programming services require that consumers monitor program availabilities to determine if a desired program is offered. None of the current program services provide for programming that is tailored to individual consumers needs. Further, none of the current services provide the flexibility for consumers to quickly change the scope services and/or program availabilities.
The current invention provides for the distribution of content data. The current invention preferably allows consumers to readily change the scope of services provided and monitor programs which may be of interest based on individual consumer needs.
Accordingly, the invention is directed to an architecture and system for and a method of distributing content data to user locations. Preferably, the content data comprises program data from one or more content providers. The programs can be scheduled programs and/or stored video programs. The content data is preferably distributed to user locations as data transmissions which can be played or viewed at user locations. The program transmissions are preferably transmitted to the user locations by a system network or, alternately, can be selectively broadcast by wireless means to user locations.
The data transmissions preferably comprise digital video data, wherein programs are transmitted to the user locations through a high speed network and played on receiving/display devices with sound and display capabilities. Preferably, a receiving/display device is a digital device configured for receiving digital video data and for viewing a video program downloaded from the network to a memory device. The digital device can be any such conventional device and can include, but is not limited to, a personal computer, PDA, a web enabled television set or a web appliance. In a preferred embodiment of the instant invention, the receiving device comprises a personal computer and a television set. A personal computer preferably has a video card which provides a logical interface between the television set and digital video data transmitted distributed as video programs over the system network.
The preferred system of the instant invention comprises a network for customized cataloging of content data availabilities into program schedules. A system network comprises the internet, a private pay-to-use network, a local network, a cable network, a commercial broadcast network or any combination thereof. A system server is coupled to the system network and stores a program schedule and user codes for each user account on the system server. The system server preferably catalogs content data availabilities into program schedules based on the user codes. Preferably, the user codes comprise a set or list of user preferences for each account, wherein user preferences can be submitted to the system server when an account is established on the system server.
A set of user preferences preferably can be modified by an authorized user. User preferences can include, but are not limited to, identified content providers, user likes and dislikes, and preferred times to receive program transmissions. In further embodiments of the instant invention, user preferences are automatically updated based on program transmissions selected through a corresponding account.
Program transmissions are initiated automatically to the user locations according to corresponding program schedules in an account or, alternatively, a user can select a program transmission from an account program schedule.
The system server is preferably in communication with content providers over the system network. The system server surveys content data availabilities and catalogues the content data availabilities into program schedules in accordance with user codes. According to an embodiment of the instant invention, the content data providers automatically send updated program availabilities data to the system server. Alternatively, the system server accesses various content data providers over the system network and extracts data regarding program availabilities.
According to a preferred embodiment of the instant invention, an authorized user may access their account on the system server by a log-in process, whereby the user provides a unique user identification to identify themselves as an authorized the user to the system. Once into the account, the user can preferably modify user preferences and preferably view other account information.
Preferably, the server supports a graphical user interface which allows users to point-and-click on program selections from a program schedule within their account. The selection of a program from the schedule then initiates an on-demand program transmission. According to further embodiments, users may identify a location or locations where program transmissions are to be received. This feature would, for example, allow a user to select a program form work for deliver later at home. A location can be identified by providing a logical address corresponding to a network port or a receiving device.
In the event that the user is not interested in program selections available from their personal program schedule, the system preferably allows the user to browse and select other available programs over the network. Alternatively, or in addition to the above, the user can change their user preferences within the account and search the server data base for other available programs based on these new or modified user preferences.
Program transmissions can be distributed through the system server or distributed from the content provider. The program transmissions can either be immediately played at the user selected locations or, alternatively, are stored on a local storage device for later use.
The architecture of the instant invention utilizes a server unit coupled to at least one content provider. The server unit provides a central hub for content data distribution. The server unit monitors content data availabilities from the at least one content provider and organizes the content data availabilities into customized program schedules in accordance with user codes.
The user codes preferably provide for a selection of services desired from the at least one content provider. The user codes can also provide for the selection of content data based on information about the intended user, wherein the content data corresponds to scheduled or on demand programs, which may viewed or played at user locations.
A user preferably can view or access their account and select programs to be transmitted to a predetermined location and/or modify account preferences including, changing content providers and/or services provided therefrom.
In accordance with one embodiment of the current invention, the system server 105 authorizes and initiates program transmissions to the device 101 by providing the content provider 111 with a logical address of the device 101 or location of the device 101 on the network. Alternatively, the server causes the device 101 to authorize and initiate program transmissions from the provider 111 to the device 101.
According to an alternative embodiment of the instant invention, program transmissions are automatically initiated from the content provider 111 to the device 101 based on preferences 107 and 109 and/or a program schedule without requiring the user to make a program selection.
Still referring to
In an alternative embodiment of the instant invention, program schedules are assigned to or belong to the devices 401 and 402, wherein programs are automatically transmitted to devices and 402 according to the programs schedule assigned to the devices. Accordingly, a user sets up a list of preferences for each device 401 and 402 and program transmissions which are receivable at each of the device 401 and 402 as determined by program schedule generated for each device 401 or 402. Preferably, the servers 407 and 411 are responsible for controlling the authorization of the device 401 and 402 to receive a program transmission from the providers 412 and 415.
Still referring to
The architecture 500 can provide for the ability to select a second receiving location 509 to receive a program transmission. The second receiving location 509 is preferably coupled to the network 503 and/or is configured to receive broadcast content data from at least one of the providers 511, 513, 515 and 516. When program transmissions are digital video program transmissions, the second location is preferably identified by providing the server 510 with a logical address corresponding to the second receiving location 509.
In the step 603, a program scheduling criteria is developed. The program scheduling criteria can be any simple or complex algorithm, but preferably includes weighting factors for user preferences acquired in the step 601. For example, in the step 601 a user inputs that their professional interests include healthcare. Thus, programs which deal with healthcare issues may be given high priority in the customized program schedule developed in the step 609. If in the step 601 the user inputs that they do not like sports, then sports programs may be eliminated from the customized program schedule or, alternatively, are give low priority in the customized program schedule developed for that user in the step 609.
After the program scheduling criteria is generated in the step 603, then in step the 605, the server reviews program availabilities for all of the designated content providers. The server can obtain program availabilities automatically from the content provider or, alternatively, extract program availabilities over the network. In yet a further embodiments, the program availabilities can be entered into the server manually. Program availabilities are preferably updated at the server as new programs become available or as program availabilities change. After the program availabilities are compiled at the server in the step 607, the server catalogs the programs into a customized program schedule according to the user criteria.
Customized program schedules are preferably viewable over the system network, wherein the user program schedule is displayed on a display device with a graphical user interface. Further, the customized program schedule can have any of a number or formats. The schedule can display program availabilities corresponding to a day a week, a month or other suitable time frame. Program availabilities can be tabulated, or organized into blocks or categories, such as sports or news. In accordance one embodiment of the instant invention, the user can select and/or modify the schedule format. While it is preferable that customized program schedules are viewable over the system network, the program schedules can be provided to users by any other suitable method including mail and e-mail.
After the customized program schedule is provided to the user in the step 609, then in the step 611 the user can select a program for initiating transmission of a program to the user location. Alternatively, a program is transmitted to the user location without requiring the user to make a selection.
After viewing the personal program schedule in the step 703, the user can preferably modify the account and/or user preferences. By refreshing the account, the server re-compiles program availabilities based on the new account information or modified preferences. It is also preferable that the user can search a server data based for alternative programs, which are not displayed in the personal program schedule, using a simple search engine.
After the program is selected in the step 705, then in the step 707 the transmission of the program to the user location is initiated by any number of conventional mechanisms including, but not limited to, initiating a broadcast of a program, decoding a local receiver to receive an encrypted broadcast, transmitting data to a port on a system network or be routed from the server to a receiving device or alternatively can be distributed directed from the content provide which receives authorization for the server to transmit programs to the user location. In accordance with a preferred embodiment of the invention, the system for distributing content data is a pay-per-view system, wherein the user is automatically billed for each program transmission, as described in detail below.
After the user has established a valid account, the catalog interface 801 will query the directory server 808 for a list of available programs and preferably provided the list of available programs in a menu format to the user through a viewing device 805. The user can select a program choice from the menu through the catalog interface 801, whereby the catalog interface 801 communicates the choice to directory server 808. The directory server 808 then communicates the cost of program to the billing server 807.
If the billing server 807 is unable to bill for the program selection, the billing server 807 will communicate the failure back to the directory server 808, and the directory server 808 will communicate the failure to the catalog interface 801. The catalog interface 801 will then communicate the billing failure to the user and wait for another program selection.
In the event that the billing server 807 successfully bills the user for the program section, then the billing server 807 communicates to the directory serve 808 that the selection has been accepted. The directory server 808 then communicates the selection to media transport system 809 and tells the media transport system 809 to authorized streaming of the content data, which is preferably digital video content data.
After the streaming of video data is authorized by the media transport system 809, then the media transport system 809 allows the directory server 808 to access the video data. The directory server 808 then communicates to the catalog interface 801 that payment was received for the video program and that the video data is now authorized to be transmitted.
To work through fire walls that might exist on the local side 800 of the system, the media manager 803 is preferably coupled to the media transport system 809, such that after the catalog interface 801 informs the user that the program has been paid for and that the video data is ready to be transmitted, the catalog interface 801 sends an authorization confirmation to the media manager 803. The media manager 803 then established a communication channel with the media transport system 809 and communicates a confirmation of the authorization to the media transport system 809 which starts streaming the video data to the media manger 803 from a remote storage device 810. The media manager 803 receives the stream of video data and preferably stores the video data on a local storage device 804. The remote storage device 810 can be a single storage device or any number of storage devices that are accessible over the system network (not shown).
In accordance with an embodiment of the invention the video data is encrypted or otherwise marked with identifying information that relates a copy of the content data to the user account. Further, while components on the local side 800 can reside on the same processor device, preferably the media manager 803 and the local storage device 804 reside on a home server device and the catalog interface 801 and the playback interface 802 reside on a desktop computer.
While the data stream is being downloaded and saved to the local storage device 804, the catalog interface 801 and/or the playback interface 802 can be used to monitor the download progress. Further, at any time after video download is started, the playback interface 802 can be used to play the video data. However, if the download or streaming rates are slower than the payback rate, the entire video may not be available for viewing at any given time.
Preferably the playback interface 802 is used to select a viewing device 804, wherein the playback interface 802 receives input instruction from any suitable control device 812. For example, the viewing device 805 is a monitor on a desktop computer or a television set. The control device 812 may comprise an internet browser, a software application program, an infrared remote controller a cursor controller and/or a key board.
The playback interface 802 preferably queries the media manager 803 for what videos are stored on the local storage device 804 and displays the stored video program to the user through the catalog interface 801.
When a playback is requested by the user through the control device 812, then the playback interface 802 communicates the request to the media manager 803. The media manager 803 then communicates authorization to the media transport system 809 and the media transport system 809 authorizes the playback of the video data.
Alternatively, the playback request can be denied if an authorization time limit has expired or if the user is not authorized to view the selected playback video data. In the event that the playback is authorized, the media transport system 809 can pass encryption keys to the media manager 803 required to playback the video data when the video data is encrypted.
After the media manager 803 streams the video and the user is finished viewing the video program on the viewing device 805, the user can remove the video data from the local storage device 804. Preferably, the user communicates a request to remove the video data from the local storage device 804 through the control device 812. The control device 812 then communicates the request to the playback interface 802. The playback interface 802 tells the media manager 803 to remove the video from the local storage device 804. The media manager 803 then confirms with the playback interface 802 that the video data has been removed from the local storage device 804 and communicates the result to the user through the viewing device 805.
When a request is submitted from the control device 12, the display logic 16 creates a graphical display frame in its memory with the appropriate content. The displays frame is sent to the streaming media mixer logic 13. The streaming media mixer logic 13 preferably contains the same compression/decompression algorithms as the digital stream compression/decompression logic 18. Instead of simply forwarding the compressed display frame to the CPU interface, the streaming media mixer logic 13 uses its logic to creates and to decompressed display frame. The streaming media mixer logic 13 then overlays a graphical data frame from the display logic 22 onto the decompresses display frame. The streaming media mixer logic 13 compresses the new combined display frame and sends the combine display frame to the viewing device 25.
For full motion video, the streaming media mixer logic 13 preferably produces the combined display frames at a rate of thirty frames per second or greater. If the computer 910 used does not have sufficient processing capabilities to allow for processing of full motion video, the same display frame is displayed for some multiple number of times and the subsequent intermediate frame(s) are ignored at the CPU interface.
In other cases, the user can watch a direct video program on the viewing device 25, wherein the video data is arriving on the video card from a video input connector 14 or through an antenna input connector 21 from a television tuner logic 17. Accordingly, a user request arrives from the control device 12 and the content data is routed through the display logic 19 and then to the video output connector 23 to be displayed on the viewing device 25. In this example, the computer 910 does not process the video data.
In a third case, a user submits a request from the control device 12 and the interface display logic 22 generates the appropriate graphical display data frame. When graphical display data frame is presented to the streaming media mixer logic 13, the streaming media mixer logic 13 sends a message to the video card 920 through the CPU interface 15. The video card 920 accepts the signal being routed through the display logic 19 and instructs the digital stream compression/decompression logic 18 to digitize and, optionally, compressed graphical display data flame before sending the graphical display data frame to the display logic 19 through the CPU interface 15 to the streaming media mixer logic 13.
The streaming media mixer logic 13 now has the compressed graphical display data frame and uses the same process described above to overlay a graphical display frame from the user interface display logic 22 on to the current display frame and sends the combined display frame through the CPU interface 15 to be decompresses by the digital stream compression/decompression logic 18. The digital stream compression/decompression logic 18, then sends the uncompressed combined display frame to the display logic 19, which outputs signals to the video output connector 23 to be displayed on the viewing device 25.
The present invention has been described in terms of specific embodiments incorporating details to facilitate the understanding of the principles of construction and operation of the invention. Such reference herein to specific embodiments and details thereof is not intended to limit the scope of the claims appended hereto. It will be apparent to those skilled in the art that modifications can be made in the embodiment chosen for illustration without departing from the spirit and scope of the invention.
This patent application is a continuation of U.S. patent application Ser. No. 13/454,615, filed Apr. 24, 2012, which is a continuation of U.S. patent application Ser. No. 11/584,399, filed Oct. 19, 2006, now U.S. Pat. No. 8,166,511, and entitled Mechanism for Distributing Content Data, which is a divisional of U.S. patent application Ser. No. 09/909,676, filed Jul. 19, 2001, now abandoned, which claims the benefit of U.S. Provisional Patent Application No. 60/219,857, filed Jul. 20, 2000, and U.S. Provisional Patent Application No. 60/233,581, filed Sep. 19, 2000, the entire disclosures of which are incorporated by reference.
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