Interactive Content with Enhanced Network Operator Control

Abstract

A method includes receiving, at a media device, a content signal sent to the media device from a data center via a network. The content signal includes a hot key signal indicating availability of alternate content. The method includes determining, at the media device, that the hot key signal is relevant to content sent by the media device to a display device. The method also includes sending, via the media device to the display device, a hot key associated with the hot key signal to the display device to be displayed with the content.

Description

PRIORITY CLAIM

This application is a continuation of, and claims priority to, U.S. patent application Ser. No. 10/611,454 filed on Jun. 30, 2003, which is hereby incorporated by reference in its entirety.

FIELD OF THE DISCLOSURE

The various embodiments of the disclosure described herein relate generally to the field of interactive television. More particularly, these embodiments relate to providing enhanced network operator control.

BACKGROUND

Advances in telecommunications and computing technology have led to the use of interactive television (TV) services on a large scale. Where such services are available, users are not only able to access television content by passively receiving it, but are also beginning to interact with the service providers by communicating requests and/or commands to the service providers. These requests and/or commands may be communicated to the service provider via the same path over which the programming services are provided or even via other paths.

Interactive television may be provided over any number of paths, including coaxial cable or optical fiber, hybrid fiber/coaxial, or any other suitable path that accommodates sufficient bandwidth for desired video channels as well as other telecommunications services. Content providers may include, for example, providers of over-the-air programming such as commercial television stations, cable programming such as weather, travel and entertainment channels, game channels, and other interactive services of various types.

Generally, TV service provides a user or user a variety of options such as: traditional broadcast and cable television programming; video services, such as pay-per-view (PPV), near video-on-demand (NVOD), video-on-demand (VOD), promo channels, electronic program guides, etc.; cable delivered PC-based services; and interactive services through the use of a combination of compression and digital video technologies. TV services may also provide menuing capabilities and upstream signaling from users to service providers.

The combination of broadcast and interactive applications over interactive TV (e.g., interactive content) creates a possible mode of communication in which a user, if informed of the availability of alternate interactive content relating to a subject matter of interest, may invoke the alternate content to investigate that subject matter more thoroughly and according to his or her own tastes. However, television viewers, who are accustomed to choosing at will between the available transmitted channels with instantaneous results, will expect to be informed of the alternate content in a convenient and timely manner and to pass from one medium to another seamlessly.

SUMMARY

A method and apparatus are described that provide enhanced network operator control. According to one aspect of the present disclosure, a method comprises determining at a head-end and data center whether to inform one or more users of an interactive television service of available content, the one or more users connected with head-end and data center via a network. Responsive to determining to inform the one or more users of the available content, generating a hot key signal indicating availability and a location of the alternate content. The hot key signal is inserted into a content signal transmitted to the one or more users from the head-end and data center via the network.

Other features of the present disclosure will be apparent from the accompanying drawings and from the detailed description that follows.

BRIEF DESCRIPTION OF THE DRAWINGS

The appended claims set forth features of embodiments of the disclosure with particularity. The disclosure, together with its advantages, may be best understood from the following detailed description taken in conjunction with the accompanying drawings of which:

FIGS. 1A-1D illustrate a television displaying a picture containing a hot key for informing a user of available alternate content and redirecting the user to the alternate content responsive to selection of the embedded hot key according to one embodiment of the present disclosure;

FIG. 2 is a block diagram illustrating an exemplary network over which interactive television signals containing embedded hot key signals may be transmitted according to one embodiment of the present disclosure;

FIG. 3 is a block diagram of a head-end and data center system where hot key signals may be added to a transmitted signal according to one embodiment of the present disclosure;

FIG. 4 is a flowchart illustrating head-end and data center processing for adding hot key signals to a transmitted signal according to one embodiment of the present disclosure;

FIG. 5 is a diagram illustrating one possible format for a hot key data packet according to one embodiment of the present disclosure;

FIG. 6 is a block diagram of a user side system to redirect a user to alternate content responsive to selection of an embedded hot key according to one embodiment of the present disclosure; and

FIG. 7 is a flowchart illustrating processing on a user side system for redirecting a user to alternate content responsive to selection of an embedded hot key according to one embodiment of the present disclosure.

DETAILED DESCRIPTION

In the following description, for the purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding. It will be apparent, however, to one skilled in the art that embodiments of the present disclosure may be practiced without some of these specific details. In other instances, well-known structures and devices are shown in block diagram form.

Embodiments of the present disclosure include various processes, which will be described below. The processes may be performed by hardware components or may be embodied in machine-executable instructions, which may be used to cause a general-purpose or special-purpose processor or logic circuits programmed with the instructions to perform the processes. Alternatively, the processes may be performed by a combination of hardware and software.

Embodiments of the present disclosure may be provided as a computer program product which may include a machine-readable medium having stored thereon instructions which may be used to program a computer (or other electronic devices) to perform a process. The machine-readable medium may include, but is not limited to, floppy diskettes, optical disks, Compact Disk Read-Only Memories (CD-ROMs), and magneto-optical disks, Read-Only Memories (ROMs), Random Access Memories (RAMs), Erasable Programmable Read-Only Memories (EPROMs), Electronically Erasable Programmable Read-Only Memories (EEPROMs), magnetic or optical cards, flash memory, or other type of media/machine-readable medium suitable for storing electronic instructions. Moreover, embodiments of the present disclosure may also be downloaded as a computer program product, wherein the program may be transferred from a remote computer to a requesting computer by way of data signals embodied in a carrier wave or other propagation medium via a communication link (e.g., a modem or network connection).

FIGS. 1A-1D illustrate a television displaying a picture containing a hot key for informing a user of available alternate content and redirecting the user to the alternate content responsive to selection of the embedded hot key according to one embodiment of the present disclosure. These figures represent respectively a process of viewing content, receiving a hot key, accepting a hot key, and redirecting to alternate content.

Specifically, FIG. 1A illustrates an example of viewing content. Here, a video program 101 is being displayed on television 100. Alternatively, a user may be viewing other types of interactive TV content such as pay-per-view video content, interactive games, etc.

FIG. 1B illustrates an example of receiving a hot key. In this example, the user is tuned to the same video program 101 on television 100 as in the previous example of FIG. 1A. However, in this example an icon 103 or other graphic has been displayed to indicate to the user that a hot key has been received. The hot key indicates that alternate content is available for the user's consumption. According to one embodiment of the present disclosure, the alternate content may be in the form of another video program with content related to the video program 101 being viewed by the user.

FIG. 1C illustrates an example of accepting a hot key. In this example, the user is tuned to the same video program 101 as in FIGS. 1A and 1B. Icon 105, displayed to indicate to the user that a hot key has been received, now indicates a manner in which the user may accept or decline the alternate content. In this example, icon 105 indicates that the user may press 1 to accept the alternate content or 2 to decline the alternate content.

Of course, other methods of accepting or declining the alternate content may be used. For example, different single or even multiple buttons on a remote control may be pressed by the user to accept or decline the alternate content. According to one embodiment, a single “hot key button” may be present on the user's remote control that may be pressed by the user whenever a hot key icon is present on the television display. Pressing the hot key button may be a manner in which the user accepts the alternate content and is redirected to that content without further interaction from the user. According to another embodiment, the user may decline the alternate content by taking no action at all. That is, after some time period during which no action is taken by the user to accept the alternate content, the hot key may simply time out and expire. Various other methods of accepting or declining the alternate content may also be used.

Regardless of the exact operation used to accept the alternate content, FIG. 1D illustrates redirecting a user to alternate content responsive to the hot key being accepted. According to one embodiment of the present disclosure, the alternate content may be another video program with content related to the video program 101 being viewed by the user. Therefore, television 100 in FIG. 1D illustrates an alternate video program 107 being displayed. According to one embodiment of the present disclosure, the alternate video program 107 may present content related to the original content the user was viewing. For example, if the user was viewing a television program related to travel, the alternate video program may also be related to travel.

According to yet another embodiment of the present disclosure, the alternate video program may be commercial in nature. For example, the television program may be related to sports. In such a case, the alternate video program may be a pay-per-view sporting event of the same type or an advertisement for an upcoming pay-per-view event. In another example, the alternate video program may be an “infomercial” selling merchandise related to some aspect of the original video content.

Therefore, content providers and/or service providers may be able to sell hot keys just as they currently sell time for commercial spots. For example, a provider of pay-per-view video content may wish to purchase from a content provider a hot key that redirects users to his content or an advertisement of upcoming events during a television program related to that content. Alternatively, content providers may charge users to receive a hot key service or even to block some or all hot key signals. Content providers and/or service providers may thus be able to realize an additional source of revenue.

As will be described below, a system over which interactive television signals containing embedded hot key signals may be transmitted according to various embodiments of the present disclosure may be implemented over different types of networks. These different types of networks include, but are not limited to, cable, satellite, Fiber-to-the-Curb (FTTC), Fiber-to-the-House (FTTH), Very high speed Digital Subscriber Line (VDSL), and others.

FIG. 2 is a block diagram illustrating an exemplary network over which interactive television signals containing embedded hot key signals may be transmitted according to one embodiment of the present disclosure. This example illustrates, at a high-level, an architecture of a service provider's system 200 that includes head-end and data center 201, Cable Modem Termination System (CMTS) 203, cable modem network 204, and user premises 206 that also contains cable modem 207, Set Top Box (STB)/Gateway 208, one or more televisions 209 and 210, and possibly other devices such as personal computer (PC) 211.

An interactive TV service provider typically operates and maintains a head-end and data center 201 equipped to receive signals 202 from one or more content providers. Content providers may be any original or secondary source of programming or information generally including, for example, interactive or non-interactive over-the-air programming such as commercial television stations, cable programming such as weather, travel and entertainment channels, game channels, and other interactive services of various types. Head-end and data center 201, after receiving content from one or more content providers, may then transmit the interactive content to user premises 206. Further details of the hardware comprising the head-end and data center 201 as well as the processing performed therein will be discussed below with reference to FIGS. 3 and 4.

According to one embodiment of the present disclosure, hot key signals indicating the availability of alternate content may be provided to head-end and data center 201 along with and embedded in interactive TV signals 202 from the content providers. For example, the hot key signals may be generated at the content provider's location by an operations team when preparing and scheduling content for transmission to various service providers. As will be discussed below, interactive TV signals with these embedded hot key signals are transmitted from head-end and data center 201 and are received and used by STB/gateway 208 or PC 211 at user premises 206 to inform the user of the availability of alternate content and to guide the user to this content if he chooses to accept it. Details of the hot key signals will be discussed below with reference to FIG. 5.

According to another embodiment of the present disclosure, hot key signals indicating the availability of alternate content may be generated at head-end and data center 201. For example, the hot key signals may be generated at head-end and data center 201 by an operations team when preparing and scheduling content for transmission to users. As will be discussed below, these embedded hot key signals are transmitted from head-end and data center 201 and are received and used by STB/gateway 208 or PC 211 at user premises 206 to inform the user of the availability of alternate content and to guide the user to this content if he chooses to accept it.

In the example illustrated in FIG. 2, a signal carrying interactive TV content is transmitted from head-end and data center 201 through CMTS 203 and onto cable modem network 204. Typically, transmissions over cable modem network 204 may be made in a digital form. For example, the content may be transmitted as a Motion Pictures Experts Group Standard 2 (MPEG-2) data stream using a network protocol such as Internet Protocol (IP). Therefore, the content may be transmitted from head-end and data center 201 as IP data packets or in another similar format. One possible example of such a packet will be discussed below with reference to FIG. 5.

Regardless of the format of the transmission, a signal carrying the interactive TV content is received at user premises 206 via cable modem 207. Connected with cable modem 207 may be some form of terminal device. In the example illustrated by FIG. 2, two possible types of terminal devices, STB/Gateway 208 and PC 211 are shown. The terminal device, STB, Gateway, PC or other device, performs functions such as exchanging messages (including video-related data) over a network with head-end and data center 201, receiving messages from a user input device, such as a hand-held remote control unit or keyboard, translating video signals from a network-native format into a format that can be used by televisions 209 and 210 or other display devices, and providing a video signal to televisions 209 and 210 or other display devices. STB/Gateway 208 and PC 211 may also be capable of performing other functions, such as inserting alphanumeric or graphical information into the video stream in order to “overlay” that information on the video image, providing graphic or audio feedback to a user, or routing a traditional broadcast signal to a viewing device to which another STB is connected. Additional details of the hardware of STB/Gateway 208 and the processing performed therein will be discussed below with reference to FIGS. 6 and 7.

In use, STB/Gateway 208 or PC 211 may receive hot key signals embedded in the interactive TV signals by either the content providers or the service provider. STB/Gateway 208 or PC 211 may then notify the user of available alternate content as discussed above with reference to FIG. 1. STB/Gateway 208 or PC 211 may then receive some form of user feedback indicating that the user accepts or declines the alternate content. If the user accepts the alternate content, STB/Gateway 208 or PC 211 may then redirect the user to this alternate content as will be discussed further below with reference to FIG. 7.

According to one embodiment of the present disclosure, head-end and data center 201 may also be connected with the Internet 213 or other network via a high-speed connection 212 such as a fiber optic connection to provide access to a number of web sites 214-216. Through this connection 212, head-end and data center 201 may supply alternate content to users from one or more of the number of web sites 214-216.

FIG. 3 is a block diagram illustrating a head-end and data center system where hot key signals may be added to a transmitted signal according to one embodiment of the present disclosure. This example illustrates head-end and data center system 201 comprising content reception, distribution, and switching portion 304, head-end transport portion 305, and hot key generation system 315.

Content reception, distribution, and switching portion 304 is connected with one or more of satellite receiver 301, over the air transmission receiver 302, fiber optical feed 303, and other types of links (not shown) to receive signals from one or more content providers. Content reception, distribution, and switching portion 304 comprises equipment that that is commonly used to receive transmitted signals, demodulate the transmitted signals to separate the content signals from a carrier signal if necessary, distribute and arrange the content from the content providers to fit a programming schedule of the service provider, and provide switching of these signals between the various components of the head-end and data center 201.

Head-end transport portion 305 comprises a plurality of encoders 306-312, optional back-up encoder 313, multiplexor system 314, modulation system 318, up converters 319, and transport system 321. Encoders 305-312 and optional back-up encoder 313 receive interactive TV content signals from content reception, distribution, and switching portion 304 and encode the content signals into any of a variety of well known formats such as Motion Pictures Experts Group Standard 2 (MPEG-2), Motion Pictures Experts Group Standard 4 (MPEG-4), DivX, or any other format. Encoders 305-312 and optional back-up encoder 313 each provide an individual encoded data stream representing the content signal of a single channel to multiplexor system 314.

Hot key generation system 315 is also connected with multiplexor system 314 of head-end transport 305. Hot key generation system 315 receives content 323 from content reception, distribution, and switching portion 304, trigger programming information 316, and event data feed 317. Trigger programming information 316 provides an indication of the time, date, etc. that given content will be played out. Event data feed 317 provides live content rather than content that is programmed and played out at a scheduled time. Using content 323, trigger programming information 316, and event data feed 317 hot key generation system 315 generates hot key signals associated with content to be transmitted from head-end and data center 201 and outputs the hot key signals to multiplexor system 314. Exemplary processes for generating hot key signals as may be performed by hot key generation system 315 will be discussed below with reference to FIG. 4.

Multiplexor system 314 may comprise a primary as well as an optional back-up multiplexor. Multiplexor system 314 combines the encoded content signals from encoders 305-312 and optional back-up encoder 313 and hot key signals from hot key generation system 315 to provide an output stream. The output stream of multiplexor system 314 comprises the individual encoded data streams representing the content signals of the individual channels as well as any associated hot key signals.

The output stream of multiplexor system 314 may be applied to a modulation system 318. Modulation system 318 may comprise a primary as well as an optional back-up modulator. Modulation system 318 uses the output stream of multiplexor system 314 to modulate a carrier frequency for transmission from the head-end system 201.

Modulation system 318 supplies the modulated carrier signal to up converters 319. Up converters 319 may comprise primary as well as optional back-up converters. Additionally, up converters 319 may comprise multiple stages of converters. The function of up converters 319 is to increase the modulated carrier frequency to a range that is suitable for transmission. Up converters 319 then transmit the modulated carrier signal from head-end and data center 201 via network 320 to users.

Optionally, or in addition to modulation system 318, the output of multiplexor system 314 may be applied to transport system 321 that may comprise a primary as well as an optional back-up transport system. The function of the transport system 321 is to prepare the output stream of multiplexor system 314 for transmission over network 322. That is, transport system 321 places the output stream of multiplexor system 314 into a format and protocol appropriate for network 322. For example, the output stream of multiplexor system may be placed into Internet Protocol (IP) packets or placed into an Asynchronous Transfer Mode (ATM) channel by transport system 321.

FIG. 4 is a flowchart illustrating head-end and data center processing for adding hot key signals to a transmitted signal according to one embodiment of the present disclosure. This process may be performed by a system such as the hot key generation system of the head-end and data center described above with reference to FIG. 3 or any other system with similar capabilities.

First, at decision block 400, the system determines whether a hot key signal should be added to the current content. This determination may be made at head-end and data center 201. For example, hot key generation portion 315 may perform a search of electronic program guide or other programming information to find related content. If head-end and data center 201 is connected to the Internet, hot key generation portion 315 may extend this search to web sites. That is, a search of Internet sites may be performed based on information related to content detected from an electronic program guide or from another search. For example, a search of electronic program guide information may detect a professional football game including the names of the teams. A search may then be done on the rest of the electronic program guide for another professional football game or other sports. Additionally, a search of Internet sites may be done for sites related to professional football or the teams involved.

Alternatively, hot key generation portion may be triggered to generate a hot key signal by information or operation performed by human operators. For example, an operation team, generating a programming schedule may at the same time identify related content and thereby indicate that a hot key signal should be generated for that content.

If a hot key signal is to be added to the current content, the hot key signal may be generated at processing block 405. According to one embodiment of the present disclosure, the hot key signal may comprise a special purpose Internet Protocol (IP) packet as described below with reference to FIG. 5. Alternatively, the hot key signal may be any other type of digital signal or packet suitable for transmission over the type of network being used and capable of carrying information similar to that shown in FIG. 5.

Finally, at processing block 410, the hot key signal is inserted into the content signal. That is, the hot key IP packet or other signal is multiplexed with the content data stream as described above with reference to FIG. 3.

According to one embodiment of the present disclosure, alternate content may be pre-loaded or cached on the user's equipment prior to transmission of the hot key signal. That is, the head-end and data center may first send available alternate content to the user's equipment such as an STB or gateway. The user's equipment may cache the alternate content on a hard drive or other large capacity storage device. Once the alternate content is cached, a hot key informs the user of the availability of the content. The user may then view the content, reject the content, choose to view the content at a later time, or other possible options.

FIG. 5 is a diagram illustrating one possible format for a hot key data packet according to one embodiment of the present disclosure. This example illustrates an IP data packet 500. The IP data packet includes a header 501 and a body 502.

Header 501 includes a number of fields 503-511 that are typically found in IP data packets. These fields include a source port 503, a destination port 504, a sequence number 505, an acknowledgement number 506, a data offset 507, a reserved field 508, a window field 509, checksum data 510, and an urgent pointer 511. It should be noted that such an IP data packet 500 may be sent to multiple address using IP multicasting. Multicasting therefore allows efficient transmission of the hot key signals from the head-end and data center to users.

Body 502 may also include a number of fields 512-515. These fields may include a hot key type 512, a content type 513, a content location 514, and optionally a message field 515. In various applications, the number of fields used, size of the fields, type of data presented, format of the data, content of the fields, etc. may vary. For example, in some cases not all of the fields presented here may be used. In other cases, additional data may be presented such as additional graphical or textual information. Additionally, the data may be presented in a wide variety of formats such as plain American Standard Code for Information Interchange (ASCII) text, other binary representations or even encrypted.

Regardless of format, hot key type field 512 may represent the type of hot key signal being used. For example, the hot key signal represented by IP data packet 500 may indicate that alternate content is available on another channel or on a web site. Alternatively, the hot key signal may indicate that alternate content is available to be cached on the user's terminal device.

Content type field 513 may represent the type, genre, or other details about the alternate content. For example, this field 513 may be used to indicate that the alternate content is a sporting event or movie. Of course, additional details may also be included. For example, the field 513 may indicate that the alternate content is an action movie and name the actors and director. This information may be used by the user's terminal device to judge the relevance of the hot key signal to the user as will be discussed below.

Content location field 514 may indicate where the alternate content is located. For example, this field 514 may indicate another channel, a web site URL or indicate that the content has been cached on the user's terminal device.

Optional message field 515 may include additional textual or graphical information regarding the hot key or the alternate content. For example, the message field 515 may contain a text message to be displayed to the user providing details of the alternate content. This message may be presented to the user automatically or at his option to help the user decide whether to accept or decline the hot key.

FIG. 6 is a block diagram illustrating a user side system to redirect a user to alternate content responsive to selection of an embedded hot key according to one embodiment of the present disclosure. As discussed above, the user side system may vary significantly. The user side system comprising a terminal device, STB, Gateway or similar device, performs functions such as exchanging messages (including video-related data) over a network with head-end and data center, receiving messages from a user input device, such as a hand-held remote control unit, translating video signals from a network-native format into a format that can be used by televisions or other display devices, providing a video signal to televisions or other display devices, and other functions.

The functionality of the user side system may reside in a stand-alone device, literally a box that can be placed on, or at least near, the television, that is similar in outward form to conventional devices for receiving cable programs. The user side system functionality could alternatively be performed by hardware resident elsewhere, such as within the television or display console, or by any suitably equipped terminal device. Since the hardware may be proprietary to the service provider and may generally be a physically independent device, the term set top box is used here, but any type of terminal device with similar functionality may be used.

In the example illustrated in FIG. 6, the user side system comprises a STB 208. The STB 208 comprises a tuner, receiver, demodulator 601, a demultiplexor 602, a decoder 603, a graphics processor 604, a central processing unit (CPU) 605, an optional hard disk drive 606 or other mass storage device, a memory 607, and various possible inputs and outputs 608.

The tuner, receiver, demodulator 601 receives signals from the service provider network 204 over any of a variety of media as discussed above. Specifically, the tuner, receiver, demodulator 601 receives signals of a frequency band to which it is tuned and demodulates the signals to remove content signals from a carrier signal if any. Demodulated content signals are then supplied by the tuner, receiver, and demodulator 601 to the demultiplexor 602.

The demultiplexor 602 receives the demodulated content signals from the tuner, receiver, demodulator 601 and separates the content into multiple data streams representing various channels. The multiple data streams are then supplied as an input to the decoder 603.

The decoder 603 receives the multiple data streams from the demultiplexor 602 and decodes or decompresses the data streams using an appropriate algorithm. For example, if the head-end and data center compressed the video signals into an MPEG-2 data stream, the decoder 603 will decode the MPEG-2 data stream from the demultiplexor 602 to form a standard video signal. The video signal from the decoder 603 is then supplied to the graphics processor 604.

The graphics processor 604 receives the decoded video signals from the decoder 603 and processes the video signals to reduce noise, provide amplifications, etc. Processed video signals from the graphics processor 604 are supplied to the input/output module 608. The input/output module 608 may provide a variety of possible output types. For example, outputs may include but are not limited to audio/video (A/V), radio frequency (RF), Sony/Phillips digital interface (SPDIF), universal serial bus (USB), and others.

The input/output module 608 also receives control signals from the user. These control signals are typically infrared (IR) or RF signals from a remote control unit. Control signals from the user are then fed back from input/output module 608 to the CPU 605.

The CPU 605 executes instructions stored in the memory 607. The memory 607 may comprise a random access memory (RAM) such as flash memory, or other non-volatile memory. The instructions stored in the memory 607, when executed by the CPU 605 cause the CPU 605 to perform various functions such as controlling the various elements of the STB 208, receiving hot key signals, and switching to alternate content responsive to selection of an embedded hot key as will be described below with reference to FIG. 7.

Generally, a hot key signal will be received at the tuner, receiver, demodulator 601 along with and embedded in content signals from the head-end and data center and transmitted over service provider network 204. The CPU 605 monitors the demultiplexed data streams from the demultiplexor 602 for the presence of relevant hot key signals.

The STB 208 may also contain an optional hard disk drive 606 or other mass storage device. The hard disk drive 606 allows the STB 208 to cache alternate content for later viewing by the user. If the CPU 605 detects hot key signals instructing content to be cached, the demultiplexed data stream from the demultiplexor 602 may be saved on the hard disk drive 606. The still compressed content is stored on the hard disk drive 606 until the user chooses to view it. Once the user chooses to view the cached content, the CPU 605 may retrieve the content from the hard disk drive 606 and provide the compressed data stream to be decoded by the decoder 603, processed by the graphics processor 604, and output through the input/output module 608.

FIG. 7 is a flowchart illustrating processing on a user side system for redirecting a user to alternate content responsive to selection of an embedded hot key according to one embodiment of the present disclosure. This process may be performed by a system such as described above with reference to FIG. 6 or any other system with similar capabilities.

First, at processing block 700, the system receives a hot key signal from the service provider's network. As discussed above, the hot key signal may be in the foam of a specialized IP packet or another type of signal embedded in the content signal from the service provider.

At decision block 705 a determination is made as to whether the hot key signal is relevant to the particular user. Since numerous hot key signals may be transmitted at any particular time, the signals may be filtered before being presented to the user. Such filtering may be based on any number of possible algorithms and criteria. For example, only hot key signals related to a channel that is presently being viewed may be considered relevant. Another criteria for determining relevance of a hot key signal may be choices of content types or genres which have been selected by the user. Regardless of the algorithm or criteria used to judge relevance, if the hot key signal is determined at decision block 705 to not be relevant, no further processing is performed.

If the hot key signal is determined at decision block 705 to be relevant to the user, a hot key icon or other indication is displayed to the user at processing block 710. As mentioned above, this indication may be in the form of an icon placed on the screen, a text message, a tone or even a verbal alert. Regardless of the exact form, some indication is given to the user that a hot key has been received.

At decision block 715 a determination is made as to whether the user has accepted the hot key. As discussed above, the user may use any of a variety of means to indicate acceptance of the hot key. For example, different single or even multiple buttons on a remote control may be pressed by the user to accept or decline the alternate content. According to one embodiment, a single “hot key button” may be present on the user's remote control that may be pressed by the user whenever a hot key icon is present on the television display. Regardless of the exact means of accepting or declining the hot key, if it is determined at decision block 715 the user did not accept the hot key, no further processing is performed.

If, at decision block 715, the user accepts the hot key, the user is redirected to the alternate content at processing block 720.

At decision block 725 a determination is made as to whether the user has finished consuming the alternate content. This determination may be based on any of a variety of possible criteria. For example, the user may press a button or series of buttons on a remote control to indicate that he has finished viewing the presented material. Alternatively, the user may use a mouse or other pointing device of a remote control to select a graphic on the display to indicate that he has finished viewing the presented material.

Once a determination is made at decision block 725 that the user is finished with the alternate content, a return process is entered at processing block 730. This return process may include simply returning the user to the previous content. Alternatively, the return process may comprise presenting to the user other available content based on other hot key signals. Another alternative may include presenting a user with a number of choices of how to proceed.

Claims

1. A method comprising:

receiving, at a media device, a content signal sent to the media device from a data center via a network, wherein the content signal includes a hot key signal indicating availability of alternate content;

determining, at the media device, that the hot key signal is relevant to content sent by the media device to a display device; and

in response to determining that the hot key signal is relevant to the content, sending, via the media device to the display device, a hot key associated with the hot key signal to the display device to be displayed with the content.

2. The method of claim 1, further comprising sending the alternate content to the display device in response to receiving an acceptance of the hot key.

3. The method of claim 2, further comprising returning to display of the content after receipt of an indication that viewing of the alternate content is complete.

4. The method of claim 1, further comprising providing an option to the display device that enables display of information from a message field of the hot key signal to facilitate a decision by a user about acceptance of the hot key.

5. The method of claim 1, further comprising automatically displaying information from a message filed of the hot key signal to the display device to facilitate a decision by a user about acceptance of the hot key.

6. The method of claim 1, wherein a determination that the hot key signal is relevant to the content is based on information from a content type field of the hot key signal.

7. The method of claim 1, wherein the media device is a set-top box.

8. The method of claim 1, wherein the media device is a gateway.

9. The method of claim 1, wherein the media device is a computer.

10. A system comprising:

a processor;

a memory accessible to the processor, the memory comprising instructions that are executable by the processor to: receive a content signal from a data center via a network, wherein the content signal includes a hot key signal indicating availability of alternate content; send content derived from the content signal to a display device; determine that the hot key signal is relevant to the content sent to the display device; and in response to determining that the hot key signal is relevant to the content, send a hot key associated with the hot key signal to the display device to be displayed with the content.

11. The system of claim 10, further comprising a mass storage device, wherein the instructions are executable by the processor to cache the alternate content to the mass storage device.

12. The system of claim 11, wherein the hot key is sent to the display after the alternate content is cached.

13. The system of claim 10, wherein the instructions are executable by the processor to receive acceptance of the hot key and to send the alternate content to the display device.

14. The system of claim 13, wherein the alternate content comprises an advertisement.

15. The system of claim 13, wherein a content location field of the hot key signal provides content location information to enable retrieval of the alternate content.

16. The system of claim 10, wherein the hot key signal is determined to be relevant to the content based on information in a content field of the hot key signal.

17. A processor readable storage device comprising executable instructions that, when executed by a processor, cause the processor to perform operations including:

receiving a content signal from a data center via a network, wherein the content signal comprises a hot key signal indicating availability of alternate content;

sending content based on the content signal to a display device;

determining that the hot key signal is relevant to the content sent to the display device; and

in response to determining that the hot key signal is relevant to the content, sending a hot key associated with the hot key signal to the display device to be displayed with the content.

18. The processor readable storage device of claim 17, wherein the operations further include:

receiving an initial selection of the hot key via a remote control device; and

sending a hot key icon to the display in response to the initial selection, wherein the hot key icon provides instructions for a user to accept the alternate content via the remote control device.

19. The processor readable storage device of claim 18, wherein the operations further include sending the alternate content to the display device in response to receiving a signal from the remote control device that indicates acceptance of the alternate content.

20. The processor readable storage device of claim 17, wherein the hot key overlays a portion of the content at the display device.