ADDRESSABLE ADVERTISING SWITCH BY DECOUPLING DECODING FROM SERVICE ACQUISITION
A method and computing device for switching from a first transport stream to a second transport stream. The method detects a trigger in the first transport stream that determines a switch point for tuning to the second transport stream. The method receives a last frame of audio/video content in the first transport stream that immediately precedes the switch point, and initiates a switch to the second transport stream after receiving the last frame. The method processes the last frame through an audio/video decoder simultaneous with the initiating of the switch, and disables the output of the audio/video decoder after the processing of the last frame. The method receives a first frame of audio/video content in the second transport stream, and enables the output of the audio/video decoder after processing the first frame through the audio/video decoder.
This application is a continuation of U.S. patent application Ser. No. 13/205,681, filed Aug. 9, 2011, which is hereby incorporated by reference herein its entirety.
BACKGROUNDIn a digital video broadcast system, a headend component uses Quadrature Amplitude Modulator (QAM) devices or Internet Protocol (IP) services to deliver audio/video (AV) content to a set-top box as a Moving Pictures Expert Group (MPEG) stream. The MPEG stream may include “live” advertisements or targeted advertisements. The targeted advertisements are placed in a parallel QAM or an IP service that is synchronized with the “live” advertisements. Alternatively, the targeted advertisements may be stored on a data storage device that is either integrated with the set-top box, or accessible via a network communication connection. Software on the set-top box that includes a digital video recorder (DVR) determines whether to perform a switch to the targeted advertisement based on various traits, such as demographics, purchase history, observed behavior, or the like.
Multiple System Operator (MSO) customers are developing and deploying targeted advertising systems. These systems enable a set-top box to switch from a network service to an addressable advertising service, and back to the network service during an advertising break. The term “switch” includes the definition of “switch” in the context of the American National Standard (ANSI) Society of Cable Telecommunications Engineers (SCTE) Standard ANSI/SCTE 138 (i.e., switch describes tunes (L0 switch) and splices (L1 switch)), the definition of “tune” in the context of a QAM device, and the definition of “switch” or “transition” in the context of an IP or DVR device. In the first phase of deployment, the delivery of the network service and addressable advertising services are on separate transport streams, in which the addressable advertising content is synchronized with an advertisement on the network service. Since multiple advertisement streams are simultaneously delivered to the set-top box, the set-top box selects one of the advertisements, based on received information and locally stored selection criteria, and switches at the appropriate time.
The addressable advertisements contain filler, as defined in ANSI/SCTE 138. The filler follows signaled switch points which mark an opportunity to switch from the network service to the addressable advertising service, and an opportunity to switch from the addressable advertising service back to the network service. The filler is properly formatted frames that represent black pictures and silent audio, and that optimize the service acquisition procedure by allowing the set-top box the time necessary to switch to and begin decoding the new service. The duration of the filler is selected to allow for the time needed for the slowest set-top box in the network to switch to and begin decoding the new service. Since the duration of the filler is lost on the switch to the addressable advertising service and on the switch back to the network service, the duration of the filler takes away from the duration of the addressable advertising content. There is a need to minimize the duration of the filler and maximize the duration for the addressable advertising content. The presently disclosed invention satisfies this demand.
SUMMARYAspects of the present invention provide a method and computing device for switching from a first transport stream to a second transport stream. The method detects a trigger in the first transport stream that determines a switch point for tuning to the second transport stream. The method receives a last frame of audio/video content in the first transport stream that immediately precedes the switch point, and initiates a switch to the second transport stream after receiving the last frame. The method processes the last frame through an audio/video decoder simultaneous with the initiating of the switch, and disables the output of the audio/video decoder after the processing of the last frame. The method receives a first frame of audio/video content in the second transport stream, and enables the output of the audio/video decoder after processing the first frame through the audio/video decoder.
The Ad splicer 130 is a computing device that receives audio/video (AV) content from an external signal source, Ad content from the Ad server 140, and targeted Ad signaling from the targeted Ad server 150. The AV content includes primary channels with SCTE 35, such as network programs and network advertisements. In one embodiment, the Ad content is a replacement for the primary network advertisement that is typically shown during a network program or between two network programs. The Ad splicer 130 synchronizes the Ad content and targeted Ad signaling with the network advertisements in the AV content, and delivers the resulting AV content stream and targeted Ad content to the set-top box 120.
The Ad server 140 is a computing device that receives Ad placement from the targeted Ad server 150 and provides the Ad content to the Ad splicer 130. In another embodiment, the Ad server 140 provides the Ad content as preloaded Ads to the set-top box 120.
The targeted Ad server 150 is a computing device that determines Ad placement in the AV content based on targeted Ad selection criteria. The targeted Ad server 150 sends the Ad placement to the Ad server 140, and targeted Ad signaling to the Ad splicer 130. The targeted Ad server 150 also configures the set-top box 120, and receives impression reporting from the set-top box 120 following playback of the targeted AV content.
The set-top box 120 is a computing device that connects the television 110, Ad splicer 130, Ad server 140, and targeted Ad server 150. In one embodiment, the set-top box 120 is a digital video recorder (DVR) that a subscriber (not shown) operates to request a digital video stream from the Ad splicer 130, and stores it for viewing at another time on the television 110. The digital video stream includes the AV content and targeted Ad content. In another embodiment, the set-top box 120 receives the Ad content as preloaded Ad content from the Ad server 140.
The set-top box 120, in one embodiment, is a general-purpose computing device that performs the present invention. A bus 205 is a communication medium that connects a processor 210, data storage device 220 (such as a Serial ATA (SATA) hard disk drive, optical drive, Small Computer System Interface (SCSI) disk, flash memory, storage located remotely in the internet cloud, network attached storage, or the like), tuner 230, audio/video decoder 240, communication interface 250, audio/video interface 260, and memory 270 (such as Random Access Memory (RAM), Dynamic RAM (DRAM), non-volatile computer memory, flash memory, or the like). The tuner 230 connects the set-top box 120 to the Ad splicer 130. The communication interface 250 connects the set-top box 120 to the targeted Ad server 130. The audio/video interface 260 connects the set-top box 120 to the television 110. In one embodiment, a user (not shown) operates a radio-frequency (RF) remote controller to communicate with the set-top box 120 via the television 110 and audio/video interface 260. In another embodiment, a keypad (not shown) is a user interface to the set-top box 120. In one embodiment, the implementation of the present invention on the set-top box 120 is an application-specific integrated circuit (ASIC).
The processor 210 performs the disclosed methods by executing the sequences of operational instructions that comprise each computer program resident in, or operative on, the memory 270. The reader should understand that the memory 270 may include operating system, administrative, and database programs that support the programs disclosed in this application. In one embodiment, the configuration of the memory 270 of the set-top box 120 includes a targeted advertisement (Ad) engine 280, and service acquisition program 290 that perform the methods of the present invention disclosed in detail in
The transport stream timeline shown in
The portion of the presentation of the network stream denoted as “A” in
The portion of the presentation of the network stream denoted as “B” in
The portion of the presentation of the network stream denoted as “C” in
The transport stream timeline shown in
The tuning process shown in
As shown in
The portion of the presentation of the network stream denoted as “C” in
The portion of the presentation of the network stream denoted as “C” in
In another embodiment, the Switch Command implements the Simultaneous Service Acquisition and Decoder Buffer Presentation function. There are two alternative methods to trigger the switch. The first method is to use a buffer underrun flag indicator from the Decoder Hardware as the queue to implement the service acquisition on the ad stream, but this necessitates Decoder Hardware that provides a buffer underrun notification. The second method is to set a timer based on the difference between the PCR and PTS delay of the last frame of video of the network stream.
Leveraging the Simultaneous Service Acquisition and Decoder Buffer Presentation shown in
The process 600 shown in
Although the disclosed embodiments describe a fully functioning method and computing device for switching from a network transport stream to an addressable advertising transport stream, the reader should understand that other equivalent embodiments exist. Since numerous modifications and variations will occur to those reviewing this disclosure, the method and system for switching from a network transport stream to an addressable advertising transport stream is not limited to the exact construction and operation illustrated and disclosed. Accordingly, this disclosure intends all suitable modifications and equivalents to fall within the scope of the claims.
Claims
1. A method for addressable advertising, the method comprising:
- detecting a trigger in a first transport stream, wherein the trigger determines a location in the first transport stream that is a switch point for tuning from the first transport stream to a second transport stream;
- receiving a last frame of media content in the first transport stream, wherein the last frame immediately precedes the switch point;
- initiating a switch to the second transport stream in response to receiving the last frame of media content while processing the last frame of media content through a decoder;
- upon initiating the switch to the second transport stream, receiving a first frame of media content in the second transport stream; and
- processing the first frame through the decoder.
2. The method of claim 1, further comprising outputting the last frame from an output of the decoder and disabling the output of the decoder.
3. The method of claim 1, wherein processing the first frame through the decoder further comprises enabling the output of the decoder to output the first frame.
4. The method of claim 1, wherein initiating the switch to the second transport stream further comprises:
- moving an inband tuner from receiving the first transport stream to receiving the second transport stream; and
- acquiring the second transport stream.
5. The method of claim 1, wherein processing the last frame of media content through the decoder is performed simultaneously with initiating the switch to the second transport stream.
6. The method of claim 1, wherein the first transport stream includes MPEG audio/video content for a first service, and wherein the second transport stream includes MPEG audio/video content for a second service.
7. The method of claim 1, wherein the first transport stream and the second transport stream use a shared buffer, wherein the receiving of the last frame stores the last frame in the shared buffer, and wherein the receiving of the first frame stores the first frame in the shared buffer.
8. A system for addressable advertising, the system comprising:
- a hardware processor that is configured to: detect a trigger in a first transport stream, wherein the trigger determines a location in the first transport stream that is a switch point for tuning from the first transport stream to a second transport stream; receive a last frame of media content in the first transport stream, wherein the last frame immediately precedes the switch point; initiate a switch to the second transport stream in response to receiving the last frame of media content while processing the last frame of media content through a decoder;
- upon initiating the switch to the second transport stream, receive a first frame of media content in the second transport stream; and
- process the first frame through the decoder.
9. The system of claim 8, wherein the hardware processor is further configured to output the last frame from an output of the decoder and disable the output of the decoder.
10. The system of claim 8, wherein the hardware processor is further configured to process the first frame through the decoder by enabling the output of the decoder to output the first frame.
11. The system of claim 8, wherein the hardware processor is further configured to initiate the switch to the second transport stream by:
- moving an inband tuner from receiving the first transport stream to receiving the second transport stream; and
- acquiring the second transport stream.
12. The system of claim 8, wherein the hardware processor is further configured to simultaneously process the last frame of media content through the decoder and initiate the switch to the second transport stream.
13. The system of claim 8, wherein the first transport stream includes MPEG audio/video content for a first service, and wherein the second transport stream includes MPEG audio/video content for a second service.
14. The system of claim 8, wherein the first transport stream and the second transport stream use a shared buffer, wherein the receiving of the last frame stores the last frame in the shared buffer, and wherein the receiving of the first frame stores the first frame in the shared buffer.
15. A non-transitory computer-readable medium, comprising computer-executable instructions that, when executed on a computing device, perform a method for addressable advertising, the method comprising:
- detecting a trigger in a first transport stream, wherein the trigger determines a location in the first transport stream that is a switch point for tuning from the first transport stream to a second transport stream;
- receiving a last frame of media content in the first transport stream, wherein the last frame immediately precedes the switch point;
- initiating a switch to the second transport stream in response to receiving the last frame of media content while processing the last frame of media content through a decoder;
- upon initiating the switch to the second transport stream, receiving a first frame of media content in the second transport stream; and
- processing the first frame through the decoder.
16. The non-transitory computer-readable medium of claim 15, wherein the method further comprises outputting the last frame from an output of the decoder and disabling the output of the decoder.
17. The non-transitory computer-readable medium of claim 15, wherein the processing the first frame through the decoder further comprises enabling the output of the decoder to output the first frame.
18. The non-transitory computer-readable medium of claim 15, wherein initiating the switch to the second transport stream further comprises:
- moving an inband tuner from receiving the first transport stream to receiving the second transport stream; and
- acquiring the second transport stream.
19. The non-transitory computer-readable medium of claim 15, wherein processing the last frame of media content through the decoder is performed simultaneously with initiating the switch to the second transport stream.
20. The non-transitory computer-readable medium of claim 15, wherein the first transport stream includes MPEG audio/video content for a first service, and wherein the second transport stream includes MPEG audio/video content for a second service.
21. The non-transitory computer-readable medium of claim 15, wherein the first transport stream and the second transport stream use a shared buffer, wherein the receiving of the last frame stores the last frame in the shared buffer, and wherein the receiving of the first frame stores the first frame in the shared buffer.
Type: Application
Filed: Jun 15, 2015
Publication Date: Oct 1, 2015
Inventors: Brian J. Copley (Mansfield, MA), Jeremy J. Mazzariello (Pelham, NH)
Application Number: 14/740,054