ADVERTISEMENT INSERTION DURING APPLICATION LAUNCH IN HANDHELD, MOBILE DISPLAY DEVICES

Abstract

A time delay that occurs when an application is launched in a mobile handheld display device (MHDD), when the application or content is downloaded, before the MHDD is ready for the user to interact with it, wastes the user's time and, in an embodiment of the invention, this time delay constitutes an interval that is used to display targeted advertisements that are already stored on the MHDD, and that are rendered and displayed to the user on the screen while the user waits for completion of downloading of the application or content to the MHDD. An embodiment of the invention provides a micro-splicer that inserts alternate content for display on an MHDD, and renders and displays pre-stored advertisements during application launch time.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 12/494,097, entitled Advertisement Insertion During Application Launch in Handheld, Mobile Display Devices, filed Jun. 29, 2009, which is a Continuation-In-Part of U.S. patent application Ser. No. 11/828,204, entitled Micro-Splicer for Inserting Alternate Content to a Content Stream on a Handheld Device, filed Jul. 25, 2007, which claims priority to U.S. Provisional Patent Application Ser. No. 60/834,039, entitled Micro-Splicer in Mobile Device, filed Jul. 29, 2006, each of which is incorporated herein in its entirety by this reference thereto.

BACKGROUND OF THE INVENTION

1. Technical Field

The invention relates to insertion of content into multimedia streams. More specifically, the invention relates to the rendering of focused advertisements and alternate content for viewing by a target audience on a mobile handheld display device; and, more particularly, to the insertion of alternate content during a startup delay associated with application download and buffering, prior to program start, via wireless connection.

2. Description of the Background Art

The availability and growth of usage of handheld mobile display devices (MHDD), such as the personal digital assistant (PDA) and the cell phone, is revolutionizing digital multimedia content viewing ability and user experience. Alternate content, including advertisements to be viewed with any active content, is typically downloaded and stored in the MHDD for insertion into predefined advertisement spots (ad spots) during actual user viewing of content. The insertion of alternate content into an active content stream at a specified ad spot is effected by a micro-splicer instantiated on the MHDD. The content to be viewed is thus buffered on the MHDD before the user begins actual content viewing.

The MHDD is becoming a major contender for running normal application programs. Due to the lack of storage capability on the MHDD, typical application programs are downloaded onto the MHDD via a wireless connection at the time of use. The variable nature of the available bandwidth that connects the MHDD to the source or transmitter of the content/application necessitates the downloading and storing of programs in the local memory of the MHDD, and then running the content/application from the MHDD's local memory.

There is also a time delay associated with any application download. As noted above, the time it takes to download any program or content depends on the available bandwidth. This time is currently wasted time for the user, who has to wait idly for completion of program or content downloading.

It would be advantageous to provide a way for effectively using this wait time by providing content and/or alternate content from a targeted advertisement gateway to a user, where such content and/or alternate content is based on an advertising program, and on the characteristics of the user or a specific group of individuals.

It would be further advantageous if such a solution would allow for intelligent use of the available bandwidth of a multicast wireless broadcasting system to provide improved advertising campaign efficiency.

SUMMARY OF THE INVENTION

A time delay occurs when an application is launched in any mobile handheld display device (MHDD), while the application or content is being downloaded, and before the MHDD is ready for the user to interact with it. This time delay wastes the user's time, and is better used if targeted advertisements that are already stored on the MHDD can be rendered and displayed to the user on the screen while the user waits for completion of downloading of the application or content to the MHDD. An embodiment of the invention provides a micro-splicer that inserts alternate content for display on an MHDD, and renders and displays pre-stored advertisements during application launch time.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram showing entities involved in rendering and display of alternate content during available advertisement spots according to the invention;

FIG. 2 is flow diagram showing operation of a micro-splicer for alternate content during the download of an application program to an MHDD according to the invention; and

FIG. 3 is a flow diagram showing operation of the insertion and display of alternate content during program download according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

A time delay occurs when an application is launched in any mobile handheld display device (MHDD), while the application or content is being downloaded, and before the MHDD is ready for the user to interact with it. the MHDD requires a specific amount of data to be available to provide quality viewing by the user on rendering and displaying on said MHDD. Typically there is a time delay for this amount of data to be received over the wireless connection. This time delay wastes the user's time, and is better used if targeted advertisements that are already stored on the MHDD can be rendered and displayed to the user on the screen while the user waits for completion of downloading of the application or content to the MHDD. An embodiment of the invention provides a micro-splicer that inserts alternate content for display on an MHDD, and renders and displays pre-stored advertisements during application launch time.

An embodiment of the invention makes good use of the time that it takes to download an application program and/or content into the MHDD, which time is otherwise wasted, by inserting, rendering, and displaying to a user of the MHDD gateway content or focused advertisements that are pre-stored on the MHDD as alternate content. The MHDD having built in capability for communication, downloading, processing, storage and display of multimedia content. As part of this capability a micro-splicer is previously instantiated on the MHDD and provides for insertion of the alternate content into a content stream, thus enabling alternate content insertion into the MHDD's display buffer during program downloading. On completion of program downloading, when the application is ready for operation by the user, and after display of the alternate content is completed, the application is launched from the MHDD's program storage. The alternate content is intended for a target audience and can comprise targeted advertisements or alternate content that was previously downloaded and stored on the MHDD, prior to the initiation of the program download. The micro-splicer inserts the chosen alternate content or advertisements into the MHDD's display buffer and displays same to the user while the user is waiting for the application to launch.

More specifically, an embodiment of the invention provides a method and apparatus that inserts alternate digital content for rendering and display on MHDDs during application download. In one embodiment, the micro-splicer is used for rendering and display of digital content on the MHDD during program downloading time. Such digital content can include, for example, advertisements, preference-based content, banners, public announcements, emergency notifications, etc. A sensor component continuously looks for the end-of-file indication or availability of sufficient data for quality display for start of an application program that is being downloaded, and provides this data regarding the end-of-file or sufficiency of data for rendering indication to the micro-splicer. The micro-splicer uses the program downloading time between the start of download, initiated by the user, and the end of the download, as shown by the end-of-file indication or data sufficiency indication in the down loaded program storage location, to render and display alternate content to a user of the MHDD from a local alternate content buffer memory. In one embodiment, the micro-splicer uses the otherwise wasted time during program download and launch on the MHDD, based upon meta-data previously supplied to the micro-splicer.

FIG. 1 is a block diagram showing the entities that participate in a micro-splicing operation in accordance with the U.S. patent application Ser. No. 11/828,204, entitled Micro-splicer for Inserting Alternate Content to a Content Stream on a Handheld device, and filed on 25 Jul. 2007, which application is incorporated herein in its entirety by this reference thereto. FIG. 1, however, is not limited to the previously known microsplicing operation and also shows a microsplicing operation in accordance with the invention herein, as discussed below. In FIG. 1, the main entity blocks of the micro-splicing architecture of a MHDD 100 comprise the alternate content scheduler 133 and the micro-splicer 113. The alternate content scheduler (scheduler) 133 receives alternate content and related metadata 180 over a broadcast or a unicast channel. The alternate content scheduler 133 helps to synchronize content switching on the MHDD by notifying the micro-splicer 113 of program download initiation and download status, as obtained from the status register 108 and the file download data store 134, 134A. The alternate content scheduler 133 also prepares appropriate locally-stored file content for decoding and pre-buffering pursuant to rendering such content on the MHDD.

The micro-splicer 113 acts as a thin pipe in the mobile media player 110 architecture. When a program is initiated, it can either be streamed to the MHDD from the Internet or launched from a program store in the MHDD. If, in the current example, the program streams 160 are received over the air, then the program is decrypted in the content description module 111 and fed into a local program buffer 134A, instead of to the content buffer 114, for display. During this process, the micro-splicer 113 provides alternate content from the alternate content store 180 to the content buffer 114 for display on the MHDD.

When the program file download is complete, the program is transferred from the file download register 134 to the program store 134A. On receipt of file download completion and transfer status for the program file from the status register 108, the micro-splicer 113 stops any additional alternate content flow to the display buffer. On completion of the current alternate content insertion, the micro-splicer instructs the mobile media player 110 to check on the program implementation and to start rendering the program file from the program store 134A, as needed, to the display buffer 114. The micro-splicer 113, in tandem with the alternate content scheduler 133, makes the downloaded program stream active and displays the downloaded content, once the display of the alternate content is complete. Plug-ins are either previously installed in, or downloaded to, the media player and enabled as necessary.

When a mobile TV service is enabled for the MHDD, program streams flow via a broadcast channel into the MHDD. A mobile TV service library on the MHDD conveys the IP address and port of the device by which content is rendered to the MHDD. The micro-splicer 113 conveys program-stream metadata information to the alternate content scheduler library for channel or program specific alternate content insertion.

FIG. 2 is a flow diagram showing a micro-splicing architecture for alternate content insertion during initial program downloading time according to an embodiment of the invention. The alternate content scheduler 133 contains information regarding the program that is currently downloading to the MHDD.

The alternate content scheduler fetches previously received, decoded, and stored metadata 95 concerning alternate content, such as pre-stored ads 104, that is to be inserted during program downloading. The metadata on the alternate content that is to be displayed is defined by currently running advertisement campaigns, and is delivered to the MHDD for storage on the MHDD. The alternate content can be, for example, programs, messages, or content from entities (sponsored media), such as advertisements to be rendered in the available time period during program download and for initiation as per an advertisement campaign policy.

The operation of the insertion and display of alternate content, using the apparatus as shown in FIG. 1, during program download is shown in FIG. 3 and is as follows:

• • The MHDD initiates a new program download (300).
  • The MHDD receives alternate content metadata, typically as the initial part of the program download (310).
  • The received metadata is decrypted, decoded, and stored in the alternate content scheduler 133 (320).
  • The file download status monitor 108 maintains status of the file download, and provides status information to the alternate content scheduler at the start of the program download (330).
  • The MHDD starts receiving a program file from the mobile video provider (340).
  • The program file received is decrypted and stored in the content/program buffer 90 (350).
  • The alternate content scheduler 133 receives the status on downloading of the new program and instructs the micro-splicer 113 to load the alternate content into the display buffer 114 of the MHDD for display on the display 130 of the MHDD (360).
  • The alternate content in the display buffer 114 is displayed on the display 130 (370).
  • The file download status monitor 108 continues monitoring of the status of the file download during the download process until the end of the program download (380).
  • The alternate content scheduler 133 instructs the micro-splicer 113 to stop loading alternate content into the display buffer (390) when it receives the download completion status from the status monitor.
  • Once the current alternate content display is complete, the micro-splicer 113 loads the application program into the display buffer 144 to run the program, and to display the program on the MHDD display 130 (400).
  • The micro-splicer 113 connects the program to the display buffer memory to allow the user to interact with the program, thus enabling program execution (410).

Although the invention is described herein with reference to the preferred embodiment, one skilled in the art will readily appreciate that other applications may be substituted for those set forth herein without departing from the spirit and scope of the present invention. Accordingly, the invention should only be limited by the Claims included below.

Claims

1. An apparatus comprising:

a micro-splicer adapted to render and display an alternate multimedia content and a program on a mobile handheld display (MHDD) in response to instructions received from an alternate content scheduler;

a status register adapted to monitor status of a program download into a program buffer, in communication with said micro-splicer and said status register, and adapted to store said program after it is downloaded to said MHDD;

the status register monitoring a start of the download of said program, said program in said program buffer, while the program is being downloaded, program download completion, and program launch, and further adapted to continue to monitor a the program buffer and detect when stored program streams in said program buffer are sufficient to render and display on said MHDD; and

an alternate content scheduler, in communication with said micro-splicer and said status register, and adapted to switch said MHDD display between said alternate multimedia content and said program in response to said start of a download of said program, said program download while the program is being downloaded, program download completion and program launch status information, said scheduler adapted to synchronize insertion of said alternate multimedia content with the status of said program launch;

a storage to which said alternate multimedia content to be displayed during program downloading and prior to program launch is downloaded and saved on said MHDD; and

said alternate content scheduler adapted to select alternate multimedia content to be displayed during program download and launch in response to metadata provided to said MHDD prior to said program launch and adapted to stop loading said alternate multimedia content into said MHDD display buffer in response to receiving status information by said status register.

2. A method comprising:

rendering and displaying, by a micro-splicer, an alternate multimedia content and a multimedia program on a mobile handheld display (MHDD) in response to instructions received from an alternate content scheduler;

monitoring status, by a status register, of a start of a download of said program, said program download while the program is being downloaded, program download completion, and program launch, and adapted to continue to monitor a program buffer and detect when stored program streams in said program buffer are sufficient to render and display on said MHDD;

storing the program in the program buffer, in communication with said micro-splicer and said status register, adapted to store said program after it is downloaded to said MHDD; and

providing an alternate content scheduler, in communication with said micro-splicer and said status register, adapted to switch said MHDD display between said alternate multimedia content and said program in response to said start of a download of said program, said program download while the program is being downloaded, program download completion and program launch status information, said scheduler adapted to synchronize insertion of said alternate multimedia content with completion of said program launch;

providing a storage to which said alternate multimedia content to be displayed during program downloading and prior to program launch is downloaded and saved on said MHDD; and

selecting, by said scheduler, alternate multimedia content to be displayed during program download and launch in response to metadata provided to said MHDD prior to said program launch and adapted to stop loading said alternate multimedia content into said MHDD display buffer in response to receiving status information by said status register.

3. An architecture to insert alternate multimedia content in a mobile handheld digital device (MHDD), said MHDD enabled with onboard processing capability for communication, storage, computation and display, comprising:

a micro-splicer adapted for switching the rendering and display on said MHDD between display of said alternate multimedia content and downloaded program content;

a status register for monitoring status of a start of a download of said program, said program download while the program is being downloaded, program download completion, and program launch, and for continuing to monitor a program buffer and for detecting when stored program streams in said program buffer are sufficient to render and display on said MHDD; and

a scheduler adapted to receive and store said alternate multimedia content and related metadata over any of a broadcast and a unicast channel, said scheduler adapted to synchronize content switching on said MHDD between display of said alternate multimedia content and said downloaded program content, in response to receiving status information by said status register, by notifying said micro-splicer of program download initiation and download status, as obtained from said status register; such that said multimedia content is inserted and displayed on said MHDD during downloading and launching of program on said MHDD.

4. An apparatus for synchronized insertion of alternate multimedia content into a mobile handheld display device (MHDD) for display to a user of said MHDD, said MHDD enabled with processing capability for communication, storage, computation and display, comprising:

said MHDD adapted to download over a wireless network link alternate multimedia content and store said alternate multimedia content in an alternate content buffer in said MHDD prior to downloading a program over said wireless network link to said MHDD;

said MHDD adapted to receive metadata over said wireless network link prior to downloading said program, said metadata comprising information on which particular alternate multimedia content of said downloaded alternate multimedia content to display on said MHDD during said downloading of said program;

said MHDD adapted to decrypt, decode, and save said metadata on said MHDD in an alternate content scheduler;

said MHDD adapted to initiate said downloading of said program to said MHDD;

said MHDD adapted to receive, responsive to said initiating said downloading, program streams of said program over said wireless network link;

said MHDD adapted to decrypt, decode, and store, responsive to said MHDD receiving said program streams, said program streams on said MHDD in a program store till data in said program store is sufficient for rendering and display on said MHDD;

providing a program download status register adapted to inform, responsive to said initiating said downloading, said alternate content scheduler of said initiating said downloading said program, wherein said program download status register monitors a start of a program downloading on said MHDD;

said alternate content scheduler adapted to select, responsive to said informing said alternate content scheduler, a particular alternate multimedia content of said downloaded alternate multimedia content and associated with said program, said selecting based on said metadata;

said alternate content scheduler adapted to load, responsive to said selecting said particular alternate multimedia content, an MHDD display buffer with said stored particular alternate multimedia content;

a micro-splicer adapted to render and display said particular alternate multimedia content on said MHDD in response to instructions received by said micro-splicer from said alternate content scheduler;

subsequent to said initiating said downloading, said program download status register adapted to continue to monitor said program store and detect when said stored program streams on said program store are sufficient to render and display on said MHDD;

responsive to detecting that said stored program streams on said program store are sufficient to render and display, said program download status register adapted to inform said alternate content scheduler of said detection;

responsive to receiving said informing by said program download status register, said alternate content scheduler adapted to stop said loading said particular alternate multimedia content into said MHDD display buffer;

subsequent to said stopping loading said particular alternate multimedia content into said MHDD display buffer adapted to load said stored program streams into said MHDD display buffer from said program store based on instructions from said scheduler; and

said micro-splicer adapted to render and display said program streams on said MHDD from said MHDD display buffer;

such that said particular alternate multimedia content is inserted in a synchronized fashion into said MHDD and displayed during downloading of said program on said MHDD.

5. The apparatus of claim 4, said micro-splicer adapted to:

initiate rendering and starting display of program content only after completion of rendering and display of a currently rendered and displayed alternate multimedia content.

6. An apparatus to insert and display alternate content in a mobile handheld digital device (MHDD), said MHDD enabled with onboard processing capability for communication, storage, computation and display, in addition to program execution, comprising:

said MHDD adapted to initiate a program download over a wireless network;

said MHDD adapted to receive alternate content metadata;

the onboard processing power of the MHDD adapted to decrypt and decode said received metadata and store said decrypted and decoded metadata in an alternate content buffer linked to a scheduler;

a file download status monitor adapted to maintain, responsive to said initiating said program download and while said program is being downloaded by said MHDD, status information of said program download and provide said status information to said scheduler from a start of said program download;

wherein said program download comprises: said MHDD receiving a program file from a mobile video provider over said wireless network; and decrypting said program file and storing said decrypted program file in a content/program buffer;

said scheduler, responsive to said scheduler receiving said status information of said program download and based on said alternate content metadata, adapted to instruct a micro-splicer to load alternate content into a display buffer of the MHDD for display on a display of the MHDD;

said MHDD display adapted to display said alternate content in said display buffer;

said file download status monitor adapted to continue, while said alternate content is displayed on said MHDD display, to maintain status information of said program download until detecting an end of said program download or detecting sufficient data in said content/program buffer;

said scheduler adapted to instruct said micro-splicer to stop loading said alternate content into said display buffer when it receives a download completion status from said file download status monitor;

said micro-splicer adapted to load, once said alternate content display is complete, said program into said display buffer and display said program on said MHDD display.