WO2007131069A2 - Fuzzy logic based viewer identification - Google Patents
Fuzzy logic based viewer identification Download PDFInfo
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- WO2007131069A2 WO2007131069A2 PCT/US2007/068076 US2007068076W WO2007131069A2 WO 2007131069 A2 WO2007131069 A2 WO 2007131069A2 US 2007068076 W US2007068076 W US 2007068076W WO 2007131069 A2 WO2007131069 A2 WO 2007131069A2
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/45—Management operations performed by the client for facilitating the reception of or the interaction with the content or administrating data related to the end-user or to the client device itself, e.g. learning user preferences for recommending movies, resolving scheduling conflicts
- H04N21/466—Learning process for intelligent management, e.g. learning user preferences for recommending movies
- H04N21/4662—Learning process for intelligent management, e.g. learning user preferences for recommending movies characterized by learning algorithms
- H04N21/4666—Learning process for intelligent management, e.g. learning user preferences for recommending movies characterized by learning algorithms using neural networks, e.g. processing the feedback provided by the user
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q30/00—Commerce
- G06Q30/02—Marketing; Price estimation or determination; Fundraising
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04H—BROADCAST COMMUNICATION
- H04H20/00—Arrangements for broadcast or for distribution combined with broadcast
- H04H20/10—Arrangements for replacing or switching information during the broadcast or the distribution
- H04H20/106—Receiver-side switching
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04H—BROADCAST COMMUNICATION
- H04H60/00—Arrangements for broadcast applications with a direct linking to broadcast information or broadcast space-time; Broadcast-related systems
- H04H60/35—Arrangements for identifying or recognising characteristics with a direct linkage to broadcast information or to broadcast space-time, e.g. for identifying broadcast stations or for identifying users
- H04H60/45—Arrangements for identifying or recognising characteristics with a direct linkage to broadcast information or to broadcast space-time, e.g. for identifying broadcast stations or for identifying users for identifying users
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/20—Servers specifically adapted for the distribution of content, e.g. VOD servers; Operations thereof
- H04N21/25—Management operations performed by the server for facilitating the content distribution or administrating data related to end-users or client devices, e.g. end-user or client device authentication, learning user preferences for recommending movies
- H04N21/258—Client or end-user data management, e.g. managing client capabilities, user preferences or demographics, processing of multiple end-users preferences to derive collaborative data
- H04N21/25866—Management of end-user data
- H04N21/25883—Management of end-user data being end-user demographical data, e.g. age, family status or address
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/20—Servers specifically adapted for the distribution of content, e.g. VOD servers; Operations thereof
- H04N21/25—Management operations performed by the server for facilitating the content distribution or administrating data related to end-users or client devices, e.g. end-user or client device authentication, learning user preferences for recommending movies
- H04N21/258—Client or end-user data management, e.g. managing client capabilities, user preferences or demographics, processing of multiple end-users preferences to derive collaborative data
- H04N21/25866—Management of end-user data
- H04N21/25891—Management of end-user data being end-user preferences
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/20—Servers specifically adapted for the distribution of content, e.g. VOD servers; Operations thereof
- H04N21/25—Management operations performed by the server for facilitating the content distribution or administrating data related to end-users or client devices, e.g. end-user or client device authentication, learning user preferences for recommending movies
- H04N21/266—Channel or content management, e.g. generation and management of keys and entitlement messages in a conditional access system, merging a VOD unicast channel into a multicast channel
- H04N21/2668—Creating a channel for a dedicated end-user group, e.g. insertion of targeted commercials based on end-user profiles
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- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/442—Monitoring of processes or resources, e.g. detecting the failure of a recording device, monitoring the downstream bandwidth, the number of times a movie has been viewed, the storage space available from the internal hard disk
- H04N21/44213—Monitoring of end-user related data
- H04N21/44218—Detecting physical presence or behaviour of the user, e.g. using sensors to detect if the user is leaving the room or changes his face expression during a TV program
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- H—ELECTRICITY
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- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
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- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/442—Monitoring of processes or resources, e.g. detecting the failure of a recording device, monitoring the downstream bandwidth, the number of times a movie has been viewed, the storage space available from the internal hard disk
- H04N21/44213—Monitoring of end-user related data
- H04N21/44222—Analytics of user selections, e.g. selection of programs or purchase activity
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/45—Management operations performed by the client for facilitating the reception of or the interaction with the content or administrating data related to the end-user or to the client device itself, e.g. learning user preferences for recommending movies, resolving scheduling conflicts
- H04N21/466—Learning process for intelligent management, e.g. learning user preferences for recommending movies
- H04N21/4667—Processing of monitored end-user data, e.g. trend analysis based on the log file of viewer selections
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- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/60—Network structure or processes for video distribution between server and client or between remote clients; Control signalling between clients, server and network components; Transmission of management data between server and client, e.g. sending from server to client commands for recording incoming content stream; Communication details between server and client
- H04N21/63—Control signaling related to video distribution between client, server and network components; Network processes for video distribution between server and clients or between remote clients, e.g. transmitting basic layer and enhancement layers over different transmission paths, setting up a peer-to-peer communication via Internet between remote STB's; Communication protocols; Addressing
- H04N21/633—Control signals issued by server directed to the network components or client
- H04N21/6338—Control signals issued by server directed to the network components or client directed to network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/80—Generation or processing of content or additional data by content creator independently of the distribution process; Content per se
- H04N21/81—Monomedia components thereof
- H04N21/812—Monomedia components thereof involving advertisement data
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- H04H—BROADCAST COMMUNICATION
- H04H2201/00—Aspects of broadcast communication
- H04H2201/70—Aspects of broadcast communication characterised in that receivers can be addressed
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04H—BROADCAST COMMUNICATION
- H04H60/00—Arrangements for broadcast applications with a direct linking to broadcast information or broadcast space-time; Broadcast-related systems
- H04H60/61—Arrangements for services using the result of monitoring, identification or recognition covered by groups H04H60/29-H04H60/54
- H04H60/63—Arrangements for services using the result of monitoring, identification or recognition covered by groups H04H60/29-H04H60/54 for services of sales
Definitions
- the present invention relates generally to targeted delivery of assets, such as advertisements or other content, in a communications network.
- the invention relates to identifying a current network user and matching assets to the user.
- Broadcast network content or programming is commonly provided in conjunction with associated informational content or assets. These assets include advertisements, associated programming, public-service announcements, ad tags, trailers, weather or emergency notifications and a variety of other content, including paid and unpaid content.
- asset providers e.g., advertisers
- information e.g., advertisements or "ads”
- advertisers who wish to convey information (e.g., advertisements or "ads") regarding services and/or products to users of the broadcast network often pay for the right to insert their information into programming of the broadcast network.
- advertisers may provide ad content to a network operator such that the ad content may be interleaved with broadcast network programming during one or more programming breaks.
- the delivery of such paid assets often subsidizes or covers the costs of the programming provided by the broadcast network. This may reduce or eliminate costs borne by the users of the broadcast network programming.
- asset providers In order to achieve a better return on their investment, asset providers often try to target their assets to a selected audience that is deemed likely to be interested in the goods or services of the asset provider.
- the case of advertisers on a cable television network is illustrative. For instance, an advertiser or a cable television network may target its ads to certain demographic groups based on, for example, geographic location, gender, age, income etc. Accordingly, once an advertiser has created an ad that is targeted to a desired group of viewers (e.g., targeted group) the advertiser may attempt to procure insertion times in the network programming when the targeted group is expected to be among the audience of the network programming. More recently, it has been proposed to target assets to individual households.
- the present invention enables such functionality in the context of asset delivery in communications networks, including cable television networks. Moreover, such functionality can be executed transparently, from the perspective of the network user, based on monitoring ordinary network usage activities, for example, as indicated by a click stream of a remote control. Moreover, the present invention allows such functionality to be implemented in substantially real-time, using limited processing resources.
- the user identification functionality can be executed by an application running on a conventional digital set top box.
- the invention also provides a mechanism for signaling the network in relation to the user identification process, for example, to enhance selection of assets for insertion into network content streams or to report information for evaluating size and composition of the audience actually reached.
- a method and apparatus uses machine learning, e.g., fuzzy logic, to match assets to current users.
- the utility involves identifying an asset having a target audience defined by one or more targeting parameters and matching the identified asset to a current user of a user equipment device using a machine learning system.
- the targeting parameters may define certain demographic values of a target audience of a television commercial.
- the machine learning system preferably involves identifying classification parameters of at least one user based on evidence aggregated from user inputs collected in a learning mode. These inputs may, for example, be analyzed based on correlated programming information, or based on programming independent characteristics, e.g., volume settings or quickness of the click process.
- Fuzzy logic may be used to match assets to current users.
- the fuzzy logic used to match the asset to the current user may involve either or both of fuzzy sets and fuzzy rules.
- the noted matching may involve using fuzzy logic to identify a number of discrete users in an audience (e.g., number of members of a household) and/or to determine one or more classification parameters of a user or users. This may be based on user inputs such as a click stream of a remote control. Thus, user inputs may be monitored and associated with values related to the classification parameter(s). These values can then be treated as points in a fuzzy set.
- the matching function involves monitoring a number of user inputs to aggregate points in a fuzzy set. This matching may involve multiple dimensions related to multiple classification parameters (e.g., age, gender, income, etc.), and the aggregated points may be used to oc et o.: -
- the feature terrain may be processed to remove noise and to reduce the set of gradients in the terrain, for example, by clustering features.
- the remaining features of the processed feature terrain can then be used to identify each user in an audience and determine one or more classification parameters for each user. Similar processing can be used to identify viewing patterns as a function of time (periodicity). For example, different terrains can be developed for different time periods, e.g., different times of day.
- fuzzy logic may be used to develop a characterization of a target audience of a network programming event.
- the target audience of an asset may be defined by a demographic profile including a number of demographic parameter values. These values may be associated with a series of fuzzy numbers or fuzzy sets.
- An additional implementation of fuzzy logic may be used to correlate the fuzzy numbers with classification parameters of putative user. For example, a congruent similarity function may be used to match the audience characterization or targeting parameters to the classification parameters. Similar processing can be used to match a periodicity pattern to an identified user. Alternatively, where different terrains are developed for different times, as noted above, such periodicity is reflected in the terrains; that is, time becomes a dimension of the terrain set.
- a match may be determined based on a combination of the degree of correlation of the user classification parameters to the ad targeting parameters and the likelihood that an appropriate viewer will be watching at the time of the ad delivery.
- the resulting match may be used to "vote" for assets to be inserted into content streams of the network to select ads for delivery and/or to report a "goodness of fit" of a user receiving the asset to the asset targeting parameters.
- the noted utility may also be operative to determine whether the user equipment device is "on” and to determine whether any user is present at the user equipment device.
- the user inputs or click stream data can be processed at the user equipment device or at another location, e.g., raw or preprocessed click stream data may be transmitted to a head end for processing to determine classification parameter information. For example, this may be done where messaging bandwidth is sufficient and user equipment device resources are limited.
- the machine learning system may be a substantially unsupervised system. That is, the system can accumulate evidence and thereby learn a composition of a user set, such as a viewing audience, without requiring a training oc et o.: -
- the system can readily adapt to changes, e.g., changes in the viewing audience or viewing audience demographics due to, for example, additions to or departures from the household, changing demographics due to aging, change of income, etc., addition of a television set (e.g., in a child's room) that impacts viewership, etc.
- the system can operate substantially autonomously, thereby substantially avoiding the need for any supervised set-up or retraining process.
- functionality for identifying a user can be executed at a user equipment device. It has been recognized that a current user can be effectively identified based on analysis of user inputs at a user equipment device.
- An associated utility in accordance with the present invention involves receiving user inputs at the user equipment device and analyzing the inputs to associate audience classification parameters with the user using a machine learning system.
- the inputs may relate to a click stream of a remote control device reflecting program selections, volume control inputs and the like.
- the machine learning system is preferably capable of learning in a substantially unsupervised fashion. Fuzzy logic can be used to analyze these inputs on an individual basis to obtain evidence concerning the classification parameters of the user. This evidence can then be aggregated and analyzed using fuzzy logic to determine classification parameters of a user.
- a current user of a communications network can be identified without requiring persistent storage of user profiles. This is advantageous in a number of respects.
- a persistent profile is not required, any privacy concerns are reduced.
- a persistent profile is not required to make identifications, the system is effective not only to identify known users but also to identify unknown users.
- the system is adapted to quickly converge on classification parameters based on contemporaneous user inputs such that errors due to user changes are reduced.
- An associated utility involves developing a model of a network user based on user inputs free from persistent storage of a profile of the user and using the model of the network user in targeting assets to the user.
- recent user inputs may be analyzed using machine learning, e.g., involving fuzzy logic, to determine classification parameters of a current user.
- a user equipment device is operative to signal a broadcast network regarding a user of the device.
- An associated utility involves determining, at the user equipment device, user information regarding the user of the device based at least in part on user inputs to the device, and signaling the broadcast network based on user information.
- the user information may include classification parameters of the user.
- the signals transmitted to the broadcast network may reflect the results of a matching process whereby user classification information is compared to targeting information for an asset.
- the information transmitted across the network need not include any classification information regarding the user.
- Such signaling information may be used, for example, to vote for assets to be inserted into network content streams or to report information regarding assets actually delivered at the user equipment device, e.g., for measuring the size and/or composition of the audience.
- Fig. 1 illustrates delivery of assets to different users watching the same programming channel.
- Fig. 2 illustrates audience aggregation across multiple programming networks.
- Fig. 3 illustrates a virtual channel in the context of audience aggregation.
- Fig. 4 illustrates targeted asset insertion being implemented at Customer Premises
- CPEs CPEs
- Fig. 5 illustrates asset options being transmitted from a headend on separate asset channels.
- Fig. 6 illustrates a messaging sequence between a CPE, a network platform, and a traffic and billing (T&B) system.
- T&B traffic and billing
- Fig. 7A illustrates an example of CPEs that include a television set and a Digital Set Top Box (DSTB) as used by a plurality of users.
- Fig. 7B illustrates a user classifier.
- DSTB Digital Set Top Box
- Fig. 8 is a flow chart illustrating a process for implementing time-slot and targeted impression buys.
- Fig. 9 illustrates an overview of a classifier process in accordance with the present invention.
- Fig. 10 is a stay transition graph illustrating a process for handling click stream data in accordance with the present invention.
- Figs. 11-21 illustrate learning mode operation of the classifier in accordance with the present invention.
- Figs. 22-26 illustrate working mode operation of the classifier in accordance with the present invention.
- Fig. 27 is a block diagram illustrating the basic functional components of the classifier in accordance with the present invention.
- the present invention relates to various structure and functionality for delivery of targeted assets, classification of network users, matching of asset targeting parameters to audience classification parameters and network monitoring for use in a communications network.
- the invention has particular application with respect to networks where content is broadcast to network users.
- content may be broadcast in a variety of networks including, for example, cable and satellite television networks, satellite radio networks, IP networks used for multicasting content and networks used for podcasts or telephony broadcasts/multicasts.
- Content may also be broadcast over the airwaves though, as will be understood from the description below, certain aspects of the invention make use of bi-directional communication channels which are not readily available, for example, in connection with conventional airwave based televisions or radios (i.e., such communication would involve supplemental communication systems).
- the content may be consumed in real time or stored for subsequent consumption.
- the invention is not limited to such contexts but, rather, has application to a variety of networks and transmission modes.
- the targeted assets may include any type of asset that is desired to be targeted to network users. It is noted that such targeted assets are sometimes referred to as "addressable" assets (though, as will be understood from the description below, targeting can be accomplished without addressing in a point-to-point sense).
- these targeted assets may include advertisements, internal marketing (e.g., information about network promotions, scheduling or upcoming events), public service announcements, oc et o.: -
- the targeted assets may be independent or included in a content stream with other assets such as untargeted network programming.
- the targeted assets may be interspersed with untargeted programming (e.g., provided during programming breaks) or may otherwise be combined with the programming as by being superimposed on a screen portion in the case of video programming.
- untargeted programming e.g., provided during programming breaks
- specific examples are provided in the context of targeted assets provided during breaks in television programming. While this is an important commercial implementation of the invention, it will be appreciated that the invention has broader application. Thus, distinctions below between "programming” and “assets” such as advertising should not be understood as limiting the types of content that may be targeted or the contexts in which such content may be provided.
- the present invention relates to identifying members of an audience, determining classification information for those users, determining which user or users may be watching at a time of interest, and matching assets to the identified audience.
- the matching related functionality is useful in a variety of contexts in a targeted asset delivery system. Accordingly, an overview of the targeted asset delivery system is first provided below. Thereafter, the matching related functionality and associated structure is described in detail.
- the inventive system allows for delivery of targeted assets such as advertising so as to address certain shortcomings or inefficiencies of conventional broadcast networks.
- targeted assets such as advertising
- targeting entails delivering assets to desired groups of individuals or individuals having desired characteristics. These characteristics or audience classification parameters may be defined based on personal information, demographic information, psychographic information, geographic information, or any other information that may be relevant to an asset provider in identifying a target audience.
- targeting is program independent in recognition that programming is a highly imperfect mechanism for targeting of assets. For example, even if user analysis indicates that a particular program oc et o.: -
- targeted asset delivery would allow for targeting with a range of granularities including very fine granularities. For example, it may be desired to target a group, such as based on a geographical grouping, a household characterization or even an individual user characterization.
- the present invention accommodates program independent targeting, targeting with a high degree of granularity and targeting based on a variety of different audience classifications .
- Figs. 1 and 2 illustrate two different contexts of targeted asset delivery supported in accordance with the present invention.
- Fig. 1 illustrates the delivery of different assets, in this case ads, to different users watching the same programming channel, which may be referred to as spot optimization.
- three different users 500-502 are depicted as watching the same programming, in this case, denoted "Movie of the Week.”
- the users 500-502 each receive a different asset package.
- user 500 receives a digital music player ad and a movie promo
- user 501 receives a luxury car ad and a health insurance ad
- user 502 receives a minivan ad and a department store ad.
- a single asset provider e.g., a motor vehicle company
- may purchase a spot and then provide different asset options for the spot e.g., sports car, minivans, pickup trucks, etc.
- asset options e.g., sports car, minivans, pickup trucks, etc.
- separate advertisers may collectively purchase a spot and then provide ads for their respective products (e.g., where the target audiences of the advertisers are complementary).
- these different asset packages may be targeted to different audience demographics. In this manner, assets are better tailored to particular viewers of a given program who may fall into different demographic groups.
- spot optimization refers to the delivery of different assets (by one or multiple asset providers) in a given spot.
- Fig. 2 illustrates a different context of the present invention, which may be termed audience aggregation.
- three different users 600-602 viewing different programs associated with different channels may receive the same asset or asset package.
- each of the users 600-602 receives a package including a digital music player ad and a movie promo in connection with breaks associated with their respective channels.
- the users 600-602 are shown as receiving the same asset package for oc et o.: -
- a virtual channel having significant user numbers matching a targeted audience classification.
- audience aggregation allows for the possibility of aggregating users over a number of low share channels to define a significant asset delivery opportunity, perhaps on the order of that associated with one of the high share networks. This can be accomplished, in accordance with the present invention, using equipment already at a user's premises (i.e., an existing CPE).
- equipment already at a user's premises i.e., an existing CPE.
- Such a virtual channel is graphically illustrated in Fig. 3, though this illustration is not based on actual numbers.
- audience aggregation refers to the delivery of the same asset in different spots to define an aggregated audience. These different spots may occur within a time window corresponding to overlapping (conflicting) programs on different channels. In this manner, it is likely that these spots, even if at different times within the window, will not be received by the same users.
- targeted asset insertion can be implemented at the CPEs. This may involve a forward-and-store functionality.
- the CPE 800 receives a programming stream 802 and an asset delivery stream 804 from the headend 808. These streams 802 and 804 may be provided via a common signal link such as a coaxial cable or via separate communications links.
- the asset delivery stream 804 may be transmitted to the CPE 800 via a designated segment, e.g., a dedicated frequency range, of the available bandwidth or via a programming channel that is opportunistically available for asset delivery, e.g., when it is otherwise off air.
- the asset delivery stream 804 may be provided on a continuous or intermittent basis and may be provided concurrently with the programming stream 802.
- the programming stream 802 is processed by a program-decoding unit, such as DSTB, and programming is displayed on television set 814.
- the programming stream 802 may be stored in programming storage 815 for CPE insertion.
- the asset together with metadata identifying, for example, any audience classification parameters of the targeted audience, is stored in a designated storage space 806 of the CPE 800. It will be appreciated that substantial oc et o.: -
- a selector 810 is implemented as a processor running logic on the CPE 800.
- the selector 810 functions analogously to the headend selector described above to identify breaks 816 and insert appropriate assets.
- the assets may be selected based on classification parameters of the household or, more preferably, a user within the household.
- Such information may be stored at the CPE 800 or may be determined based on an analysis of viewing habits such as a click stream from a remote control as will be described in more detail below. Certain aspects of the present invention can be implemented in such a CPE insertion environment.
- a different architecture is employed. Specifically, in Fig. 5, asset options transmitted from headend 910 synchronously with a given break on a given channel for which targeted asset options are supported.
- the CPE 900 includes a channel selector 902, which is operative to switch to an asset channel associated with a desired asset at the beginning of a break and to return to the programming channel at the end of the break.
- the channel selector 902 may hop between channels (between asset channels or between an asset channel and the programming channel) during a break to select the most appropriate assets.
- logic resident on the CPE 900 controls such hopping to avoid switching to a channel where an asset is already in progress. As described below, this logic can be readily implemented, as the schedule of assets on each asset channel is known.
- Fig. 5 has the advantage of not requiring substantial storage resources at the CPE 900 such that it can be immediately implemented on a wide scale basis using equipment that is already in the field.
- the determination of which asset to show may be made at the headend. For example, an asset may be selected based on voting as described below, and inserted at the headend into the programming channel without options on other asset channels. This would achieve a degree of targeting but without spot optimization oc et o.: -
- options may be provided on other asset channels, but the selection as between those channels may be determined by the headend. For example, information about a household or user (e.g., brand of car owned, magazines subscribed to, etc.) stored on the headend may be used to match an asset to a household or user. That information, which may be termed "marketing labels,” may be used by the headend to control which asset is selected by the CPE. For example, the CPE may be instructed that it is associated with an "ACME preferred" customer. When an asset is disseminated with ACME preferred metadata, the CPE may be caused to select that asset, thereby overriding (or significantly factoring with) any other audience classification considerations. However, it will be appreciated that such operation may entail certain concerns relating to sensitive information or may compromise audience classification based targeting in other respects.
- the system of the present invention involves the transmission of asset options in time alignment or synchronization with other assets on a programming channel, where the asset options are at least partially provided via separate bandwidth segments, e.g. channels at least temporarily dedicated to targeted asset delivery.
- asset options may typically be transmitted in alignment with a break in programming, it may be desired to provide options opposite continuing programming (e.g., so that only subscribers in a specified geographic area get a weather announcement, an emergency announcement, election results or other local information while others get uninterrupted programming). Selection as between the available options is implemented at the user's premises, as by a DSTB in this implementation.
- asset options are made available for better targeting, without the requirement for substantial storage resources or equipment upgrades at the user's premises (e.g., as might be required for a forward-and-store architecture).
- existing DSTBs can be configured to execute logic for implementing the system described below by downloading and/or preloading appropriate logic.
- bandwidth identification e.g., identifying bandwidth that is opportunistically available in relation to a node filter
- Efficient use of available bandwidth involves both optimizing the duty cycle or asset density of an available bandwidth segment (i.e., how much time, of the time a bandwidth segment is available for use in transmitting asset options, is the segment actually used for transmitting options) and the value of the options transmitted.
- the former factor is addressed, among other things, by improved scheduling of targeted asset delivery on the asset channels in relation to scheduled breaks of the programming channels.
- Fig. 6 illustrates an associated messaging sequence 1000 in this regard as between a CPE 1002 such as a DSTB, a network platform oc et o.: -
- T&B traffic and billing
- the illustrated sequence begins by loading contract information 1008 from the T&B system 1006 onto the headend 1004.
- An interface associated with system 1006 allows asset providers to execute contracts for dissemination of assets based on traditional time-slot buys (for a given program or given time on a given network) or based on a certain audience classification information (e.g., desired demographics, psychographics, geography, and/or audience size). In the latter case, the asset provider or network may identify audience classification information associated with a target audience.
- the system 1006 uses this information to compile the contract information 1008, which identifies the asset that is to be delivered together with delivery parameters regarding when and to whom the asset is to be delivered.
- the illustrated headend 1004 uses the contract information together with a schedule of breaks for individual networks to compile an asset option list 1010 on a channel-by-channel and break-by-break basis. That is, the list 1010 lists the universe of asset options that are available for voting purposes for a given break on a given programming channel together with associated metadata identifying the target audience for the asset, e.g., based on audience classification information.
- the transmitted list 1010 may encompass all supported programming channels and may be transmitted to all participating users, or the list may be limited to one or a subset of the supported channels e.g., based on an input indicating the current channel or the most likely or frequent channels used by a particular user or group of users.
- the list 1010 is transmitted from the headend 1004 to the CPE 1002 in advance of a break for which options are listed.
- the CPE 1002 submits a vote 1012 back to the headend 1004. More specifically, the CPE 1002 first identifies the classification parameters for the current user(s) and perhaps the current channel being watched, identifies the assets that are available for an upcoming break (for the current channel or multiple channels) as well as the target audience for those assets and determines a "fit" of one or more of those asset options to the current classification. In one implementation, each of the assets is attributed a fit score for the user(s), e.g., based on a comparison of the audience oc et o.: -
- the CPE 1002 issues the vote 1012 indicating the most appropriate asset(s). Any suitable information can be used to provide this indication. For example, all scores for all available asset options (for the current channel or multiple channels) may be included in the vote 1012. Alternatively, the vote 1012 may identify a subset of one or more options selected or deselected by the CPE 1002, with or without scoring information indicating a degree of the match and may further include channel information.
- the headend 1004 instructs CPEs (1002) to return fit scores for the top N asset options for a given spot, where N is dynamically configurable based on any relevant factor such as network traffic levels and size of the audience.
- this voting occurs shortly before the break at issue such that the voting more accurately reflects the current status of network users.
- votes are only submitted for the programming channel to which the CPE is set, and votes are submitted periodically, e.g., every fifteen minutes.
- the headend 1004 compiles votes 1012 from CPEs 1002 to determine a set of selected asset options 1014 for a given break on a supported programming channel. As will be understood from the description below, such votes 1012 may be obtained from all relevant and participating CPEs 1002 (who may be representative of a larger audience including analog or otherwise non-participating users) or a statistical sampling thereof. In addition, the headend 1004 determines the amount of bandwidth, e.g., the number of dedicated asset option channels, that is available for transmission of options in support of a given break for a given programming channel.
- the amount of bandwidth e.g., the number of dedicated asset option channels
- the headend 1004 assembles a flotilla of assets, e.g., the asset options having the highest vote values or the highest weighted vote values where such weighting takes into account value per user or other information beyond classification fit.
- a flotilla may include asset options inserted on the current programming channel as well as on asset channels, though different insertion processes and components may be involved for programming channel and asset channel insertion. It will be appreciated that some assets may be assembled independently or largely independently of voting, for example, certain public service spots or where a certain oc et o.: -
- voting may be unnecessary (though voting may still be used to select the options).
- the flotilla is assembled into sets of asset options for each dedicated asset channel, where the time length of each set matches the length of the break, such that channel hopping within a break is unnecessary.
- the CPE 1002 may navigate between the asset channels to access desired assets within a break (provided that asset starts on the relevant asset channels are synchronized).
- the flotilla matrix (where columns include options for a given spot and rows correspond to channels) need not be rectangular. Stated differently, some channels may be used to provide asset options for only a portion of the break, i.e., may be used at the start of the break for one or more spots but are not available for the entire break, or may only be used after one or more spots of a break have aired.
- a list of the selected assets 1014 and the associated asset channels is then transmitted together with metadata identifying the target audience in the illustrated implementation. It will be appreciated that it may be unnecessary to include the metadata at this step if the CPE 1002 has retained the asset option list 1010.
- This list 1014 is preferably transmitted shortly in advance of transmission of the asset 1016 (which includes sets of asset options for each dedicated contact options channel used to support, at least in part, the break at issue).
- the CPE 1002 receives the list of selected asset options 1014 and associated metadata and selects which of the available options to deliver to the user(s). For example, this may involve a comparison of the current audience classification parameter values (which may or may not be the same as those used for purposes of voting) to the metadata associated with each of the asset options.
- the selected asset option is used to selectively switch the CPE 1002 to the corresponding dedicated asset options channel to display the selected asset 1016 at the beginning of the break at issue.
- One of the asset option sets for example, the one comprised of the asset receiving the highest vote values, may be inserted into the programming channel so that switching is not required for many users.
- the CPE 1002 returns to the programming channel at the conclusion of the break. oc et o.: -
- the system may be designed so that any user input overrides the targeting system. For example, if the user changes channels during a break, the change will be implemented as if the targeting system was not in effect (e.g., a command to advance to the next channel will set the CPE to the channel immediately above the current programming channel, without regard to any options currently available for that channel, regardless of the dedicated asset channel that is currently sourcing the television output).
- the system of the present invention preferably implements a reporting system by which individual CPEs 1002 report back to the headend 1004 what asset or assets were delivered at the CPE 1002 and, optionally, to whom (in terms of audience classification). Additionally, the reports may indicate where (on what programming channel) the asset was delivered and how much (if any) of the asset was consumed.
- Such reports 1018 may be provided by all participating CPEs 1002 or by a statistical sampling thereof. These reports 1018 may be generated on a break-by-break basis, periodically (e.g., every 15 minutes) or may be aggregated prior to transmission to the headend 1004. Reports may be transmitted soon after delivery of the assets at issue or may be accumulated, e.g., for transmission at a time of day where messaging bandwidth is more available. Moreover, such reporting may be coordinated as between the CPEs 1002 so as to spread the messaging load due to reporting.
- the reports 1018 can be used to provide billing information 1020 to the T&B system 1006 for valuing the delivery of the various asset options.
- the billing information 1020 can be used by the T&B system 1006 to determine how large an audience received each option and how well that audience matched the target audience. For example, as noted above, a fit score may be generated for particular asset options based on a comparison of the audience classification to the target audience. This score may be on any scale, e.g., 1-100. Goodness of fit may be determined based on this raw score or based on characterization of this score such as "excellent,” "good,” etc. Again, this may depend on how well an individual audience classification parameter of a user matches a corresponding target audience parameter and/or how many of the target audience parameters are matched by the user's audience classification parameters. This information may in turn be provided to the asset provider, at least in an aggregated form.
- the network operator can bill based on guaranteed delivery of targeted messages or scale the billing rate (or increase delivery) based on goodness of fit as well as audience size.
- the reports (and/or votes) 1018 can also provide a quick and detailed measurement of user distribution over the network that can be used to accurately gauge ratings, share, demographics of audiences and the like.
- this information can be used to provide future audience estimation information 1022, for example, to estimate the total target universe based on audience classification parameters.
- the present invention allows a network operator such as an MSO to sell asset delivery under the conventional asset delivery (time-slot) buy paradigm or under the new commercial impression paradigm or both.
- a particular MSO may choose to sell asset delivery space for the major networks (or for these networks during prime time) under the old time-slot buy paradigm while using the commercial impression paradigm to aggregate users over multiple low market share networks.
- Another MSO may choose to retain the basic time-slot buy paradigm while accommodating asset providers who may wish to fill a given slot with multiple options targeted to different demographics.
- Another MSO may choose to retain the basic time- slot buy paradigm during prime time across all networks while using the targeted impression paradigm to aggregate users at other times of the day.
- the targeted impression paradigm may be used by such MSOs only for this limited purpose.
- Figure 8 is a flow chart illustrating an associated process 1200.
- an asset provider can work with the sales department or other personnel of a system operator or other party who oc et o.: -
- an automated buying system may be employed to interface with such a platform via a system-to-system interface.
- This platform may provide a graphical user interface by which an asset provider can design a dissemination strategy and enter into a corresponding contract for dissemination of an asset.
- the asset provider can then use the interface to select (1204) to execute either a time-slot buy strategy or a targeted impression buy strategy.
- the asset provider can then use the user interface to specify (1206) a network and time-slot or other program parameter identifying the desired air times and frequency for delivery of the asset.
- an asset provider may elect to air the asset in connection with specifically identified programs believed to have an appropriate audience.
- the asset provider may specify that the asset is to appear during the first break or during multiple breaks during the program.
- the asset provider may further specify that the asset is to be, for example, aired during the first spot within the break, the last spot within the break or otherwise designate the specific asset delivery slot.
- the asset provider can use the user interface as described in more detail below to specify (1212) audience classification and other dissemination parameters.
- audience classification parameters the asset provider may specify the gender, age range, income range, geographical location, lifestyle interest or other information of a targeted audience.
- the additional dissemination parameters may relate to delivery time, frequency, audience size, or any other information useful to define a target audience. Combinations of parameters may also be specified. For example, an asset provider may specify an audience size of oc et o.: -
- the targeted asset system of the present invention is operative to target appropriate users. For example, this may involve targeting only selected users of a major network. Additionally or alternatively, this may involve aggregating (1214) users across multiple networks to satisfy the audience specifications. For example, selected users from multiple programming channels may receive the asset within a designated time period in order to provide an audience of the desired size, where the audience is composed of users matching the desired audience classification.
- the user interface preferably estimates the target universe based on the audience classification and dissemination parameters such that the asset provider receives an indication of the likely audience size.
- the aggregation system may also be used to do time of day buys.
- an asset provider could specify audience classification parameters for a target audience and further specify a time and channel for airing of the asset. CPEs tuned to that channel can then select the asset based on the voting process as described herein.
- asset providers may designate audience classification parameters and a run time or time range, but not the programming channel. In this manner, significant flexibility is enabled for designing a dissemination strategy. It is also possible for a network operator to disable some of these strategy options, e.g., for business reasons.
- the targeted asset system of the present invention is operative to provide the asset as an option during one or more time-slots of one or more breaks.
- multiple asset options may be disseminated together with information identifying the target audience so that the most appropriate asset can be delivered at individual CPEs.
- audience aggregation the asset may be provided as an option in connection with multiple breaks on multiple programming channels.
- the system receives and processes (1218) reports regarding actual delivery of the asset by CPEs and information indicating how well the actual audience fit the classification parameters of the target audience.
- the asset provider can then be billed (1220) based on guaranteed delivery and goodness of fit based on actual report information. It will thus be appreciated that a new asset delivery paradigm is defined by which assets are targeted to specific users rather than being associated with oc et o.: -
- PII personally identifiable information
- any information that may entail privacy concerns or identify network usage information may be considered sensitive information.
- the system learns of current network conditions prior to transmission of asset options via votes that identify assets without any sensitive information.
- Reports may also be limited to identifying assets that have been delivered (which assets are associated with target audience parameters) or characterization of the fit of audience classification parameters of a user(s) to a target audience definition. Even if it is desired to associate reports with particular users, e.g., to account for ad skipping as discussed below, such association may be based on an identification code or address not including PII. In any event, identification codes or any other information deemed sensitive can be immediately stripped and discarded or hashed, and audience classification information can be used only in anonymous and aggregated form to address any privacy concerns.
- sensitive information such as a MAC or IP address (which may be included in a designated header field) can be run through a hash function and reattached to the header, for example, to enable anonymous identification of messages from the same origin as may be desired.
- users can be notified of the targeted asset system and allowed to opt in or opt out such that participating users have positively assented to participate.
- FIG. 7A illustrates a theoretical example oc et o.: -
- Arrow 1107 represents a user input stream, such as a click stream from a remote control, over time.
- a first user 1105 in this case a child, uses the television 1100 during a first time period — for example, in the morning.
- Second and third users 1103 and 1104 (designated “father” and “mother”) use the television during time periods 1109 and 1110, which may be, for example, in the afternoon or evening.
- a babysitter 1106 uses the television during a nighttime period in this example.
- targeting based on household demographics would have limited effectiveness. For example, it may be assumed that the child 1105 and father 1103 in many cases would not be targeted by the same asset providers. Moreover, in some cases, multiple users may watch the same television at the same time as indicated by the overlap of time periods 1109-1110. In addition, in some cases such as illustrated by the babysitter 1106 an unexpected user (from the perspective of the targeted asset system) may use the television 1100.
- the system should preferably be operative to distinguish between multiple users of a single set and, in the context of the system described above, vote and report to the network accordingly.
- the system should preferably react over time to changing conditions such as the transitions from use by father 1103 to use by both father and mother 1103 and 1104 to use by only mother 1104.
- the system should also preferably have some ability to characterize unexpected users such as the babysitter 1106. In that case, the system may have no other information to go on other than the click stream 1107.
- the system may also identify time periods where, apparently, no user is present, though the set 1100 may still be on.
- the system also operates free from persistent storage of any user profile or sensitive information so that no third party has a meaningful opportunity to misappropriate such information or discover the private network usage patterns of any of the users 1103-1106 via the targeted asset system.
- Privacy concerns can alternatively be addressed by obtaining consent from users.
- sensitive information including PII can be transmitted across the network and persistently stored for use in targeting. This may allow for compiling a detailed user profile, e.g., at the headend. Assets can then oc et o.: -
- the present invention monitors the click stream over a time window and applies a mathematical model to match a pattern defined by the click stream to predefined audience classification parameters that may relate to demographic or psychographic categories.
- the click stream will indicate programs selected by users, volume and other information that may have some correlation, at least in a statistical sense, to the classification parameters.
- factors such as the frequency of channel changes and the length of time that the user lingers on a particular asset may be relevant to determining a value of an audience classification parameter.
- the system can also identify instances where there is apparently no user present.
- logic associated with the CPE 1101 uses probabilistic modeling, fuzzy logic and/or machine learning to progressively estimate the audience classification parameter values of a current user or users based on the click stream 1107.
- This process may optionally be supplemental based on stored information (preferably free of sensitive information) concerning the household that may, for example, affect probabilities associated with particular inputs.
- each user input event (which involves one or more items of change of status and/or duration information) can be used to update a current estimate of the audience classification parameters based on associated probability values.
- the fuzzy logic may involve fuzzy data sets and probabilistic algorithms that accommodate estimations based on inputs of varying and limited predictive value.
- the click stream is modeled as an incomplete or noisy signal that can be processed to obtain audience classification parameter information. More specifically, a series of clicks over time or associated information can be viewed as a time-based signal.
- This input signal is assumed to reflect a desired signature or pattern that can be correlated to audience classification parameters. However, the signal is assumed to be incomplete or noisy - a common problem in signal processing. Accordingly, filtering techniques are employed to estimate the "true" signal from the input stream and associated algorithms correlate that signal to the desired audience classification information. For example, a nonlinear adaptive filter may be used in this regard. oc et o.: -
- the inputs into the system are primarily a click stream and stored aggregated or statistical data, substantially free of any sensitive information.
- This addresses privacy concerns as noted above but also provides substantial flexibility to assess new environments such as unexpected users.
- the system preferably has a forgetfulness such that recent inputs are more important than older inputs. Either of the noted examples accommodates this objective. It will be appreciated that such forgetfulness allows the system to adapt to change, e.g., from a first user to multiple users to a second user.
- such forgetfulness limits the amount of viewing information that is available in the system at any one time, thereby further addressing privacy concerns, and limits the time period during which such information could conceivably be discovered. For example, information may be deleted and settings may be reset to default values periodically, for example, when the DSTB is unplugged.
- FIG. 7B A block diagram of a system implementing such a user classification system is shown in Fig. 7B.
- the illustrated system is implemented in a CPE 1120 including a user input module 1122 and a classification module 1124.
- the user input module receives user inputs, e.g., from a remote control or television control buttons, that may indicate channel selections, volume settings and the like. These inputs are used together with programming information 1132 (which allows for correlation of channel selections to programming and/or associated audience profiles) for a number of functions.
- programming information 1132 which allows for correlation of channel selections to programming and/or associated audience profiles
- the presence detector 1126 determines whether it is likely that a user is present for all or a portion of an asset that is delivered.
- the classifier 1128 develops audience classification parameters for one or more users of a household as discussed above.
- the user identifier is operative to estimate which user, of the classified users, is currently present.
- these modules 1126, 1128 and 1130 provide audience classification information that can be used to vote (or elect not to vote) and/or generate reports (or elect not to generate reports).
- one of the audience classifications that may be used for targeting is location.
- an asset provider may wish to target only users within a defined geographic zone (e.g., proximate to a business outlet) or may wish to target different assets to different geographic zones (e.g., targeting different car ads to users having oc et o.: -
- the present invention determines the location of a particular CPE and uses the location information to target assets to the particular CPE. It will be appreciated that an indication of the location of a CPE contains information that may be considered sensitive.
- the present invention also creates, extracts and/or receives the location information in a manner that addresses these privacy concerns. This may also be accomplished by generalizing or otherwise filtering out sensitive information from the location information sent across the network. This may be accomplished by providing filtering or sorting features at the CPE or at the headend. For example, information that may be useful in the reporting process (i.e. to determine the number of successful deliveries within a specified location zone) may be sent upstream with little or no sensitive information included.
- location information can be generalized so as to not be personally identifiable. For example, all users on a given block or within another geographic zone (such as associated with a zip plus 2 area) may be associated with the same location identifier (e.g., a centroid for the zone).
- logic associated with the CPE sends an identifier upstream to the headend where the identifier is cross-referenced against a list of billing addresses.
- the billing address that matches the identifier is then translated, for example, using GIS information, into a set of coordinates (e.g., Cartesian geographic coordinates) and those coordinates or an associated geographic zone identifier are sent back to the CPE for storage as part of its location information.
- a list may be broadcast. In this case, a list including location information for multiple or all network users is broadcast and each CPE selects its own information.
- Asset providers can also associate target location information with an asset. For example, in connection with a contract interface as specified below, asset providers can define target asset delivery zones.
- this can be done via a graphical interface (e.g., displaying a map), and the defined zones can match, to a fine level of granularity, targeted areas of interest without being limited to node areas or other network topology.
- a graphical interface e.g., displaying a map
- the defined zones can match, to a fine level of granularity, targeted areas of interest without being limited to node areas or other network topology.
- such zones can have complex shapes including discontiguous portions.
- the zones can then be expressed in terms that allow for convenient transmission in asset metadata and comparison to user locations e.g., in terms of grid elements or area cells.
- individual geographic regions are associated with unique identifiers and new regions can be defined based on the union of existing regions. oc et o.: -
- the CPE Upon receipt of an asset option list or an asset delivery request (ADR), the CPE parses the ADR and determines whether the location of the CPE is included in the locations targeted by the asset referenced in the ADR. For example, this may involve a point in polygon or other point in area algorithm, a radius analysis, or a comparison to a network of defined grid or cells such as a quadtree data structure. The CPE may then vote for assets to be received based on criteria including whether the location of that particular CPE is targeted by the asset.
- the CPE may also use its location information in the reporting process to enhance the delivery data sent upstream.
- the process by which the CPE uses its location information removes substantially all sensitive information from the location information. For example, the CPE may report that an asset targeted to a particular group of locations was delivered to one of the locations in the group. The CPE in this example would not report the location to which asset was actually delivered.
- tags are additional information that is superimposed on or appended to such assets.
- a tag may provide information regarding a local store or other business location at the conclusion of an asset that is distributed on a broader basis.
- tags have been appended to ads prior to insertion at the headend and have been limited to coarse targeting.
- tags may be targeted to users in particular zones, locations or areas, such as neighborhoods.
- tags may also be targeted based on other audience classification parameters such as age, gender, income level, etc. For example, tags at the end of a department store ad may advertise specials on particular items of interest to particular demographics.
- a tag may be included in an asset flotilla and conditionally inserted based on logic contained within the CPE.
- the tags are separate units that can be targeted like other assets, however, with conditional logic such that they are associated with the corresponding asset.
- the present invention may use information relating to the location of a particular
- the CPE to target a tag to a particular CPE.
- the CPE may contain information relating to its location in the form of Cartesian coordinates as discussed above. If an asset indicates that a tag may be delivered with it or instead of it, the CPE determines whether oc et o.: -
- a location criterion that is met by the location information contained in the particular CPE.
- a tag may include a location criterion defining a particular neighborhood. If the CPE is located in that neighborhood, the CPE 1101 may choose to deliver the tag, assuming that other criteria necessary for the delivery of the tag are met. Other criteria may include the time available in the given break, other demographic information, and information relating to the national or non-localized asset.
- targeting may also be implemented based on marketing labels.
- the headend may acquire information or marketing labels regarding a user or household from a variety of sources. These marketing labels may indicate that a user buys expensive cars, is a male 18-24 years old, or other information of potential interest to an asset provider. In some cases, this information may be similar to the audience classification parameters, though it may optionally be static (not varying as television users change) and based on hard data (as opposed to being surmised based on viewing patterns or the like). In other cases, the marketing labels may be more specific or otherwise different than the audience classification. In any event, the headend may inform the CPE as to what kind of user/household it is in terms of marketing labels. An asset provider can then target an asset based on the marketing labels and the asset will be delivered by CPEs where targeting matches. This can be used in audience aggregation and spot optimization contexts.
- the targeted asset system of the present invention allows for targeting of assets in a broadcast network based on any relevant audience classification, whether determined based on user inputs such as a click stream, based on marketing labels or other information pushed to the customer premises equipment, based on demographic or other information stored or processed at the headend, or based on combinations of the above or other information.
- targeting concepts that have previously been limited to other contexts such as direct mail. For example, such targeting may make use of financial information, previous purchase information, periodical subscription information and the like.
- classification systems developed in other contexts may be leveraged to enhance the value of targeting achieved in accordance with the present invention.
- determining classification parameters for a user and matching the classification parameters of the user to targeting parameters of an asset is useful in several contexts.
- this matching-related functionality is useful in the voting process. That is, one of the functions of the targeting system in the system described above is to receive ad lists (identifying a set of ads that are available for an upcoming spot), determining the targeting parameters for the various ads and voting for one or more ads based on how well the targeting parameters match the classification parameters of a current users.
- identifying the classification parameters of the current user(s) and matching those parameters to the targeting parameters is important in the voting context.
- Matching related functionality is also important in the ad selection context. Specifically, after the votes from the various participating set top boxes have been processed, a flotilla of ads is assembled for a commercial break. A given DSTB selects a path through the flotilla (corresponding to a set of ads delivered by the set top box at the commercial break) based on which ads are appropriate for the user(s). Accordingly, identifying the current user classification parameters and matching those parameters to the targeting parameters is important in the ad selection context.
- the matching related functionality may also be used in the reporting context.
- some or all at the DSTBs provide reports to the network concerning the ads that were actually delivered. This enables the targeting system and the traffic and billing system to measure the audience for an ad so that the advertiser can be billed appropriately.
- the information provided by these reports not only indicates the size of the audience but how well the audience fits the target audience for the ad. Accordingly, the system described above can provide goodness of fit information identifying how well the classification parameters of the user(s) who received the ad match the targeting parameters.
- the matching related functionality is also useful in this context. oc et o.: -
- this matching related functionality is performed by a classifier resident at the DSTB.
- This classifier will be described in more detail below.
- the classifier analyzes a click stream, or series of remote control inputs, to determine probable classification parameters of a current user(s).
- the classifier also performs a matching function to determine a suitability of each of multiple candidate ads (e.g., from an ad list) for the current user(s) based on inferred classification parameters of a putative user or users.
- the classifier can then provide matching related information for use in the voting, ad selection and reporting contexts as described above. In the description below, this matching related information is primarily discussed in relation to the voting context.
- the classifier generally operates in two modes: the learning mode and the working mode. It will be appreciated, however, that these modes are not fully separate. For example, the classifier continues to learn and adapt during normal operation. These modes are generally illustrated in Fig. 9.
- the illustrated classifier 1300 monitors behavior of viewers 1302 in the audience of a given DSTB 1304 to deduce classification parameters for the viewers 1302.
- an audience for a given DSTB 1304 may include a father, a mother and a child, one or more of whom may be present during a viewing session.
- the classification parameters may include any of the classification parameters noted above, such as gender, age, income, program preferences or the like.
- the classifier receives inputs including click data 1310 from the user, program data 1312 (such as program guide data) from the network and Nielsen data 1314 generated by the Nielsen system.
- This information is processed to learn certain behaviors of the viewer, including a viewer program selection behavior.
- the Nielsen data 1314 reflects the demographic composition for particular programs.
- the program data 1312 may include information regarding the genre, rating, scheduled time, channel and other information regarding programs.
- click data 1310 reflects channels selected by a user, dwell time (how long a user remained on a given channel) and other information that can be correlated with the Nielsen data 1314 and program data 1312 to obtain evidence regarding classification parameters of the viewer.
- the click data 1310 may reflect frequency of channel hopping, quickness of the click process, volume control selections and other information from which evidence of viewer classification parameters may be inferred independent of any correlation to program related information.
- the classifier 1300 begins to generate clusters of data around segments of classification parameter values (e.g., associated with conventional data groupings), thereby learning to identify viewers 1310 and classify the viewers 1302 in relation to their probable gender, age, income and other classification parameters.
- the state transition functionality is illustrated in Fig. 10. State changes are triggered by events, messages and transactions.
- One of the important state transitions is the stream of click events 1400.
- Each click event 1400 represents a state transition (for example, a change from one program to another, a change in volume setting, etc.).
- an absence of click events 1400 or low frequency of click events may indicate that no viewer is present or that any viewing is only passive 1404.
- the transition count 1406 exceeds a threshold (e.g., in terms of frequency) and the DSTB is on or active 1402
- the classifier may be operated to match program data 1408 and learn or store 1410 the program. Programs may be deleted 1412 in this regard so as not to exceed a maximum stack depth or to implement a degree of desirable forgetfulness as described above.
- a classification parameter set is developed for each discovered viewer 1302 of the DSTB audience.
- a set of rules is developed that defines the viewing behavior over time for that viewer 1302. This is referred to below as the periodicity of the viewer's viewing habits.
- the classification set for each discovered viewer 1302 may identify the viewer's age, gender, education, income and other classification parameters.
- This information is coupled with the periodicity of the viewer's viewing habits so as to allow the classifier to match an ad with a target audience during a specific timeframe. That is, the determination by the classifier as to who is watching at a given time may be informed both by a substantially real-time analysis of viewing behavior and by historical viewing patterns of a viewer 1302. Alternatively, this oc et o.: -
- process of developing classification parameter sets for discovered users may take into consideration multiple time frames, e.g., different times of day. Developing these classification parameter sets for discovered viewers as a function of time of day, e.g., on an hourly, half-hourly or other time dependent basis, has been found effective, as viewership in many households is significantly dependent on time of day.
- the classifier may estimate classification parameters for a current viewer 1302 even if historical periodicity data has not been developed for that viewer 1302. Similarly, even where such information has been developed in the learning mode, a current viewing audience may be continually defined and redefined during the working mode.
- the classifier does not require persistent storage of viewer profile information in order to function. For example, any such stored information may be deleted when the DSTB is turned off. In such a case, the classifier can readily develop classification parameters for one or more viewers when power is restored to the set top box.
- the classifier may be designed to incorporate a degree of forgetfulness. That is, the classifier may optionally de-weight or delete aged information from its evolving model of audience members. In this manner, the classifier can adapt to changes in the audience composition and identify previously unknown audience members.
- the illustrated classifier moves from the learning mode to the working mode.
- the classifier 1306 performs a number of related functions. First, it can receive ad lists 1308 for an upcoming commercial break, match the targeting parameters for the ads on that list 1308 to the classification parameters of the current viewer 1302, and vote for appropriate ads. The classifier 1306 also selects ads available in a given ad flotilla for delivery to the current user 1302. Moreover, the classifier 1306 can report goodness of fit information regarding ads delivered during one or more commercial breaks. Again, in the working mode, the classifier 1306 continues to learn through a process of stochastic reinforcement, but the classifier 1306 is deemed to have sufficient information to meaningfully estimate classification parameters of a current viewer 1302 or audience.
- the classifier 1306 controls the voting process by effectively ranking ads from an ad list 1308.
- the illustrated working mode classifier 1306 receives information regarding available ads 1316 from an oc et o.: -
- ad repository 1318 ad repository 1318.
- These ads 1316 are associated with targeting parameters, for example, in the form of audience segmentation and viewer profile classification rules 1320.
- targeting parameters for example, in the form of audience segmentation and viewer profile classification rules 1320.
- an advertiser may enter targeting parameters directly into the T & B system via the ad interface.
- these targeting parameters may be defined in relation to conventional audience segmentation categories.
- the targeting system of the present invention may accommodate different or finer targeting parameters.
- the working mode classifier 1306 also receives an ad list 1308 or a view list of candidate ads, as described above.
- the headend targeting system component 1320 processes the inputs regarding available ads and their targeting parameters to generate the ad list 1308 for distribution to participating DSTBs.
- the similarity and proximity analyzer 1322 uses the targeting parameters associated with individual ads and the classification parameters of the current user to execute matching functionality. That is, the analyzer 1322 matches an ad with at least one of the probable viewers 1302 currently thought to be sitting in front of the television set 1324. As will be described in more detail below, this is done by comparing, for example, the target age range for an ad (which may be expressed as a slightly fuzzified region) to the set representing the viewer's age (which may also be a fuzzy set). The more these two sets overlap the greater the compatibility or match. Such matching is performed in multiple dimensions relating to multiple targeting/classification parameters.
- This similarity analysis is applied across each candidate ad of the ad list 1308, and a degree of similarity is determined for each ad.
- the ads in each time period can be sorted, e.g., in descending order by similarity, and one or more of the top ads may be selected for voting.
- the passive voting agent 1326 is operative to select ads based on the match information. This process works in the background generally using an out of band data stream. More specifically, the illustrated voting agent 1326 selects a record or ADR for each of the candidate ads and determines for each if any viewers are likely to be present at the ad time. Additionally, the voting agent 1326 determines if any such viewer has classification parameters that acceptably match the targeting parameters for the ad. In the voting context, for each match, a vote is made for the ad. This vote is returned to the headend component 1320 where it is combined with other votes. These aggregated votes are used to generate the next generation of ad listsl308. oc et o.: -
- the learning mode classifier develops classification parameter information for probable viewers as well as periodicity information for those viewers. This process is illustrated in more detail in Fig. 11.
- the classifier 1500 is constructing a statistical model of the audience.
- this process is illustrated with respect to two examples of the classification parameters; namely, target gender and target age.
- the learning mode classifier 1500 receives inputs including programming viewing frequency (or demographic) data from Nielsen, BBM or another ratings system (or based on previously reported information of the targeted advertising system) 1504, program data 1506 and click data 1508. Based on this data, the classifier 1500 can determine which program, if any, is being viewed at a particular time and what that indicates regarding probable classification parameters of a viewer. Additionally, the click data 1508, since it is an event stream, may indicate the level of focus or concentration of the viewer 1502 at any time and may provide a measure of the level of interest in a particular program. The click data 1508 also allows the classifier 1500 to determine when the DSTB set is turned off and when it is turned on.
- the learning mode classifier 1500 fuses the incoming data through a set of clustering and partitioning techniques designed to uncover the underlying patterns in the data.
- the goal in this regard is to discover the number of probable viewers, build a classification parameter set for each viewer and determine the viewing habits of each viewer over time (or to develop classification parameter sets for likely viewers as a function of time).
- This information allows the classifier 1500 to determine what kind of audience probably exists at the delivery time for a specific ad.
- this learning process involves the development of two classifier modules - the age and oc et o.: -
- the periodicity classifier 1512 accumulates and reinforces the results of the age and gender classification module across time.
- a sequence of age interval classes 1510 are stored across an independent axis representing the time of day and day of week that that evidence is collected. This time axis is used to determine the time of day that each individual detected in the age and gender classifier module 1510 tends to watch television.
- the gender and age classifier module 1510 gathers evidence over time as to probable viewers. Once sufficient evidence is collected, it is expected that the evidence will cluster in ways that indicate a number of separate audience members. This is at once a fairly simple and complex process. It is simple because the core algorithms used to match viewing habits to putative age and gender features are well understood and fairly easy to implement. For example, it is not difficult to associate a program selection with a probability that the viewer falls into certain demographic categories. On the other hand, it is somewhat complex to analyze the interplay among parameters and to handle subtle phenomena associated with the strength or weakness of the incoming signals. In the latter regard, two parameters that affect the learning process are dwell time and Nielsen population size.
- the dwell time relates to the length of time that a viewer remains on a given program and is used to develop an indication of a level of interest.
- dwell time functions like a filter on the click stream events that are used in the training mechanism.
- one or more thresholds may be set with respect to dwell time to attenuate or exclude data.
- the classifier does not benefit from learning that a viewer watched a program if the viewer watched that program for less than a minute or, perhaps, less than 10 seconds.
- Thresholds and associated attenuation or exclusion factors may be developed theoretically or empirically in this regard so as to enhance identification accuracy.
- audience expectation measure is a factor termed the audience expectation measure. This is the degree to which, at any time, it is expected that the television (when the DSTB is turned on) will have an active audience. That is, it is not necessarily desirable to have the classifier learn what program was tuned in if nobody is in fact watching.
- the audience expectation measure can be determined in a variety of ways. One simple measure of this factor is the number of continuous shows that has elapsed since the last channel change or other click event. That is, as the length of time between click events oc et o.: -
- This audience expectation measure can be used to exclude or attenuate data as a factor in developing a viewer identification model.
- the degree of membership in a particular age group is treated as evidence for that age.
- the gender distribution may contain a broad spectrum of viewer population frequencies.
- the dwellage percentage of the audience that falls into each age group category is also evidence for that age group. Accordingly, the amount that a set is incremented is scaled by the degree of membership with respect to that set. Thus, for example, if few viewers of an age category are watching a program, this is reflected in only a small amount of evidence that the viewer is in this age group.
- the illustrated learning mode classifier 1500 also encompasses a periodicity classifier module 1512. As the classifier 1500 develops evidence that allows for determining the number of viewers in an audience of a DSTB and for distinguishing between the viewers, it is possible to develop a viewing model with respect to time for each of these viewers. This information can then be used to directly predict who is likely to be watching at the time of ad delivery. There are a number of ways to build the periodicity model, and this can be executed during the learning mode operation and/or the working mode operation. For example, this model may involve mapping a viewer to their pattern. Alternatively, a pattern may be discovered and then matched to a known viewer. In the illustrated implementation, the latter viewer-to-pattern approach is utilized. As will be understood from the description below, this approach works well because the properties that define the periodicity are fuzzy numbers. The match can therefore use the oc et o.: -
- the fuzzy intervals are represented by the trapezoidal fuzzy set brackets that illustrate a certain amount of overlap between neighboring age intervals. This overlap may improve discrimination as between different age ranges.
- the bars shown on the matrix reflect the accumulation of evidence based on a series of click events. As can be seen in the matrix of Fig. 12, over time, this evidence tends to cluster in a fashion that indicates discrete, identifiable viewers associated with different classification parameters.
- Fig. 13 this process of accumulating evidence to identify discrete viewers of an audience is depicted in three- dimensional graphics.
- the result of the learning process is a collection of gradients or hills or mountains in the learning matrix or multi-dimensional (in this case, two- dimensional) feature terrain.
- the higher hills or "mountains" with their higher gradient elevations provide the best evidence that their site in the learning matrix is the site of a viewer.
- the hills are constructed from the counts in each of the cells defined by the classification parameter segmentation (e.g., age groups). The greater the count, the higher the hill and, consequently, the more certain it is that the characteristics correspond to a viewer of the audience.
- the gradients and their elevations form a topological map, as shown in Fig. 14.
- the concentration and height of the contour lines reflect a clustering that suggests discrete and identifiable viewers.
- the map of Fig. 14 reflects three probable viewers identified from a learning process. It is noted that the fuzzy terrain mapping, which allows certain degree of overlap between surrounding age groups, provides a more refined estimate of the actual classification parameter values of a oc et o.: -
- an interpolation of evidence in adjacent fuzzy sets enables an estimation of an actual parameter value that is not limited to the set definitions.
- This interpolation need not be linear and may, for example, be executed as a center of gravity interpolation. That takes into account gradient height in each fuzzy set as well as a scaled degree of membership of the height in the set.
- the process for applying evidence to the terrain may thus result in a fuzzified terrain. That is, rather than simply applying a "count" to a cell of the terrain based on determined classification parameter values, a count can effectively be added as terrain feature (e.g., a hill) centered on a cell (or on or near a cell boundary) but including residual values that spill over to adjacent cells. The residual values may spill over onto adjacent cells in multiple dimensions. In one implementation, this effect is defined by a proximity calculation.
- the result of applying evidence to the terrain in a fuzzified fashion is potentially enhanced user definition as well as enhanced ability to distinguish as between multiple users.
- the proximity algorithm and terrain seeding noise reduction filtering can be illustrated by reference to an example involving three classification parameter dimensions; namely, gender, age and time of day.
- the feature terrain may be viewed as being defined by a cube composed of a number of sub-cubes or grains.
- the terrain cube may be composed of 7680 grains - 2 x 80 x 48 grains, corresponding to two gender, 80 age and 48 half-hour time categories.
- Each of the grains can be populated with a reference or noise value.
- the noise values can be derived from a statistical analysis of the expected viewers at each age, gender and time measured over all available programming channels for which Nielson, BBM or another ratings system have observers (or based on previously reported information of the targeted advertising system).
- the noise may be drawn from a distribution of these viewers from a suitable function (e.g., developed empirically or theoretically) and may or may not be as simple as an average or weighted average. In any case, it is this noise bias that cancels out a corresponding randomness in the evidence leaving a trace or residue of evidence only when the evidence is repeatedly associated with an actual viewer whose behavior matches the (age, gender, time) coordinates of the terrain.
- a suitable function e.g., developed empirically or theoretically
- the grain definition and population of the grains with reference values or noise is not limited to the granularity of the source of the reference values, e.g., the standard Neilson categories. Rather, the reference values can be oc et o.: -
- Neilson source data may be provided in relation to 16 age gender groups whereas the terrain cube, as noted above, may include 2 x 80 corresponding grains (or columns of grains where the column axis corresponds to the time dimension).
- the age distribution can be fitted to a curve or function, which can then be solved for each age value. The corresponding values are then applied to seed the terrain.
- Evidence is the statistical frequency of viewers of a particular age and gender who are watching a television program (which is playing at a particular time).
- the combination of Neilson frequencies and the program time generates 16 pieces of evidence for each time period (there are 8 male and 8 female age groups with their viewing frequencies). Finding out which of these 16 pieces of evidence corresponds to the actual viewer is the job of the statistical learning model underlying the classifier. Fundamental to making this decision is the methodology used to add evidence to the terrain. This involves first applying the noted noise filter as follows:
- the value at each outward layer is based on a fraction of the previous layer (not the original value).
- the original value is very small, so the values in each outward cell become very, very small very, very quickly.
- the proximity algorithm that fills out the terrain also provides a quick and effective way of discovering who is viewing the television associated with the DSTB.
- the ridge of contours or hills associated with a viewer wanders across the three- dimensional terrain cube. These hills are smoothed out (made "fatter,” so to speak) over the terrain by the addition of the minute bits of partial evidence laid down during the building of the terrain (the xl, x2, x3, etc., in the previous section). To find the viewer, the hills over the gender/age axes at a particular time can be summed and averaged. The viewer is the hill with the maximum average height.
- these terrains may be developed as a function of time of day.
- the data may be deposited in "bins" that collect data from different times of day on an hourly, half-hourly or other basis (e.g., irregular intervals matching morning, daytime, evening news, primetime, late night, etc.).
- the process of applying the evidence to these bins may be fuzzified such that evidence spills over to some extent into adjacent bins or cells in the time and other dimensions.
- Evidence may be integrated in these bins over multiple days.
- the resulting terrains may be conceptualized as multiple terrains corresponding to the separate timeframes or as a single terrain with a time dimension. This functionality may be implemented as an alternative to the separate periodicity analysis described below.
- Fig. 15 illustrates a more difficult dataset in this regard.
- the feature terrain of Fig. 15 does not readily yield interpretation as to the number of viewers in the audience or their specific classification parameters. Any number of factors may result in such complexity.
- the remote control may be passed between different audience members, the click stream may be influenced by other audience members, a click event of significant duration may reflect distraction rather than interest, a viewer may have a range of programming interests that do not cleanly reflect their classification parameters, etc.
- the classifier implements processes of noise removal and renormalization of the gradient terrain.
- the goal is to find the actual centers of evidence so that the number of viewers and their classification parameters can be accurately identified.
- One type of process that may be implemented for removing or attenuating noise involves consideration of reference values, e.g., average values for all events at that time, taken in relation to the whole audience.
- the terrain may be seeded with reference values or the reference values may be considered in qualifying or rejecting data corresponding to individual oc et o.: -
- data is compared to reference values on an event-by- event basis to qualify data for deposit into the bins for use in developing the terrain. This has the effect of rejecting data deemed likely to represent noise.
- the reference values are subtracted from evidence as it is applied to the terrain, thus impeding the process of constructing terrain features so that terrain features substantially only rise as a result of persistent or coherent accumulation of evidence likely reflective of an actual user, and spurious peaks are avoided. Selecting the reference values as average values, weighted average values or some other values related to the observation context (but substantially without information likely to bias the user identification and definition problem) has the effect of scaling the filter effect to properly address noise without inhibiting meaningful terrain construction.
- data may be qualified in relation to a presence detector. As noted above, presence may be indicated by reference to the on/off state of the DSTB and/or by the absence or infrequency of inputs over a period of time. Data acquired when the presence detector indicates that no user is deemed "present" may be excluded.
- Noise removal may further involve eliminating false centers and sporadic evidence counts without disturbing the actual centers to the extent possible.
- Fig. 16 illustrates a possible identification of viewer sites with respect to the data of Fig. 15.
- Fig. 17 illustrates an alternative, also potentially valid, interpretation of the data of Fig. 15.
- the classifier implements an algorithm designed to determine which of competing potentially valid interpretations is most likely correct.
- This algorithm generally involves gradient deconstruction.
- the deconstruction process is an iterative process that finds gradient centers by first removing low-level interference noise (thus revealing the candidate hills) and then measuring the compactness of the distribution of hills around the site area.
- a mountain clustering algorithm can be implemented to iteratively identify peaks, remove peaks and revise the terrain.
- Fig. 18 shows a learning matrix or feature terrain with a set of gradients scattered over the surface.
- gradient Cl is identified as the maximum mountain. The distance from oc et o.: -
- Fig. 20 shows significant deconstruction of features proximate to C 1 as a result of this first iteration. This causes the general perimeter of the emerging site at Cl to contract. The contraction also involves the assimilation of small gradients, hence the height of Cl is increased, and the adjacent hilliness is reduced. At the same time, the height of C3 is barely changed and its set of satellite gradients has not yet begun to be assimilated.
- Fig. 21 shows the terrain after most of the smaller gradients have been assimilated.
- the resulting processed terrain or feature space has well defined gradients at each putative viewer site.
- the mountain clustering process thus essentially removes much ambiguity.
- a similar process is performed with respect to the periodicity analysis.
- a periodicity learning matrix is created and updated in a manner analogous to construction and updating of the viewer classification parameter matrix and its conversion to the feature terrain.
- the periodicity terrain produces a set of gradients defining, by their height and width, the expectation that the viewer is watching television at that point in time.
- a matching algorithm can then be used to match a periodicity pattern to one of identified viewers.
- the classifier When the classifier has been sufficiently trained, it moves from learning mode operation to working mode operation. As noted above, these modes are not entirely distinct. For example, the classifier can perform estimations of classification parameters while still in the learning mode, and the classifier continues to learn during the working mode. However, as described above, the learning mode is a gradual process of collecting evidence and measuring the degree to which the viewer sites are discernable in the learning matrix. Thus while the classifier can operate quickly using default values, working mode operation reflects a determination that the viewers of an audience have been identified and classified with a high degree of confidence. oc et o.: -
- Fig. 22 The basic operation of the working mode classifier is illustrated in Fig. 22.
- the classifier 2600 has access to the developed feature terrain, as discussed above, as well as to a similarity function that is operative to match targeting parameters to the classification parameters as indicated by the viewer identification. More specifically, Nielsen data 2602 and program data 2604 continues to be fed into the classifier 2600 in the working mode to support its continued learning process that essentially runs in the background.
- the classifier 2600 then receives an ADR from the ad list 2608.
- the ADR is initially filtered for high level suitability and then, if the ADS is still available for matching analysis, selects each viewer and each classification parameter for each viewer for comparison.
- Fig. 22 depicts the process of accessing a classification matrix 2606 of a viewer.
- the matrix 2606 is a two-dimensional matrix limited to gender and age classification parameters. In practice, any number of classification parameters may be supported.
- the retrieved classification parameter values of the user and the targeting parameters of the ad are then provided to the similarity and proximity analyzer 2612 where they are compared. This function returns a degree of similarity for each attribute.
- the total compatibility or relative compatibility rank (RCR) is given as:
- S 1 is the similarity measurement for the 1 th property
- an ad may be found to be compatible with one or more viewers of an audience. For example, such compatibility may be determined in relation to an RCR threshold value.
- the periodicity analyzer 2616 is called to see if the viewer is likely to be present at the target ad insertion time. If the viewer is unlikely to be watching, the degree of this time constraint is used to adjust the RCR. Accordingly, the RCR is recomputed as: oc et o.: -
- 1() is the likelihood estimating function from the periodicity analysis.
- This function returns a fuzzy degree of estimate in the interval [0,1] (which is actually a degree of similarity between the target time period and each of the viewer's active time periods) p ⁇ is the target time period
- the RCR will have a high value if there is both a high degree of match between the classification parameters of a user and the targeting parameters of the ad, and there is a high probability that the user will be watching at the ad delivery time.
- This formula further has the desirable quality that a low compatibility where the viewer is not watching, even if the viewer's classification parameters are a very good match for a given ad.
- the voting agent 2614 is closely connected to the operation of the working mode classifier 2600.
- the validity of the vote is highly dependent on the ability to correctly identify a viewer's classification parameters and viewing habits.
- the voting agent 2614 essentially works in the same way as the view list ranking. Specifically, an ADR is sent to the voting agent 2614, the voting agent 2614 extracts the ads targeting parameters and calls the classifier 2600, which returns the RCR for this ad. In this manner, ads are not only voted on but also delivered based on a matching process.
- the similarity function used to execute the various matching functionality as discussed above can be understood by reference to Figs. 23-26.
- the targeting parameters and any ad constraints are embedded in the ADR.
- the ADR may also indicate an "importance" of the ad. For example, such importance may be based on the ad pricing (e.g., CPM value) oc et o.: -
- the classifier also has access to the classification parameters of the various viewers in the audience, as discussed above.
- the first step in the matching process is applying a similarity function, e.g., a fuzzy similarity function, to each of the classification parameters and targeting parameters.
- the similarity function determines the degree to which a targeting parameter is similar to or compatible with a classification parameter.
- the weighted average of the aggregated similarity of values for each of the classification/targeting parameters is the base match score.
- the illustrated classifier fuzzifies the targeting parameter and finds the degree of membership of the corresponding classification parameter of the user in this fuzzified region.
- the targeting parameters for an ad may specify a target age range of 24-42 years of age.
- this targeting parameter is redefined as a fuzzy set.
- the fuzzy set has a small but real membership value across the entire domain of the classification parameter (age in this case).
- the membership function means that the matching process cannot automatically identify and rank classification parameters values that lie near but, perhaps, not inside the target range.
- Fig. 24 shows a putative viewer with an inferred age of 26. In this case, the viewer sits well inside the target age range.
- Fig. 25 illustrates the case where a viewer is estimated to be 20 years old and is therefore outside of the rigid target range boundaries. If the classifier had Boolean selection rules, this viewer would not be selected.
- the nature of the fuzzy target space means that viewer 2 is assigned a similarity or compatibility value greater than zero, in this case 0.53. The classifier now has the option of including viewer 2, knowing that the viewer is moderately compatible with the target range. Fig.
- 26 shows a slightly different situation - that of a viewer with an inferred age outside of the required age interval.
- the membership function As illustrated by the membership function, as the viewer age moves away from the identified targeting age interval, the membership function drops off quickly. In this case, viewer 3 has a compatibility of only 0.18, oc et o.: -
- the fuzzy compatibility mechanism means that the classifier can find and rank a viewer if any viewer exists.
- a matching algorithm may involve the following steps. First, an ADR is received from matching to one or more of the identified viewers. The similarity function is applied with respect to each parameter, and the results are aggregated as discussed above in order to determine a degree of match. Once the classifier has discovered one or more viewers that match the basic targeting parameters of the ad, the classifier determines whether or not any of these viewers are currently watching the television set. To do this, the periodicity analysis function is called to match a week by day and week by time of day terrain surface to the required time. This process returns a value reflecting the expected degree of match between the viewing time behavior of each viewer and the time frame of the ad. The degree of match in this regard is used to scale the base compatibility score to produce a time compatibility score.
- the classifier determines whether or not to accept this ad (vote for the ad or select the ad for delivery) based on any frequency limitation constraints and also subject to consideration of ad importance. That is, there may be additional constraints associated with the ad regarding the frequency with which the ad may be delivered to an individual viewer or the total number of times that the ad may be delivered to a viewer.
- the frequency analyzer returns a value and range of zero to one that is used to scale the time compatibility rank. This creates a frequency compatible rank.
- a first ad may be selected (and voted) rather than a second ad, where the ads have a similar degree of "match” or even where the second ad has a better match, due to differences in ad importance (e.g., where the first ad has a higher importance).
- An ad may also have constraints.
- the ad may have target age limitations, genre restrictions, network restrictions, program nature restrictions, rating restrictions or the like.
- the placement constraint analyzer that meets the above -noted compatibility requirements and then searches for any required placement constraints.
- the placement analysis returns a gateway value of one or zero where one indicates no active placement constraints and zero indicates placement constraints that are violated. This creates the final compatibility index score.
- the matching process need not be based on a continuous, or even finely graded, value range.
- the result of the matching process may be a binary "match” or "no match” determination.
- a threshold or set of thresholds with associated decision logic, may be used to define a match or lack thereof for an ad with respect to a current audience.
- the classifier may thus be viewed as incorporating a number of functional components including a stay transition and link manager, a feature acquisition subsystem, a mountain clustering subsystem, periodicity analysis subsystem and an ad matching and ranking subsystem.
- the stay transition and link manager are operative to monitor the click stream and determine whether the DSTB is turned on as well as tracking stay changes.
- the feature acquisition subsystem is operative to build the initial feature terrain as discussed above.
- the mountain clustering subsystem is operative to process the feature terrain to remove noise and better define viewer sites as discussed above.
- the periodicity analysis subsystem recognizes viewing patterns and matches those patterns to viewers as identified from the processed feature terrain space.
- the ad matching and ranking subsystem compares viewer classification parameters to targeting parameters of an ad and also analyzes viewing habits of the viewer in relation to the delivery time, so as to match ads to viewers and develop a ranking system for voting, ad selection and reporting.
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Also Published As
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CA2651169C (en) | 2014-02-04 |
CN107103489A (en) | 2017-08-29 |
JP2009536413A (en) | 2009-10-08 |
EP2024862A2 (en) | 2009-02-18 |
AU2007247996B2 (en) | 2012-07-12 |
CA2651169A1 (en) | 2007-11-15 |
US20080059390A1 (en) | 2008-03-06 |
CN107103489B (en) | 2021-09-28 |
WO2007131069A3 (en) | 2008-10-16 |
EP2024862A4 (en) | 2011-08-10 |
US20110067046A1 (en) | 2011-03-17 |
US20150264438A1 (en) | 2015-09-17 |
CN101484890A (en) | 2009-07-15 |
US7698236B2 (en) | 2010-04-13 |
AU2007247996A1 (en) | 2007-11-15 |
CN101484890B (en) | 2017-04-05 |
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