JP6059314B1 - Estimation apparatus, estimation method, and estimation program - Google Patents

Abstract

An object of the present invention is to improve the estimation accuracy of content importance. An estimation apparatus according to the present application is characterized by characteristics of a content at a predetermined time based on predetermined steady-state information about the content and fluctuation information that changes with time in the information about the content. Based on the extracted feature information, the importance of the content at the predetermined time is estimated based on the extraction unit that extracts information using the learning device that extracts the characteristics of the information from the input information And an estimation unit. [Selection] Figure 1

Description

  The present invention relates to an estimation device, an estimation method, and an estimation program.

  In recent years, techniques for distributing content such as news and advertisements via the Internet are known. As an example of a technology for distributing such content, a technology for estimating the importance of the content based on the content content or the newness of the content and preferentially displaying the content with the estimated high importance is known. Yes. For example, in such a technique, the importance based on the content is estimated in advance, and the new importance is preferentially displayed by attenuating the estimated importance with the passage of time.

Japanese Patent Laying-Open No. 2015-99265

  However, the above-described conventional technology has a problem that the importance of content cannot always be estimated appropriately. For example, content such as a column is less important than new content such as news, so the importance does not change much even if time passes. For this reason, when the importance of each content is attenuated uniformly, there may be a difference between the actual importance. In addition, a model can be considered in which importance is estimated in advance in consideration of attenuation of importance with time. However, depending on the type of content, there are content and the like whose true importance is known after a lapse of time, and learning of such a model is difficult.

  The present application has been made in view of the above, and an object thereof is to improve the estimation accuracy of the importance of content.

  The estimation apparatus according to the present application inputs feature information indicating characteristics of the content at a predetermined time based on predetermined steady-state information about the content and fluctuation information that changes with time in the information about the content. An extraction unit that extracts a feature of the information from the extracted information using a learning device, and an estimation unit that estimates the importance of the content at the predetermined time based on the extracted feature information It is characterized by having.

  According to one aspect of the embodiment, there is an effect that it is possible to improve the estimation accuracy of the importance of content.

FIG. 1 is a diagram illustrating an example of processing executed by the information distribution processing according to the embodiment. FIG. 2 is a diagram illustrating an example of a functional configuration of the information distribution apparatus according to the embodiment. FIG. 3 is a diagram illustrating an example of information registered in the content database according to the embodiment. FIG. 4 is a diagram illustrating an example of information registered in the record information database according to the embodiment. FIG. 5 is a diagram illustrating an example of information registered in the learning device database according to the embodiment. FIG. 6 is a diagram illustrating an example of information registered in the feature information database according to the embodiment. FIG. 7 is a diagram illustrating an example of information registered in the content database according to the embodiment. FIG. 8 is a diagram illustrating an example of processing in which the information distribution apparatus according to the embodiment extracts feature information. FIG. 9 is a diagram illustrating an example of a process in which the terminal device according to the embodiment displays content according to priority. FIG. 10 is a flowchart illustrating an example of a flow of processing in which the information distribution apparatus according to the embodiment accepts content posting. FIG. 11 is a flowchart illustrating an example of a flow of estimation processing performed by the information distribution apparatus according to the embodiment. FIG. 12 is a flowchart illustrating an example of information distribution processing by the information distribution apparatus according to the embodiment. FIG. 13 is a diagram illustrating an example of a hardware configuration of a computer that realizes the function of the information distribution apparatus.

  Hereinafter, an embodiment (hereinafter referred to as “embodiment”) for carrying out an estimation apparatus, an estimation method, and an estimation program according to the present application will be described in detail with reference to the drawings. In addition, the estimation apparatus, the estimation method, and the estimation program according to the present application are not limited by this embodiment. In the following embodiments, the same portions are denoted by the same reference numerals, and redundant description is omitted.

[1. Example of information distribution device)
First, an example of an information distribution device 10 that is an example of an estimation device will be described with reference to FIG. FIG. 1 is a diagram illustrating an example of processing executed by the information distribution processing according to the embodiment. In FIG. 1, as an example of processing executed by the information distribution device 10, estimation processing for estimating the importance of content accepted from a content distribution source for each predetermined time zone, and a terminal used by the user U01 An example of information distribution processing that is displayed on the device 100 in an order corresponding to the estimated importance will be described.

  Here, the content distributed by the information distribution device 10 is content registered by the predetermined client in the information distribution device 10, for example, content including text such as news and columns. In the following description, an example in which the information distribution apparatus 10 distributes content including text will be described, but the embodiment is not limited to this. That is, the information distribution processing described below is performed on the terminal device 100 such as content not including text such as images and moving images, content related to commercial or non-profit advertisements, games, emails, tweets, blog articles, and the like. And can be applied to any content that can be distributed.

  As shown in FIG. 1, the information distribution apparatus 10 is communicably connected to a terminal apparatus 100 used by a user U01 and a client terminal 200 used by a client via a network (not shown) (for example, the Internet). . The information distribution device 10 is connected to the terminal device 101 and the log server 102 via a network so that they can communicate with each other. The information distribution apparatus 10 can communicate with an arbitrary number of terminal apparatuses 100 and 101, a log server 102, and a client terminal 200.

  The terminal device 100 is an information processing device used by the user U01, and is used by a user to browse content such as news and columns. As a specific example, the terminal device 100 is a mobile terminal such as a smartphone, a tablet terminal, or a PDA (Personal Digital Assistant), a desktop PC (Personal Computer), a notebook PC, or the like.

  Similarly to the terminal device 100, the terminal device 101 is an information processing device used by the user U01. Note that the terminal device 101 may be the same device as the terminal device 100. Here, the terminal device 100 transmits various logs related to the content to the log server 102. On the other hand, the log server 102 is an information processing apparatus realized by a server device or the like, and collects various logs related to distributed content from the terminal device 101 or other terminal devices (not shown). Log result information based on the information is transmitted to the information distribution apparatus 10.

  Here, the various logs related to the content include, for example, whether the content has been browsed, whether the content has been selected, such as being tapped, or a link from a predetermined web page to the web page on which the content or content is arranged. It is information such as whether or not it has been set. In addition, various logs related to content indicate whether the content is searched using a Web search engine or the like, whether information related to the content is transmitted (such as a tweet) through a short message service, a microblog, or the like. It is a log.

  When such a log is acquired, the log server 102 generates performance information for each content. For example, the log server 102 includes content browsing count (impression count), content selection count, CTR (Click Through Rate), number of links set for content, content search count, and information including content. The number of transmissions and the like are transmitted to the information distribution apparatus 10 as performance information. In other words, the log server 102 transmits various types of performance information to the information distribution apparatus 10 as variation information that is information that changes with the passage of time among the information about the content.

  Note that the types of logs collected by the log server 102 and the contents of the result information transmitted to the information distribution apparatus 10 are not limited to the above-described examples. That is, the log server 102 may transmit arbitrary information to the information distribution apparatus 10 as performance information as long as the information changes as time elapses.

  The client terminal 200 is a terminal device that registers content to be distributed in the information distribution device 10. For example, the client terminal 200 is an information processing apparatus used by a client that generates, edits, and distributes content, and is a mobile terminal such as a PDA, a PC, a server, or the like.

  The information distribution device 10 is an information processing device that stores content registered from the client terminal 200 and distributes the stored content to the terminal device 100 when a content distribution request is received from the terminal device 100. For example, the information distribution apparatus 10 is realized by a physical or virtual information processing apparatus such as a PC, a server, or a cloud system.

  Here, the content distributed by the information distribution apparatus 10 is estimated in importance according to the content, the time elapsed since the content was registered (ie, information freshness), and the like. And the information delivery apparatus 10 delivers the content with the presumed high importance preferentially. As a result, the terminal device 100 preferentially displays content with a higher priority.

[1-1. Information distribution process)
Here, in the prior art, when the content is registered, the initial value of the importance level of the content is estimated based on the content content, and the estimated importance level is attenuated as time passes. However, the content to be distributed includes not only content such as news that emphasizes information freshness but also content such as column that does not emphasize information freshness. In addition, there is content that increases in importance as a result of finding value after a certain amount of time has passed since posting, and retweets are frequently performed. For this reason, when the importance of each content is calculated based on a uniform standard, or when the importance is attenuated over time, the calculated importance value is the same as the actual importance of each content. It will diverge.

  In addition, a method using a model that calculates an initial value of importance in consideration of a change in importance with the passage of time can be considered when posting content. However, since the contents to be distributed vary in importance in different modes, it is difficult to learn a model that appropriately calculates the initial value of the importance of each content.

  Therefore, the information distribution apparatus 10 executes the following estimation process. For example, the information distribution apparatus 10 acquires predetermined information related to the content as steady content information. For example, the information distribution apparatus 10 changes the contents of the content, such as text, images, audio, etc. included in the content, the provider of the content distribution source, the author to which the content belongs, etc., with time. At least one of a small amount of information is acquired as article information. Note that the information distribution apparatus 10 is information that has less change with the passage of time as compared to fluctuation information described below, such as information that can be specified before distributing the content, among the information about the content. Any information can be adopted as article information.

  In addition, the information distribution apparatus 10 acquires information that changes as time elapses among information related to the content, that is, information whose value may change for each predetermined time period, as content change information. For example, the information distribution apparatus 10 acquires the record information collected by the log server 102 as fluctuation information. More specifically, the information distribution apparatus 10 determines the number of times the content has been browsed (number of impressions), the number of times the content has been selected, the number of links to the content, the number of times content has been searched, the number of times information about the content has been transmitted, etc. Is acquired as performance information.

  Then, the information distribution apparatus 10 uses the learning device Le that extracts the features of the information from the input information, and newly adds feature information indicating the features of the content at a predetermined time based on the stationary information and the variation information. To extract. In other words, the information distribution apparatus 10 extracts the features of the content at a predetermined time based on the steady information that is predetermined information about the content and changes less with time than the variation information, and the variation information. To do. Then, the information distribution apparatus 10 estimates the importance of the content at a predetermined time based on the feature information.

For example, the information distribution device 10, when estimating the importance w _n of content at time t _n, by using the learner Le, and a constant information content, and change information acquired between times t _n based on the set, extracting feature information y _n indicating the feature of the content at the time t _n, to estimate the severity w _n of contents from the extracted feature information y _n at time t _n. Further, the information distribution device 10, when estimating the importance w _{n + 1} of the content at the time t _{n + 1,} by using the learner Le, and a constant information content, and change information acquired between times t _{n + 1} based on the set, extracting feature information y _{n + 1} indicating the feature of the content at the time t _{n + 1,} to estimate the severity w _{n + 1} contents from the extracted feature information at the time t _{n + 1.} More specifically, the information distribution device 10, extracts the characteristic information y _n, the set of the acquired change information until the time t _{n + 1,} the characteristic information y _{n + 1} indicating the feature of the content at the time t _{n + 1} and estimates the importance w _{n + 1} contents from the extracted feature information at the time t _{n + 1.}

  In this way, the information distribution apparatus 10 estimates the importance from information that can be specified before content distribution, and does not attenuate the importance with the passage of time, but for each time (or time zone), Based on the steady information of the content and the fluctuation information so far, the feature of the content at that time is re-extracted. More specifically, the information distribution apparatus 10 extracts the feature of the content at a predetermined time based on the steady information and the fluctuation information.

  For this reason, the information delivery apparatus 10 can improve the estimation accuracy of the importance of the content. For example, in content such as news, where the freshness of information is regarded as important, it is considered that the number of impressions and searches will decrease with the passage of time. On the other hand, in content such as columns where the freshness of information is not considered as important, it is considered that the number of impressions and the number of searches may remain constant or increase regardless of the passage of time.

  Therefore, the information distribution apparatus 10 re-extracts the feature of the content at each time based on the features of the steady information and the fluctuation information. And the information delivery apparatus 10 estimates importance from the characteristic of the content re-extracted for every time. For this reason, the information distribution apparatus 10 can estimate the importance appropriately reflecting the importance even when the importance index is different for each content or the change in importance with time is different. it can.

[1-2. About the learning device)
Here, the information distribution apparatus 10 extracts and extracts the features of the stationary information and the fluctuation information from the input information using the learning device Le that has been learned so as to extract the features of the information. The information indicating the feature is used as the feature information of the content. For example, the information distribution apparatus 10 connects a plurality of nodes that output calculation results for input data, such as a neural network, an auto encoder, and deep learning, in multiple layers, and compresses the number of dimensions of input information. The feature information is extracted using the learning device Le that extracts the features of the information.

  A more specific example will be described. For example, the information distribution apparatus 10 learns to compress the dimensionality of the input information, extract feature information indicating the characteristics of the information, and restore the input information from the extracted feature information. The auto-encoder is stored as a learning device Le. Such a learning device Le has an input layer that receives input information, an intermediate layer in which a smaller number of nodes are arranged than the input layer, and an output layer that outputs information restored from feature information. Then, the nodes of each layer are connected to the nodes of the adjacent layers through a route in which a predetermined connection coefficient is set.

  Here, since a smaller number of nodes than the input layer are arranged in the intermediate layer, the data output from the intermediate layer is data obtained by compressing the number of dimensions of the data input to the learning device Le, and the output layer The data output from is data that is reproduced from data with a reduced number of dimensions and has the same number of dimensions as the input data. Therefore, if the learning device Le can compress the number of dimensions of the input information so as not to lose the characteristics of the input information, the information input to the learning device Le and the information restored by the learning device Le It is considered that the information is the same or similar.

  Therefore, when a set of steady information, performance information, and time information indicating time is input, the information distribution apparatus 10 extracts information obtained by compressing the dimension number of the input information set, and inputs the extracted information from the extracted information. A learning device Le having a modified connection coefficient so as to reproduce the set of information is obtained. Such a learning device Le extracts information necessary for reproducing a set of input information, that is, feature information indicating characteristics of a set of steady information, performance information, and time information in an intermediate layer. Will be.

  For this reason, the information distribution apparatus 10 converts the steady information, the record information, and the time information into a distributed representation that is multi-dimensional information, and sets a set of distributed representations of the steady information, the record information, and the time information as a learning device Le. To enter. Then, the information distribution apparatus 10 indicates the characteristics of the set of the steady information and the actual information, that is, the characteristics of the content, in the time or time zone indicated by the time information, the information output from the intermediate layer included in the learning device Le. Obtained as feature information.

[1-3. About RNN (Recurrent Neural Networks)
Here, the feature information extracted from the set of the steady information, the record information, and the time information by the learning device Le reflects the feature of the steady information, the feature of the record information, and the feature of the time information. Therefore, the information distribution apparatus 10 determines the predetermined time from the set of the feature information extracted as information indicating the feature of the content at the time prior to the predetermined time and the fluctuation information at the time prior to the predetermined time. The feature information of the content is extracted.

For example, the information distribution device 10 extracts the feature information extracted as the feature information indicating the feature of the content at time “t _n−1 ”, that is, the feature information “y _n−1 ” extracted last time and the time “t _n− ”. "and actual information until t _n", the time "by inputting the time information indicating a t _n to learner Le, time" t _{n "1"} time characteristic information "y _n" of contents in Extract. Then, the information distribution apparatus 10 estimates the importance “w _n ” of the content at time “t _n ” based on the extracted feature information “y _n ”.

When executing the above-described processing, for example, when the information distribution device 10 extracts the feature information “y _n ” indicating the feature of the content at the time “t _n ”, the extracted feature information “y _n ” held in the storage device, and holding the characteristic information "y _n" and actual information between the time "t _n" to the time "t _{n + 1",} and the time information indicating the time "t _{n + 1"} to the learning device Le By inputting, content feature information “y _{n + 1} ” at time “t _{n + 1} ” may be extracted. In addition, the information distribution apparatus 10 temporarily accumulates information output from the intermediate layer, and uses a learning device Le that has an accumulation layer that transmits the accumulated information to the input layer, that is, an RNN, so that new content can be generated. Feature information may be extracted.

For example, when the learning device Le realized by the RNN extracts the feature information “y _n ” of the content at the time “t _n ” in the intermediate layer, it outputs the extracted feature information “y _n ” and holds it in the storage layer To do. In addition, the information distribution apparatus 10 inputs to the learning device Le the learning information from the time “t _n ” to the time “t _{n + 1} ” and the time information indicating the time “t _{n + 1} ” to the learning device Le. . In such cases, the learning unit Le, the information storage layer has accumulated, i.e., the time the characteristic information "y _n" of the content in the "t _n", the time between the "t _n" to the time "t _{n + 1"} extracts the record information, as information that is input and time information indicating the time "t _{n + 1",} the time characteristic information "y _{n + 1"} of the content in the "t _{n + 1".} Therefore, the information distribution apparatus 10 can extract new content feature information simply by inputting new performance information as needed.

[1-4. (Estimation method)
Further, the information distribution apparatus 10 can estimate the importance of the content by an arbitrary method when estimating the importance of the content from the extracted feature information of the content. For example, content feature information extracted using the learning device Le is extracted as multidimensional information. Therefore, the information distribution apparatus 10 estimates the feature information indicating the feature of the content from the extracted feature information using a model for estimating the feature indicated by the information of each dimension included in the feature information, and the content from the estimated feature information. The importance of content may be estimated using a model for estimating the importance of.

  For example, the information distribution apparatus 10 generates a model that estimates what features each dimension of information has in the feature information. And the information delivery apparatus 10 should just estimate the feature information from feature information using the produced | generated model, and should estimate the importance of the content based on the estimated feature information. Further, the information distribution apparatus 10 may use a learning device such as a neural network or DNN that has been learned so as to estimate feature information from the feature information and to estimate the importance of the content from the estimated feature information.

  Hereinafter, an example of an estimation process performed by the information distribution apparatus 10 that performs the above-described process and an example of an information distribution process will be described with reference to FIG.

[1-5. Example of estimation process)
First, the estimation process executed by the information distribution apparatus 10 will be described. For example, the information distribution apparatus 10 accepts content posting from the client terminal 200 (step S1). More specifically, the information distribution apparatus 10 receives article information “x” including various information indicating content attributes such as a content distribution source, a category to which the content belongs, a content author, and the like, together with the content of the content.

In such a case, the information distribution apparatus 10 stores the article information and uses the techniques such as tf-idf (Term Frequency-Inverse Document Frequency), key-value method, W2V (Word 2 Vector), etc. To generate multi-dimensional information. That is, the information distribution apparatus 10 generates a distributed representation “y ₀ ” of the article information “x” that is regular information (step S2).

Subsequently, the information distribution apparatus 10 collects various types of performance information related to the content such as the number of impressions and the number of selections of each content from the log server 102 (step S3). For example, the information distribution apparatus 10 collects the result information “h ₁ ” of the content at the time “t ₁ ”.

Then, the information distribution device 10, and distributed representation "y _0", the time "t _1" time information "t _1" indicating, by entering the record information "h _1" of the content to the learner Le, Feature information “y ₁ ” indicating the feature of the content at time “t ₁ ” is generated (step S4). Further, the information distribution apparatus 10 estimates feature information “z ₁ ” indicating the feature of the content at the time “t ₁ ” from the feature information “y ₁ ” using a predetermined model, a learning device, or the like, and the estimated feature From the information “z ₁ ”, the estimated importance “w ₁ ” that is the importance of the content at the time “t ₁ ” is estimated (step S5).

In addition, the information distribution apparatus 10 newly generates feature information based on the previously extracted feature information and newly collected performance information for each predetermined time period, and estimates the estimated importance each time. (Step S6). More specifically, information distribution device 10, time "t _1" to collect performance information "h _2" of content in until the "t _2" from the time the time information "t ₂ indicating the" t ₂ " ”, Performance information“ h ₂ ”, and specific information“ y ₁ ”extracted last time are input to the learning device Le, thereby generating feature information“ y ₂ ”indicating the feature of the content at time“ t ₂ ”. . In addition, the information distribution apparatus 10 estimates feature information “z ₂ ” indicating the feature of the content at the time “t ₂ ” from the feature information “y ₂ ” using a predetermined model, a learning device, or the like, and the estimated feature From the information “z ₂ ”, the estimated importance “w ₂ ” that is the importance of the content at the time “t ₂ ” is estimated.

Similarly, the information distribution apparatus 10 collects the content information “h ₃ ” of the content between time “t ₂ ” and “t ₃ ”, and stores the time information “t ₃ ” and the result information “h ₃ ”. The specific information “y ₂ ” extracted last time is input to the learning device Le, thereby generating feature information “y ₃ ” indicating the feature of the content at time “t ₃ ”. Further, the information distribution device 10 estimates the feature information "z _3" indicating the identity of the content at time "t _3" from the characteristic information "y _3", from the estimated feature information "z _3", the time "t ₃ The estimated importance “w ₃ ” that is the importance of the content in “” is estimated.

That is, the information distribution device 10 includes a record information up to the predetermined time "t _n" "h _n", the last calculated characteristic information, i.e., time "t _n-1" characteristic information indicating characteristics of the content in the "y based on the _n-1 ", it extracts the characteristic information" y _n "indicating the characteristic of the content at time" t _n ". Then, the information distribution device 10, the extracted characteristic information "y _n", from the time to estimate the feature information "z _n" indicating the identity of the content in the "t _n", estimated feature information "z _n", time The estimated importance “w _n ” that is the importance of the content at “t _n ” is estimated.

[1-6. Example of information distribution process)
Next, information distribution processing executed by the information distribution apparatus 10 will be described. For example, the information distribution device 10 receives a content distribution request from the terminal device 100 (step S7). In such a case, the information distribution apparatus 10 selects the content to be distributed from the attribute of the user U01, the content attribute, and the like, and preferentially distributes the content with high estimated importance among the selected content. (Step S8). For example, the information distribution apparatus 10 distributes the content in the descending order of the estimated importance degree estimated last for the selected content. As a result, the terminal device 100 can cause the user U01 to browse the content in an appropriate order by preferentially displaying the content with the high estimated importance (step S9).

[2. Configuration of information distribution device]
Next, the configuration of the information distribution apparatus 10 according to the embodiment will be described with reference to FIG. FIG. 2 is a diagram illustrating an example of a functional configuration of the information distribution apparatus according to the embodiment. As illustrated in FIG. 2, the information distribution device 10 includes a communication unit 11, a storage unit 12, and a control unit 13. The communication unit 11 is realized by, for example, a NIC (Network Interface Card). The communication unit 11 is connected to the network N in a wired or wireless manner, and transmits / receives information to / from the terminal device 100, the log server 102, and the client terminal 200.

[2-1. Database stored in storage unit)
The storage unit 12 is realized by, for example, a semiconductor memory device such as a RAM (Random Access Memory) or a flash memory, or a storage device such as a hard disk or an optical disk. In addition, the storage unit 12 stores a content database 14, a performance information database 15, a learning device database 16, a feature information database 17, an estimated model database 18, and an importance database 19.

  The content received from the client terminal 200 is registered in the content database 14. For example, FIG. 3 is a diagram illustrating an example of information registered in the content database according to the embodiment. As shown in FIG. 3, the content database 14 includes items such as “content ID”, “content content”, “distribution source”, “category”, “author”, and “distributed expression”. In the content database 14, in addition to the information shown in FIG. 3, arbitrary information that can be specified at the time of content registration, that is, arbitrary stationary information may be registered.

  “Content ID” is information for identifying the registered content. The “content content” is information such as text included in the content. The “content content” may include information other than text, such as a moving image, an image, and a sound. The “distribution source” is information indicating a content providing source, a content producing source, and a registration source that registers the content in the information distribution apparatus 10. When the content is an advertisement or the like, the “distributor” is information indicating an advertisement provider, an advertisement provider such as an advertising agency, a company or an individual in which an advertisement is performed in the advertisement, and the like.

  “Category” is information indicating the category to which the content belongs, such as news and columns. The “author” is information indicating a content creator or the like. The “distributed expression” is information extracted from the content and is multi-dimensional information indicating the content. More specifically, the “distributed expression” is multi-dimensional information indicating the content of article information that is steady content information such as “content content”, “distribution source”, “category”, “author”, and the like. .

  For example, in the example shown in FIG. 3, the content ID “ID1”, the content content “content A”, the distribution source “distribution source A”, the category “category A”, the author “author A”, and the distributed expression “distributed expression A”. Registered in association. In this information, the content of the content indicated by the content ID “ID1” is “content A”, the distribution source is “distribution source A”, the author is “author A”, and belongs to the category “category A”. Indicate. Further, this information indicates that the distributed representation of the article information of the content indicated by the content ID “ID1” is “distributed representation A”.

  Returning to FIG. 2, the record information database 15 stores record information of each content. For example, FIG. 4 is a diagram illustrating an example of information registered in the record information database according to the embodiment. As shown in FIG. 4, the record information database 15 includes items such as “content ID”, “date and time”, “number of impressions”, “number of clicks”, and “number of tweets”. In addition to the information shown in FIG. 4, information that changes with time, that is, arbitrary fluctuation information may be registered in the performance information database 15.

  “Date and time” indicates a time zone in which each associated variation information is collected. The “number of impressions” indicates the number of times content is viewed in the time zone indicated by the associated “date and time”. “Number of clicks” indicates the number of times content is selected in the time zone indicated by the associated “date and time”. The “tweet count” indicates the number of times information related to the content is transmitted in the time zone indicated by the associated “date and time”.

  For example, in the example shown in FIG. 4, the content ID “ID1”, the date and time “2015/1/1/00: 00 to 00:59”, the number of impressions “1000”, the number of clicks “300”, and the number of tweets “500”. Registered in association. In the example shown in FIG. 4, the content ID “ID1”, the date and time “2015/1/1/01: 00 to 01:59”, the number of impressions “300”, the number of clicks “10”, and the number of tweets “5”. It is registered.

  In this information, the content indicated by the content ID “ID1” is viewed “1000” times and selected “300” times between the date and time “2015/1/1/00: 00 to 00:59”. 500 ”tweets are shown. Also, this information is viewed “300” times and selected “10” times for the content indicated by the content ID “ID1” between the date “2015/1/1/01: 00 to 01:59”. , "5" is tweeted. As described above, the content indicated by the content ID “ID1” has a significant decrease in the number of impressions, the number of clicks, and the number of tweets as time passes. It is done.

  On the other hand, in the example shown in FIG. 4, the content ID “ID2”, the date and time “2015/1/1/00: 00 to 00:59”, the number of impressions “300”, the number of clicks “50”, and the number of tweets “5”. Registered in association. In the example shown in FIG. 4, the content ID “ID2”, the date and time “2015/1/1/01: 00 to 01:59”, the number of impressions “350”, the number of clicks “60”, and the number of tweets “50”. It is registered.

  In this information, the content indicated by the content ID “ID2” is viewed “300” times and selected “50” times between the date and time “2015/1/1/00: 00 to 00:59”. 5 ”indicates that it was tweeted. Also, this information is viewed “350” times and selected “60” times for the content indicated by the content ID “ID2” between the date “2015/1/1/01: 00 to 01:59”. , “50” tweets are shown. As described above, the content indicated by the content ID “ID2” is becoming more popular with the passage of time, and the number of impressions, the number of clicks, and the number of tweets are increasing. Therefore, the content freshness is not so important. Conceivable.

  Returning to FIG. 2, the learning device database 16 registers learning devices Le used when the information distribution apparatus 10 extracts content feature information based on steady content information and variation information. More specifically, the learning device database 16 is a learning device in which a plurality of nodes that output calculation results for input data are connected in multiple layers, and the information is stored by compressing the number of dimensions of input information. A connection coefficient set in a path connecting each node of the learning device Le that extracts feature information indicating a feature is registered.

  For example, FIG. 5 is a diagram illustrating an example of information registered in the learning device database according to the embodiment. As shown in FIG. 5, the learning device database 16 has items such as “neuron ID”, “joining neuron ID”, and “connection coefficient”. “Neuron ID” indicates identification information for identifying a neuron that is a node included in the learning device Le. “Destination neuron ID” indicates identification information for identifying another neuron coupled to the neuron corresponding to “neuron ID”. The “connection coefficient” indicates a connection coefficient set in a path connecting the neuron indicated by the “neuron ID” and the neuron indicated by the “joining neuron ID”.

For example, in the example illustrated in FIG. 5, the neuron ID “N ₁₁ ”, the neuron ID “N ₂₁ ”, and the connection coefficient “W _A ” are registered in the learning device database 16 in association with each other. This information indicates that the neuron corresponding to the neuron ID “N ₁₁ ” is connected to the neuron corresponding to the neuron ID “N ₂₁ ” through a path in which the connection coefficient “W _A ” is set. For this reason, to the neuron corresponding to the neuron ID “N ₂₁ ”, a value obtained by integrating the connection coefficient “W _A ” to the output of the neuron ID “N ₁₁ ” is transmitted as an input.

  Returning to FIG. 2, the feature information database 17 stores the feature information of each content in each time zone. For example, FIG. 6 is a diagram illustrating an example of information registered in the feature information database according to the embodiment. As shown in FIG. 6, “content ID”, “use date / time”, and “feature information” are registered in the feature information database 17 in association with each other.

  Here, “use date and time” is information indicating in which time zone the feature indicated by the associated feature information is the feature of the content, and the record used when extracting the associated feature information The time when the information was collected. The “feature information” is content feature information in a time zone next to the time zone indicated by the associated use date and time.

For example, in the example illustrated in FIG. 6, the feature information database 17 corresponds to the content ID “ID1”, the use date and time “2015/1/1/00: 00 to 00:59”, and the feature information “feature information y ₁ ”. It is registered with it. This information is the feature information of the content indicated by the content ID “ID1”, and is extracted based on the performance information collected between “2015/1/1/00: 00 to 00:59”. The information indicates that it is “feature information y ₁ ”.

  Returning to FIG. 2, the estimation model database 18 estimates content feature information from the feature information of the content, and estimates an estimated importance level from the estimated feature information. For example, when the information distribution apparatus 10 uses a neural network similar to the learning device Le as a model, information similar to the learning device database 16 illustrated in FIG. 5 is registered in the estimation model database 18. In the estimation model database 18, information on a model of an arbitrary format is registered as long as the feature information of the content is estimated from the feature information of the content and the estimated importance is estimated from the estimated feature information. It may be.

  The importance database 19 stores the importance of each content in each time zone. For example, FIG. 7 is a diagram illustrating an example of information registered in the content database according to the embodiment. As shown in FIG. 7, “content ID”, “use date / time”, and “estimated importance” are registered in the importance database 19 in association with each other. Here, the “estimated importance” is a value indicating the importance of the content feature information.

For example, in the example illustrated in FIG. 7, the importance database 19 includes a content ID “ID1”, a use date and time “2015/1/1/00: 00 to 00:59”, and an estimated importance “estimated importance w ₁ ”. Are registered in association with each other. This information is the feature information of the content indicated by the content ID “ID1”, and is extracted based on the performance information collected between “2015/1/1/00: 00 to 00:59”. The estimated importance estimated from the information is “estimated importance w ₁ ”.

[2-2. Example of configuration of control unit]
Returning to FIG. 2, the description will be continued. The control unit 13 is stored in a storage device inside the information distribution apparatus 10 by, for example, a central processing unit (CPU), a micro processing unit (MPU), an application specific integrated circuit (ASIC), or a field programmable gate array (FPGA). The various programs are executed by using the RAM as a work area.

  As illustrated in FIG. 2, the control unit 13 includes a reception unit 20, a collection unit 21, a generation unit 22, an extraction unit 23, an estimation unit 24, and a distribution unit 25, and functions and functions of information processing described below. Realize or execute. The internal configuration of the control unit 13 is not limited to the configuration illustrated in FIG. 2, and may be another configuration as long as the information processing described later is performed. In addition, the connection relationship between the processing units included in the control unit 13 is not limited to the connection relationship illustrated in FIG. 2, and may be another connection relationship.

  The accepting unit 20 accepts content registration from the client. For example, the accepting unit 20 accepts steady information that is predetermined information about the content, such as the content, information indicating the distribution source, category, author, and the like. In such a case, the reception unit 20 registers the regular information of the received content in the content database 14.

  The collection unit 21 collects variation information that changes according to time among information on content. For example, the collection unit 21 accesses the log server 102 and collects performance information related to content such as the number of impressions, the number of clicks, and the number of tweets. And the collection part 21 matches with the time slot | zone when the log was collected, and registers the produced | generated track record information in the track record information database 15 as fluctuation information.

  The production | generation part 22 produces | generates the distributed expression which shows the stationary information of a content. For example, when new content is registered, the generation unit 22 uses multi-dimensional information (for example, a vector) from the steady information of the newly registered content using a technique such as tf-idf or W2V. Generate a distributed representation. Thereafter, the generation unit 22 registers the generated distributed expression in the content database 14 in association with the content ID of the corresponding content.

  The extraction unit 23 extracts feature information indicating the feature of the content at a predetermined time based on the steady information of the content and the content variation information using the learning device Le that extracts the feature from the input information. More specifically, the extraction unit 23 includes a combination of feature information extracted as information indicating the feature of the content at a time prior to a predetermined time and variation information at a time prior to the predetermined time, Feature information indicating the feature of the content at a predetermined time is extracted.

  For example, the extraction unit 23 refers to the feature information database 17 and identifies content for which feature information is not registered. Subsequently, the extraction unit 23 acquires the distributed representation of the identified content from the content database 14 and inputs the acquired distributed representation to the learning device Le, thereby indicating the features of the distributed representation, that is, the features of the content. Extract feature information. Then, the extraction unit 23 registers the extracted feature information in the feature information database 17.

  In addition, when extracting the feature information indicating the feature of the content at a predetermined time, the extraction unit 23 reads the variation information at a time before the predetermined time from the performance information database 15. More specifically, the extraction unit 23 reads variation information in a later time zone from the performance information database 15 after extracting feature information indicating the feature of the previous content. Further, the extraction unit 23 reads the feature information extracted last time from the feature information database 17. Then, the extracting unit 23 extracts feature information indicating the feature of the content at a predetermined time based on the read variation information and feature information, and registers the extracted feature information in the feature information database 17.

Hereinafter, an example of processing executed by the extraction unit 23 will be described. In the following explanation,
An example in which the date and time included in the date and time “2015/1/1/02: 00 to 02:59” is “t ₂ ” will be described. For example, the extraction unit 23 extracts the feature information “y ₂ ” extracted using the actual information collected by the date “t ₂ ”, that is, the use date “2015/1/1/01: 00 to 01:59”. "Is registered from the feature information database 17.

In addition, the extraction unit 23 records the result information collected by the date and time “t ₂ ” of the specified content information, that is, the date and time “2015/1/1/01: 00 to 01:59”. Acquired performance information “h ₂ ” is acquired from the performance information database 15. In addition, the extraction unit 23 extracts the feature information extracted last time among the feature information of the identified content, that is, the performance information collected during the date and time “2015/1/1/00: 00 to 00:59”. The feature image method “y ₁ ” extracted based on “h ₁ ” is extracted from the feature information database. Then, the extraction unit 23 inputs the set of the feature information “y ₁ ”, the record information “h ₂ ”, and the time information “t ₂ ” to the learning device Le, thereby determining the feature of the content at the time “t ₂ ”. The feature information “y ₂ ” shown is extracted.

In addition, when extracting new feature information based on the previously extracted feature information, the extraction unit 23 may extract feature information using the RNN. For example, FIG. 8 is a diagram illustrating an example of processing in which the information distribution apparatus according to the embodiment extracts feature information. For example, it is considered that there is no content information of content when the content is registered or for a while after the registration. Therefore, the extraction unit 23 inputs the distributed representation “y ₀ ” of the content to the learning device Le as shown in FIG.

  In such a case, the learning device Le compresses the number of dimensions of the distributed representation input toward the intermediate layer and restores the original distributed representation from the information output by the intermediate layer, that is, the distributed representation in which the number of dimensions is compressed. . In such a learning device Le, the characteristic of the distributed expression, that is, the feature information of the content is corrected by correcting the value of the connection coefficient so that the input distributed expression and the restored distributed expression are the same. Are extracted with high accuracy.

Therefore, as illustrated in FIG. 8B, the extraction unit 23 uses the date and time “t” to output information output by the intermediate layer of the learning device Le when the distributed representation “y ₀ ” of the content is input to the learning device Le. wherein information "y _1" of the content in the time zone indicated by ₁ '. Then, the extraction unit 23 registers the feature information “y ₁ ” in the feature information database 17.

Here, when the learning device Le is realized by the RNN, the feature information “y ₁ ” is held in the storage layer connected to the node of the input layer. Then, as shown in FIG. 8C, when the extraction unit 23 inputs the time information “t ₂ ” and the result information “h ₂ ” of the content to the learning device Le, the characteristics held in the accumulation layer The information “y ₁ ” is input to the input layer of the learning device Le together with the time information “t ₂ ” and the record information “h ₂ ”. As a result, as shown in (D) of FIG. 8, the learning device Le uses the feature information “y ₁ ”, the time information “t ₂ ”, and the record information “h ₂ ” as the feature information “y ₂ ”. ₂ ”.

  Returning to FIG. 2, the description will be continued. The estimation unit 24 estimates the importance of the content at a predetermined time based on the extracted feature information at the predetermined time. For example, the estimation unit 24 reads a model from the estimated model database 18. Further, the estimation unit 24 identifies the latest feature information from the feature information database 17 for each content, estimates feature information indicating the feature of the content from the identified feature information using the read model, and the feature information From the above, the estimated importance of the content at a predetermined time is estimated using a model for estimating the importance of the content at a predetermined time. Then, the estimating unit 24 registers the estimated estimated importance and the use date and time associated with the identified feature information in the importance database 19 in association with each other. For example, the estimation unit 24 may estimate the estimated importance by compressing the number of dimensions of input information and inputting feature information or feature information to a learning device that extracts features.

  The distribution unit 25 distributes the content preferentially from the content having a high estimated importance to the user U01. For example, when receiving the distribution request, the distribution unit 25 performs targeting based on the steady information in the content database 14, the attribute of the user U01, and the like, and selects the content to be distributed.

  In addition, the distribution unit 25 specifies the estimated importance when the distribution request for the selected content is received from the importance database 19 and distributes the selected content to the terminal device 100 in the order of the specified estimated importance. For example, in the time zone of “2015/1/1/02: 00-02: 59”, the importance associated with the use date “2015/1/1/01: 00-01: 59” is the latest. Is the estimated importance. Therefore, when the distribution unit 25 receives a distribution request in the time zone of “2015/1/1/02: 00 to 02:59”, the use date “2015/1/1/01: 00 The latest estimated importance level associated with “01:59” is specified, and content is distributed based on the specified estimated importance level.

  The distribution unit 25 distributes the content and the identified estimated importance level together to the terminal device 10 and controls the terminal device 100 to preferentially display the content with the high estimated importance level, thereby estimating the estimated importance level. The content having a high degree may be preferentially provided to the user U01.

[2-3. Example of display in terminal device 100]
Next, an example of a process in which the terminal device 100 displays content with a priority according to the estimated importance will be described with reference to FIG. FIG. 9 is a diagram illustrating an example of a process in which the terminal device according to the embodiment displays content according to priority. In the example illustrated in FIG. 9, an example of a screen displayed by the terminal device 100 when news D and news E are delivered after news A, news B, and column C are delivered as contents is described. . In the following description, it is assumed that the terminal device 100 displays a maximum of four contents.

  For example, in the terminal device 100, the news A whose posting date is “2015/1/1/10: 00”, the news B whose posting date is “2015/1/1/09: 0”, and the posting date “ Column C of “2015/1/1/11: 00” is distributed. Here, when the estimated importance is calculated so that the importance of the news is higher than that of the column and the importance of the newer posting date is higher, for example, the information distribution apparatus 10 estimates the news A. Assume that the importance is “100”, the estimated importance of news B is “90”, and the estimated importance of column C is “30”. As a result, as shown in the first state of FIG. 9, the terminal device 100 displays the contents in the order of the estimated importance of each content, that is, in the order of news A, news B, and column C. .

  Here, in content such as news, information freshness is an important feature. For this reason, if the information freshness of the news A and the news B falls, the information delivery apparatus 10 will reduce the estimated importance of the news A and the news B. On the other hand, in content such as a column, the information freshness is not a very important feature, so the information distribution apparatus 10 does not significantly reduce the importance of the column C over time. Further, the information distribution device 10 newly recalculates the importance level of the column C based on the result information when the number of impressions in the column C increases after a predetermined time has elapsed since posting. .

  Therefore, for example, the information distribution apparatus 10 sets the estimated importance of news A to “80”, the estimated importance of news B to “60”, and the estimated importance of column C to “50”. Further, the information distribution apparatus 10 sets the estimated importance of the new news D to “100”. As a result, the terminal device 100 displays news D, news A, news B, and column C in this order as shown in the second state of FIG.

  Here, when the number of impressions and the number of tweets in column C has increased, as a result of column C becoming popular content, information distribution apparatus 10 recalculates the estimated importance of column C to a higher value. For example, the information distribution apparatus 10 recalculates the estimated importance of the column C from “50” to “70”. On the other hand, content such as news A, B, and D decreases in the number of impressions and tweets as time passes. Therefore, the information distribution apparatus 10 sets the estimated importance of news A to “50”, the estimated demand of news B to “40”, and the estimated importance of news D to “80”. Further, the information distribution apparatus 10 sets the estimated importance of the new news E to “100”.

  As a result, the terminal device 100 displays the contents in the order of news E, news D, column C, news A as shown in the third state of FIG. That is, the terminal device 100 cancels the display of the news B, and the column C, which is popular content after a lapse of time, has priority over the news A that has a higher estimated importance than the column C at the time of posting. indicate.

  In this way, the information distribution apparatus 10 recalculates the estimated importance of content for each time zone based on the steady information and the time information. For this reason, for example, the information distribution apparatus 10 includes, as content to be distributed, content whose information freshness is important, content where information freshness is not important, content that becomes popular after a lapse of time after posting, constant Even when the importance of content changes in various manners, such as content that maintains popularity, content that gradually decreases in popularity, etc., the estimated importance can be made to follow true importance.

  That is, the importance of content varies in different manners as time passes. For this reason, when the estimated importance of content is calculated using only stationary information as in the prior art, the estimated importance cannot follow the true importance. In addition, as in the prior art, when importance is estimated using only change information such as browsing results, the importance of content immediately after submission for which sufficient browsing results are not obtained cannot be accurately estimated.

  However, since the information distribution apparatus 10 calculates the estimated importance of the content based on the steady information and the fluctuation information, it is possible to estimate the importance of the content immediately after submission. In addition, when the variation information is acquired, the information distribution device 10 recalculates the estimated importance of the content based on the acquired variation information and the steady information. As a result, the information distribution apparatus 10 can compare the importance level between the content immediately after submission and the content for which fluctuation information can be acquired. Content distribution according to the actual importance at the time can be realized.

[2-4. Example of learner and model)
Next, an example of the learning device Le and the model used by the information distribution device 20 will be described using mathematical expressions. In the following description, the performance information at the time indicated by the time information “k” is “h _k ”, the distributed expression and feature information is “y _k ”, the feature information is “z _k ”, and the estimated importance is “w _k ”. ". In the following description, article information is described as “x”. Note that “x” is a sparse vector indicating article information.

For example, in the case of “k = 0”, the distributed representation “y ₀ ” of the content is calculated from the article information “x” by the following formula (1). Here, “A” and “a” shown in Expression (1) are predetermined matrices. That is, the information distribution apparatus 10 inputs the value obtained by adding the matrix “a” to the product of the matrix “A” and the article information “x” to the function represented by the expression (2), thereby distributing the expression “y ₀ Is calculated.

Subsequently, in the case of “k = 1”, that is, when the first record information “h ₁ ” is collected, the information distribution device 20 sets the distributed representation “y ₀ ” and the time information “t ₁ ” as The feature information “y ₁ ” is extracted from the set of the record information “h ₁ ”. Further, when “k ≧ 2”, the information distribution apparatus 20 determines the feature information “y” from the combination of the previously extracted feature information “y _k−1 ”, the time information “k”, and the performance information “h _k ”. _k ".

Specifically, the information distribution apparatus 20 extracts feature information “y _k ” using the following equation (3). Here, “B” and “b” shown in Expression (3) are predetermined matrices. That is, the information distribution apparatus 10 calculates a transpose matrix of a matrix in which the transpose matrix of the feature information “y _k−1 ”, the transpose matrix of the time information “k”, and the transpose matrix of the record information “h _k ” are arranged. The characteristic information “y _k ” is calculated by inputting the sum of the value accumulated in the matrix “B” and the matrix “b” to the function represented by Expression (2).

Subsequently, the information distribution apparatus 20 calculates the feature information “z _k ” at the time “k” using the following equation (4). Here, “C” and “c” shown in Expression (4) are predetermined matrices. That is, the information distribution apparatus 10 inputs the value obtained by adding the matrix “c” to the product of the matrix “C” and the feature information “y _k ” to the function shown in the equation (5), so that the time “k” The feature information “z _k ” is calculated.

Subsequently, the information distribution apparatus 20 calculates the estimated importance “w _k ” at the time “k” from the feature information “z _k ” at the time “k” by using the following equation (6). Here, “D” and “d” shown in Expression (6) are predetermined matrices. That is, the information distribution apparatus 10 calculates a value obtained by adding the matrix “d” to the product of the matrix “D” and the feature information “z _k ” as the estimated importance “w _k ”.

  A process for correcting the connection coefficient of the learning device Le that extracts feature information based on steady state information and fluctuation information, and a model that estimates estimated information from feature information and estimates estimated importance from estimated information. The learning process is a process of adjusting the matrices “A” to “D” and the matrices “a” to “d” included in the above-described equations (1) to (6) to appropriate values. Therefore, the information distribution device 20 learns the values of the matrices “A” to “D” and the matrices “a” to “d” by using a technique such as Stochastic Gradient Descent (SGD). Thus, the estimation accuracy of the estimation importance can be improved.

[3. Procedure of information executed by information distribution apparatus]
Next, an example of the flow of processing executed by the information distribution apparatus 10 according to the embodiment will be described with reference to FIGS. First, the flow of processing executed when content posting is received will be described with reference to FIG. FIG. 10 is a flowchart illustrating an example of a flow of processing in which the information distribution apparatus according to the embodiment accepts content posting. For example, the information distribution apparatus 10 accepts content posting from the client terminal 20 (step S101). In such a case, the information distribution apparatus 10 generates a distributed expression indicating the content of the steady information of the content (Step S102), and ends the process.

  Next, the flow of processing for estimating the estimated importance of content will be described with reference to FIG. FIG. 11 is a flowchart illustrating an example of a flow of estimation processing performed by the information distribution apparatus according to the embodiment. For example, the information distribution apparatus 10 collects record information of each registered content (step S201).

  Subsequently, the information distribution apparatus 10 determines whether or not feature information extracted last time exists for each content (step S202). If the previously extracted feature information does not exist (step S202: No), the information distribution apparatus 10 extracts feature information of a set of the distributed representation of the steady information of the content and the result information (step S203). On the other hand, when the feature information extracted last time exists (step S202: Yes), the information distribution apparatus 10 extracts the feature information of the combination of the feature information and the past information extracted last time (step S204).

  Further, the information distribution apparatus 10 estimates feature information indicating the feature of the content from the feature information extracted in step S203 or step S204 (step S205), and estimates an estimated importance degree from the feature information (step S206). Then, the information distribution apparatus 10 registers the estimated importance (step S207) and ends the process.

  Next, an example of the flow of information distribution processing executed by the information distribution apparatus 10 according to the embodiment will be described with reference to FIG. FIG. 12 is a flowchart illustrating an example of information distribution processing by the information distribution apparatus according to the embodiment. For example, the information distribution apparatus 10 determines whether a distribution request has been received from the terminal apparatus 100 (step S301). If the information distribution apparatus 10 has not received a distribution request (step S301: No), the information distribution apparatus 10 stands by until it is received.

  On the other hand, when receiving a distribution request (step S301: Yes), the information distribution apparatus 10 selects content that is a candidate for distribution (step S302). Further, the information distribution apparatus 10 specifies the estimated importance of the selected content (step S303). Then, the information distribution device 10 distributes the content and the estimated importance to the terminal device 100, displays each content in order of priority according to the estimated importance (step S304), and ends the process.

[5. (Modification)
The information distribution apparatus 10 according to the above-described embodiment may be implemented in various different forms other than the above-described embodiment. Therefore, in the following, another embodiment of the information distribution apparatus 10 will be described.

[5-1. About the learning device)
In the above description, the information distribution apparatus 10 extracts feature information using the learning device Le that is an auto encoder having three layers of an input layer, an intermediate layer, and an output layer. However, the embodiment is not limited to this. For example, the information distribution apparatus 10 may extract feature information using a learning device Le having a plurality of intermediate layers, that is, a learning device Le having an arbitrary number of layers.

  Here, when the learning device Le has a plurality of intermediate layers, the intermediate layer having the smallest number of nodes, that is, the intermediate layer having the smallest number of dimensions of information to be output, indicates the characteristics of the input information. It is thought that there is. Therefore, when using the learning device Le having a plurality of intermediate layers, the information distribution apparatus 10 may use the information output from the intermediate layer with the smallest number of dimensions of output information as the feature information.

  In addition to the auto encoder, the information distribution apparatus 10 may execute the above-described information distribution process using an arbitrary learning device Le. In addition to the neural network and deep learning, the information distribution device 10 can extract feature information that appropriately indicates the feature of the content in a predetermined time zone based on the steady state information and the fluctuation information. Any model may be learned, and the estimation process described above may be executed using such a model.

  Further, the information distribution apparatus 10 estimates the feature information from the feature information and the learner Le that extracts the feature information indicating the feature of the content at a predetermined time based on the steady information and the fluctuation information, and estimates from the feature information. The model for estimating the importance may be realized by one learning device Le or a model. Such a learning device Le or model realizes the processing represented by the above-described equations (1) to (6).

  In the above description, the information distribution apparatus 10 inputs a set of the feature information, time information, and performance information extracted last time to the learning device Le. When such an input is performed, the learning device Le is considered to output feature information reflecting a feature based on a difference between the previous time information included in the previously extracted feature information and the newly input time information. It is done. However, the embodiment is not limited to this. For example, the information distribution apparatus 10 may input a set of the feature information extracted in the previous time and the record information to the learning device Le. In other words, the information distribution device 10 may use the learning device Le in any manner as long as the feature of the content is extracted each time based on the set of steady information and fluctuation information.

[5-2. About fluctuation information)
In the above description, the information distribution apparatus 10 extracts feature information based on steady state information and fluctuation information. Here, when the time interval at which the information distribution apparatus 10 estimates the estimated importance is shorter than the time interval at which the record information is collected, there may be no variation information in the initial estimation process. Even in such a case, the information distribution apparatus 10 may estimate the feature information from the stationary information and estimate the estimated importance from the estimated feature information by executing the above-described estimation process.

  Further, when receiving the content distribution request, the information distribution device 10 collects the record information of the content to be distributed, and the set of the collected record information and the steady information of the content or the extracted feature information New feature information may be extracted from the set of the collected history information and the estimated importance may be estimated from the extracted feature information. That is, the information distribution apparatus 10 may execute the above-described estimation process at an arbitrary timing.

The information distribution apparatus 10 may use content variation information in an arbitrary manner. For example, in the above-described example, when the feature information “y _k ” is extracted, the feature information is extracted based on the record information from “t _{k −1} ” to “t _k ”. However, the information distribution apparatus 10 extracts feature information based on, for example, performance information between “t ₀ ” and “t _k ”, that is, performance information between the time when the content is registered and a predetermined time. You can do it. Further, the information distribution apparatus 10 may use record information (however, i <k) between “t _i ” and “t _k ”. That is, the information distribution apparatus 10 may extract feature information based on the performance information at an arbitrary time interval. When such a process is executed, for example, the learning device Le extracts the feature of the content according to the variation information transition mode such as the transition of the number of impressions, the transition of the number of clicks, the transition of the CTR, etc. be able to. As a result, the information distribution apparatus 10 can improve the estimation accuracy of the estimated importance.

  Moreover, the information delivery apparatus 10 can employ any information as the variation information as long as it is information that varies with the passage of time among the information regarding the content. For example, the information distribution device 10 includes information regarding content such as the number of impressions, the number of clicks, the number of links to the content, the number of searches for the content, the number of tweets, and the evaluation of users with respect to the content. , At least one of them may be adopted as the variation information, and the feature information may be extracted based on the variation information.

[5-3. About steady information)
Moreover, the information delivery apparatus 10 can employ any information as the steady information as long as it is information that does not vary with time in the information related to the content. For example, the information distribution apparatus 10 includes at least one of content information, a provider such as a distribution source, a category to which the content belongs, an author, text included in the content, an image, a moving image, or information that does not change One may be adopted as variation information, and feature information may be extracted based on the variation information.

  Further, in the above-described example, the information distribution apparatus 10 sets the stationary information as the stationary information that is not easily changed with the passage of time among the information regarding the content. Here, the steady information may be information that does not change with the passage of time, such as text included in the content. Further, the information distribution apparatus 10 may use, as steady information, any information that can be specified in a state in which performance information is not collected again, such as when content is distributed.

[5-4. About feature information extraction)
The information distribution apparatus 10 described above uses the learning device Le that can extract the feature of the content from the set of steady information and variation information. However, the embodiment is not limited to this, and the information distribution apparatus 10 may perform learning by the learning device Le.

  For example, the information distribution apparatus 10 compares the estimated importance estimated last time for each content with the newly collected performance information for each content, and the order of the estimated importance of the content and the order of the performance information (for example, impression) The model for estimating the estimated importance from the learning device le or feature information may be modified so that the number order matches. In addition, the information distribution device 10 corrects the connection coefficient of the learning device Le so that the set of input feature information, time information, and performance information matches the information restored from the extracted feature information. You may go. Such correction may be realized by a method such as a back propagation method.

[5-5. About targeting)
Here, the information distribution device 10 may use the learning device Le for selecting content to be distributed. For example, the information distribution device 10 obtains a distributed expression indicating attribute information of the user U01 such as demographic attributes such as income, occupation, educational background, psychographic attributes such as lifestyle and user U01, and the like. Using Le, feature information indicating a feature of a set of attribute information of the user U01, content stationary information, and performance information is extracted. Then, the information distribution apparatus 10 may estimate the estimated priority according to the attribute of the user U01 as the content distribution destination by estimating the estimated priority from the extracted feature information.

  By executing such processing, the information distribution apparatus 10 can improve the accuracy of targeting. When executing such processing, the information distribution apparatus 10 receives the input attribute information, the steady information, and the record information from the feature information indicating the characteristics of the set of the input attribute information, the steady information, and the record information. The learning device Le may be learned so as to restore the pair with.

[5-6. About content)
In the above description, the information distribution apparatus 10 extracts feature information from a distributed representation of content including text such as news and columns. However, the embodiment is not limited to this. That is, the information distribution apparatus 10 may generate a distributed expression from content such as an image, a moving image, and audio, and extract content feature information based on the generated distributed expression. In other words, the information distribution apparatus 10 may extract the feature information of the content based on the set of the steady information and the actual information using the distributed representation of the image, the moving image, and the sound as the steady information of the content.

  That is, the information distribution apparatus 10 can estimate not only text information but also any content as long as the content information can be extracted by compressing the number of dimensions of information such as an image or a moving image. Processing and information distribution processing can be adopted.

[5-7. Ad trafficking)
When the content is an advertisement, the advertiser may request an agency to submit the advertisement content. In this case, it is the agency that submits the advertising content to the information distribution apparatus 10. In this specification, when the content is an advertisement, a notation such as “client” is a concept including not only an advertiser but also an agency such as a client in which an advertisement is performed by the advertisement content, and a notation such as “client terminal” It is assumed that the concept includes a device used by an agency as well as a device used by an advertiser.

[5-8. Others]
In addition, among the processes described in the above embodiment, all or part of the processes described as being automatically performed can be performed manually, or the processes described as being performed manually can be performed. All or a part can be automatically performed by a known method. In addition, the processing procedures, specific names, and information including various data and parameters shown in the document and drawings can be arbitrarily changed unless otherwise specified.

  Further, each component of each illustrated apparatus is functionally conceptual, and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each device is not limited to that shown in the figure, and all or a part thereof may be functionally or physically distributed or arbitrarily distributed in arbitrary units according to various loads or usage conditions. Can be integrated and configured.

  For example, each of the databases 14 to 19 illustrated in FIG. 2 may be held in a storage server or the like without being held by the information distribution apparatus 10. In this case, the information distribution apparatus 10 acquires content and the like by accessing the storage server.

  Further, for example, the information distribution device 10 described above receives a distribution request from the terminal device 100, distributes the content and the estimated importance, and the front end server side that executes mainly the distribution processing, The feature information based on the stationary information and the variation information may be extracted and distributed to the back-end server side that executes mainly the estimation process for estimating the estimated importance from the extracted feature information. That is, the information distribution device 10 may be realized by an estimation device that estimates the estimated importance and an information distribution device that distributes content according to the estimated importance.

[5-9. Hardware configuration)
Further, the information distribution apparatus 10 according to the embodiment described above is realized by a computer 1000 having a configuration as shown in FIG. 13, for example. FIG. 13 is a diagram illustrating an example of a hardware configuration of a computer that realizes the function of the information distribution apparatus. The computer 1000 includes a CPU 1100, RAM 1200, ROM 1300, HDD 1400, communication interface (I / F) 1500, input / output interface (I / F) 1600, and media interface (I / F) 1700.

  The CPU 1100 operates based on a program stored in the ROM 1300 or the HDD 1400 and controls each unit. The ROM 1300 stores a boot program executed by the CPU 1100 when the computer 1000 is started up, a program depending on the hardware of the computer 1000, and the like.

  The HDD 1400 stores a program executed by the CPU 1100, data used by the program, and the like. The communication interface 1500 receives data from other devices via the communication network 500 (corresponding to the network N) and sends the data to the CPU 1100, and transmits data generated by the CPU 1100 to other devices via the communication network 500. To do. The CPU 1100 controls an output device such as a display and a printer and an input device such as a keyboard and a mouse via the input / output interface 1600. The CPU 1100 acquires data from the input device via the input / output interface 1600. Further, the CPU 1100 outputs the data generated via the input / output interface 1600 to the output device.

  The media interface 1700 reads a program or data stored in the recording medium 1800 and provides it to the CPU 1100 via the RAM 1200. The CPU 1100 loads such a program from the recording medium 1800 onto the RAM 1200 via the media interface 1700, and executes the loaded program. The recording medium 1800 is, for example, an optical recording medium such as a DVD (Digital Versatile Disc) or PD (Phase change rewritable disk), a magneto-optical recording medium such as an MO (Magneto-Optical disk), a tape medium, a magnetic recording medium, or a semiconductor memory. Etc.

  For example, when the computer 1000 functions as the information distribution apparatus 10, the CPU 1100 of the computer 1000 implements the function of the control unit 13 by executing a program loaded on the RAM 1200. In addition, each data in the storage unit 12 is stored in the HDD 1400. The CPU 1100 of the computer 1000 reads and executes these programs from the recording medium 1800. However, as another example, these programs may be acquired from other devices via a communication network.

[6. effect〕
As described above, the information distribution apparatus 10 obtains the feature information indicating the feature of the content at a predetermined time based on the steady information that is the predetermined information related to the content and the fluctuation information that changes with the passage of time. Extraction is performed using a learning device Le that extracts features of the information from the input information. And the information delivery apparatus 10 estimates the importance of the content in predetermined time based on the extracted feature information. For this reason, the information delivery apparatus 10 can improve the estimation accuracy of the importance of the content.

  That is, the information distribution apparatus 10 re-extracts the feature of the content at each time based on the feature of the steady information and the variation information each time using the learning device Le that extracts the feature of the input information. And the information delivery apparatus 10 estimates importance from the characteristic of the content re-extracted for every time. For this reason, the information distribution apparatus 10 can determine the content of the content based on the characteristics of the steady information and the variation information even when the importance index is different for each content or when the importance changes with time. Re-extract features. In addition, even when the estimated importance estimated first is different from the actual importance, the information distribution device 10 newly estimates the estimated importance from the actual information collected later. Can follow the importance of. For this reason, the information distribution apparatus 10 can estimate the estimated importance that appropriately reflects the actual importance.

  In addition, the information distribution apparatus 10 sets information that changes less as time elapses than fluctuation information as steady information. For this reason, the information distribution apparatus 10 can extract the feature information indicating the feature of the content based on the information with little change with the passage of time among the information about the content.

  In addition, the information distribution apparatus 10 determines a predetermined time from a set of feature information extracted as information indicating the feature of the content at a time prior to the predetermined time and variation information at a time prior to the predetermined time. Feature information indicating the feature of the content is extracted. For example, the information distribution apparatus 10 extracts new feature information from a set of previously extracted feature information and newly collected variation information.

  Here, it is considered that the feature information extracted so far includes the features of the variation information collected so far. For this reason, since the information distribution apparatus 10 can extract the feature information considering all the variation information collected so far, from the set of the feature information extracted last time and the newly collected variation information, It is possible to extract feature information that accurately indicates the feature of the content in a certain time zone. As a result, the information distribution apparatus 10 can improve the estimation accuracy of the estimated importance.

  In addition, the information distribution apparatus 10 extracts new feature information from a set of variation information in a later time zone after extracting previous feature information and feature information extracted last time. Thus, since the information distribution apparatus 10 re-extracts feature information based on new variation information in each time zone, the accuracy of estimation importance estimation in each time zone can be improved.

  Further, the information distribution apparatus 10 extracts feature information of new content based on the variation information collected so far. For this reason, since the information distribution apparatus 10 can estimate the estimated importance in the future based on the collected variation information, for example, CTR prediction or the like can be performed with high accuracy.

  Further, the information distribution apparatus 10 extracts feature information indicating the feature of the content based on the variation information after the content is registered. For this reason, the information distribution apparatus 10 extracts the feature information of the content based on the transition mode of the variation information such as the variation in the number of impressions, for example, so that the estimation accuracy of the estimation importance can be improved.

  In addition, the information distribution device 10 is a learning device Le in which a plurality of nodes that output calculation results for input data are connected in multiple layers, and shows the characteristics of the information by compressing the number of dimensions of the input information Using the learning device Le that extracts information, the feature information of the content is extracted. For this reason, the information distribution apparatus 10 can appropriately extract the feature information of the content in each time slot.

  In addition, the information distribution device 10 includes a learning device Le having an intermediate layer that outputs feature information extracted from input information, an input layer that receives input of feature information output from the intermediate layer and variation information, that is, The feature information of the content is extracted using the RNN. Here, as described above, it is considered that the feature information includes the features of the variation information collected so far. For this reason, the information distribution apparatus 10 can extract the feature information that accurately indicates the feature of the content in the next time zone, so that the estimation accuracy of the estimated importance can be improved.

  In addition, the information distribution apparatus 10 is configured to store the content content, the content provider, the category to which the content belongs, the content author, the text included in the content, and the text, image, moving image, or audio included in the content. Based on at least one of them, content feature information is extracted. For this reason, the information distribution apparatus 10 can extract feature information based on stationary information included in the content.

  In addition, the information distribution apparatus 10 may select at least one of the number of impressions, the number of selections, the number of links to the content, the number of searches for content, the number of times information related to content such as the number of tweets, and the evaluation of content. Based on this, the feature information of the content is extracted. For this reason, the information distribution apparatus 10 can extract the feature information that the content has based on the variation information up to that point.

  Further, the information distribution apparatus 10 estimates feature information indicating the feature of the content from the feature information, and estimates the estimated importance of the content using a model that estimates the estimated importance of the content from the feature information. For this reason, the information distribution apparatus 10 can improve the estimation accuracy of the estimated importance of content in each time slot.

  In addition, the information distribution apparatus 10 determines a time later than the predetermined time from a set of the feature information extracted as information indicating the characteristics of the content at the predetermined time and the variation information at a time later than the predetermined time. Feature information indicating the feature of the content is extracted. For example, the information distribution apparatus 10 extracts new feature information from a set of previously extracted feature information and newly collected variation information. Thus, since the information distribution apparatus 10 re-extracts feature information based on new variation information in each time zone, the accuracy of estimation importance estimation in each time zone can be improved.

  As described above, some of the embodiments of the present application have been described in detail based on the drawings. It is possible to implement the present invention in other forms with improvements.

  Further, the above-mentioned “section (module, unit)” can be read as “means”, “circuit”, or the like. For example, the distribution unit can be read as distribution means or a distribution circuit.

DESCRIPTION OF SYMBOLS 10 Information delivery apparatus 11 Communication part 12 Storage part 13 Control part 14 Content database 15 Performance information database 16 Learning machine database 17 Feature information database 18 Estimation model database 19 Importance database 20 Reception part 21 Collection part 22 Generation part 23 Extraction part 24 Estimation part Unit 25 Distribution unit 100, 101 Terminal device 102 Log server 200 Client terminal

Claims (14)

Based on the predetermined steady information related to the content and the fluctuation information that changes with time in the information related to the content, the feature information indicating the characteristics of the content at a predetermined time is obtained from the input information. An extraction unit that extracts using a learning device that extracts features;
An estimation device comprising: an estimation unit configured to estimate the importance of the content at the predetermined time based on the extracted feature information. The extraction unit, as the predetermined constant information, claim 1, characterized in that changes with the elapse of time than the variation information among the information related to the content based on less information, and extracts the feature information The estimation apparatus described in 1 . The extraction unit includes the predetermined information from a set of feature information extracted as information indicating the characteristics of the content at a time prior to the predetermined time and variation information at a time prior to the predetermined time. The estimation apparatus according to claim 1, wherein feature information indicating a feature of the content at time is extracted. The extraction unit is configured to display variation information in a time zone after extracting feature information indicating the characteristics of the content at a time prior to the predetermined time, and characteristics of the content at a time prior to the predetermined time. The estimation apparatus according to claim 3, wherein feature information indicating a feature of the content at the predetermined time is extracted from a set of feature information to be displayed. The extraction unit extracts feature information indicating a feature of the content at the predetermined time based on variation information at a time prior to the predetermined time as the variation information. The estimation apparatus according to any one of? The extraction unit extracts, as the variation information, feature information indicating characteristics of the content at the predetermined time based on variation information from when the content is registered until the predetermined time. The estimation apparatus according to any one of claims 1 to 5. The extraction unit is a learning device in which a plurality of nodes that output operation results for input data are connected in multiple layers, and extracts feature information indicating features of the information by compressing the number of dimensions of the input information The estimation apparatus according to claim 1, wherein feature information of the content is extracted using a learning device. The extraction unit uses, as the learning device, a learning device that includes a layer that outputs feature information extracted from input information, a layer that receives the feature information output by the layer, and the variation information. The feature information of the content is extracted. The estimation device according to claim 7. The extraction unit includes the content information, the content provider, the field to which the content belongs, the author of the content, the text included in the content, and the text, image, and video included in the content. The estimation apparatus according to any one of claims 1 to 8, wherein feature information of the content is extracted based on at least one of an image and audio. The extraction unit includes, as the variation information, the number of times the content has been browsed, the number of times the content has been selected, the number of links to the content, the number of times the content has been searched, and the number of times information related to the content has been transmitted. The feature information of the content is extracted based on at least one of the evaluations for the content and the content. The estimation device according to any one of claims 1 to 9. The estimation unit estimates feature information indicating a feature of the content at the predetermined time from feature information indicating a feature of the content at the predetermined time, and the content at the predetermined time from the feature information. The estimation device according to any one of claims 1 to 10, wherein the importance of the content at the predetermined time is estimated using a model for estimating the importance of the content. The feature of the content at a time later than the predetermined time is indicated based on the feature information indicating the feature of the content at the predetermined time and the fluctuation information that changes with time in the information related to the content. An extraction unit for extracting feature information;
An estimation device comprising: an estimation unit configured to estimate the importance of the content at a time later than the predetermined time based on the extracted feature information. Based on the predetermined steady information related to the content and the fluctuation information that changes with time in the information related to the content, the feature information indicating the characteristics of the content at a predetermined time is obtained from the input information. An extraction step of extracting using a learning device for extracting features,
An estimation method comprising estimating an importance level of the content at the predetermined time based on the extracted feature information. On the computer,
Based on the predetermined steady information related to the content and the fluctuation information that changes with time in the information related to the content, the feature information indicating the characteristics of the content at a predetermined time is obtained from the input information. An extraction procedure for extracting using a learning device for extracting features,
An estimation program for executing an estimation procedure for estimating the importance of the content at the predetermined time based on the extracted feature information.

Images