JP2023094249A - Information processing device, information processing method, and information processing program - Google Patents

Abstract

To provide an information processing device capable of providing an appropriate service according to interests of a user.SOLUTION: An information processing device comprises an acquisition unit and a determination unit. The acquisition unit acquires a learning model which outputs a score indicating a degree of possibility to a prescribed conversion of a user corresponding to the entered interest information with interest information on interests of a user as an input, and interest information on interests of a target user. The determination unit determines a provision advertisement, which is an advertisement provided to the target user, by entering the interests of the target user into the learning model using the score output by the learning model.SELECTED DRAWING: Figure 9

Description

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

2. Description of the Related Art Conventionally, various techniques have been provided for providing information to users using information related to user interests. For example, among a plurality of quadrants in which the categories in which the user is interested are classified based on elements related to commercial transactions, advertisements corresponding to the quadrant to which the category in which the user is interested belong belong. is provided.

JP 2021-099631 A

However, the above conventional techniques have room for improvement. For example, in the above conventional technology, categories in which users are interested are classified into four quadrants based on the overall average of the average number of purchases and the purchasing user content rate (coordinate axes), and advertisements are distributed. there is As described above, the conventional technology described above distributes advertisements depending on quadrants, and there is room for improvement in terms of flexibly providing services such as information provision. Therefore, it is desired to be able to provide appropriate services according to the user's interests.

The present application has been made in view of the above, and an object thereof is to provide an information processing apparatus, an information processing method, and an information processing program capable of providing an appropriate service according to user's interests.

An information processing apparatus according to the present application includes a learning model that outputs a score indicating the degree of possibility that a user corresponding to the input interest information will reach a predetermined conversion, with interest information related to the user's interest as input. , an acquisition unit that acquires the interest information related to the interest of the target user; and by inputting the interest information of the target user into the learning model, using the score output by the learning model, the and a determination unit that determines the provided advertisement, which is the advertisement to be provided to the target user.

According to one aspect of the embodiment, there is an effect that it is possible to provide appropriate services according to user's interests.

FIG. 1 is a diagram illustrating an example of information processing according to an embodiment. FIG. 2 is a diagram illustrating an example of learning processing of a learning model. FIG. 3 is a diagram illustrating an example of information generation processing using a learning model. FIG. 4 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 5 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 6 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 7 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 8 is a diagram illustrating a configuration example of an information processing system according to the embodiment; FIG. 9 is a diagram illustrating a configuration example of an information processing apparatus according to the embodiment; 10 is a diagram illustrating an example of a model information storage unit according to the embodiment; FIG. 11 is a diagram illustrating an example of a threshold information storage unit according to the embodiment; FIG. 12 is a diagram illustrating an example of an advertisement information storage unit according to the embodiment; FIG. FIG. 13 is a flowchart illustrating an example of the flow of information processing executed by the information processing device. FIG. 14 is a flowchart illustrating an example of the flow of information processing executed by the information processing device. FIG. 15 is a flowchart illustrating an example of the flow of information processing executed by the information processing device. FIG. 16 is a flowchart illustrating an example of the flow of information processing executed by the information processing device. FIG. 17 is a flowchart illustrating an example of the flow of information processing executed by the information processing device. FIG. 18 is a hardware configuration diagram showing an example of a computer that implements the functions of the information processing apparatus.

Hereinafter, modes for implementing an information processing apparatus, an information processing method, and an information processing program (hereinafter referred to as "embodiments") according to the present application will be described in detail with reference to the drawings. Note that the information processing apparatus, information processing method, and information processing program according to the present application are not limited to this embodiment. Also, in each of the following embodiments, the same parts are denoted by the same reference numerals, and overlapping descriptions are omitted.

(embodiment)
[1. information processing]
An example of information processing executed by the information processing system 1 will be described below with reference to FIG. FIG. 1 is a diagram illustrating an example of information processing according to an embodiment. The information processing system 1 uses information about user interests (also referred to as "interest information") and a score (also referred to as "hot degree") that indicates the degree of possibility that the user will reach a predetermined conversion. information processing. The information processing system 1 generates a learning model (simply referred to as “model”) that has learned the relationship between interest and hotness. The information processing system 1 performs various types of information processing using a learning model (also referred to as a "hotness prediction model") that outputs a predicted hotness based on interest information as input. For example, the information processing system 1 uses the hot degree prediction model to perform various types of information processing such as analyzing information and providing information to users.

In the following, as an example of conversion, purchase of a product by a user will be described as an example, but purchase of a product is just an example of conversion, and conversion can be any action of the user. For example, a conversion may be a user's behavior that leads to a benefit of service usage or membership registration for an advertisement target of the advertisement content. Further, the conversion may be requesting materials, viewing (displaying) a site corresponding to advertising content, visiting a real store, or the like. In this way, it is possible to arbitrarily set what kind of behavior of the user is regarded as conversion. For example, the administrator of the information processing system 1, the advertiser, or the like may individually set what behavior of the user is regarded as conversion for each advertisement.

[1-1. Configuration of information processing system]
Prior to explaining the processing shown in FIGS. 1 to 7, the configuration of the information processing system 1 will be explained using FIG. FIG. 8 is a diagram illustrating a configuration example of an information processing system according to the embodiment; As shown in FIG. 8 , information processing system 1 includes user terminal 10 , advertiser device 20 , business operator device 30 , and information processing device 100 . User terminal 10, advertiser device 20, business operator device 30, and information processing device 100 are communicatively connected via a predetermined network N by wire or wirelessly. The information processing system 1 shown in FIG. 8 includes a plurality of user terminals 10, a plurality of advertiser devices 20, a plurality of business operator devices 30, and a plurality of information processing devices 100. may

A user terminal 10 is a computer used by a user. The user terminal 10 is a device (terminal device) that can be carried by the user. For example, the user terminal 10 is used by a user who accesses content such as web pages displayed on a browser and content for applications. The user terminal 10 is used by the user to perform various actions on the Internet. For example, the user terminal 10 is used by the user to perform a search using a search query. For example, the user terminal 10 is used by the user to view contents (web pages, etc.) of a commercial transaction site, purchase products on the commercial transaction site, and post product information evaluations (so-called reviews). be.

The user terminal 10 is realized by, for example, a smart phone, a tablet terminal, a notebook PC (Personal Computer), a mobile phone, a PDA (Personal Digital Assistant), or the like. FIG. 1 shows a case where the user terminal 10 is a smart phone. In addition, below, the user terminal 10 may be described as a user. That is, hereinafter, the user can also be read as the user terminal 10 .

The advertiser device 20 is an information processing device used by advertisers. Alternatively, the advertiser may request an agency to submit an advertisement without using advertiser device 20 to submit advertisement content (hereinafter also simply referred to as "advertisement") to information processing device 100. be. In this case, the agency submits the advertisement to the information processing apparatus 100 . Hereinafter, the notation "advertiser" is a concept that includes not only advertisers but also agencies, and the notation "advertiser device" includes not only advertiser devices but also agency devices used by agencies. shall be a concept.

For example, the advertiser device 20 is realized by a smart phone, a tablet terminal, a notebook PC, a desktop PC, a mobile phone, a PDA, or the like. In addition, in the example of FIG. 1, the case where the advertiser device 20 is a notebook PC is shown as an example. In the example of FIG. 1, advertiser device 20 is an information processing device used by an advertiser identified by advertiser ID "AP1" (hereinafter referred to as "advertiser AP1"). Advertiser AP 1 uses advertiser device 20 to transmit and receive information to and from information processing device 100 . The advertiser device 20 may also receive information from the information processing device 100 . The advertiser AP1 may be a corporation or the like, and the user of the advertiser device 20 denoted by the advertiser AP1 in FIG.

The business operator device 30 is a computer (server device) used by a business operator (company) or the like that sells products. The business operator device 30 provides information to the information processing device 100 . The provider device 30 transmits various information necessary for processing by the information processing device 100 to the information processing device 100 . The business operator device 30 provides the information processing device 100 with second data, which is data used to grasp conversion (also referred to as “conversion grasping data”). The business operator device 30 provides the information processing device 100 with second data including the user's action history indicating that the user has reached a predetermined conversion. For example, the business operator device 30 provides the information processing device 100 with second data including the user's action history indicating that the user has purchased a predetermined product.

Business operator device 30 may provide electronic commerce services to users. For example, the business operator device 30 provides an electronic commerce service for selling business products. The business operator device 30 provides the user with an online shopping service for products of the business operator. For example, the business operator device 30 provides various types of information regarding business products in response to a request from the user terminal 10 used by the user, and executes purchase processing for products that the user desires to purchase. Note that when the advertiser and the business are the same, the business device 30 and the advertiser device 20 may be integrated.

The information processing apparatus 100 is a computer that executes various types of information processing using interest information of a user and a degree of hotness that indicates the degree of possibility that the user will reach a predetermined conversion. The information processing apparatus 100 receives interest information and generates a learning model that outputs a predicted degree of hotness. For example, the information processing apparatus 100 uses a learning model to perform various types of information processing such as analyzing information and providing information to users.

The information processing apparatus 100 inputs the target user's interest information into the learning model (hotness prediction model), and uses the score (hotness) output by the hotness prediction model to determine the advertisement to be provided to the target user ( (also referred to as “offered advertisements”). The information processing apparatus 100 determines the advertisement to be provided to the target user using the score (hotness) output from the hotness prediction model to which the interest information of the target user is input. The information processing apparatus 100 uses designation information indicating the degree of possibility of reaching a predetermined conversion designated by the one requester and information generated by the hot degree prediction model, and provides it to the one requester. Determine the provided information that is information.

The information processing apparatus 100 uses the target user's first interest information at a first time point and the target user's second interest information at a second time point that is later than the first time point to provide information to the target user. Determine how advertisements are served. The information processing apparatus 100 receives the hot level (also referred to as "first hot level") output by the hot level prediction model to which the target user's first interest information is input and the target user's second interest information. The hotness level output by the hotness level prediction model (also referred to as "second hotness level") is used to determine the manner in which the advertisement is to be provided to the target user. The information processing apparatus 100 uses information generated by the hotness prediction model to determine the mode of interest change.

The information processing apparatus 100 uses the first interest information about the user's interest before the advertisement is provided and the second interest information about the user's interest after the advertisement is provided to determine the user's interest by providing the advertisement. Learn a learning model (also called an "estimation model") that estimates changes in interest.

The information processing apparatus 100 collects first data, which is information about user's interests. The information processing apparatus 100 collects first data including a user's action history indicating the user's interests. For example, the first data storage unit 121 collects first data including various kinds of information indicating the user's interests, such as search data. For example, the information processing apparatus 100 collects first data including a history of search queries used by the user for searches, browsing of search results, and the like.

For example, the information processing device 100 may provide electronic commerce services to users. The information processing device 100 provides a commercial transaction site such as an electronic shopping mall on the network. The information processing apparatus 100 provides users with online shopping services on commercial transaction sites. For example, the information processing apparatus 100 provides various types of information regarding commercial transaction sites in response to requests from the user terminal 10 used by the user, and executes purchase processing for products that the user wishes to purchase. Note that the electronic commerce service provided by the information processing apparatus 100 is the same as online shopping in a general electronic commerce service, so detailed description will be omitted.

Further, for example, the information processing device 100 may function as a search device that provides search results to the user terminal 10 used by the user who has input the search query. In this case, the information processing apparatus 100 has a function as a search engine that acquires a search query from a user and performs search processing to provide search results using the search query to the user terminal 10 used by the user. The information processing apparatus 100 provides search services to users. For example, the information processing apparatus 100 has a database (also referred to as a “search target database”) in which search processing targets using search queries, such as products of businesses, are indexed and stored. Perform search processing on information. For example, the information of the search target database is stored in the storage unit 120 (see FIG. 9).

In this way, the information processing device 100 may function as a search device, that is, the information processing device 100 and the search device may be integrated, but the information processing device 100 and the search device may be separate entities. . In this case, the information processing system 1 (see FIG. 9) includes a search device that performs a search process for a search query and provides a search service that provides search results.

As described above, when a search device other than the information processing device 100 provides a search service to the user, the first data may be acquired from the search device. For example, the information processing device 100 may receive first data from a search device that provides a search service. The above system configuration is merely an example, and the information processing system 1 may have any device configuration as long as it can provide desired information to a user who has entered a search query.

Note that the information processing system 1 may have various devices other than those described above. For example, the information processing system 1 may have a web server (server device) that provides electronic commerce services to users. For example, a web server provides a commercial transaction site such as an electronic shopping mall on a network. A web server provides users with online shopping services at a commercial transaction site. For example, the web server provides various types of information about commercial transaction sites in response to requests from the user terminal 10 used by the user, and executes purchase processing for products that the user wishes to purchase. For example, a web server sells products provided by businesses to users. The web server transmits various types of information regarding sales of products of the business operator to the business operator device 30 of the business operator.

The web server provides information to the information processing apparatus 100 . The web server transmits to the information processing apparatus 100 various information necessary for processing by the information processing apparatus 100 . The web server provides the information processing apparatus 100 with information regarding the purchase of products by the user. For example, the web server provides the information processing apparatus 100 with various types of information collected on the commercial transaction site. The web server provides the information processing device 100 with information collected from the user terminal 10 , the advertiser device 20 and the business operator device 30 .

[1-2. Overall overview of processing in information processing system]
An example of information processing performed by the information processing system 1 will now be described with reference to FIGS. 1 to 7. FIG. First, with reference to FIG. 1, an outline of processing in the information processing system 1 including transmission and reception of information between devices of the information processing system 1 will be described. Then, details of each information processing will be described with reference to FIGS. explain.

First, the information processing apparatus 100 acquires various types of information about user behavior from the user terminal 10 used by the user (step S1). For example, the information processing apparatus 100 acquires first data such as a search query from the user terminal 10 used by the user. For example, a user uses a service (search service, etc.) provided by the information processing apparatus 100, and the information processing apparatus 100 collects logs (behavior history) regarding the use of the service by the user who uses the provided service. For example, the information processing apparatus 100 acquires first data such as a user's search query from the user terminal 10 of the user who uses the provided search service. Note that the above is merely an example, and the information processing apparatus 100 may provide various services other than the search service to acquire the user's first data.

Also, the user using the user terminal 10 uses the electronic commerce service provided by the business operator apparatus 30 (step S2). For example, the business operator device 30 provides online shopping services of the business operator device 30 to the user in response to a request from the user terminal 10 used by the user. For example, the business operator device 30 provides the user terminal 10 with various information related to the commercial transaction site, and executes purchase processing for products that the user wishes to purchase.

Then, the information processing device 100 acquires information used for processing from the provider device 30 (step S3). The information processing device 100 receives the second data from the business operator device 30 . Note that the information processing apparatus 100 may acquire information (second data, etc.) from a web server that provides electronic commerce services.

Then, the information processing apparatus 100 executes various learning processes using the acquired information (step S4). The information processing apparatus 100 uses the acquired information to execute learning processing for learning a learning model such as a hot degree prediction model. For example, the information processing apparatus 100 uses the acquired information to execute a learning process for learning a model M1 (see FIG. 2), which is a hotness prediction model, etc., details of which will be described with reference to FIG.

Then, the information processing apparatus 100 uses the acquired information to execute various determination processes (step S5). The information processing apparatus 100 executes the determination process using the acquired information. For example, the information processing apparatus 100 uses the acquired information to execute determination processing for determining information to be provided to the user, which will be described later in detail.

Then, the information processing apparatus 100 uses the information determined by the determination process to provide the service (step S6). Although FIG. 1 illustrates only provision to the user terminal 10 used by the user, the information processing apparatus 100 may also provide services to business operators using information generated by information processing. For example, the information processing device 100 provides the determined advertisement to the user terminal 10 . Further, for example, the information processing device 100 provides the business operator's device 30 with information in response to a request from the business operator. Details of various services provided by the information processing apparatus 100 will be described later.

[1-3. Information processing details]
Assuming the information processing performed by the information processing system 1 described above, details of various information processing performed by the information processing apparatus 100 will be described. It should be noted that descriptions of the same points as those described above will be omitted as appropriate. Also, various types of processing described below may be combined as appropriate.

First, prior to a detailed description of each process, its premise and outline will be described. For example, there is a desire to learn the relationship between interest and hotness and use the learning result in various ways. Therefore, the information processing apparatus 100 generates a model that has learned the relationship between interest and hotness.

For example, the information processing apparatus 100 learns a model by combining data of a plurality of companies. For example, the information processing device 100 collects first data collected by a first business operator who manages the information processing device 100, and second data collected by a second business operator different from the first business operator (for example, a company that desires analysis). Model learning is performed using the second data.

In this way, the information processing apparatus 100 combines the first data, which is the interest data based on the search data etc. owned by the first business operator, with the conversion grasping data owned by the second business operator. (Full-funnel) analysis becomes possible. In addition, the information processing apparatus 100 performs user matching in units of user groups (also referred to as “cohorts”) having common attributes, thereby matching privacy safety and appropriately executing various processes. For example, the information processing apparatus 100 can execute full-funnel optimal advertisement distribution and nurturing royal road analysis.

For example, the information processing apparatus 100 receives interest information based on first data collected by a first operator, and outputs a hot level based on second data collected by a second operator (hot level prediction model). ). In this case, the information processing apparatus 100 learns a hotness predictive model that receives information about interests as input and uses hotness that indicates the degree of possibility of conversion as correct information (correct data). Thereby, the information processing apparatus 100 can execute the full-funnel optimum advertisement calculated backward from the conversion (correct answer information). In addition, the information processing apparatus 100 can perform nurturing royal road analysis by using the learned hot degree prediction model.

By utilizing machine learning techniques such as deep learning, the information processing apparatus 100 can perform highly accurate matching and full-funnel analysis even when user matching is performed on a cohort basis. In addition, the information processing apparatus 100 matches the cohorts while changing the way of cutting the matrix, and learns the model using the matched data. You can learn a model that is close to what you did.

The information processing apparatus 100 learns the relationship between individual interest vectors and conversion hotness (hotness), thereby statistically analyzing the overall view of these relationships. The information processing apparatus 100 can visualize the main axis (the royal road) of the relationship between changes in the degree of hotness (changes in position on the funnel) and changes in interests. Based on the contents described above, each information processing will be described below with reference to the drawings.

[1-3-1. Processing related to the learning model]
Processing related to the learning model will now be described. First, processing related to model learning will be described with reference to FIG. FIG. 2 is a diagram illustrating an example of learning processing of a learning model. Specifically, in FIG. 2, the information processing apparatus 100 receives an interest vector, which is an example of interest information, and learns a model M1, which is a hot degree prediction model that outputs a hot degree. Note that the (network) structure of the model M1 can adopt any structure such as a fully connected layer (Fully Connected Layer), MLP (Multi Layer Perceptron), FNN (Feedforward Neural Network), and the like. The model M1 may also be an arbitrary decision tree machine learning model such as LightGBM (Gradient Boosting Machine). Moreover, the input of the model M1 is not limited to the interest vector, and may be any information as long as it indicates interest. It may be data of interest.

Interest vectors that are input to the model M1 are generated based on the first data FD in FIG. In FIG. 2, for each combination of a cohort corresponding to the user's age (age) and a plurality of periods separated by the elapsed time after purchasing a predetermined product, like the matrix (matrix) data shown in the interest vector list IVL , an interest vector is generated. For example, using the first data for each combination of the user's age and period, an interest vector is generated for each combination of the user's age and period.

For example, the interest vector V31 is a user group (cohort) of people in their thirties, and represents a vector generated using interest data of users who have been in their thirties for one year. An interest vector V41 is a user group (cohort) whose age is in their 40s, and indicates a vector generated using the interest data of users whose elapsed time since purchasing the product is one year. Note that the one-year elapsed time after purchasing the product may be a period of one year or less from the purchase of the product. Moreover, the elapsed time of one year after the purchase of the product may be a period including one year from the purchase of the product, and may be, for example, a period of 11 to 13 months since the purchase of the product.

An interest vector V32 is a user group (cohort) of people in their thirties, and represents a vector generated using interest data of users who have been two years since purchasing the product. Note that two years after the purchase of the product may be a period of more than one year and less than two years after the purchase of the product. Also, the two years elapsed since the purchase of the product may be a period including two years after the purchase of the product, and may be, for example, a period of 23 to 25 months since the purchase of the product. In FIG. 2, interest vectors are indicated by abstract codes such as V31, V32, V41, etc., but each interest vector is N-dimensional vector data.

For example, each dimension of each interest vector corresponds to a given target and indicates the degree of interest in the target corresponding to that dimension. For example, each dimension of each interest vector corresponds to a search query and indicates the degree of interest in the subject indicated by the search query corresponding to that dimension. It should be noted that the above is only an example, and the interest vector may take any form as long as the desired processing is possible.

Each interest vector is generated using search data such as a search query input by a user whose age and elapsed time since purchase of a product correspond. For example, the interest vector V31 is generated using search data such as a search query input by a user who is in the user group (cohort) in their 30s and who has been purchasing a product for one year. be done. For example, the interest vector V31 is a user group (cohort) whose age is in their 30s, and the number of times each search query has been input by users who have been purchasing products for one year. It may be used as the value of the corresponding dimension.

Note that the interest vector may be generated using various information, not limited to search data. For example, the interest vector may be generated using browsing data browsed by the user, analysis data such as posts to SNS (Social Networking Service), and the like. For example, the interest vector may use the appearance frequency of a keyword in the content viewed by the user or in the posted data posted by the user as a dimension value corresponding to the keyword. Further, for example, the interest vector may be obtained by generating a score (interest score) indicating interest in each object from the user's interest data, and using the interest score as a dimension value corresponding to the object. good. For example, the interest score may be calculated using a model (interest score calculation model) that has been trained to calculate the interest score when the user's information and the subject of interest are input.

Note that each interest vector shown in the interest vector list IVL of FIG. 2 may be generated by the information processing device 100, or may be generated by another device (vector generation device) that generates the interest vector. . For example, when the vector generation device generates interest vectors, the information processing device 100 transmits the first data FD to the vector generation device, and the vector generation device receiving the first data FD indicates the interest vector list IVL. Each interest vector may be generated. Then, the information processing apparatus 100 may acquire each interest vector shown in the interest vector list IVL by receiving each interest vector generated by the vector generation apparatus from the vector generation apparatus. .

The degree of hotness, which is the output (correct information) of the model M1, is generated based on the second data SD in FIG. In FIG. 2, for each combination of a cohort corresponding to the user's age (age) and a plurality of periods separated by the elapsed time after purchasing a predetermined product, like the matrix data shown in the hotness list LSL , the hotness is generated. For example, using the second data for each combination of the user's age and period, the hotness level is generated for each combination of the user's age and period. The second data SD may be conversion grasping data relating to a user who has reached a predetermined conversion owned by a business operator such as a company. The second data SD identifies the user who has converted.

For example, a hotness level of "80" is a user group (cohort) of people in their thirties, and a vector generated using data indicating whether or not a user has converted for one year after purchasing a product. show. In addition, the hotness level "20" is a user group (cohort) whose age is in their 40s, and is a vector generated using data indicating the presence or absence of conversion of users who have elapsed time after purchasing a product for one year. show. In this case, since the hotness level of "80" is higher than the hotness level of "20", in the case of a user whose age has been one year since purchasing the product, the user in his thirties is more likely to convert than the user in his forties. It indicates that there is a high possibility of reaching For example, the degree of hotness is data indicating that the hotter the value, the larger the value (for example, "100" or the accuracy of "1").

Also, the hotness level "60" is a user group (cohort) of people in their 30s, and a vector generated using data indicating whether or not conversion is performed by users who have been two years since purchasing a product. show. In this case, since the hotness level "80" is higher than the hotness level "60", in the case of a user in his thirties, the elapsed time after purchasing the product is one year rather than two years. Indicates that the year is more likely to convert. In FIG. 2, the degree of hotness is indicated by "80", "60", "20", etc., but any aspect can be used as long as it indicates that the higher the value, the higher the possibility of conversion. Each hot degree may be a numerical value including a decimal point such as "0.8" or "0.6".

Each hotness level is generated using information indicating the presence or absence of conversion of the user corresponding to the age and the elapsed time after purchasing the product. For example, a hotness level of "80" is information indicating whether or not a user who is in the user group (cohort) in their 30s and who has had one year since purchasing the product has purchased the product. generated using For example, a hotness level of "80" means that 80% of users in the user group (cohort) in their thirties who have purchased a product for one year have purchased the product. You can show that there is

Each hot level shown in the hot level list LSL in FIG. 2 may be generated by the information processing apparatus 100, or may be generated by another apparatus (hot level generating apparatus) that generates hot levels. For example, when the hotness generation device generates the hotness, the information processing device 100 transmits the second data SD to the hotness generation device, and the hotness generation device receiving the second data SD adds the hotness list LSL to the hotness degree list LSL. Each hotness shown may be generated. Then, the information processing apparatus 100 may acquire each hot level shown in the hot level list LSL by receiving each hot level generated by the hot level generating apparatus from the hot level generating apparatus.

The information processing apparatus 100 learns a hot degree prediction model through learning processing (step S11). In FIG. 2, the information processing apparatus 100 learns the model M1 using each interest vector shown in the interest vector list IVL and each hot level shown in the hot level list LSL. For example, the information processing apparatus 100 learns the model M1 by inputting each interest vector shown in the interest vector list IVL and using the corresponding hot degree in the hot degree list LSL as correct information.

For example, the information processing apparatus 100 uses a technique such as back propagation so that the score output by the model M1 approaches the correct information (hot degree) corresponding to the interest vector input to the model M1. The learning process is performed by For example, the information processing apparatus 100 performs learning processing so that the score output by the model M1 to which the interest vector is input approaches the correct information corresponding to the interest vector. For example, when the correct information is "100", the information processing apparatus 100 learns so that the score output by the model M1 approaches "100" when the interest vector corresponding to the correct information is input. process. Further, for example, when the correct information is "0", the information processing apparatus 100 adjusts the score output by the model M1 to approach "0" when the interest vector corresponding to the correct information is input. , the learning process is performed.

For example, the information processing apparatus 100 adjusts the values of weights (that is, connection coefficients) that are considered when values are transmitted between nodes by learning processing. In this way, the information processing apparatus 100 learns the model M1 by processing such as back propagation that corrects the parameters (connection coefficients) so that the error between the output of the model M1 and the correct information corresponding to the input is reduced. . For example, the information processing apparatus 100 generates the model M1 by performing processing such as back propagation so as to minimize a predetermined loss function. Thereby, the information processing apparatus 100 can perform learning processing for learning the parameters of the model M1.

Note that the model learning method is not limited to the method described above, and any known technique can be applied. Note that each model may be generated using various conventional techniques related to machine learning as appropriate. For example, a model may be generated using a technology related to supervised learning machine learning such as SVM (Support Vector Machine). Also, for example, model generation may be performed using techniques related to unsupervised machine learning. For example, model generation may be performed using deep learning techniques. For example, the model may be generated using various deep learning techniques such as DNN (Deep Neural Network), RNN (Recurrent Neural Network), and CNN (Convolutional Neural Network). Note that the above description of model generation is an example, and model generation may be performed by a learning method appropriately selected according to obtainable information and the like. That is, if the information processing apparatus 100 can learn the model M1 so as to output a score corresponding to correct information when an interest vector used as learning data is input, what kind of method can be used to learn the model M1? may be generated.

In this way, the information processing apparatus 100 performs user matching on a cohort-by-cohort basis and learns from various perspectives. In addition, it is desirable to have a sufficient amount of data to improve the accuracy of learning. should be adopted. For example, the information processing apparatus 100 changes how to cut the user attribute or the elapsed time into various cuts (divisions), and uses learning data of pairs of input and correct data generated according to each cut, Model training may be performed. For example, the information processing apparatus 100 may learn a model by using for learning in order from the largest delimiting granularity to the smallest.

As described above, the information processing apparatus 100 generates the model M1 by learning and generalizing the relationship between the interest vector and the conversion hot degree. The information processing apparatus 100 receives an interest vector as an input and learns a model M1 for inferring the degree of hotness. It should be noted that the information processing apparatus 100 may perform learning with settings that suppress over-learning in the learning process and improve generalization performance.

By learning the model M1 as described above, the information processing system 1 can utilize machine learning such as deep learning for analysis of multiplication and realize full-funnel analysis. The information processing system 1 inputs an interest vector to a model M1 learned by machine learning such as deep learning, and makes the model M1 learn the hot degree of the corresponding matrix as correct data. The information processing system 1 may learn the model M1 using the elapsed time after purchase as correct data. In this case, the information processing system 1 can learn a model M1 that outputs the degree of hotness and the elapsed time since purchase corresponding to the input interest vector. For example, the information processing system 1 can use the information for advertisement distribution by causing the model M1 to output the elapsed time since purchase. The information processing system 1 can infer the elapsed time by using the model M1 even in an electronic commerce service with a limited number of users.

As described above, the information processing system 1 can cause the model M1 to output information for inferring the degree of hotness (and the estimated elapsed time after purchase) regarding conversion by inputting the interest vectors to the model M1. In this way, the information processing system 1 can infer the degree of hotness (and the estimated elapsed time after purchase) regarding conversion by using the model M1. For example, the information processing system 1, from the interest information of the user and the information of the user who led to the predetermined conversion regarding the predetermined target, the degree of certainty (hot degree) leading to the predetermined conversion, and the relationship between the interest identify gender.

Various information can be generated and analyzed by using the model M1. This point will be described below. First, generation of information using the model M1, which is a learning model, will be described with reference to FIG. FIG. 3 is a diagram illustrating an example of information generation processing using a learning model. The information processing device 100 generates various types of information using the model M1. For example, the information processing apparatus 100 uses the model M1 to generate relational information such as a map of the degree of hotness and interest vectors, and implements various services using the generated relational information.

For example, the information processing apparatus 100 uses the model M1 to generate relationship information MP1 indicating the relationship between the interest vector and the hotness level. In FIG. 3, the information processing apparatus 100 uses the model M1 to generate information such as a contour map showing the relationship between the interest vector and the hotness as the relationship information MP1. For example, the information processing apparatus 100 inputs a vector to the model M1 and plots the output (score) to generate the relationship information MP1. In this case, the information processing apparatus 100 may generate relational information MP1 by inputting a plurality of vectors in which the value of each dimension is changed to the model M1 and plotting a plurality of outputs (scores). The information processing apparatus 100 may generate the relational information MP1 by inputting a large amount of vectors in which the value of each dimension is gradually changed to the model M1 and plotting a plurality of outputs (scores).

The above is merely an example, and the information processing apparatus 100 may generate the relational information MP1 by any process as long as the relational information MP1 can be generated. The relationship information MP1 in FIG. 3 may be generated by another device (relationship information generation device) other than the information processing device 100 . For example, when the relationship information generation device generates relationship information MP1, the information processing device 100 transmits the model M1 to the relationship information generation device, and the relationship information generation device that receives the model M1 generates the relationship information MP1. good. Then, the information processing apparatus 100 may acquire the relationship information MP1 by having the information processing apparatus 100 receive the relationship information MP1 generated by the relationship information generation apparatus from the relationship information generation apparatus. Further, if processing such as providing information, which will be described later, can be executed without using the relationship information MP1, the information processing apparatus 100 may perform the processing without generating the relationship information MP1.

In FIG. 3, the first dimension (dimension #1) of the vector of interest is the x-axis, the second dimension (dimension #2) of the vector of interest is the y-axis, or the high-dimensional dense vector is dimensionally compressed. is two-dimensionally expressed by , and relationship information MP1 is shown with the degree of conversion hot (hot degree) as the z-axis. Note that the dimension of the interest vector is not limited to two dimensions, and may be three or more dimensions. That is, although FIG. 3 shows a three-dimensional representation due to space limitations, the interest vector may be a high-dimensional vector.

FIG. 3 shows relational information MP1, which is a contour map in which hatching becomes darker as the value of the z-axis (hotness) increases. In FIG. 3, the darker the hatching, the higher the degree of hotness. That is, in FIG. 3, the darker the hatching, the higher the degree of hotness of the user, that is, the higher the possibility of conversion. Also, in FIG. 3, the lighter the hatching, the lower the degree of hotness. That is, in FIG. 3, the lighter the hatching, the lower the degree of hotness of the user, that is, the less likely the user is to convert.

For example, you can set multiple stages (also called "funnels") according to the likelihood of conversion depending on hotness. For example, a low hotness, ie, lightly hatched portion, indicates the first stage (also referred to as the "upper funnel") that is least likely to lead to a given conversion. In addition, the degree of hotness is medium, that is, the part with the middle density of hatching indicates that it is the second stage (also called "middle funnel") with a higher possibility of reaching a predetermined conversion than the first stage. show. In addition, a high degree of hotness, that is, a darkly hatched portion indicates the third stage (also referred to as “lower funnel”) with the highest possibility of conversion. It should be noted that it is also possible to set where each funnel is delimited, or to automatically optimize it based on feedback from the results of ad distribution.

Users can be classified into a plurality of types (kinds) according to the above funnels. For example, a user with a low degree of hotness, that is, a user corresponding to a lightly hatched portion is a first-type user (also referred to as an “upper-funnel user”) with the lowest possibility of reaching a predetermined conversion. In addition, users with a moderate degree of hotness, i.e., users corresponding to the shaded portion with intermediate density, are second-type users ("middle-funnel users") who are more likely to reach a predetermined conversion than upper-funnel users. Also called). In addition, a user with a high degree of hotness, that is, a user corresponding to a darkly hatched portion is a third-type user (also referred to as a “lower-funnel user”) with the highest possibility of conversion. Thresholds may be used to determine how to set the boundaries between upper-funnel users and middle-funnel users and between middle-funnel users and lower-funnel users. It is explained below.

[1-3-2. Information provision to users]
Processing using the information generated by the processing described above will now be described. For example, the information processing apparatus 100 determines an advertisement to be provided to the target user by inputting the interest vector of the target user into the learning model and using the score output by the learning model. This point will be described with reference to FIG. FIG. 4 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 4 shows relational information MP1 of an image of the processing concept, and the processing performed by the information processing apparatus 100 will be described below using FIG.

The information processing apparatus 100 determines an advertisement to be provided to the target user using a first threshold TH1 and a second threshold TH2 having a larger value than the first threshold TH1. For example, the first threshold TH1 may be "30" and the second threshold TH2 may be "60". It should be noted that the above is merely an example, and arbitrary values may be set for the first threshold TH1 and the second threshold TH2. As shown in FIG. 4, the first threshold TH1 is used as a separator (boundary) between the upper funnel (also simply referred to as "upper") and the middle funnel (simply referred to as "middle"), and the second threshold TH2 is It is used as a separator (boundary) between the middle funnel and the lower funnel (also simply called "lower").

For example, the information processing apparatus 100 inputs the interest vector of the target user to the model M1, and according to the result of comparing the score (hotness) output by the model M1 with the first threshold TH1 and the second threshold TH2, Determine which advertisements to serve to the target user. The information processing apparatus 100 uses the score output by the model M1 to determine one type of advertisement (also referred to as “target type”) to be used as the provided advertisement. The information processing device 100 includes an upper type (also referred to as a “first type”), a middle type (also referred to as a “second type”), and a lower type (also referred to as a “third type”). ), determine the target type.

For example, the information processing apparatus 100 inputs the interest vector of the target user to the model M1, and determines the target type using the hotness corresponding to the target user output by the model M1 (also referred to as "target hotness"). do. For example, the information processing apparatus 100 determines the target type to be the first type (upper type) when the target hot degree is equal to or less than the first threshold TH1. Further, when the target hot degree is greater than the first threshold TH1 and equal to or less than the second threshold TH2, the information processing apparatus 100 determines the target type to be the second type (middle type). Further, when the target hot degree is greater than the second threshold TH2, the information processing apparatus 100 determines the target type to be the third type (lower type).

For example, an upper type (first type) advertisement is an advertisement for branding a company (operator) or product. The upper type (first type) advertisement is an advertisement that is used to create a good image of a company or product beyond its functional value.

For example, a middle type (second type) advertisement is an advertisement for nurture. Middle-type (second type) advertisements are advertisements that are used to attract users to conversion users. For example, a middle-type (second type) advertisement is an advertisement used to promote a middle-funnel user to a lower-funnel user.

For example, a lower type (third type) advertisement is an advertisement for conversion. A lower type (third type) advertisement is an advertisement used to cause a user to perform a conversion such as purchasing a product. For example, a lower type (third type) advertisement is an advertisement such as a product advertisement that prompts a user to purchase a product.

For example, the information processing apparatus 100 determines an advertisement corresponding to the determined target type among the advertisement group stored in the advertisement information storage unit 127 (see FIG. 12) as the provided advertisement. For example, the information processing apparatus 100 inputs the interest vector of the target user to the model M1, and when the target hotness output by the model M1 exceeds the second threshold TH2, determines the target type to be the lower type (third type). do.

In this case, the information processing apparatus 100 determines, among the advertisements corresponding to the type “lower”, the advertisement for the product purchased by the target user as the provided advertisement to be transmitted to the user terminal 10 used by the target user. Then, the information processing device 100 transmits the determined provided advertisement to the user terminal 10 used by the target user. Note that the above is merely an example, and the information processing apparatus 100 may determine any advertisement as the provided advertisement as long as the advertisement corresponds to the type. For example, the information processing apparatus 100 may determine an advertisement for a product that has not been purchased by the target user among the advertisements corresponding to the type “lower” as the provided advertisement. Further, when the target hotness of the interest vector of the target user exceeds the first threshold TH1 and is equal to or less than the second threshold TH2, the information processing apparatus 100 provides the target user with an advertisement corresponding to the type "middle". . In this case, the information processing apparatus 100 may provide the target user with a search-linked advertisement for the product purchased by the target user. Further, when the target hotness of the interest vector of the target user is equal to or less than the first threshold TH1, the information processing apparatus 100 provides the target user with an advertisement corresponding to the type "upper". In this case, the information processing apparatus 100 may provide the target user with an advertisement for the branding of the product purchased by the target user or the company that provides the product.

For example, the information processing apparatus 100 inputs an interest vector of a user who has accessed a commercial transaction site to the model M1, and causes the model M1 to output the degree of hotness. Note that the model M1 may output the number of years since purchase, and in this case, the information processing apparatus 100 acquires the number of years since purchase from the output of the model M1. As described above, the information processing apparatus 100 provides the target user with a conversion acquisition type (third type) advertisement as a lower funnel user in a portion where the target user has a high degree of hotness (dark hatching).

In addition, when the target user's degree of hotness is medium (the hatching is medium density), the information processing apparatus 100, as a middle-funnel user, presents an advertisement for nurturing interest (second type) to the target user. offer. In addition, the information processing apparatus 100 provides the target user with a branding (first type) advertisement for recognizing the target user as an upper-funnel user in a portion where the target user's degree of hotness is low (thin hatching). In addition, the information processing apparatus 100 may add the "elapsed time after purchase", which is inferentially extended to all users, to the targeting condition.

As described above, the information processing apparatus 100 calculates the degree of hotness from the interest information of the target user to whom the advertisement is to be distributed, and distributes the advertisements according to the degree of hotness. For example, when the degree of hotness is high, the information processing apparatus 100 provides the target user with an advertisement for conversion acquisition, an advertisement for guiding to a web page, or the like. In addition, the information processing apparatus 100 provides the target user with a branding advertisement or the like when the degree of hotness is low. In addition, the information processing apparatus 100 provides the target user with a nurturing advertisement when the degree of hotness is medium.

[1-3-3. Provision of information to non-users]
The information processing apparatus 100 may provide information to various recipients other than the user by using the generated information such as the model M1 and the relational information MP1. For example, when one requestor requests the information processing apparatus 100 to provide information, the information processing apparatus 100 may provide information in response to the request to the one requestor. In the following, a case where one request source is a business operator such as a company (also referred to as a “target business operator”) will be described as an example.

For example, the information processing apparatus 100 identifies an interest vector corresponding to a degree of hotness (also referred to as a "designated hotness") designated by a target business operator who is a requester, and information indicating the identified interest vector. is determined as the information to be provided to the target business operator (also referred to as “provided information”). For example, the information processing apparatus 100 receives designation information indicating the degree of hotness (designated degree of hotness) designated by the target business operator from the business operator device 30 used by the target business operator. Then, information processing apparatus 100 identifies an interest vector having a hot degree similar to the designated hot degree indicated by the received designation information, and sends information indicating the identified interest vector (also referred to as "corresponding interest vector") to Decide on the information to be provided to the target business operator.

For example, the information processing apparatus 100 determines an interest vector that, when input to the model M1, outputs a score (hot degree) similar to the designated hot degree indicated by the designated information as the relevant interest vector. The information processing apparatus 100 uses the relationship information MP1 generated based on the model M1 to determine the interest vector corresponding to the designated hot degree indicated by the designated information as the corresponding interest vector.

For example, when the same value as the second threshold TH2 is specified as the specified hotness level, the information processing apparatus 100 sets the interest vector at the position where the line indicating the second threshold TH2 in FIG. Decide on a vector. That is, the information processing apparatus 100 determines an interest vector whose output score matches the specified hotness level when input to the model M1 as the corresponding interest vector.

Note that the information processing apparatus 100 determines, as the relevant interest vector, an interest vector in which the difference between the score and the designated hot degree is within a predetermined range, not only when the score matches the designated hot degree. may For example, when there is no interest vector whose score matches the specified hot degree, the information processing apparatus 100 may determine an interest vector outputting a score within a predetermined range from the hot degree as the corresponding interest vector. good.

Further, when there are a plurality of interest vectors that output a score similar to the specified hotness when input to the model M1, the information processing apparatus 100 determines the corresponding interest vector from the plurality of interest vectors. For example, when there are a plurality of interest vectors whose scores output when input to the model M1 match the specified hotness, the information processing apparatus 100 determines the corresponding interest vector from the plurality of interest vectors. For example, when there are a plurality of interest vectors whose scores output when input to the model M1 match the specified hotness, the information processing apparatus 100 determines all of the plurality of interest vectors as the corresponding interest vectors. .

Further, when there are a plurality of interest vectors whose score matches the specified hotness when input to the model M1, the information processing apparatus 100 determines a part of the plurality of interest vectors as the corresponding interest vector. You may When there are a plurality of interest vectors whose scores match the specified hotness, the information processing apparatus 100 may determine a predetermined number of interest vectors randomly selected from the plurality of interest vectors as the corresponding interest vectors.

Further, when there are a plurality of interest vectors whose scores output when input to the model M1 match the specified hotness, the information processing apparatus 100 may request the target business operator to specify the target. In this case, the information processing device 100 transmits request information requesting designation of the target to the business operator device 30 used by the target business operator. Upon receiving the request information, the business operator device 30 transmits information indicating the target specified by the target business operator (also referred to as “important target information”) to the information processing device 100 .

The information processing apparatus 100 that has received the important object information narrows down the interest vector to be the corresponding interest vector from a plurality of interest vectors. For example, the information processing apparatus 100 determines an interest vector whose dimension corresponding to the object indicated by the important object information satisfies a predetermined criterion as the corresponding interest vector among the plurality of interest vectors. If the target indicated by the important target information is the target corresponding to dimension #1, the information processing apparatus 100 selects the interest vector whose dimension #1 value is equal to or greater than a predetermined value among the plurality of interest vectors as the corresponding interest vector. Decide on an interest vector.

The information processing apparatus 100 provides information indicating the determined provision information to the one requester. The information processing device 100 transmits information indicating the determined provision information to the provider device 30 used by the target provider. The information processing device 100 transmits the interest vector to the business operator device 30 used by the target business operator. Further, the information processing apparatus 100 transmits provision information including information indicating what kind of target each dimension (element) of the interest vector corresponds to, to the business operator device 30 used by the target business operator.

Note that the above is merely an example of information provision, and the information processing apparatus 100 may use various information as appropriate to determine the corresponding interest vector. For example, the information processing apparatus 100 may convert the degree of hotness of a user owned by a business operator such as a company into an interest vector and provide the vector to the business operator. For example, the information processing apparatus 100 sets the degree of hotness of the user A owned by the second business operator to Ha, matches the user A with the interest vector owned by the first business operator managing the information processing apparatus 100, and identifies the user A. Let Va be the vector of interest. The information processing apparatus 100 uses the relationship information MP1 to search for the point Va (near Ha) of Ha that is closest to Va. The information processing device 100 provides information indicating Va (near Ha) to the second operator. As a result, the information processing apparatus 100 can acquire a more accurate interest vector V while performing matching that protects privacy.

Using this, for example, referring to the interest vector V of the user group with a high degree of conversion hotness of "camera purchase", and when it is estimated that the interest in politics is high, the information processing apparatus 100 adds "camera You may provide the content which placed the advertisement which urges "purchase". The above is just an example, and not limited to politics. For example, if you are interested in high-end audio equipment, you can expect a synergistic effect by arranging a high-end audio equipment and a camera close to each other in a real store.

For example, the information processing apparatus 100 accepts a hot degree specification from a business operator such as a company, and in the relationship information MP1 generated based on the model M1, sends information indicating interest vectors having similar hot degrees to the business operator. offer. As a result, the information processing apparatus 100 can allow the business operator to identify the user to be targeted.

For example, the information processing apparatus 100 may receive designation of the degree of hotness and interest from the operator. In this case, the information processing apparatus 100 identifies an interest vector that is close to the combination of the degree of hotness and the interest, and provides information indicating the identified interest vector to the operator. Further, the information processing apparatus 100 may accept specification of a hotness range. In this case, the information processing apparatus 100 provides the operator with information indicating interest vectors included in the specified range. The information processing apparatus 100 may provide the business operator with information indicating a common part of a plurality of interests corresponding to the hotness level. The information processing apparatus 100 may estimate the field of interest from the commonality of interest vectors of users whose hot degrees fall within a predetermined range.

[1-3-4. Processing related to change in degree of hotness]
The information processing apparatus 100 may determine the mode of providing the advertisement to the target user according to the change in the hotness level of the target user. This point will be described with reference to FIG. FIG. 5 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 5 shows relational information MP1 used for processing, and the processing performed by the information processing apparatus 100 based on this information will be described below.

For example, the information processing apparatus 100 may be configured such that the target user's interest vector at a predetermined point in time (also referred to as "first point in time") and the target user's interest vector at a point in time after the first point in time (also referred to as "second point in time"). The interest vector is used to determine how the advertisement is presented to the target user. For example, the second time point may be the time point (decision processing time point) at which the process of determining the mode of advertisement provision to the target user is performed, and the first time point may be before the decision processing time.

For example, the information processing apparatus 100 calculates the score (also referred to as "first hotness") output by the model M1 to which the interest vector of the target user at the first time point is input, and the interest vector of the target user at the second time point. The score (also referred to as “second hotness”) output by the model M1 to which is input is used to determine the manner in which the advertisement is provided to the target user. The information processing apparatus 100 determines the mode of providing the advertisement to the target user according to the change from the first hotness level to the second hotness level.

For example, the information processing apparatus 100 determines to provide the advertisement to the target user when there is an upward trend from the first hot degree to the second hot degree. For example, when the second hot level is greater than the first hot level by a predetermined value (for example, an arbitrary value such as 15), the information processing apparatus 100 determines (determines) that the target user's hot level is on the rise. For example, the information processing apparatus 100 determines to provide the advertisement to the target user when the second hotness is greater than the first hotness by a predetermined value or more.

For example, the information processing apparatus 100 determines not to provide the advertisement to the target user when there is a downward trend from the first hot degree to the second hot degree. For example, the information processing apparatus 100 determines (determines) that the hot level of the target user is on a downward trend when the second hot level is smaller than the first hot level by a predetermined value (for example, an arbitrary value such as 5). For example, the information processing apparatus 100 determines not to provide the advertisement to the target user when the second hotness is lower than the first hotness by a predetermined value or more.

Note that the above is merely an example, and the information processing apparatus 100 may use various information as appropriate to determine whether or not to provide an advertisement to the target user. For example, when it is determined that there is neither an upward trend nor a downward trend, the information processing apparatus 100 may determine whether to provide the target user with an advertisement by any method. For example, the information processing apparatus 100 may randomly determine whether or not to provide an advertisement to the target user when it is determined that there is neither an upward trend nor a downward trend.

Here, hot level change information AN1 indicated by an arrow line in FIG. 5 indicates changes in the interest vector and hot level of the target user from the first time point to the second time point. For example, in the hot level change information AN1, the arrow indicates the target user's interest vector and hot level (first hot level) at the first point in time. Also, in the hot level change information AN1, the tip of the arrow indicates the target user's interest vector and hot level (second hot level) at the second point in time. That is, the hot level change information AN1 indicates that the target user's hot level increases from the first time point to the second time point.

For example, the information processing apparatus 100 compares the first hot degree and the second hot degree corresponding to the hot degree change information AN1, and since the second hot degree is greater than the first hot degree by a predetermined value or more, the information processing apparatus 100 determines that the target user is hot. It determines (determines) that the degree is on the rise. Accordingly, the information processing apparatus 100 determines to provide the advertisement to the target user because the target user's hotness tends to increase.

For example, the information processing apparatus 100 uses the second hotness to determine an advertisement (provided advertisement) to be provided to the target user. For example, the information processing apparatus 100 may use the first threshold TH1 and the second threshold TH2 shown in FIG. 4 to determine the advertisement to be provided to the target user. For example, the information processing apparatus 100 determines the advertisement to be provided to the target user according to the result of comparing the second hotness level of the target user with the first threshold TH1 and the second threshold TH2. The information processing apparatus 100 uses the second hotness to determine one type (target type) of the advertisement to be used as the provided advertisement. The information processing apparatus 100 determines a target type from among three types: a type corresponding to upper (first type), a type corresponding to middle (second type), and a type corresponding to lower (third type). do.

For example, the information processing apparatus 100 determines the target type to be the first type (upper type) when the second hotness is equal to or less than the first threshold TH1. Further, when the second hotness is greater than the first threshold TH1 and equal to or less than the second threshold TH2, the information processing apparatus 100 determines the target type to be the second type (middle type). Further, when the second hot degree is greater than the second threshold TH2, the information processing apparatus 100 determines the target type to be the third type (lower type).

For example, the information processing apparatus 100 determines an advertisement corresponding to the determined target type among the advertisement group stored in the advertisement information storage unit 127 (see FIG. 12) as the provided advertisement. For example, the information processing apparatus 100 inputs the interest vector of the target user to the model M1, and if the second hot degree output by the model M1 is greater than the first threshold TH1 and equal to or less than the second threshold TH2, the target type is determined as the second type (middle type).

In this case, the information processing apparatus 100 determines, among the advertisements corresponding to the type "middle", the advertisement for the product purchased by the target user as the provided advertisement to be transmitted to the user terminal 10 used by the target user. Then, the information processing device 100 transmits the determined provided advertisement to the user terminal 10 used by the target user.

Note that the above is merely an example, and the information processing apparatus 100 may determine the advertisement to be provided to the target user using the first hot degree. For example, the information processing apparatus 100 may determine the advertisement to be provided to the target user using a value indicating the difference between the second hotness level and the first hotness level (also referred to as a "difference value"). In this case, the information processing apparatus 100 may determine the advertisement to be provided to the target user by replacing the second hot degree with the difference value in the process using the second hot degree described above.

For example, the information processing apparatus 100 distributes an advertisement by a business operator, etc., and periodically traces changes in interests of each user to whom the advertisement is distributed, and records changes in the degree of hotness in a database. For example, the information processing apparatus 100 may distribute an advertisement according to the hotness level to a user whose hotness level is steadily increasing. As a result, the information processing apparatus 100 can use the change in the user's hotness level as a condition for determining the mode of providing advertisements, and can provide advertisements according to the hotness level.

Note that the above is merely an example, and the information processing apparatus 100 may perform processing using various types of information as appropriate. For example, the information processing device 100 visualizes the effects of marketing measures performed by the company (second business operator), such as the number of users transitioning to each funnel on a predetermined user interface, as a result of each user's movement between funnels. good too. The hotness level of each user is derived from the model M1 or the like, and the hotness level obtained by multiplying the data of the company (second business operator) by the data of the first business operator who manages the information processing apparatus 100 is used. For example, the information processing apparatus 100 defines hot degrees in three stages. In this case, when the hot degree is 30 or less, it is defined as an upper funnel, when it is greater than 30 and less than 60, it is defined as a middle funnel, and when it is greater than 60, it is defined as a lower funnel.

For example, the information processing apparatus 100 generates information indicating the number of users belonging to each funnel (also referred to as “funnel user number information”). The information processing apparatus 100 may provide the generated funnel user number information to the business operator. For example, the information processing apparatus 100 transmits the generated funnel user number information to the business operator device 30 used by the business operator.

In addition, the information processing apparatus 100 generates information (also referred to as “inter-funnel user transition information”) indicating which funnel to which user transitioned from one funnel to another before and after the measure, together with the number of users. The information processing apparatus 100 may provide the generated inter-funnel user transition information to the business operator. For example, the information processing apparatus 100 transmits the generated inter-funnel user transition information to the provider apparatus 30 used by the provider.

Further, the information processing apparatus 100 may perform statistical analysis such as increase/decrease in the hotness itself, the number of people, and the range of increase/decrease, instead of defining three stages of funnels according to the hotness. The results may be provided to a company (second business operator).

As described above, the information processing apparatus 100 provides advertisements to the target user in consideration of whether the target user's hotness level is gradually increasing or decreasing. For example, the information processing apparatus 100 provides advertisements to the target user when the target user's hotness is steadily increasing. For example, the information processing apparatus 100 may exclude the target user from the target of providing the advertisement to a person whose number of target users is steadily decreasing, or may change the information provision to another provision mode.

[1-3-5. Processing related to changes in interests]
The information processing apparatus 100 may use the information generated by the model M1 to determine the mode of interest change. For example, the information processing apparatus 100 may use relationship information MP1 generated by the model M1 to determine a mode of interest change. This point will be described with reference to FIG. FIG. 6 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 6 shows relational information MP1 used for processing, and the processing performed by the information processing apparatus 100 based on this information will be described below.

For example, the information processing apparatus 100 includes an interest vector (also referred to as a "first interest vector") that outputs a certain score (also referred to as a "first score") when input to the model M1, and Using an interest vector (also referred to as a "second interest vector") that outputs a score (also referred to as a "second score") different from the first score when input, the mode of change in interest to decide. For example, the information processing apparatus 100 uses a first interest vector and a second interest vector that outputs a second score that is greater than the first score to determine a mode of interest change.

The information processing apparatus 100 may use the relationship information MP1 shown in FIG. 6 to determine the mode of change in interests. For example, the information processing apparatus 100 determines the mode of interest change by comparing the first interest vector and the second interest vector. For example, the information processing apparatus 100 determines the mode of interest change based on the difference between the first interest vector and the second interest vector. For example, the information processing apparatus 100 determines the mode of interest change based on the change transition between the first interest vector and the second interest vector.

Here, the hotness change information AN2 indicated by the arrowed line in FIG. ) is output, and changes in interest vector and hotness are shown. For example, the hotness change information AN2 indicates the change from the interest vector for which the model M1 outputs the lowest score (low hotness) to the interest vector for which the model M1 outputs the highest score (high hotness). show.

For example, in the hot degree change information AN2, the arrow indicates a low hot degree and its interest vector. Also, the hot degree change information AN2 indicates a high hot degree and its interest vector at the tip of the arrow. That is, the hotness change information AN2 indicates how the interest vector changes to change the hotness from low hotness to high hotness.

For example, the information processing apparatus 100 determines along what path the interest vector changes in the vector space as the hotness increases. In FIG. 6 , the information processing apparatus 100 determines the path of change in the interest vector from the location with the lowest hotness value to the location with the highest hotness value. Here, as shown in the relational information MP1, the hot degree increases along the above-described change path. The information processing apparatus 100 presumes that the path of this change affects the increase in the hotness level, and determines this path.

The information processing apparatus 100 provides information on the determined change path. The information processing apparatus 100 provides the business operator with information on changes in the interest vector along the route of change. The information processing device 100 transmits information indicating the path of change to the provider device 30 used by the provider. The information processing device 100 provides the user with an advertisement corresponding to the path of change. The information processing device 100 transmits an advertisement corresponding to the path of change to the user terminal 10 used by the user. The information processing apparatus 100 transmits the target advertisement corresponding to the target dimension to the user terminal 10 used by the user.

For example, the information processing apparatus 100 may determine the provided advertisement to be provided to the target user by inputting the interest vector of the target user into the model M1 and using the score output by the model M1. For example, the information processing apparatus 100 may determine, as the target user, a user whose interest vector is similar to the interest vector located on the path of the hot level change information AN2, and provide an advertisement to the determined target user. . For example, the information processing apparatus 100 provides the determined target user with an advertisement corresponding to the path of change. The information processing device 100 transmits an advertisement corresponding to the change path to the user terminal 10 used by the determined target user.

Note that the information processing apparatus 100 may determine an advertisement (provided advertisement) to be provided to the target user using the score output by the model M1 to which the interest vector of the determined target user is input. For example, the information processing apparatus 100 may use the first threshold TH1 and the second threshold TH2 shown in FIG. 4 to determine the advertisement to be provided to the target user. Since this point is the same as the processing described above, detailed description will be omitted. may be determined as the target advertisement. For example, the information processing apparatus 100 stores in the advertisement information storage unit 127 (see FIG. 12), among the advertisement group in which the type and the target are associated, the type corresponding to the target user's degree of hotness and the change path. An advertisement associated with a corresponding target may be determined as the target advertisement.

As described above, the information processing apparatus 100 can analyze changes in interests as indicated by the hot level change information AN2 by using the relationship information MP1. The information processing apparatus 100 determines (calculates) the lowest point (upper funnel) and the highest point (lower funnel) in the contour map indicated by the relational information MP1, and calculates the route from the lowest point to the highest point (in the hot degree change information AN2). Correspondence) while changing the interest vector along the correspondence), and analyze the change of the interest vector. The information processing apparatus 100 may presume that the route indicated by the hot degree change information AN2 is the standard route for nurturing. For example, the information processing apparatus 100 can extract changes in interest in each competitive product. Accordingly, the information processing apparatus 100 can be used to decide what kind of marketing activity to perform at what point in time.

In addition, the information processing apparatus 100 does not analyze only one route from the lowest point to the highest point in the contour map indicated by the relational information MP1. You may analyze whether the change of the interest concern vector is accompanied. Accordingly, the information processing apparatus 100 can be utilized for optimal analysis of nurturing according to the state of each user's interest vector.

As described above, the information processing apparatus 100 distributes advertisements based on the estimated change. For example, the information processing apparatus 100 performs advertisement distribution corresponding to the royal road of nurturing. For example, the information processing apparatus 100 distributes advertisements in response to changes in interest in competing products. For example, the information processing apparatus 100 may perform nurturing from the current hotness position of the user to the nearest conversion. The information processing apparatus 100 may perform nurturing from the specified interest and the corresponding hotness to the closest conversion. For example, the information processing apparatus 100 may perform nurturing from a specified location to a location closest to a specified hot level or higher.

[1-3-6. Processing related to advertisement exposure]
The information processing apparatus 100 may learn various models other than the model M1. For example, the information processing apparatus 100 may learn a model (estimation model) that is used for inference regarding the user's interests based on exposure to advertisements. This point will be described with reference to FIG. FIG. 7 is a diagram illustrating an example of information processing executed by an information processing apparatus; FIG. 7 shows relational information MP1 of an image of the processing concept, and the processing performed by the information processing apparatus 100 will be described below using FIG.

First, before describing information processing, an overview of the information shown in FIG. 7 will be described. FIG. 7 shows changes in the interest vector due to the provision of advertisements for a certain user (hereinafter referred to as "user u"). An interest vector Vus indicates an interest vector of user u at a certain point in time. An interest vector Vue1 indicates an interest vector when the advertisement #1 is provided to the user u, that is, an interest vector of the user u who came into contact with the advertisement #1. An interest vector Vue2 indicates an interest vector when the advertisement #2 is provided to the user u, that is, an interest vector of the user u who came into contact with the advertisement #2. Further, an interest vector Vue0 indicates an interest vector after a predetermined period of time has elapsed without providing an advertisement to the user u, that is, an interest vector of the user u after a period of time has elapsed without contacting the advertisement.

For example, the information processing apparatus 100 collects interest vectors Vus, Vue* (* is an arbitrary character string; 0, 1, 2 in FIG. 7) and records them in the storage unit 120 . The letter "s" following the character string "Vu" indicating the user u's interest vector indicates the start (a point in time), and the letter "e" indicates the end (a point in time after the certain point in time). The information processing apparatus 100 records, as an interest vector Vue*, an interest vector of the user u after distributing a certain advertisement to the user u.

For example, the information processing apparatus 100 also collects advertisement exposure information indicating exposure to advertisements as Ta, and records it in the storage unit 120 . Advertisement contact information Ta1 is information relating to contact with advertisement #1. Advertisement contact information Ta2 is information relating to contact with advertisement #2. The advertisement contact information Ta0 is information relating to non-contact with advertisements. The contact with the advertisement mentioned here may be viewing (visual recognition) of the advertisement, or may be a predetermined operation on the advertisement such as clicking. For example, a indicates an advertisement (ad) and records which advertisement each user has come into contact with. Note that T may be set to 0 or 1, and may be set to 1 in the case of contact.

That is, FIG. 7 shows the case where the user u in the state of the interest vector Vus touches the advertisement corresponding to Ta* (* is an arbitrary character string; 0, 1, 2 in FIG. 7), or touches the advertisement. If not, it shows a change to each interest vector Vue* (* is an arbitrary character string; 0, 1, 2 in FIG. 7).

For example, the information processing apparatus 100 learns a model (estimation model) used for inference regarding the user's interest using the interest vector of the user according to the contact with the advertisement as described above. For example, the information processing device 100 may store the interest vector of the user before provision of the advertisement (also referred to as “pre-provision interest vector”) and the interest vector of the user after provision of the advertisement (also referred to as “post-provision interest vector”). ) is used to learn a model M2, which is a learning model (estimation model) for estimating changes in the user's interests due to the provision of advertisements. For example, the information processing apparatus 100 learns a model M2 that outputs a post-provision interest vector when a pre-provision interest vector is input.

For example, when a target user's interest vector and information (also referred to as "advertisement information") related to an advertisement (target advertisement) to be provided to the target user are input, the information processing apparatus 100 performs a post-providing interest vector. Learn model M2 that outputs a vector. For example, the advertisement information includes information indicating the content of advertisements to be provided.

The information processing apparatus 100 learns an estimation model for estimating changes in the user's interests due to provision of advertisements. In FIG. 7, the information processing apparatus 100 learns a model M2 that outputs a vector using the interest vector before provision, the advertisement information, and the interest vector after provision. For example, the information processing apparatus 100 learns the model M2 using the pre-provided interest vector and the advertisement information as input and the post-provided interest vector as correct information.

For example, the information processing apparatus 100 performs back propagation (error backpropagation) or the like so that the vector output by the model M2 approaches the correct information (interest vector) corresponding to the interest vector input to the model M2. Learning processing is performed by the method. For example, the information processing apparatus 100 performs learning processing so that the interest vector output by the model M2 to which the interest vector is input approaches correct information corresponding to the interest vector. For example, the information processing apparatus 100 performs learning processing so that the interest vector output by the model M2 to which the interest vector is input approaches correct information corresponding to the interest vector.

For example, the information processing apparatus 100 learns the model M2 so as to output the interest vector Vue1 when the interest vector Vus and the advertisement information of the advertisement #1 are input. For example, the information processing apparatus 100 learns the model M2 so as to output the interest vector Vue2 when the interest vector Vus and the advertisement information of the advertisement #2 are input. Note that the learning process for the model M2 is the same as the existing technique, similarly to the learning process for the model M1 described above, so a detailed description thereof will be omitted. Note that the information processing apparatus 100 may learn the model M2 using learning data generated based on a cohort unit, which is a user group having a common user matching attribute. For example, the information processing apparatus 100 generates an input interest vector as an input and an output interest vector as correct information for each cohort unit having a common user attribute, and the generated input interest vector and the output interest vector correspond to each other. The model M2 may be learned using the attached learning data. For example, the information processing apparatus 100 associates an input interest vector, which is the average of a plurality of interest vectors in cohort units having a common user attribute, with an output interest vector, which is the average of correct information in cohort units. The model M2 may be trained using the obtained learning data.

Note that the information processing apparatus 100 stores the interest vector of the user at the first point in time (also referred to as a "third interest vector") and the The user's interest vector (also referred to as "fourth interest vector") at the point in time (second point in time) may be used. For example, the information processing apparatus 100 uses the third interest vector and the fourth interest vector to learn the model M2 that takes into account changes in the user's interest vector when no advertisement is provided to the user. good too. For example, the information processing apparatus 100 learns a model M2 that outputs a fourth vector of interest when a third vector of interest is input.

For example, the information processing apparatus 100 stores the interest vector of the target user at the first time point, and the advertisement information set to a predetermined value (also referred to as "non-provided value") indicating that the advertisement is not provided to the target user. , is input, the model M2 that outputs the interest vector of the target user at the second time is learned. For example, the non-provided value may be any value such as 0 or Null.

In FIG. 7, the information processing apparatus 100 learns the model M2 that outputs vectors using the third interest vector, the advertisement information, and the fourth interest vector. For example, the information processing apparatus 100 learns the model M2 using the third interest vector and the advertisement information as inputs and the fourth interest vector as correct information. For example, the information processing apparatus 100 learns the model M2 so as to output the interest vector Vue0 when the interest vector Vus and the non-provided value are input.

For example, the information processing apparatus 100 may use the model M2 to estimate the effect of the advertisement (target advertisement) when provided to the target user. For example, the information processing device 100 inputs the target user's interest vector and the advertisement information of the target advertisement to the model M2, and uses the interest vector output by the model M2 to estimate the effect of the target advertisement on the target user. You may

For example, the information processing apparatus 100 estimates the effect of the advertisement Z when the advertisement Z is set as the target advertisement and provided to the target user. In this case, the information processing apparatus 100 inputs the target user's interest vector (also referred to as "interest vector Vbz") and the advertisement information of the advertisement Z to the model M2, and the interest vector output by the model M2 (" The interest vector Vaz”) is used to estimate the effect of the advertisement Z on the target user.

For example, the information processing apparatus 100 outputs a score (also referred to as "pre-provision hotness") output by the model M1 to which the interest vector Vbz is input, and a score output by the model M1 to which the interest vector Vaz is input (" The effect of the advertisement Z on the target user is estimated using the post-provision hotness". The information processing apparatus 100 estimates the effect of the advertisement Z on the target user according to the comparison result between the pre-provision hotness level and the post-provision hotness level.

For example, the information processing apparatus 100 estimates that the target advertisement is effective for the target user when the post-provision hotness is higher than the pre-provision hotness. For example, the information processing apparatus 100 estimates that the target advertisement is effective for the target user when the post-provision hotness is greater than the pre-provision hotness by a predetermined value (for example, an arbitrary value such as 15).

For example, the information processing apparatus 100 estimates that the target advertisement is not effective for the target user when the post-provision hotness is lower than the pre-provision hotness. For example, when the post-provision hotness is smaller than the pre-provision hotness by a predetermined value (for example, an arbitrary value such as 5), the information processing apparatus 100 estimates that the target advertisement is not effective for the target user.

For example, in the information processing apparatus 100, since the post-provision hotness output by the model M1 to which the interest vector Vaz is input is higher than the pre-provision hotness output by the model M1 to which the interest vector Vbz is input, the target user is estimated to have an effect of advertisement Z on Accordingly, the information processing apparatus 100 determines to provide the advertisement Z to the target user because it is estimated that the advertisement Z has an effect on the target user. The information processing device 100 transmits the advertisement Z to the user terminal 10 used by the target user.

As described above, the information processing apparatus 100 can make the model learn how the user's interest vector changes when an advertisement is provided. Note that the above is merely an example, and the information processing apparatus 100 may use various types of information as appropriate to perform processing related to contact with an advertisement.

For example, the information processing apparatus 100 includes a model M11 that is a conversion model that converts an interest vector, a model M12 that is an estimation model that infers an advertisement exposure effect using the vector output by the model M11 as an input, and a The processing may be performed using a model M13 that estimates . This point will be described below.

For example, the information processing apparatus 100 may use the models M11, M12, and M13 described above to learn the relationships with the following neural network structure. As a result, the information processing apparatus 100 determines which advertisement is suitable for transitioning to a state of a certain interest vector, i.e., a state of an interest vector in which the degree of hotness of the user is increased, and automatically selects the advertisement. can do.

In the following description, "Vus" is described as "x", "Vue" as "y", and "Ta" as "t". The information processing apparatus 100 learns a model M11 that takes x as an input and outputs a vector Φ that has undergone expression learning. Thus, the model M11 is a model that receives the vector x and outputs the vector Φ.

The information processing apparatus 100 also learns a model M12 that receives vectors Φ and t and outputs a vector y. As a result, the information processing apparatus 100 can infer y when the user in the state of a certain interest vector is in contact with the advertisement and when the user is not in contact with the advertisement. can be done.

Further, the information processing apparatus 100 learns a model M13 that receives the vector Φ as an input and outputs t indicating the presence or absence of advertisement intervention. Thereby, the information processing apparatus 100 can predict the presence or absence of advertisement intervention (=t). Here, the information processing apparatus 100 has a structure in which regularization is performed so that t cannot be predicted at the stage of the vector Φ. Thereby, the information processing apparatus 100 can automatically correct the bias of the observation data.

For example, the information processing apparatus 100 learns models M11 to M13 by learning #1 to #3 below.
Learning #1: Learn models M11 and M12 so that y is guessed (output) Learning #2: Learn model M13 so that t is guessed (output) (model M11 is fixed)
Learning #3: Learn model M11 so that t cannot be guessed (not output) (model M13 is fixed)

The information processing apparatus 100 learns the relationship between each user and contact with an advertisement through the above-described processing, so that the user of a certain interest vector x can receive the effect of placing an advertisement indicating that there is an intervention according to t and the interest resulting from the contact. Be able to infer changes in interest.

As described above, the information processing apparatus 100 searches for which advertisement to each user causes the user's interest to shift in the direction of nurturing, and selects the advertisement that can increase the hotness the most. can be used to distribute advertisements. The information processing apparatus 100 may be set to increase the hot degree, or may provide the user with an advertisement that can be nurtured according to the route shown in the hot degree change information AN2 in FIG.

[2. Configuration of Information Processing Device]
Next, the configuration of the information processing apparatus 100 according to the embodiment will be described using FIG. 9 . FIG. 9 is a diagram illustrating a configuration example of the information processing apparatus 100 according to the embodiment. As shown in FIG. 9, the information processing apparatus 100 has a communication section 110, a storage section 120, and a control section . The information processing apparatus 100 includes an input unit (for example, a keyboard, a mouse, etc.) that receives various operations from an administrator of the information processing apparatus 100, and a display unit (for example, a liquid crystal display, etc.) for displaying various information. may have.

(Communication unit 110)
The communication unit 110 is realized by, for example, a NIC (Network Interface Card) or the like. The communication unit 110 is connected to a network by wire or wirelessly, and transmits and receives information to and from the user terminal 10 , the advertiser device 20 and the business operator device 30 .

(storage unit 120)
The storage unit 120 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. As shown in FIG. 9, the storage unit 120 according to the embodiment includes a first data storage unit 121, a second data storage unit 122, an interest vector information storage unit 123, a hot level information storage unit 124, and a model It has an information storage unit 125 , a threshold information storage unit 126 and an advertisement information storage unit 127 . In addition, the storage unit 120 may store various types of information, not limited to the above.

(First data storage unit 121)
The first data storage unit 121 according to the embodiment stores first data that is information about user's interests. The first data storage unit 121 corresponds to the first data FD in FIG. The first data storage unit 121 stores first data including a user's action history indicating the user's interests. For example, the first data storage unit 121 stores first data including various kinds of information indicating the user's interests, such as search data. For example, the first data storage unit 121 stores first data including a history of search queries used by the user for searches, browsing of search results, and the like.

For example, the first data storage unit 121 stores the date and time when the user performed a search and the search query used in the search in association with information (such as a user ID) that identifies the user. For example, the first data storage unit 121 stores information indicating the number of times each search query used by the user for searching is used.

Note that the first data storage unit 121 is not limited to the above, and may store any information as long as it indicates the interest of the user.

(Second data storage unit 122)
The second data storage unit 122 according to the embodiment stores second data, which is conversion comprehension data with which conversion can be comprehended. The second data storage section 122 corresponds to the second data SD in FIG. The second data storage unit 122 stores second data including a user's action history indicating that the user has reached a predetermined conversion. For example, the second data storage unit 122 stores second data including a user's action history indicating that the user has purchased a predetermined product. For example, the second data storage unit 122 stores conversion comprehension data (second data) obtained from an operator such as a company that owns the conversion comprehension data.

For example, the second data storage unit 122 stores information indicating the conversion performed by the user and information indicating the date and time when the conversion was performed in association with information identifying the user (user ID, etc.). . For example, the second data storage unit 122 stores an item purchased by a user and information indicating the date and time when the item was purchased in association with information identifying the user (user ID or the like).

Note that the second data storage unit 122 is not limited to the above, and may store any information as long as it is information that enables understanding of conversion.

(Interest Interest Vector Information Storage Unit 123)
The interest vector information storage unit 123 according to the embodiment stores interest vector information. For example, the interest vector information storage unit 123 stores information about vectors obtained by vectorizing information indicating interests.

The interest vector information storage unit 123 stores vector information for each cohort. For example, the interest vector information storage unit 123 stores an interest vector obtained by vectorizing interest information for each cohort, which is a user group having a common attribute.

The interest vector information storage unit 123 stores an interest vector obtained by vectorizing interest information for each of a plurality of periods separated by elapsed time after reaching a predetermined conversion. For example, the interest vector information storage unit 123 stores an interest vector obtained by vectorizing the interest information for each of a plurality of periods separated by the elapsed time after the purchase of a predetermined product.

The interest vector information storage unit 123 stores matrix (matrix) data whose rows or columns are first elements related to user attributes and first elements related to periods. For example, the interest vector information storage unit 123 stores matrix data with cohorts as rows and periods as columns.

The interest vector information storage unit 123 stores an interest vector obtained by vectorizing interest information for each combination of a cohort and a plurality of periods separated by elapsed times after reaching a predetermined conversion. The interest vector information storage unit 123 stores an interest vector obtained by vectorizing interest information for each combination of a cohort and a plurality of periods separated by the elapsed time after the purchase of a predetermined product.

For example, the interest vector information storage unit 123 may store information shown in the interest vector list IVL in FIG. Note that the interest vector information storage unit 123 may store various types of information, not limited to the above, depending on the purpose.

(Hot level information storage unit 124)
The hot level information storage unit 124 according to the embodiment stores information on a score (hot level) that indicates the degree of possibility that a user will reach a predetermined conversion. For example, the hot level information storage unit 124 stores information on a score (hot level) indicating the degree of possibility of purchasing a predetermined product.

The hot degree information storage unit 124 stores the hot degree for each cohort. For example, the hot level information storage unit 124 stores a hot level obtained by vectorizing interest information for each cohort, which is a user group having a common attribute.

The hot level information storage unit 124 stores the hot level for each of a plurality of periods separated by the elapsed time after reaching a predetermined conversion. For example, the hotness level information storage unit 124 stores the hotness level for each of a plurality of periods separated by the elapsed time after the purchase of a predetermined product.

The hot level information storage unit 124 stores matrix (matrix) data in which the first elements related to user attributes and the first elements related to periods are used as rows or columns. For example, the hotness information storage unit 124 stores matrix data with cohorts as rows and periods as columns.

The hot level information storage unit 124 stores a hot level for each combination of a cohort and a plurality of periods separated by the elapsed time after reaching a predetermined conversion. The hotness level information storage unit 124 stores the hotness level for each combination of a cohort and a plurality of periods separated by the elapsed time after the purchase of a predetermined product.

For example, the hot level information storage unit 124 may store information shown in the hot level list LSL in FIG. Note that the hot level information storage unit 124 is not limited to the above, and may store various types of information depending on the purpose.

(Model information storage unit 125)
The model information storage unit 125 according to the embodiment stores information about models. For example, the model information storage unit 125 stores information (model data) of a learned model (model) learned (generated) by the learning process. The model information storage unit 125 stores data used for learning (learning data) in association with a learned model (model). 10 is a diagram illustrating an example of a model information storage unit according to the embodiment; FIG. In the example shown in FIG. 10, the model information storage unit 125 includes items such as "model ID", "usage", "model data", and "learning data". In the example of FIG. 10, the model information storage unit 125 stores data used for learning (learning data) in association with a learned model (model).

"Model ID" indicates identification information for identifying a model. "Use" indicates the use of the corresponding model. "Model data" indicates model data. FIG. 10 shows an example in which conceptual information such as "MDT1" is stored in "model data", but in reality, the model is configured by information on the configuration of the model (network configuration), information on parameters, etc. It contains various information about For example, "model data" includes information including nodes in each layer of the network, functions adopted by each node, connection relations of nodes, and connection coefficients set for connections between nodes.

“Learning data” indicates data used for learning of a trained model (model). "Learning data" stores information indicating a data set used for learning the corresponding model. For example, "learning data" is stored as learning data (also referred to as "learning data") by associating data (input information) with correct information (output information) corresponding to the data. FIG. 10 shows an example in which conceptual information such as "LDT1" is stored in "learning data", but in reality, data (input information) and correct answer information (output information) corresponding to that data are stored. It contains various information about the data used to train the model.

In FIG. 10, the model (model M1) identified by the model ID "M1" indicates that the usage is "hot degree". That is, the model M1 is a model that outputs information (score) indicating the degree of possibility (hotness) of the user corresponding to the input information of interest leading to a predetermined conversion. It also indicates that the model data of the model M1 is the model data MDT1. It also indicates that the learning data used for learning the model M1 is the learning data LDT1.

Also, the model (model M2) identified by the model ID "M2" indicates that the application is "advertisement contact effect". In other words, the model M2 is a model that outputs information indicating the effect on the user of the advertisement corresponding to the input data. For example, the model M2 outputs the user's interest information after contacting the advertisement corresponding to the data corresponding to the input data. The model data of model M2 is model data MDT2. It also indicates that the learning data used for learning the model M2 is the learning data LDT2.

The model (model M11) identified by the model ID "M11" indicates that the application is "vector generation". That is, the model M11 indicates that it is a model that converts an input vector into another vector. For example, the model M11 indicates that it is a model that outputs a vector obtained by transforming an input vector through representation learning or the like. It also indicates that the model data of the model M11 is the model data MDT11. It also indicates that the learning data used for learning the model M11 is the learning data LDT11.

The model (model M12) identified by the model ID "M12" indicates that the application is "advertisement contact effect". In other words, the model M12 is a model that outputs information indicating the effect on the user of the advertisement corresponding to the input data. For example, the model M12 outputs the interest information of the user after coming into contact with the advertisement corresponding to the data corresponding to the input data. The model data of model M12 indicates that it is model data MDT12. It also indicates that the learning data used for learning the model M12 is the learning data LDT12.

The model (model M13) identified by the model ID "M13" indicates that the application is "presence/absence of intervention". That is, the model M13 is a model that outputs information indicating whether or not there is an advertisement intervention for the user corresponding to the input data. For example, the model M13 is a model that outputs information (score) indicating whether or not the user corresponding to the input data has come into contact with an advertisement. Also, the model data of the model M13 indicates that it is the model data MDT13. It also indicates that the learning data used for learning the model M13 is the learning data LDT13.

Note that the model information storage unit 125 may store various types of information, not limited to the above, depending on the purpose.

(Threshold information storage unit 126)
The threshold information storage unit 126 according to the embodiment stores various information regarding thresholds. 11 is a diagram illustrating an example of a threshold information storage unit according to the embodiment; FIG. The threshold information storage unit 126 shown in FIG. 11 includes items such as "threshold", "value", and "usage".

"Threshold" indicates information for identifying a threshold. "Value" indicates a specific numerical value (value) of the corresponding threshold. "Application" indicates the application for which the corresponding threshold is used.

The example of FIG. 11 indicates that the value of the threshold (threshold TH1) identified by the threshold "TH1" is "VL1". In the example of FIG. 11, an abstract code such as "VL1" is used, but each threshold value is a specific numerical value according to the application.

The usage of the threshold TH1 indicates division (classification) between upper and middle. That is, the threshold TH1 is the first threshold used for dividing (classifying) the user between upper and middle according to the degree of hotness. For example, threshold TH1 is the first threshold used to divide (classify) between upper and middle.

The value of the threshold (threshold TH2) identified by the threshold "TH2" indicates "VL2". The usage of the threshold TH2 indicates division (classification) between middle and lower. In other words, the threshold TH2 is the second threshold used for dividing (classifying) the middle and lower users according to the degree of hotness. For example, the threshold TH2 is the second threshold used to divide (classify) between middle and lower.

It should be noted that the threshold information storage unit 126 may store various types of information, not limited to the above, depending on the purpose.

(Advertisement information storage unit 127)
The advertisement information storage unit 127 according to the embodiment stores various information regarding advertisements. 12 is a diagram illustrating an example of an advertisement information storage unit according to the embodiment; FIG. The advertisement information storage unit 127 shown in FIG. 12 has items such as "advertisement ID", "advertisement", and "type".

"Advertisement ID" indicates identification information for identifying an advertisement. “Advertising content” indicates advertising content submitted by an advertiser. FIG. 12 shows an example in which conceptual information such as “AC11” is stored in “advertising content”, but in reality, still images, moving images, text data, URLs, or files indicating their storage locations are stored. Stores the path name, etc. "Type" indicates identification information for identifying the type of advertisement.

In FIG. 12, the advertisement content AC11 identified by the advertisement ID "A11" indicates that the advertisement is of the "lower" type. Also, the advertisement content AC12 identified by the advertisement ID "A12" indicates that the advertisement is of the "middle" type. Also, the advertisement content AC13 identified by the advertisement ID "A13" indicates that the advertisement is of the type "upper".

It should be noted that the advertisement information storage unit 127 may store various types of information, not limited to the above, depending on the purpose. For example, the advertisement information storage unit 127 may store information indicating an advertiser (advertiser ID, etc.), information indicating a product (product name, etc.), information regarding a bid price, and the like. Note that the advertiser may request an agency to perform manuscript submission work and the like. The notation such as "advertiser" is a concept that includes not only advertisers but also agencies.

(control unit 130)
Returning to the description of FIG. 9, the control unit 130 is a controller, and is stored in a storage device inside the information processing apparatus 100 by, for example, a CPU (Central Processing Unit) or an MPU (Micro Processing Unit). Various programs (corresponding to an example of an information processing program) are executed by using the RAM as a work area. Also, the control unit 130 is a controller, and is implemented by an integrated circuit such as an ASIC (Application Specific Integrated Circuit) or an FPGA (Field Programmable Gate Array).

As shown in FIG. 9, the control unit 130 includes an acquisition unit 131, a learning unit 132, an estimation unit 133, a determination unit 134, and a provision unit 135, and has information processing functions and actions described below. realize or perform Note that the internal configuration of the control unit 130 is not limited to the configuration shown in FIG. 9, and may be another configuration as long as it performs information processing to be described later.

(Acquisition unit 131)
The acquisition unit 131 acquires various information. The acquisition unit 131 acquires various types of information from an external device such as the user terminal 10 . The acquisition unit 131 also acquires various types of information from the storage unit 120 . The acquisition unit 131 also includes a first data storage unit 121, a second data storage unit 122, an interest vector information storage unit 123, a hot level information storage unit 124, a model information storage unit 125, and a threshold information storage unit. Various information is acquired from the unit 126, the advertisement information storage unit 127, and the like.

Acquisition unit 131 receives various types of information from an external information processing device via communication unit 110 . Acquisition unit 131 stores the received information in storage unit 120 . Acquisition unit 131 receives various types of information from user terminal 10 , advertiser device 20 , or business operator device 30 . The acquisition unit 131 acquires information from the user terminal 10 used by the user. Acquisition unit 131 acquires various types of information from advertiser device 20 .

The acquisition unit 131 is a learning model (model M1, etc.) that outputs a score indicating the degree of possibility that the user corresponding to the input interest information will reach a predetermined conversion, with interest information about the interest of the user as input. to get The acquisition unit 131 acquires interest information about the interest of the target user. The acquisition unit 131 receives as input interest information, which is an interest vector generated based on the user's interest, and obtains a score indicating the degree of possibility that the user corresponding to the input interest vector will reach a predetermined conversion. Get a learning model that outputs The acquisition unit 131 acquires interest information, which is an interest vector generated based on the interest of the target user.

The acquisition unit 131 acquires designation information indicating the degree of possibility of reaching a predetermined conversion designated by one request source. The acquisition unit 131 receives as input interest information, which is an interest vector generated based on the user's interest, and obtains a score indicating the degree of possibility that the user corresponding to the input interest vector will reach a predetermined conversion. Get a learning model that outputs The acquisition unit 131 acquires specified information including a specified interest, which is an interest specified by one request source.

The acquisition unit 131 acquires first interest information about the interest of the target user at the first time point. The acquisition unit 131 acquires second interest information regarding the interest of the target user at a second point in time that is later than the first point in time. The acquisition unit 131 acquires first interest information, which is a first interest vector generated based on the interest of the target user at the first time point. The acquisition unit 131 acquires second interest information, which is a second interest vector generated based on the interest of the target user at the second time point.

The acquisition unit 131 acquires interest information about the interest of the target user. The acquisition unit 131 acquires first interest information about the user's interests before provision of the advertisement and second interest information about the user's interests after the advertisement is provided. The acquisition unit 131 acquires first interest information, which is a first interest vector generated based on the user's interest before the advertisement is provided. The acquisition unit 131 acquires second interest information, which is a second interest vector related to the user's interest after the advertisement is provided. Acquisition unit 131 acquires third interest information relating to the user's interest at the first point in time.

The acquisition unit 131 acquires fourth interest information about the user's interest at a second point in time after a predetermined period of time has elapsed without providing an advertisement to the user from the first point in time. The acquisition unit 131 acquires third interest information, which is a third interest vector generated based on the user's interest at the first time point, and third interest information, which is a fourth interest vector related to the user's interest at the second time point. 4 Obtain interest information. Acquisition unit 131 acquires advertisement information about a target advertisement.

(learning unit 132)
The learning unit 132 executes learning processing for learning a learning model (model). For example, the learning unit 132 executes learning processing based on various information acquired by the acquisition unit 131 . The learning unit 132 executes learning processing based on information from an external information processing device and information stored in the storage unit 120 . The learning section 132 executes learning processing based on the information stored in the model information storage section 125 . The learning unit 132 stores the model generated by learning in the model information storage unit 125 .

The learning unit 132 performs learning processing. The learning unit 132 performs various types of learning. The learning unit 132 learns various types of information based on the information acquired by the acquisition unit 131 . The learning unit 132 learns (generates) a model. The learning unit 132 learns various types of information such as models. The learning unit 132 generates a model through learning. The learning unit 132 learns the model using various machine learning techniques. For example, the learning unit 132 learns model (network) parameters. The learning unit 132 learns the model using various machine learning techniques.

The learning unit 132 generates various learning models such as models M1, M2, M11, M12, and M13. The learning unit 132 learns network parameters. For example, the learning unit 132 learns network parameters of various learning models such as models M1, M2, M11, M12, and M13. The learning unit 132 generates various learning models such as models M1, M2, M11, M12, and M13 by performing learning processing using the learning data stored in the model information storage unit 125 . For example, the learning unit 132 generates models used for speech recognition. The learning unit 132 generates various learning models such as models M1, M2, M11, M12 and M13 by learning parameters of networks of various learning models such as models M1, M2, M11, M12 and M13. .

The learning unit 132 performs learning processing based on learning data (teacher data) stored in the model information storage unit 125 . The learning unit 132 generates various learning models such as models M1, M2, M11, M12, and M13 by performing learning processing using the learning data stored in the model information storage unit 125 .

The learning unit 132 learns a learning model (model M1, etc.). The learning unit 132 learns a learning model using learning data in which interest information of a user and correct information indicating the degree of possibility that the user corresponding to the interest information is likely to reach a predetermined conversion are associated with each other. . The learning unit 132 learns a learning model using learning data generated based on a cohort unit, which is a user group having common user matching attributes.

The learning unit 132 uses the first interest information and the second interest information to learn an estimation model (model M2, etc.) that is a learning model for estimating a change in the user's interest due to provision of advertisements. The learning unit 132 learns the estimation model using the first interest information, which is the first interest vector, and the second interest information, which is the second interest vector. The learning unit 132 learns the estimation model by learning the estimation model so as to output the second interest information when the first interest information and the advertisement information about the advertisement are input.

The learning unit 132 learns the estimation model using the third interest information and the fourth interest information. The learning unit 132 learns the estimation model using the third interest information, which is the third interest vector, and the fourth interest information, which is the fourth interest vector. The learning unit 132 learns the estimation model so as to output the fourth interest information when the third interest information and the information indicating that the advertisement is not provided are input. learn.

For example, the learning unit 132 generates a model M1 to be used for hot degree prediction. For example, when an interest vector is input, the learning unit 132 generates a model M1 that outputs a score indicating the degree of hotness of the user corresponding to the interest vector. The learning unit 132 generates the model M1 by learning the parameters of the network of the model M1.

The method of learning by the learning unit 132 is not particularly limited. It may be learned by inputting it into a calculation model. Also, for example, a technique based on DNN (Deep Neural Network) such as CNN (Convolutional Neural Network) and 3D-CNN may be used. When the learning unit 132 targets time-series data such as voice, a recurrent neural network (RNN) or an extended RNN LSTM (Long Short-Term Memory units) using a method based on good too.

(Estimation unit 133)
The estimation unit 133 executes estimation processing for estimating various information. The estimation unit 133 stores information estimated by the estimation process in the storage unit 120 . For example, the estimation unit 133 executes estimation processing based on various information acquired by the acquisition unit 131 . The estimation unit 133 executes estimation processing based on various information stored in the storage unit 120 . The estimation unit 133 executes estimation processing based on various information received from an external information processing device.

The estimation unit 133 uses the model learned by the learning unit 132 to perform estimation processing. For example, the estimation unit 133 executes estimation processing based on information determined by the determination unit 134 .

The estimation unit 133 uses the estimation model learned by the learning unit 132 to estimate the effect of the target advertisement. The estimation unit 133 estimates the effect of the target advertisement using the advertisement information of the target advertisement. The estimation unit 133 estimates the effect of the target advertisement on the target user using the target user's interest information.

(Determination unit 134)
The determination unit 134 executes determination processing for determining various pieces of information. The determination unit 134 stores the determined information in the storage unit 120 . For example, the determination unit 134 executes determination processing based on various information acquired by the acquisition unit 131 . The determination unit 134 executes determination processing based on various information stored in the storage unit 120 . For example, the determination unit 134 executes determination processing based on various information received from an external information processing device.

The decision unit 134 uses the model learned by the learning unit 132 to execute decision processing. For example, the determination unit 134 executes determination processing based on information estimated by the estimation unit 133 .

For example, the determination unit 134 calculates various information based on information estimated by the estimation unit 133 . The determination unit 134 calculates various scores using models. For example, the determination unit 134 calculates various scores.

The determination unit 134 executes determination processing for determining various types of information. For example, the determination unit 134 executes determination processing based on various information acquired by the acquisition unit 131 . For example, the determination unit 134 executes determination processing based on information stored in the storage unit 120 .

The determination unit 134 uses the model learned by the learning unit 132 to execute determination processing. For example, the determination unit 134 executes determination processing based on information estimated by the estimation unit 133 .

The determination unit 134 determines a provided advertisement, which is an advertisement to be provided to the target user, using the interest information of the target user. The determination unit 134 determines a provided advertisement, which is an advertisement to be provided to the target user, by inputting the interest information of the target user into the learning model and using the score output by the learning model. The determination unit 134 inputs interest information, which is an interest vector generated based on the user's interests, to the learning model, and determines an advertisement to be provided using the score output by the learning model.

The determination unit 134 determines one type of advertisement using the score output by the learning model, and determines the advertisement corresponding to the determined one type as the advertisement to be provided. The determining unit 134 determines one type by comparing the score output by the learning model with a threshold value, and determines an advertisement corresponding to the determined one type as a provided advertisement.

The determination unit 134 determines an advertisement corresponding to the determined one type among a plurality of types according to the user's predetermined conversion state as the provided advertisement. The determining unit 134 determines one type by comparing the score output by the learning model with each of the plurality of thresholds, and determines the advertisement corresponding to the determined one type as the advertisement to be provided.

The determining unit 134 selects the first type corresponding to the first stage with the lowest degree of possibility that the user will reach the predetermined conversion, and the second stage with the degree of possibility that the user will reach the predetermined conversion is higher than the first stage and the third type corresponding to the third stage in which the user is most likely to reach a predetermined conversion, the advertisement corresponding to the determined one type is determined as the advertisement to be provided. The determining unit 134 determines the one type to be the first type when the score is equal to or less than the first threshold, and determines the one type as the first type when the score is equal to or less than the second threshold greater than the first threshold and is greater than the first threshold. is determined to be the second type, and if the score is greater than the second threshold, the one type is determined to be the third type.

The determination unit 134 selects a first type corresponding to an upper-funnel user who is a user with the lowest degree of possibility of reaching a predetermined conversion, and a middle type of user who is a user with a higher degree of possibility of reaching a predetermined conversion than the upper-funnel user. Advertisement corresponding to the determined one type of the second type corresponding to the funnel user and the third type corresponding to the lower funnel user who is the user with the highest possibility of reaching a predetermined conversion is provided to the advertisement decide. The determination unit 134 determines the advertisement to be provided from among the advertisement group of the first advertisement of the upper-funnel type, the second advertisement of the middle-funnel type, and the third advertisement of the lower-funnel type. The determining unit 134 determines the provided advertisement using the learning model learned by the learning unit 132 .

The determination unit 134 determines provision information, which is information to be provided to one requester, using the designation information and the information generated by the learning model. The determination unit 134 determines, as the provided information, interest information that, when input to the learning model, outputs a score similar to the degree indicated by the specified information. The determination unit 134 determines, as the provided information, an interest vector that outputs a score similar to the degree indicated by the specified information when input to the learning model. If there are a plurality of interest vectors that output scores similar to the degree indicated by the specified information when input to the learning model, the determination unit 134 determines the provided information from the plurality of interest vectors.

The determination unit 134 determines a plurality of interest vectors as the provision information. The determination unit 134 determines part of the plurality of interest vectors to be provided information. The determining unit 134 determines the interest vector corresponding to the designated interest among the plurality of interest vectors as the provision information. The determining unit 134 determines the information to be provided using the learning model learned by the learning unit 132 .

The determination unit 134 inputs the first interest information of the target user to the learning model, and inputs the first score output by the learning model and the second interest information of the target user to the learning model, thereby learning The second score output by the model is used to determine how the advertisement is presented to the target user. The determining unit 134 determines the mode of providing the advertisement to the target user according to the change from the first score to the second score. The determination unit 134 determines to provide the advertisement to the target user when there is an upward trend from the first score to the second score. The determination unit 134 determines to provide the advertisement to the target user when the second score is greater than the first score by a predetermined value or more.

The determining unit 134 uses at least one of the first score and the second score to determine the provided advertisement, which is the advertisement to be provided to the target user. The determining unit 134 determines an advertisement corresponding to one type among a plurality of types according to the user's predetermined conversion state as the provided advertisement. The determining unit 134 determines one type by comparing the second score output by the learning model with each of the plurality of thresholds, and determines the advertisement corresponding to the determined one type as the provided advertisement.

The determination unit 134 determines not to provide the advertisement to the target user when there is a downward trend from the first score to the second score. The determination unit 134 determines not to provide the advertisement to the target user when the second score is smaller than the first score by a predetermined value or more.

The determination unit 134 uses information generated by the learning model to determine a mode of interest change. The determining unit 134 uses first interest information that outputs a first score when input to the learning model and second interest information that outputs a second score when input to the learning model. to determine the mode of interest change. Determination unit 134 outputs first interest information that outputs a first score when input to the learning model, and second interest information that outputs a second score greater than the first score when input to the learning model. Interest information is used to determine the mode of interest change.

The determination unit 134 determines a mode of interest change by comparing the first interest information and the second interest information. The determination unit 134 determines the mode of interest change based on the difference between the first interest information and the second interest information. The determination unit 134 determines a mode of change in interest based on transition of change between the first interest information and the second interest information.

The determination unit 134 determines a provided advertisement, which is an advertisement to be provided to the target user, based on the change in interests. The determination unit 134 determines the provided advertisement to be provided to the target user by inputting the interest information of the target user into the learning model and using the score output by the learning model. The determination unit 134 uses the learning model learned by the learning unit 132 to determine the mode of change in interest.

The determination unit 134 determines the mode of providing the target advertisement to the target user based on the effect of the target advertisement for the target user estimated by the estimation unit 133 . The determination unit 134 determines to provide the target advertisement to the target user when it is estimated that the target advertisement is effective for the target user. The determination unit 134 determines not to provide the target advertisement to the target user when it is estimated that the target advertisement has no effect on the target user.

The determination unit 134 may execute generation processing for generating various information. The determination unit 134 stores the generated information in the storage unit 120 . For example, the determination unit 134 executes generation processing based on various information acquired by the acquisition unit 131 . The determination unit 134 executes generation processing based on various information stored in the storage unit 120 . The determination unit 134 executes generation processing based on various information received from an external information processing device.

For example, the determination unit 134 executes generation processing based on the determined information. For example, the determining unit 134 executes generation processing based on information estimated by the estimating unit 133 .

The determination unit 134 generates content. For example, the determining unit 134 appropriately uses various techniques such as Java (registered trademark) to generate a screen (content) to be provided to the user terminal 10 . Note that the determining unit 134 may generate a screen (content) to be provided to the user terminal 10 based on CSS, JavaScript (registered trademark), or HTML format. Further, for example, the determination unit 134 may generate screens (contents) in various formats such as JPEG (Joint Photographic Experts Group), GIF (Graphics Interchange Format), and PNG (Portable Network Graphics).

(Providing unit 135)
The providing unit 135 provides various information. The providing unit 135 transmits various types of information to an external information processing device via the communication unit 110 . The providing unit 135 transmits various types of information to the user terminal 10 , the advertiser device 20 and the business operator device 30 . The providing unit 135 transmits content to the user terminal 10 .

The providing unit 135 provides information determined by the determining unit 134 . The providing unit 135 provides information generated by the determining unit 134 . The providing unit 135 provides information estimated by the estimating unit 133 .

The providing unit 135 provides information indicating the provided advertisement determined by the determining unit 134 . The providing unit 135 transmits the provided advertisement to the terminal device (user terminal 10) used by the target user. The provision unit 135 provides information indicating the provision information determined by the determination unit 134 . The providing unit 135 transmits the provided information to a terminal device (for example, the business operator device 30) used by one requester. The provision unit 135 provides the target advertisement to the target user when the determination unit 134 determines to provide the target advertisement to the target user. The providing unit 135 transmits the target advertisement to the terminal device (user terminal 10) used by the target user.

[3. Processing procedure]
Next, the procedure of information processing executed by the information processing apparatus 100 according to the embodiment will be described with reference to FIGS. 13 to 17. FIG. 13 to 17 are flowcharts showing an example of the flow of information processing executed by the information processing apparatus.

First, FIG. 13 will be described. For example, FIG. 13 shows an example of determination of an advertisement to be provided to the user performed by the information processing apparatus 100 . In FIG. 13, the information processing apparatus 100 has a learning model that outputs a score indicating the degree of possibility that the user corresponding to the input interest information will convert, with interest information about the interest of the user as input. Acquire (step S101). The information processing apparatus 100 acquires interest information about the interest of the target user (step S102). Then, the information processing apparatus 100 inputs the interest information of the target user to the learning model, and uses the score output by the learning model to determine the advertisement to be provided to the target user (step S103). .

Next, FIG. 14 will be described. For example, FIG. 14 shows an example of determining provision information performed by the information processing apparatus 100 . In FIG. 14, the information processing apparatus 100 acquires designation information indicating the degree of possibility of conversion designated by one request source (step S201). The information processing apparatus 100 acquires a learning model that outputs a score indicating the degree of possibility that the user corresponding to the input interest information will convert by inputting interest information about the user's interest (step S202). ). Then, the information processing apparatus 100 uses the designation information and the information generated by the learning model to determine provision information, which is information to be provided to one request source (step S203).

Next, FIG. 15 will be described. For example, FIG. 15 shows an example of how the information processing apparatus 100 decides the mode of providing an advertisement to the user. In FIG. 15 , the information processing apparatus 100 acquires a learning model that outputs a score indicating the degree of likelihood that the user corresponding to the input interest information will convert, with interest information about the user's interest as input. (step S301). The information processing apparatus 100 acquires first interest information and second interest information about the interest of the target user at a second point in time, which is later than the first point in time (step S302). Then, the information processing apparatus 100 inputs the first score output by the learning model and the second interest information of the target user to the learning model by inputting the first interest information of the target user into the learning model. Then, using the second score output by the learning model, the mode of providing the advertisement to the target user is determined (step S303).

Next, FIG. 16 will be described. For example, FIG. 16 shows an example of how the information processing apparatus 100 determines the mode of interest change. In FIG. 16 , the information processing apparatus 100 acquires a learning model that outputs a score indicating the degree of likelihood that the user corresponding to the input interest information will convert, with interest information about the interest of the user as input. (step S401). The information processing apparatus 100 acquires interest information related to the interest of the target user (step S402). Then, the information processing apparatus 100 uses the information generated by the learning model to determine the mode of change in interests (step S403).

Next, FIG. 17 will be described. For example, FIG. 17 shows an example of learning of a learning model for estimating a user's interest performed by the information processing apparatus 100 . In FIG. 17, the information processing apparatus 100 acquires first interest information regarding the user's interest before provision of the advertisement (step S501). The information processing apparatus 100 acquires second interest information related to the user's interest after the advertisement is provided (step S502). Then, the information processing apparatus 100 uses the first interest information and the second interest information to learn an estimation model, which is a learning model for estimating the user's interest due to the provision of the advertisement (step S503).

[4. effect〕
As described above, the information processing apparatus 100 according to the embodiment has the acquisition unit 131 and the determination unit 134 . The acquisition unit 131 receives as input interest information related to the user's interest, and a learning model (in the embodiment, a model M1, etc.) and interest information about the interest of the target user. The determination unit 134 determines a provided advertisement, which is an advertisement to be provided to the target user, by inputting the interest information of the target user into the learning model and using the score output by the learning model.

As described above, the information processing apparatus 100 according to the embodiment uses a learning model that outputs a score indicating the degree of possibility that the user will reach a predetermined conversion, and by inputting the interest information of the target user, learning The score output by the model is used to determine the offered advertisement to be provided to the target user. As a result, the information processing apparatus 100 can provide an appropriate service according to the user's interest by providing an appropriate advertisement according to the user's interest.

Further, in the information processing apparatus 100 according to the embodiment, the acquisition unit 131 receives as input interest information, which is an interest vector generated based on the user's interest, and the user corresponding to the input interest vector is A learning model that outputs a score indicating the degree of possibility of reaching a predetermined conversion, and interest information that is an interest vector generated based on the interest of the target user are acquired. The determination unit 134 inputs interest information, which is an interest vector generated based on the user's interests, to the learning model, and determines an advertisement to be provided using the score output by the learning model.

As described above, the information processing apparatus 100 according to the embodiment determines the provided advertisement to be provided to the target user using the interest vector generated based on the user's interests, thereby providing advertisements according to the user's interests. to serve relevant advertisements. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

Further, in the information processing apparatus 100 according to the embodiment, the determination unit 134 determines one type of advertisement using the score output by the learning model, and determines the advertisement corresponding to the determined one type as the advertisement to be provided. .

As described above, the information processing apparatus 100 according to the embodiment determines one type of advertisement using the score output by the learning model, and determines the advertisement corresponding to the determined one type as the advertisement to be provided. To make it possible to provide appropriate advertisements according to user's interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

Further, in the information processing apparatus 100 according to the embodiment, the determining unit 134 determines one type by comparing the score output by the learning model with a threshold, and determines the advertisement corresponding to the determined one type as the provided advertisement. do.

In this way, the information processing apparatus 100 according to the embodiment determines one type by comparing the score output by the learning model with the threshold, and determines the advertisement corresponding to the determined one type as the advertisement to be provided. , to provide appropriate advertisements according to the user's interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

Further, in the information processing apparatus 100 according to the embodiment, the determination unit 134 determines, as the provided advertisement, an advertisement corresponding to one of the determined types among a plurality of types according to the user's predetermined conversion state.

As described above, the information processing apparatus 100 according to the embodiment determines an advertisement corresponding to one of the determined types among a plurality of types according to the user's predetermined conversion state as the advertisement to be provided. To make it possible to provide appropriate advertisements according to interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

Further, in the information processing apparatus 100 according to the embodiment, the determination unit 134 determines one type by comparing the score output by the learning model with each of the plurality of threshold values, and displays an advertisement corresponding to the determined one type. Decide on an offer advertisement.

In this way, the information processing apparatus 100 according to the embodiment determines one type by comparing the score output by the learning model with each of the plurality of threshold values, and provides advertisements corresponding to the determined one type. By making decisions, it is possible to provide appropriate advertisements according to the user's interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

In addition, in the information processing apparatus 100 according to the embodiment, the determination unit 134 determines the first type corresponding to the first stage with the lowest possibility of the user reaching the predetermined conversion, the possibility of the user reaching the predetermined conversion One of the second type corresponding to the second stage where the degree of Advertisements corresponding to the type are determined to serve advertisements.

As described above, the information processing apparatus 100 according to the embodiment determines, as the provided advertisement, an advertisement corresponding to one of the determined types among a plurality of types according to the degree of possibility that the user will reach a predetermined conversion. This makes it possible to provide appropriate advertisements according to user interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

Further, in the information processing apparatus 100 according to the embodiment, when the score is equal to or less than the first threshold, the determination unit 134 determines the type to be the first type, and the score is equal to or less than the second threshold greater than the first threshold. and is greater than the first threshold, one type is determined as the second type, and if the score is greater than the second threshold, the one type is determined as the third type.

Thus, the information processing apparatus 100 according to the embodiment uses two thresholds to determine one type from among the first type to the third type, and the advertisement corresponding to the determined type. is determined as the advertisement to be provided, it is possible to provide an appropriate advertisement according to the user's interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

In addition, in the information processing apparatus 100 according to the embodiment, the determination unit 134 determines that the first type corresponding to the upper-funnel user, who is the user with the lowest possibility of reaching the predetermined conversion, is the first type corresponding to the upper-funnel user. A second type corresponding to a middle-funnel user who is a user with a high degree of possibility of reaching a predetermined conversion, and a third type corresponding to a lower-funnel user who is a user with the highest degree of possibility of reaching a predetermined conversion. Advertisements corresponding to the selected one type are determined as advertisements to be provided.

As described above, the information processing apparatus 100 according to the embodiment determines one type from among the first to third types corresponding to each of the upper-funnel user, the middle-funnel user, and the lower-funnel user, and By determining the advertisement corresponding to the determined one type as the advertisement to be provided, it is possible to provide an appropriate advertisement according to the user's interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

In addition, in the information processing apparatus 100 according to the embodiment, the determination unit 134 determines the provided advertisement from among the advertisement group of the upper-funnel type first advertisement, the middle-funnel type second advertisement, and the lower-funnel type third advertisement. do.

In this way, the information processing apparatus 100 according to the embodiment determines the provided advertisement from among the advertisement group of the upper-funnel type first advertisement, the middle-funnel type second advertisement, and the lower-funnel type third advertisement. , to provide appropriate advertisements according to the user's interests. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

The information processing apparatus 100 according to the embodiment also has a learning unit 132 . The learning unit 132 learns a learning model. The determining unit 134 determines the provided advertisement using the learning model learned by the learning unit 132 .

As described above, the information processing apparatus 100 according to the embodiment determines advertisements to be provided using the learned learning model, thereby making it possible to provide appropriate advertisements according to the interests of the user. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

Further, in the information processing apparatus 100 according to the embodiment, the learning unit 132 associates the interest information of the user with correct information indicating the degree of possibility that the user corresponding to the interest information will reach a predetermined conversion. The training model is trained using the obtained training data.

As described above, the information processing apparatus 100 according to the embodiment performs learning in which user's interest information and correct information indicating the degree of possibility that the user corresponding to the interest information will reach a predetermined conversion are associated with each other. By learning the learning model using data, the learning model can be learned appropriately. Thereby, the information processing apparatus 100 can provide appropriate services according to the interests of the user.

Also, in the information processing apparatus 100 according to the embodiment, the learning unit 132 learns a learning model using learning data generated based on a cohort unit, which is a user group having a common user matching attribute.

In this way, the information processing apparatus 100 according to the embodiment can generate a privacy-safe model by performing user matching in units of cohorts, which are user groups having common attributes. As a result, the information processing apparatus 100 can provide appropriate services according to the user's interests using a privacy-safe learning model.

The information processing apparatus 100 according to the embodiment also has a providing unit 135 . The providing unit 135 provides information indicating the provided advertisement determined by the determining unit 134 .

As described above, the information processing apparatus 100 according to the embodiment can provide an appropriate information providing service by providing information indicating a provided advertisement.

In addition, in the information processing apparatus 100 according to the embodiment, the provision unit 135 transmits the provided advertisement to the terminal device (the user terminal 10 in the embodiment) used by the target user.

In this way, the information processing apparatus 100 according to the embodiment can provide an appropriate advertisement providing service by providing the provided advertisement to the user.

[5. Hardware configuration]
The information processing apparatus 100 according to the embodiments described above is implemented by a computer 1000 configured as shown in FIG. 18, for example. FIG. 18 is a hardware configuration diagram showing an example of a computer that implements the functions of the information processing apparatus. Computer 1000 has CPU 1100 , RAM 1200 , ROM 1300 , HDD (Hard Disk Drive) 1400 , communication interface (I/F) 1500 , input/output interface (I/F) 1600 and media interface (I/F) 1700 .

The CPU 1100 operates based on programs stored in the ROM 1300 or HDD 1400 and controls each section. 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 programs executed by the CPU 1100, data used by the programs, and the like. Communication interface 1500 receives data from other devices via network N, sends the data to CPU 1100, and transmits data generated by CPU 1100 to other devices via network N. FIG.

The CPU 1100 controls output devices such as displays and printers, and input devices such as keyboards and mice, through an input/output interface 1600 . CPU 1100 acquires data from an input device via input/output interface 1600 . CPU 1100 also outputs the generated data to an output device via input/output interface 1600 .

Media interface 1700 reads programs or data stored in recording medium 1800 and provides them to CPU 1100 via RAM 1200 . CPU 1100 loads such a program from recording medium 1800 onto RAM 1200 via 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 a PD (Phase change rewritable disc), 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 processing apparatus 100 according to the embodiment, the CPU 1100 of the computer 1000 implements the functions of the control unit 130 by executing programs loaded on the RAM 1200 . The CPU 1100 of the computer 1000 reads these programs from the recording medium 1800 and executes them, but as another example, these programs may be acquired via the network N from another device.

As described above, some of the embodiments and modifications of the present application have been described in detail with reference to the drawings. It is possible to carry out the present invention in other forms with modifications and improvements.

[6. others〕
Further, among the processes described in the above embodiments and modifications, all or part of the processes described as being performed automatically can be performed manually, or described as being performed manually. All or part of the processing can also be performed automatically by a known method. In addition, information including processing procedures, specific names, various data and parameters shown in the above documents and drawings can be arbitrarily changed unless otherwise specified. For example, the various information shown in each drawing is not limited to the illustrated information.

Also, each component of each device illustrated is functionally conceptual, and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution and integration of each device is not limited to the one shown in the figure, and all or part of them can be functionally or physically distributed and integrated in arbitrary units according to various loads and usage conditions. Can be integrated and configured.

Also, the above-described embodiments and modifications can be appropriately combined within a range that does not contradict the processing content.

Also, the above-mentioned "section, module, unit" can be read as "means" or "circuit". For example, the acquisition unit can be read as acquisition means or an acquisition circuit.

1 information processing system 100 information processing device 121 first data storage unit 122 second data storage unit 123 interest vector information storage unit 124 hot level information storage unit 125 model information storage unit 126 threshold information storage unit 127 advertisement information storage unit 130 control Unit 131 Acquisition Unit 132 Learning Unit 133 Estimation Unit 134 Determination Unit 135 Provider 10 User Terminal 20 Advertiser Apparatus 30 Provider Apparatus N Network

Claims (17)

a learning model for inputting interest information related to user interests and outputting a score indicating the degree of possibility that a user corresponding to the input interest information will reach a predetermined conversion; an acquisition unit that acquires interest information;
a determination unit that determines an advertisement to be provided to the target user by inputting the interest information of the target user into the learning model and using the score output by the learning model;
An information processing device comprising: The acquisition unit
The interest information, which is an interest vector generated based on the user's interest, is input, and a score indicating the degree of possibility that the user corresponding to the input interest vector will reach a predetermined conversion is output. Acquiring the learning model and the interest information, which is an interest vector generated based on the interest of the target user;
The decision unit
By inputting the interest information, which is an interest vector generated based on the user's interests, to the learning model, the provided advertisement is determined using the score output by the learning model. The information processing apparatus according to claim 1, wherein: The decision unit
One type of advertisement is determined using the score output by the learning model, and an advertisement corresponding to the determined one type is determined as the provided advertisement. The information processing device described. The decision unit
The one type is determined by comparing the score output by the learning model with a threshold, and the advertisement corresponding to the determined one type is determined as the provided advertisement. Information processing equipment. The decision unit
5. The information processing according to claim 3 or 4, wherein an advertisement corresponding to the determined one type among a plurality of types according to a state regarding a predetermined conversion of the user is determined as the provided advertisement. Device. The decision unit
The one type is determined by comparing the score output by the learning model with each of a plurality of thresholds, and the advertisement corresponding to the determined one type is determined as the provided advertisement. 6. The information processing device according to 5. The decision unit
A first type corresponding to the first stage with the lowest degree of possibility that the user will reach a predetermined conversion, and a second stage with a higher degree of possibility that the user will reach the predetermined conversion than the first stage. The provided advertisement is determined to be an advertisement corresponding to the determined one of the two types and the third type corresponding to the third stage in which the user is most likely to reach a predetermined conversion. 7. The information processing apparatus according to claim 5 or 6, wherein The decision unit
If the score is less than or equal to the first threshold, the one type is determined to be the first type, and if the score is less than or equal to a second threshold greater than the first threshold and greater than the first threshold, The information processing apparatus according to claim 7, wherein said one type is determined as said second type, and said one type is determined as said third type when said score is greater than a second threshold. . The decision unit
The first type corresponds to upper-funnel users who are users with the lowest possibility of reaching a predetermined conversion, and corresponds to middle-funnel users who are users who are more likely to reach a predetermined conversion than the upper-funnel users. and a third type corresponding to a lower-funnel user who is a user most likely to reach a predetermined conversion, an advertisement corresponding to the determined one type is determined as the provided advertisement. 9. The information processing apparatus according to claim 7 or 8, characterized by: The decision unit
10. The provided advertisement is determined from an advertisement group of an upper-funnel type first advertisement, a middle-funnel type second advertisement, and a lower-funnel type third advertisement. The information processing device according to . a learning unit that learns the learning model;
further comprising
The decision unit
The information processing apparatus according to any one of claims 1 to 10, wherein the provided advertisement is determined using the learning model learned by the learning unit. The learning unit
The learning model is learned using learning data in which the interest information of the user and correct information indicating the degree of possibility that the user corresponding to the interest information will reach a predetermined conversion are associated with each other. 12. The information processing apparatus according to claim 11. The learning unit
13. The information processing apparatus according to claim 12, wherein the learning model is learned using the learning data generated based on a cohort unit, which is a user group having a common user matching attribute. a provision unit that provides information indicating the provided advertisement determined by the determination unit;
The information processing apparatus according to any one of claims 1 to 13, further comprising: The providing unit
The information processing device according to claim 14, wherein the provided advertisement is transmitted to a terminal device used by the target user. A computer-executed information processing method comprising:
a learning model for inputting interest information related to user interests and outputting a score indicating the degree of possibility that a user corresponding to the input interest information will reach a predetermined conversion; an acquisition step of acquiring interest information;
a determination step of determining an advertisement to be provided to the target user by inputting the interest information of the target user into the learning model and using the score output by the learning model;
An information processing method comprising: a learning model for inputting interest information related to user interests and outputting a score indicating the degree of possibility that a user corresponding to the input interest information will reach a predetermined conversion; an acquisition procedure for acquiring interest information;
a determining step of determining a provided advertisement, which is an advertisement to be provided to the target user, by inputting the interest information of the target user into the learning model and using the score output by the learning model;
An information processing program characterized by causing a computer to execute

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