JP2015097026A - Trend analysis device, trend analysis method and trend analysis program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a trend analysis device capable of analyzing a trend similar to a specific interest of a user.SOLUTION: A text relevant graph calculation part 30 constructs a graph representing relation of a text group, and a query base cluster extraction part 40 performs clustering of the constructed graph on the basis of a query according to a specific interest, and collects texts having meaning similar to the query. The text group is subjected to clustering by a sub cluster extraction part 70, and using the result, a trend topic calculation part 120 calculates a trend topic similar to the user's specific interest. In addition, a cluster similarity calculation part 90 determines whether the text having high association degree to the query and low association degree to the sub cluster has to be subjected to clustering again, or not, and according to the determination result, a sub cluster extraction part 80 calculates the cluster again.

Description

  The present invention relates to a text trend analysis apparatus, and more particularly to a trend analysis apparatus, method, and program for analyzing a trend in a text stream obtained from a microblog or the like based on a user's specific interest.

  With the spread of microblogs and the like, the importance of trend analysis in text streams with high real-time properties is increasing. Trends represent the characteristics of text found at specific times and times. By analyzing the trend of microblogs where messages are frequently posted by users, temporal changes in user behavior can be observed. By using this trend information, for example, services such as EC (Electronic Commerce) sites and information search sites can provide products that meet user preferences and information that is likely to become popular in the future, and improve user convenience. Can do.

  According to Patent Document 1, a method of analyzing a trend is proposed in consideration of a difference in speed of time change for each topic of text. This method extracts a representative trend, that is, a topic that is rising in the entire text group. On the other hand, according to Non-Patent Document 1, by hierarchically clustering text groups related to news articles, it is possible to extract a trend that has been refined in addition to a representative trend. For example, topics such as “earthquake” and “world cup” can be extracted as representative trends, and further detailed trends such as “tsunami” and “international assistance” can be extracted as subtopics related to “earthquake”.

  An example of local clustering used in the present invention is described in Non-Patent Document 2.

JP 2011-134230 A

M.M. Zimmermann, I.D. Ntooutsi, Z .; F. Siddiqui, M .; Spiriopoulou and H.M. -P. Kriegel, “Discovering Global and Local Bursts in a Stream of News”, In Proc. of SAC'12, 2012, pp. 807-812 R. Andersen, Y.M. Peres, “Finding Sparse Cuts Locally Using Evolving Sets”, In Proc. of STOC'09, 2009, pp. 235-244

  However, with the methods of Patent Document 1 and Non-Patent Document 1, it is impossible to analyze a trend based on a user's specific interest in a microblog in which messages about various topics are posted. These conventional methods extract representative trends and extract the most popular topics in the entire text group.

  Non-Patent Document 1 details a typical trend, but if the typical trend is not based on the user's interest, the detailed trend is not based on the user's interest as well. There was a problem. For example, for users who are interested in “accessories”, if the topic of “earthquake” is the most popular in the entire text, a detailed trend related to “earthquake” will be extracted, and “necklace, ○○ brand” It is not possible to observe trends on topics that are close to the meaning of accessories such as “clothes, OO pattern”.

  The present invention has been made in view of the above-described problems of the prior art, and an object thereof is to provide a trend analysis apparatus, method, and program capable of analyzing a trend close to a user's specific interest.

  A trend analysis apparatus according to the present invention for solving the above problems is a trend analysis apparatus for analyzing a trend in a text stream, the text stream storage means storing the text stream, and the text stream storage means storing the text stream storage means. A text-related graph calculation means for constructing a text-related graph with each text as a node and a common word co-occurring in each text as an edge, and a query set specified by the user as inputs, the text-related Query-based cluster extraction means for extracting a text cluster related to a query from a text-related graph constructed by the graph calculation means, starting from a text node including the input query set, and storing it in a query-based cluster storage means; , The query-based cluster description Feature amount extraction means for calculating the feature amount of each text of the text group stored in the means and the feature amount of each text of the captured text stream, and query base cluster storage means calculated by the feature amount extraction means Clustering using the text feature quantity of the text group stored in the text and the trend number input by the user to extract sub-clusters, the text feature quantity of the text stream calculated by the feature quantity extraction means and the extracted A text group that is determined based on the similarity to the sub-cluster and is highly related to the query and low in relation to the sub-cluster, and is determined to be re-clustered, and the trend input by the user A clustering process using a number and extracting each clustering. Sub-cluster extraction means for storing the sub-clusters stored in the sub-cluster storage means, text feature quantities and text information of the text stream calculated by the feature quantity extraction means, and a cluster group stored in the sub-cluster storage means; And the text and the similarity of each sub-cluster, the text and the similarity of all sub-clusters are calculated, and the text that is highly relevant to the query and low to the sub-cluster is stored in the unrelated text storage means. A cluster similarity calculating means for storing, a reclustering determining means for determining that reclustering is performed when the number of texts stored in the unrelated text storage means is larger than a threshold, and the subcluster storage means For stored clusters, it is a set of words, and each word has a numerical value indicating the degree of trend. And a trend topic calculation means for calculating the trend topic held as a feature.

  According to the above configuration, the text-related graph calculation means and the query-based cluster extraction means can gather together text groups that have similar meanings to the query specified by the user, and the sub-cluster extraction means further clusters the text groups. Since the trend topic is calculated using the clustering result, the trend close to the user's specific interest can be calculated.

  Further, since the text is highly relevant to the query and low in relevance to the sub-cluster and is determined to be re-clustered, the text group determined to be re-clustered is re-clustered. Newly emerging trends can be calculated.

  According to the present invention, it is possible to cluster texts that have similar meanings to queries in an enormous text stream composed of various topics such as microblogs. Thereby, it becomes possible to analyze a trend close to a user's specific interest. Furthermore, it is possible to provide information based on a trend close to a specific interest, and thus close to a specific user's interest, genre, etc. in an EC site or information search service, and an improvement in user convenience can be expected.

1 is a configuration diagram of a trend analysis apparatus according to an embodiment of the present invention. The flowchart of the process until it extracts the query-based text cluster from the text stream in the example of one embodiment of the present invention. The flowchart of the process of the query base cluster extraction part in one embodiment of this invention. The flowchart of the process which calculates a trend topic from the query base cluster in the example embodiment of the present invention. Explanatory drawing which shows the example of a memory | storage of the subcluster memory | storage part in one example of embodiment of this invention. The flowchart of the process which detects appearance of the new trend regarding the specific query in one example embodiment of this invention. Explanatory drawing which shows the example of an output of the trend analysis result in one embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to the following embodiments. The trend analysis apparatus according to the present embodiment is an apparatus for analyzing a trend in a text stream obtained from a microblog or the like based on a user's specific interest. It is characterized in that a close cluster is calculated, and trend topic extraction processing is performed in the calculated cluster.

  FIG. 1 is a block diagram showing a configuration of a trend analysis apparatus according to this embodiment. In FIG. 1, reference numeral 10 denotes an input unit as a means for inputting information, and includes, for example, a keyboard, a mouse, a disk drive device, and the like.

  A text stream storage unit (text stream storage unit) 20 stores a text stream obtained from a microblog or the like.

  30 is a text-related graph calculation unit (text) that constructs a text-related graph with each text stored in the text stream storage unit 20 as a node and a common word co-occurring in each text as an edge. Related graph calculation means).

  40, the user-specified query set received from the input unit 10 is used as an input, and the text-related graph constructed by the text-related graph calculation unit 30 is used as a starting point for a text node including the input query set. It is a query base cluster extraction unit (query base cluster extraction unit) that extracts a related text cluster and stores it in a query base cluster storage unit 50 as a query base cluster storage unit.

  Reference numeral 60 denotes a feature amount extraction unit (feature amount extraction means) that calculates the feature amount of each text of the text group stored in the query base cluster storage unit 50 and the feature amount of each text of the captured text stream. .

  70 is a process of performing clustering using the text feature amount of the text group stored in the query base cluster storage unit 50 and the trend number input by the user, and extracting a sub-cluster, calculated by the feature amount extraction unit 60. The degree of association with the query is high and the degree of association with the subcluster is low based on the similarity between the text feature amount of the text stream calculated by the feature amount extraction unit 60 and the extracted subcluster. A text, a text group determined to be reclustered, and a clustering process using a trend number input by the user are executed, and the subcluster extracted by each clustering is used as a subcluster storage unit The sub-cluster extraction unit (sub-cluster extraction) stored in the sub-cluster storage unit 80 of It is a means).

  90, the text feature amount and text information of the text stream calculated by the feature amount extraction unit 60 and the cluster group stored in the sub-cluster storage unit 80 are inputted, and the similarity between the text and each sub-cluster, The cluster similarity is calculated by calculating the text and the similarity of all the sub-clusters, and storing the text having a high degree of association with the query and a low degree of association with the sub-cluster in the non-related text storage unit 100 as an unrelated text storage unit. It is a calculation part (cluster similarity calculation means).

  Reference numeral 110 denotes a reclustering determination unit (reclustering determination unit) that determines to perform reclustering when the number of texts stored in the unrelated text storage unit 100 is larger than a threshold value.

  120 is a set of words for the cluster group stored in the sub-cluster storage unit 80, and each word is a trend topic calculation unit (trend topic calculation means) that calculates a trend topic that holds the degree of trend as a numerical value. ).

  Reference numeral 130 denotes an output unit that outputs the trend topic calculated by the trend topic calculation unit 120.

  The trend analysis apparatus in FIG. 1 is configured by a computer, for example, and includes hardware resources of a normal computer, such as a ROM, a RAM, a CPU, an input device, an output device, a communication interface, a hard disk, a recording medium, and a driving device thereof. .

  As a result of the cooperation between the hardware resource and the software resource (OS, application, etc.), as shown in FIG. 1, the trend analysis apparatus has an input unit 10, a text stream storage unit 20, a text related graph calculation unit 30, a query. Base cluster extraction unit 40, query base cluster storage unit 50, feature quantity extraction unit 60, sub-cluster extraction unit 70, sub-cluster storage unit 80, cluster similarity calculation unit 90, unrelated text storage unit 100, re-clustering determination unit 110 The trend topic calculation unit 120 and the output unit 130 are implemented.

  It is assumed that the text stream storage unit 20, the query base cluster storage unit 50, the sub-cluster storage unit 80, and the unrelated text storage unit 100 are constructed in storage means / storage means such as a hard disk or RAM.

  Next, each part of the trend analyzer configured as described above will be specifically described. FIG. 2 is a flowchart of processing until a query-based text cluster is extracted from a text stream. Details will be described below.

<Step S210>
The query word group Q and the trend number K according to the user's interest, which are input by the user, are received via the input unit 10.

<Step S220>
The occurrence time and text information are stored in the text stream storage unit 20 with respect to the text stream for a predetermined time. The following storage units including the text stream storage unit 20 may be anything as long as these pieces of information can be stored and restored. For example, it is stored in a specific area of a database or a general-purpose storage device (memory or hard disk device) provided in advance. The stored text stream is deleted after a predetermined time, and a new text stream for a predetermined time is stored again. Each time a new text stream is stored, information is transferred to the text-related graph calculation unit 30. The text stream is assumed to be text with high real-time properties such as a microblog (for example, Twitter (registered trademark)).

<Step S230>
The text-related graph calculation unit 30 divides the text dεD stored in the text stream storage unit 20 into word sets such as nouns, verbs, and adjectives by a morphological analyzer. Thereafter, a text relation graph G = (V, E) representing the relation of each text dεD is constructed. Here, D is a text set, G is an undirected graph, V is a node set, and E is an edge set. In the construction method of the graph G, each text d is set as a node vεV, and words in which common words co-occur in each text are connected by an edge eεE.

<Step S240>
The query base cluster extraction unit 40 receives the query set Q 1 from the input unit 10. A text cluster related to the query is extracted starting from the node v of the text d including the received query set Q. For clustering a graph starting from a specific node, a known one such as EvoCut (see Non-Patent Document 2), which is a kind of local clustering, can be used.

  At this time, in order to apply local clustering, it is necessary to determine one node as a starting point. On the other hand, there may be a plurality of text nodes including the query group Q. For this reason, local clustering is performed using the combined nodes as starting points by combining candidate nodes that are starting points and combining them into one node. A specific flow of processing performed by the query-based cluster extraction unit 40 will be described with reference to the flowchart of FIG.

  In FIG. 3, the query base cluster extraction unit 40 executes the processes of steps S310 to S370, but the loop L300 repeatedly executes the processes of steps S320 to S360 in L300 (S) to L300 (e). Represents.

<Step S310>
An empty set φ is substituted into the node variable v ′ that is the connection source. In this specification, an empty set is denoted as “empty set φ”.

<Step S320>
It is determined whether or not all query word groups Q are included in the text of a certain node v. If the determination result is No, the process proceeds to L300 (e) for determining the end of the repetitive process starting with L300 (S).

<Step S330>
If the determination result in step S320 is Yes, it is determined whether or not the join source node v ′ is an empty set φ.

  When all the query word groups Q are included in the text of a certain node v (Yes in step S320) and the join source node v ′ is an empty set φ (Yes in step S330), the node v is assigned to the join source node v ′. substitute. Thereafter, the process proceeds to L300 (e).

<Step S350>
When all the query word groups Q are included in the text of a certain node v (Yes in step S320) and the join source node v ′ is not the empty set φ (No in step S330), the node v ′ and the node v are combined into one node. And substitute for v ′. Thereafter, the process proceeds to step S360.

<Step S360>
Edges connected to the combined node v ′ are also integrated, and the graph G is updated. Thereafter, the process proceeds to L300 (e).

<Step S370>
After performing the processing of steps S320 to S360 in the loop L300 for all the nodes of the graph G, clustering is performed using the combined node v ′ as a starting point.

<Step S250>
The cluster extracted by the query base cluster extraction unit 40 according to the flowchart of FIG. 3 is stored in the query base cluster storage unit 50.

  Next, the process of calculating the trend topic from the query base cluster will be described using the flowchart of FIG.

<Step S410>
The feature quantity extraction unit 60 calculates the feature quantity of the text group received from the query base cluster storage unit 50. For the feature amount of each text d, after dividing the text into words by a morphological analyzer, a vector f _d representing the feature of the text is constructed based on the word information that appears for each text. As a specific calculation method, TF-IDF calculated by the following formula (1) can be considered.

Here, f _dw represents the value of the element of the word w in the feature vector f _d . TF (d, w) is the number of appearances of the word w in the text d. DF (w) represents the number of texts in which the word w appears in the cluster, and N represents the total number of texts in the cluster.

<Step S420>
The sub-cluster extraction unit 70 extracts clusters using the trend number k received from the input unit 10, the text feature amount received from the feature amount extraction unit 60, and text information, and collects similar texts. Then, the extracted cluster is stored in the sub-cluster storage unit 80 in association with the cluster ID, for example, as shown in FIG. As a clustering method, a k-means method for calculating a cluster C that minimizes an objective function E shown in the following equation (2) may be considered.

<Step S430>
For the cluster group received from the sub-cluster storage unit 80, the trend topic calculation unit 120 calculates a trend topic. A trend topic is composed of a set of words, and each word holds the degree of trend as a numerical value. The trend degree is calculated by the following equation (3), assuming that the more text having a characteristic word in a cluster, the more the word is a trend.

Here, T _{i, w} represents the trend degree of the word w in the cluster i. T _i, after calculating the _w, to sort the words in ascending order based on the T _{i, w} for each cluster, to create a word list.

<Step S440>
The trend topic word list calculated by the trend topic calculation unit 120 is transferred to the output unit 130. The output unit 130 outputs the upper word in the word list of each cluster as shown in FIG. 7, for example. Here, output is a concept including display on a display, printing on a printer, sound output, transmission to an external device, and the like. The output unit 120 can be implemented by output device driver software, or output device driver software and an output device.

  Further, as shown in the flowchart of FIG. 6, the text stream is processed in real time to detect the appearance of a new trend related to a specific query.

<Step S510>
The feature quantity extraction unit 60 calculates the text feature quantity of the text stream. The text stream processes one text at a time. The feature amount is calculated using the same means as in step S410 described above.

<Step S520>
The cluster similarity calculation unit 90 receives a cluster group from the sub-cluster storage unit 80 and receives the text feature amount and text information of the text stream from the feature amount extraction unit 60. Then, the similarity between the cluster group and the text feature amount is calculated. As a method of calculating the similarity s (i, d) between the text d and the cluster i, a method using the cosine similarity obtained by the following equation (4) is conceivable.

  Also, the texts in all sub-clusters, that is, the similarity s (d) with the query base cluster is obtained by the following equation (5).

<Step S530>
The cluster similarity calculation unit 90 stores the text having a high degree of association with the query and a low degree of association with the subcluster in the unrelated text storage unit 100. Specifically, the text d satisfying the following conditional expressions (6) and (7) is stored.

  Here, δ and μ are constants. If the similarity with each sub-cluster is less than the threshold (δ) and the similarity with the query-based cluster is greater than the threshold (μ), the text d is associated with the query, It is regarded as not associated with any sub-cluster, and is stored in the unrelated text storage unit 100.

<Step S540>
Based on the number M of texts in the unrelated text storage unit 100, the reclustering determination unit 110 determines whether or not to cluster the text group in the unrelated text storage unit 100. Specifically, clustering is performed using the threshold σ when the following conditional expression (8) is satisfied.

<Step S550>
When the sub-cluster extraction unit 70 receives the result of the re-clustering determination unit 110 and the conditional expression is satisfied, the text group in the unrelated text storage unit 100 is clustered. The clustering method uses the same means as in step S420 described above. After clustering, the trend topic calculation unit 120 calculates a trend topic by the same means as in steps S430 and S440 described above, and the output unit 130 outputs the result.

  As described above, according to the present embodiment, the text-related graph calculation unit 30 constructs a graph representing the relationship between the text groups, and the query-based cluster extraction unit 40 performs the above-described processing based on the query corresponding to the specific interest. Since the constructed graphs are clustered, texts that are close to the query can be put together.

  Further, since the sub-cluster extraction unit 70 further clusters the text group in the cluster extracted according to the specific interest by the query-based cluster extraction unit 40, the trend topic calculation unit 120 uses the clustering result. Trend topics close to the user's specific interest can be calculated.

  Further, the cluster similarity calculation unit 90 calculates the similarity between the cluster group calculated for the specific interest and the text stream, stores the similarity in the unrelated text storage unit 100 according to the similarity, and stores the stored text group. The reclustering determination unit 110 determines whether or not to perform reclustering, and the subclass extraction unit 80 is configured to recalculate clusters based on the determination result. For this reason, the trend topic calculation part 120 can calculate the newly appearing trend topic regarding a specific interest using the recalculated cluster.

  Further, a part or all of the functions of each means in the trend analysis apparatus of the present embodiment can be configured by a computer program, and the program can be executed using the computer to realize the present invention. Needless to say, the procedure in the trend analysis method can be configured by a computer program and the program can be executed by the computer. A program for realizing the function by the computer can be recorded by a computer-readable recording medium such as an FD. (Floppy (registered trademark) Disk), MO (Magneto-Optical disk), ROM (Read Only Memory), memory card, CD (Compact Disk) -ROM, DVD (Digital Versati) e Disk) -ROM, CD-R, CD-RW, HDD, and recorded in a removable disk, or stored, it is possible or distribute. It is also possible to provide the above program through a network such as the Internet or electronic mail.

  The present invention is not limited to the above-described embodiments, and various modifications and applications can be made within the scope of the claims.

DESCRIPTION OF SYMBOLS 10 ... Input part 20 ... Text stream memory | storage part 30 ... Text related graph calculation part 40 ... Query base cluster extraction part 50 ... Query base cluster memory | storage part 60 ... Feature-value extraction part 70 ... Sub cluster extraction part 80 ... Sub cluster memory | storage part 90 ... cluster similarity calculation unit 100 ... unrelated text storage unit 110 ... re-clustering determination unit 120 ... trend topic calculation unit 130 ... output unit

Claims (3)

A trend analyzer for analyzing trends in a text stream,
A text stream storage means for storing the text stream;
A text-related graph calculation means for constructing a text-related graph with each text stored in the text stream storage means as a node and a common word co-occurring in each text as an edge;
The query set specified by the user is used as an input, and a text cluster related to the query is extracted from the text related graph constructed by the text related graph calculation means, starting from a text node including the input query set. Query-based cluster extraction means for storing in the base cluster storage means;
Feature quantity extraction means for calculating the feature quantity of each text of the text group stored in the query-based cluster storage means and the feature quantity of each text of the captured text stream;
Clustering using the text feature quantity of the text group stored in the query base cluster storage means calculated by the feature quantity extraction means and the trend number input by the user to extract sub-clusters, and the feature quantity extraction A text having a high degree of association with the query and a low degree of association with the sub-cluster, which is obtained based on the similarity between the text feature amount of the text stream calculated by the means and the extracted sub-cluster, Sub-cluster extraction means for executing clustering using the text group determined to be clustered and the trend number input by the user, and storing the sub-clusters extracted by each clustering in the sub-cluster storage means When,
The text feature amount and text information of the text stream calculated by the feature amount extraction unit and the cluster group stored in the sub-cluster storage unit are input. The similarity between the text and each sub-cluster, the text, A cluster similarity calculation means for calculating a similarity of a sub-cluster, and storing a text having a high degree of association with the query and a low degree of association with the sub-cluster in an unrelated text storage means;
Re-clustering determination means for determining that re-clustering is performed when the number of texts stored in the unrelated text storage means is greater than a threshold;
A trend topic calculation unit that calculates a trend topic that is a set of words for each cluster group stored in the sub-cluster storage unit, and each word holds the degree of trend as a numerical value;
A trend analyzer characterized by comprising: A trend analysis method for analyzing trends in a text stream,
Text-related graph calculation means constructs a text-related graph with each text in the text stream storage means storing the text stream as a node and a text-related graph as an edge where a common word co-occurs in each text A graph calculation step;
A query-based cluster extraction unit receives a user-specified query set as input, and the text related to the query from the text related graph constructed by the text related graph calculation unit as a starting point of a text node including the input query set. A query-based cluster extraction step of extracting a cluster and storing it in a query-based cluster storage means;
A first feature amount extraction step in which a feature amount extraction unit calculates a feature amount of each text of the text group stored in the query-based cluster storage unit;
The sub-cluster extraction unit performs clustering using the text feature amount of the text group stored in the query-based cluster storage unit and the number of trends input by the user, which is calculated by the first feature amount extraction step. A first sub-cluster extraction step for extracting and storing in a sub-cluster storage means;
A second feature amount extraction step in which the feature amount extraction means calculates the feature amount of each text of the captured text stream;
The cluster similarity calculation means receives the text feature quantity and text information of the text stream calculated by the second feature quantity extraction step, and the cluster group stored in the sub-cluster storage means, and inputs the text and each sub A cluster similarity calculation step for calculating a cluster similarity, a text and a similarity of all sub-clusters, and storing a text having a high degree of association with the query and a low degree of association with the sub-cluster in an unrelated text storage means; ,
A re-clustering determination step for determining that re-clustering is performed when the number of texts stored in the non-related text storage unit is larger than a threshold;
When the sub-cluster extraction unit determines that re-clustering is performed in the re-clustering determination step, clustering is performed using the text group stored in the unrelated text storage unit and the trend number input by the user. A second sub-cluster extraction step of extracting the sub-cluster and storing it in the sub-cluster storage means;
A trend topic calculation step, a trend topic calculation step for calculating a trend topic that is a set of words for each cluster group stored in the sub-cluster storage unit, and each word holds the degree of trend as a numerical value;
A trend analysis method characterized by comprising:   A trend analysis program for causing a computer to function as each means according to claim 1.

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