JP4119057B2 - Search system, search device, and recording medium recording program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a search system and a search apparatus that search for data stored in a plurality of computers, for example.
[0002]
[Prior art]
In a conventional search system, when a search is performed on data stored in a plurality of server computers, the search is performed on all server computers storing data.
[0003]
Further, as disclosed in Japanese Patent Laid-Open No. 10-63670, search conditions are facilitated by setting conditions for server computers to be searched on the client computer side or by providing search means on the server computer side. .
[0004]
[Problems to be solved by the invention]
However, such a conventional search system has the following problems.
[0005]
That is, in a search system used conventionally, when searching for data stored in a plurality of server computers, the search is performed on all server computers that have accumulated data. For this reason, there is a problem that it takes a long search time. Further, there is a problem that every server computer is loaded with every search.
[0006]
Furthermore, the method disclosed in Japanese Patent Laid-Open No. 10-63670, which has been invented in order to improve such a problem, has a problem that a large amount of storage device and storage capacity are required.
[0007]
The present invention has been made in view of such circumstances, and from a search result performed in the past, a server computer in which documents including the keyword are stored is stored as a search history result, and thereafter the same keyword is stored. In the case of performing a search by referring to the search history result, the server computer in which the document including the keyword is stored is searched for the document including the keyword, thereby improving the search speed, It is an object of the present invention to provide a search system and a search apparatus that can reduce the load on a server computer.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the present invention takes the following measures.
[0009]
That is, the invention of claim 1 includes a plurality of pieces connected to each other via a network. server A search system configured by Provided on multiple servers, Document storage means for storing a plurality of document data, a search keyword searched in the past, and document data including the search keyword Server in which document data having a number greater than a predetermined threshold is stored in the document storage means And cumulatively memorize , Equipped with multiple servers Document data including search history storage means and a search keyword input via a network based on information stored in the search history storage means From the document storage means of the server in which the document data having a number greater than a predetermined threshold is stored, Search for document data containing search keywords , Equipped with multiple servers If the first search means and the input search keyword are not stored in the search history storage means, all Server document storage means Search for document data containing search keywords for , Equipped with multiple servers A second search means and a plurality of server Provided in at least one of the second search means, Used Of document data including search keywords Document data whose number is larger than a predetermined threshold is stored in the document storage means. Equipped with document storage means Extract the server, and select the extracted server and the search keyword. Search history update means for accumulating and storing in the search history storage means.
Further, the invention of claim 2 provides a plurality of pieces connected to each other via a network. server A search system configured by a plurality of Provided in the server, Document storage means for storing document data, search keyword searched in the past, and document storage means for storing document data including the search keyword Out of the server The degree weight sum that is the product of the predetermined weight related to the search keyword of the stored document data and the number of stored document data is a predetermined threshold value. Document data larger than Document storage means Accumulated server And cumulatively remember Provided on multiple servers Based on the search history storage means and the information stored in the search history storage means, the search keyword input via the network The associated degree weight sum is , Predetermined threshold Document data larger than Document storage means Server accumulated in From document storage means , Search for document data containing the search keyword , Equipped with multiple servers If the first search means and the input search keyword are not stored in the search history storage means, all Server Search for document data including the search keyword in the document storage means , Equipped with multiple servers A second search means and at least one of the plurality of servers, wherein the second search means Used Search keywords Include Document data is a document storage means The product of a predetermined weight related to the search keyword of the document data stored in the document storage means of the searched server and the number of stored document data The degree weight total is calculated, and a server in which document data whose calculated degree weight total is larger than a predetermined threshold is stored in the document storage means is extracted, and the extracted server, search keyword, Using, Search history storage means Update the contents of Search history update means.
[0010]
Accordingly, claim 1 And 2 In the search system of the present invention, a search keyword and a document including the search keyword are obtained from past search results. data Equipped with document storage means server And a document storage means for storing a document including the search keyword when a search request with the same search keyword is made thereafter. server Document data including the search keyword is searched for. In this way, the search target server By narrowing down, it is possible to improve the search speed and reduce the load on the server.
[0013]
Claim 3 The invention of claim 1 Or 2 In the search system described in server The synonym dictionary means for outputting the synonym of the input search keyword and the synonym of the search keyword output by the synonym dictionary means are stored as search keywords in the search history storage means. Document data including Server accumulated in Search for document data containing the relevant synonym for , Equipped with multiple servers And third search means.
[0014]
Therefore, the claims 3 In the search system of the present invention, not only the input search keyword but also a synonym of this search keyword is searched. As a result, it is possible to widely search document data related to the search keyword.
[0019]
Claim 4 The invention of the present invention comprises a search device configured to search for document data stored in any of a plurality of servers in response to a search request from a client. As a search request Accept search keywords from clients, When the history information of the search made using the search keyword is not stored in the search history storage means, Document data including search keywords All servers Search results and output the search results to the client. make use of, Document data containing the search keyword A server in which document data having a number greater than a predetermined threshold is stored is extracted, and the extracted server and the search keyword are recorded as history information. As Search history storage means Remember and search keywords The history information of the search made using the search history storage means Is stored in Using the history information stored in the search history storage means, document data in which the number of document data including the search keyword is larger than a predetermined threshold is accumulated. Search the document data including the search keyword from the server.
Claim 5 The invention is composed of a plurality of servers, and a plurality of servers according to a search request from a client. server In a search device for searching document data stored in any of the above, As a search request from the client Accept search keywords, History information of searches made using search keywords is stored in the search history storage means. If it is not remembered, Document data including search keywords All servers From Search The search result is output to the client, and the search result is used to store the document data of the server storing the document data including the search keyword. Total degree weight which is the product of a predetermined weight related to the search keyword and the number of accumulated document data Calculated and calculated Threshold value determined by the total degree weight Server that stores larger document data than the extracted server and the search keyword used to calculate the degree weight total As Search history storage means Remember History results of searches made using search keywords are stored in the search history storage means. If remembered, Using historical information, Greater than a predetermined threshold server Then, the document data including the search keyword is searched.
[0020]
Therefore, the claims 4 and 5 In the search device of the invention, the search keyword and the document including the search keyword as a search history result data Is accumulated server When a search request with the same search keyword is subsequently made, a document containing this search keyword data Is accumulated server The document data including this search keyword is searched for. In this way, the search target server By narrowing down the search speed, server Can be reduced.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0026]
(First embodiment)
A first embodiment of the present invention will be described with reference to FIGS.
[0027]
FIG. 1 is a schematic configuration diagram showing an example of the overall configuration of the search system according to the first embodiment of the present invention.
[0028]
The search system according to the present embodiment includes a plurality of computers such as workstations, and includes a server unit that stores and searches data, and a client unit that inputs search conditions and displays search results. . These server unit and client unit are connected to each other via a network.
[0029]
This network includes a LAN such as Ethernet, or a WAN to which a plurality of LANs are connected via a public line or a dedicated line. In the case of a LAN, it is composed of a number of subnets via routers as necessary. In the case of a WAN, a firewall or the like for connecting to a public line is provided as appropriate, but illustration and detailed description thereof are omitted here.
[0030]
That is, the search system according to this embodiment includes a client unit 10 and a server unit 20 on the network 1. Furthermore, the client unit 10 includes an input unit 11 and a display unit 12, and the server unit 20 includes a document storage unit 21, a search history storage unit 22, and a search unit 23.
[0031]
In FIG. 1, as an example, a system including three server units 20 (# 1, # 2, # 3) and two client units 10 (# 1, # 2) is illustrated. In addition, in this specification, when the # display after the numbering is omitted, it is assumed that it corresponds to all the server units or client units.
[0032]
The input unit 11 receives user input related to the server unit 20 to which the client unit 10 logs in, and logs in the client unit 10 to the server unit 20 instructed to input. Further, a search condition such as a keyword for searching is received from the user, and an execution request is issued to the search unit 23 of the logged-in server unit 20 to search using the search condition.
[0033]
The display unit 12 displays login information input by the user, search conditions, search results made by the search unit 23 of the server unit 20, and the like.
[0034]
The document storage unit 21 stores document data.
[0035]
The search history storage unit 22 stores search result history data output from the search unit 23 described later.
[0036]
The search unit 23 receives from the document storage unit 21 of the server unit 20 based on the search condition input by the user via the input unit 11 of the client unit 10 and the search result history data stored in the search history storage unit 22. The document data matching the search condition is searched, and the search result is returned to the requesting client unit 10. In addition, search result history data, which will be described later, is created from the search result and output to the search history storage unit 22.
[0037]
FIG. 2 is an example of a format of search result history data stored in the search history storage unit 22.
[0038]
In the search result history data, a bit flag for each server unit 20 is provided for each character string, and the flag of the server unit 20 including the document storage unit 21 that stores document data including the character string is set to 1. To do.
[0039]
For example, in FIG. 2, the server unit 20 that stores document data including the character string “invention” in the document storage unit 21 is the server unit 20 (# 1, # 2). The server unit 20 that stores document data including the character string “computer” in the document storage unit 21 is the server unit 20 (# 1, # 3).
[0040]
Such search result history data is created from the search results each time the search unit 23 performs a search, and the search history storage unit 22 stores the search result history data.
[0041]
As a result, the relationship between the keyword searched in the past and the server unit 20 storing the data including the keyword in the document storage unit 21 can be understood.
[0042]
The document storage means in the claims is stored in the document storage section 21, the search history storage means in the claims is stored in the search history storage section 22, and the first search means, second search means, and The search history update means corresponds to the search unit 23.
[0043]
Next, the operation of the search system according to this embodiment configured as described above will be described.
[0044]
FIG. 3 is a flowchart showing the operation of the search system according to the present embodiment.
[0045]
First, the user connects the client unit 10 used by the user to the server unit 20 (S1). The user can arbitrarily select the server unit 20 to which the client unit 10 is connected, and the client unit 10 is connected to the selected server unit 20 by performing selection input of the server unit 20 from the input unit 11. The Here, it is assumed that the user is using the client unit 10 (# 1) and further connected from the client unit 10 (# 1) to the server unit 20 (# 2).
[0046]
Next, the user inputs a search condition such as a keyword from the input unit 11 (# 1) (S2). Here, as an example, it is assumed that “invention” is input as a keyword from the input unit 11 (# 1). The input keyword “invention” is input as a search condition to the search unit 23 (# 2) of the server unit 20 (# 2) to which the client unit 10 (# 1) is connected.
[0047]
The search unit 23 (# 2) refers to whether or not the character string “invention” is registered in the search result history data of the search history storage unit 22 (# 2) (S3).
[0048]
When the character string “invention” is not registered in the search result history data (S3: No), the document storage units 21 (# 1, # 2) of all the server units 20 (# 1, # 2, # 3) , # 3) is searched for document data including the character string “invention” (S4).
[0049]
Since no data is stored in the search result history data of the search history storage unit 22 (# 2) at the time of the first search, all the server units 20 (# 1, # 2, # 3) that hold the document storage unit 21 are stored. ) Is searched for document data.
[0050]
When document data including the character string “invention” is retrieved by the retrieval unit 23 (# 2), the retrieval result is returned to the client unit 10 (# 1), which corresponds to the display unit 12 (# 1). A list of server units 20 and file names is displayed (S6). When the user clicks a desired file name from the list displayed, the file is displayed on the display unit 12 (# 1).
[0051]
Next, the search result history data is updated or newly created by the search unit 23 (# 2) and stored in the search history storage unit 22 (# 2) (S7). As a result of this search, it is assumed that the document storage unit 21 (# 1, # 2) of the server unit 20 (# 1) and the server unit 20 (# 2) stores document data including the character string “invention”. As shown in FIG. 2, the flag of the server part number # 1, # 2 and the flag of the server part number # 3 are written as 1 for the character string “invention” in the search result history data, respectively. The search result history data is updated or newly created in this way, and is written in the search history storage unit 22 (# 2).
[0052]
In this case, the search result history data stored in the search history storage unit 22 (# 1, # 3) of the server unit 20 (# 1, # 3) to which the client unit 10 (# 1) is not directly connected. Will not be updated.
[0053]
If the search is continued (S8: No), the process returns to S2, and if not (S8: Yes), the search is terminated.
[0054]
When the keyword is registered in the search result history data (S3: Yes), the search unit 23 (# 2) refers to the search result history data stored in the search history storage unit 22 (# 2). Thus, the document data including the keyword is searched for only the document storage unit 21 of the server unit 20 whose flag of the character string is 1 (S5).
[0055]
The subsequent operations are as described in S6 to S8. For example, when the character string “invention” is stored only in the server unit 20 (# 1, # 2) as shown in FIG. 2, it is only for the document storage unit 21 (# 1, # 2). The document data including “invention” is searched.
[0056]
As described above, in the search system according to the present embodiment, the number of the server unit that stores the document data including the character string as the keyword in the document storage unit 21 is searched from the search results performed in the past. It is recorded as result history data, and based on this, document data including keywords is searched for the minimum required server unit 20.
[0057]
That is, it is possible to realize a search system that reduces the load on the server unit 20 and shortens the search time.
[0058]
In the present embodiment, as a method of using the search result history, as shown in FIG. 2, the search result history data in which the flag of the number of the server unit that holds the document data including the keyword is set to 1 has been described. Instead of the flag, only the server unit 20 in which the number of sentences including the keyword is larger than a predetermined threshold value may be searched. In this case, this threshold value is input by the user as one of the search conditions in S2 of FIG.
[0059]
As a result, it becomes possible to further narrow down the server units 20 to be searched, so that it is possible to realize a search system that further reduces the load on the server unit 20 and further shortens the search time.
[0060]
(Second Embodiment)
A second embodiment of the present invention will be described with reference to FIG.
[0061]
FIG. 4 is a schematic configuration diagram showing an example of the overall configuration of the search system according to the second embodiment of the present invention. The same parts as those in FIG. Only the different parts will be described.
[0062]
The search system according to the present embodiment has the same configuration as that of the search system shown in FIG. 1 except that a search history synchronization unit 24 is added to each server unit 20.
[0063]
Also, in FIG. 4, as an example, a system including three server units 20 (# 1, # 2, # 3) and two client units 10 (# 1, # 2) is illustrated.
[0064]
When the search result history data in the search history storage unit 22 in its own server unit 20 is updated, the search history synchronization unit 24 reflects the updated content in the search history storage unit 22 of the other server unit 20.
[0065]
Note that the search history synchronization means in the claims corresponds to the search history synchronization unit 24 in the present embodiment.
[0066]
Next, the operation of the search system according to the present embodiment configured as described above will be described using the flowchart of FIG. 3 as in the first embodiment.
[0067]
Here, as in the first embodiment, it is assumed that the user uses the client unit 10 (# 1) and is connected to the server unit 20 (# 2) from the client unit 10 (# 1). To do. Further, similarly for the search condition, document data including the keyword “invention” is searched.
[0068]
First, the user connects the client unit 10 (# 1) used by the user to the server unit 20 (# 2) (S1), and then uses the keyword “as a search condition from the input unit 11 (# 1). "Invention" is input (S2).
[0069]
The description of the operations of S3 (No), S4, and S6 is the same as that described in the first embodiment, and will be omitted.
[0070]
In S7, the search result history data is updated or newly created in the search unit 23 (# 2) based on the search result and stored in the search history storage unit 22 (# 2).
[0071]
As a result of this search, if a document including the character string “invention” is stored in the document storage unit 21 (# 1, # 2) of the server unit 20 (# 1) and the server unit 20 (# 2), As shown in FIG. 2, the flag of server part number # 1 and # 2 and the flag of server part number # 3 are written as 0 for the character string “invention” in the search result history data, respectively. The search result history data is updated or newly created as described above, and is written in the search history storage unit 22 (# 2).
[0072]
Further, when the updated or newly created search result history data is written into the search history storage unit 22 (# 2), the search history synchronization unit 24 (# 2) of the server unit 20 (# 2) is executed, and the others Search result history data similar to that written in the search history storage unit 22 (# 2) is copied to the search history storage units 22 (# 1, # 3) of all the server units 20 (# 1, # 3). Is done.
[0073]
If the search is continued (S8: No), the process returns to S2. If not (S8: Yes), the search is terminated.
[0074]
When the keyword is registered in the search result history data (S3: Yes), the search unit 23 (# 2) refers to the search result history data stored in the search history storage unit 22 (# 2). Thus, the document data including the keyword is searched only for the document storage unit 21 (# 1, # 2) of the server unit 20 (# 1, # 2) whose flag “invention” is 1. (S5).
[0075]
The subsequent operations are as described in S6 to S8.
[0076]
Also, once the search operation is finished (S8: Yes), this time, in S1, the client unit 10 (# 1) connects to the server unit 20 (# 3) different from the previous time (S1), and the keyword “invention” is entered. When searching (S2), search result history data shown in FIG. 2 is stored in the search history storage unit 22 (# 3) of the server unit 20 (# 3) (S3: Yes).
[0077]
Therefore, when the search unit 23 (# 3) of the server unit 20 (# 3) refers to the search history storage unit 22 (# 3), the server unit 20 (#) whose flag “invention” is “1” is stored. The document data including the character string “invention” is searched for only the document storage unit 21 (# 1, # 2) of # 1, # 2) (S5).
[0078]
As described above, in the search system according to the present embodiment, the number of the server unit that stores the document data including the character string as the keyword in the document storage unit 21 is searched from the search results performed in the past. Recorded as result history data, based on this, the document data including the keyword is searched for the minimum necessary server unit 20.
[0079]
That is, it is possible to realize a search system that reduces the load on the server unit 20 and shortens the search time.
[0080]
This search result history data is updated from which client unit 10 to which server unit 20 by the user because the search history storage unit 22 of all the server units 20 is updated to the latest data by the search history synchronization unit 24. The above effects can be obtained regardless of the connection.
[0081]
(Third embodiment)
A third embodiment of the present invention will be described with reference to FIG.
[0082]
FIG. 5 is a schematic configuration diagram illustrating an example of the overall configuration of the search system according to the present embodiment. The same parts as those in FIG. 4 are denoted by the same reference numerals, and the description thereof is omitted. Only different parts are described here. State.
[0083]
The search system according to the present embodiment includes a management server unit 30 on the same network 1, and includes a search history storage unit 22 in the management server unit 30, and each server unit 20 (# 1, # 2, # 3). ) Are omitted from the search history storage unit 22 (# 1, # 2, # 3) and the search history synchronization unit 24 (# 1, # 2, # 3). The other configuration is the same as that of the search system shown in FIG.
[0084]
Also, in FIG. 5, as an example, the server unit 20 and the client unit 10 have three server units 20 (# 1, # 2, # 3) and two client units (# 1, # 2), respectively. The system is shown.
[0085]
Note that the search device in the claims corresponds to the management server unit 30 in the present embodiment.
[0086]
Next, the operation of the search system according to the present embodiment configured as described above will be described using the flowchart of FIG. 3 as in the second embodiment.
[0087]
It is assumed here that the user is using the client unit 10 (# 1) and connected from the client unit 10 (# 1) to the server unit 20 (# 2), as in the second embodiment. To do. Further, similarly for the search condition, document data including the keyword “invention” is searched.
[0088]
First, the user connects the client unit 10 (# 1) used by the user to the server unit 20 (# 2) (S1), and then selects a keyword as a search condition from the input unit 11 (# 1). Input (S2).
[0089]
The description of the operations of S3 (No), S4, and S6 is the same as that described in the first embodiment, and will be omitted.
[0090]
In S <b> 7, the search result history data is updated or newly created in the search unit 23 (# 2) based on the search result, and is written in the search history storage unit 22 of the management server unit 30. An example of the data format of the search result history data is as shown in FIG.
[0091]
If the search is continued (S8: No), the process returns to S2. If not (S8: Yes), the search is terminated.
[0092]
When the keyword is registered in the search result history data (S3: Yes), the search unit 23 (# 2) refers to the search result history data stored in the search history storage unit 22 of the management server unit 30. As a result, the document data including the keyword can be searched only for the document storage unit 21 (# 1, # 2) of the server unit 20 (# 1, # 2) whose flag “invention” is 1. (S5).
[0093]
The subsequent operations are as described in S6 to S8.
[0094]
Also, once the search operation is finished (S8: Yes), this time in S1, the client unit 10 (# 1) connects to the server unit 20 (# 3) different from the previous time (S1), and the keyword “invention” is entered. When searching for included document data (S2), all search units 23 refer to the search history storage unit 22 of the management server unit 30 (S3).
[0095]
As a result, the document storage unit 21 (# 1, # 2) in which document data including the character string “invention” is stored is recognized, and only the document storage unit 21 (# 1, # 2) is searched. (S5).
[0096]
As described above, in the search system according to the present embodiment, the number of the server unit that stores the document data including the character string as the keyword in the document storage unit 21 is searched from the search results performed in the past. Recorded as result history data, based on this, the document data including the keyword is searched for the minimum necessary server unit 20.
[0097]
That is, it is possible to realize a search system that reduces the load on the server unit 20 and shortens the search time.
[0098]
In this manner, the search result history data is collectively managed by the management server unit 30 provided on the same network 1, thereby omitting the search history storage unit 22 and the search history synchronization unit 24 from each server unit 20. Is possible.
[0099]
In addition, since the search result history data in the latest state is always managed in the search history storage unit 22 of the management server unit 30, the above effect can be obtained regardless of which client unit 10 is connected to which server unit 20. It is done.
[0100]
In addition, the method described in the present embodiment is a program (software means) that can be executed by a computer (computer), for example, a magnetic disk (floppy disk, hard disk, etc.), an optical disk (CD-ROM, DVD). Etc.), can be stored in a recording medium such as a semiconductor memory, or can be transmitted and distributed by a communication medium. The program stored on the medium side includes a setting program for configuring software means (including not only the execution program but also a table and data structure) to be executed in the computer.
[0101]
A computer that implements this system reads a program recorded on a recording medium, constructs software means by a setting program in some cases, and executes the processing described above by controlling the operation by this software means.
[0102]
(Fourth embodiment)
A fourth embodiment of the present invention will be described with reference to FIG.
[0103]
The configuration of the search system according to the present embodiment is the same as the overall configuration diagram shown in FIG. 1, and only the format of search result history data stored in the search history storage unit 22 is different.
[0104]
Therefore, description of the configuration is omitted here, and only search result history data is described.
[0105]
FIG. 6 is an example of a format of search result history data stored in the search history storage unit 22 of the search system according to the present embodiment.
[0106]
That is, the search result history data stored in the search history storage unit 22 of the search system according to the present embodiment is provided with a two-dimensional flag for each character string.
[0107]
The flag A, which is the upper flag shown in FIG. 6, is a flag indicating whether or not document data including the character string is accumulated in the document accumulation unit 21 of the server unit 20 for each server unit 20. This is the same as the flag in FIG.
[0108]
For example, the flag A is set to 1 for the server unit 20 (# 1, # 2, # 3) that stores document data including the character string “invention” in the document storage unit 21. In other cases, the flag A is set to 0.
[0109]
On the other hand, a flag B, which is a lower flag shown in FIG. 6, is a flag indicating whether or not document data containing a large number of character strings is stored in the document storage unit 21 of the server unit 20.
[0110]
For example, with respect to the document data including the character string, the server unit 20 that acquires the number (score) including the character string and stores any of the top 50 document data with high scores in the document storage unit 21. The flag B is set to 1. For the other server units 20, the flag B is set to 0.
[0111]
The flag B being 1 is based on the premise that the document including the character string is stored in the document storage unit 21, and therefore the flag A of the character string with the flag B being 1 is always 1.
[0112]
Next, the operation of the search system according to the present embodiment configured as described above will be described using the flowchart of FIG. 3 as in the third embodiment.
[0113]
Here, as in the third embodiment, it is assumed that the user uses the client unit 10 (# 1) and is connected to the server unit 20 (# 2) from the client unit 10 (# 1). To do.
[0114]
First, the user connects the client unit 10 (# 1) used by the user to the server unit 20 (# 2) (S1), and then selects a keyword as a search condition from the input unit 11 (# 1). The score condition is input (S2). Here, it is assumed that the keyword to be searched is “invention” and the score condition is “50”.
[0115]
As a result, the server unit 20 in which any of the top 50 documents with the highest scores is stored in the document storage unit 21 becomes a search target.
[0116]
Since no data is stored in the search result history data of the search history storage unit 22 (# 2) at the time of the first search (S3: No), only the keyword is used as a parameter regardless of the input score value. Document data including the character string “invention” is searched for all the server units 20 (# 1, # 2, # 3) holding the document storage unit 21 (S4).
[0117]
When the search unit 23 (# 2) searches the document data including the character string “invention”, the document data including the character string “invention” and the server unit 20 that stores the document data in the document storage unit 21. And are extracted.
[0118]
Further, the score, which is the number of keywords included in each document data, is counted, and the top 50 document data with the highest count and the server unit 20 storing these document data in the document storage unit 21 are extracted. The
[0119]
The character string “invention” is searched again for the server unit 20 extracted in this way, the search result is returned to the client unit 10 (# 1), and the display unit 12 (# 1) A list of server units 20 and file names to be displayed is displayed (S6). When the user clicks a desired file name from the list displayed, the file is displayed on the display unit 12 (# 1).
[0120]
In S7, the search result history data is updated or newly created in the search unit 23 (# 2) based on the search result, and is written in the search history storage unit 22 (# 2) of its own server unit 20 (# 2). It is.
[0121]
As a result of the search performed in S4, the document storage units 21 (# 1, # 2, # 3) of all the server units 20 (# 1, # 2, # 3) store the document data including the character string “invention”. In addition, the server unit 20 that accumulates the top 50 document data having a high score, which is the number of character strings included in each document data, in the document storage unit 21 is the server unit 20 (# 1, # 2). ), Search result history data as shown in FIG. 6 is stored in the search history storage unit 22 (# 2).
[0122]
When the keyword is registered in the search result history data (S3: Yes), the search unit 23 (# 2) refers to the search result history data stored in the search history storage unit 22 (# 2). Thus, the document data including the keyword is searched only for the document storage unit 21 of the server unit 20 whose flag B of the character string is 1 (S5).
[0123]
The subsequent operations are as described in S6 to S8.
[0124]
As described above, in the search system according to the present embodiment, from the search results performed in the past, out of the numbers of the server units that store the document data including the character string as the keyword in the document storage unit 21. The document data including the keyword is searched only for the server unit 20 that stores the document data having a large number of keywords in the document storage unit 21.
[0125]
As a result, it becomes possible to further narrow down the server units 20 to be searched, so that it is possible to realize a search system that further reduces the load on the server unit 20 and further shortens the search time.
[0126]
Further, the present embodiment can also be applied to a search system having the configuration shown in FIG. 4 or FIG.
[0127]
When this embodiment is applied to the search system having the configuration shown in FIG. 4, the search history storage unit 22 updates the search history storage unit 22 of all the server units 20 to the latest data. Therefore, the above effect can be obtained regardless of which client unit 10 is connected to which server unit 20 by the user.
[0128]
When the present embodiment is applied to the search system having the configuration shown in FIG. 5, search result history data is collectively managed by the management server unit 30 provided on the same network 1, thereby searching from each server unit 20. The history storage unit 22 and the search history synchronization unit 24 can be omitted.
[0129]
In addition, since the latest search result history data is constantly updated in the search history storage unit 22 of the management server unit 30, the above effect can be obtained regardless of which client unit 10 is connected to which server unit 20. It is done.
[0130]
(Fifth embodiment)
A fourth embodiment of the present invention will be described with reference to FIG.
[0131]
The configuration of the search system according to the present embodiment is the same as the overall configuration diagram shown in FIG. 1, and only the format of search result history data stored in the search history storage unit 22 is different.
[0132]
Therefore, description of the configuration is omitted here, and only search result history data is described.
[0133]
FIG. 7 is an example of a format of search result history data stored in the search history storage unit 22 of the search system according to the present embodiment.
[0134]
That is, the search result history data stored in the search history storage unit 22 of the search system according to the present embodiment is provided with a two-dimensional flag for each character string.
[0135]
The flag A, which is the upper flag illustrated in FIG. 7, is a flag indicating whether or not document data including the character string is stored in the document storage unit 21 of the server unit 20 for each server unit 20. This is the same as the flag A shown in the upper part of FIG.
[0136]
On the other hand, a flag C, which is a lower flag shown in FIG. 7, is a flag indicating whether or not the “degree weight sum” of the server unit 20 exceeds a predetermined threshold value.
[0137]
The “degree weight sum” is defined by the following equation (1).
[0138]
“Degree weight total” = “weight of one document” × “number of documents” (1)
Here, the “weight of one document” is a weight given according to the importance of document data, and is set by a user defining a certain rule. The “degree weight total” is a product of such “weight of one document” and “number of documents”, and the document storage section 21 of the server section 20 having a large “degree weight total” It shows that highly important information is accumulated for the selected keywords.
[0139]
The flag C is 1 when such “degree weight sum” exceeds a predetermined threshold, and the flag C is 0 when the threshold is not exceeded.
[0140]
The fact that the flag C is 1 is based on the premise that the document storage unit 21 has stored a document including the character string. Therefore, the flag A of the character string for which the flag C is 1 is always 1.
[0141]
Next, the operation of the search system according to the present embodiment configured as described above will be described using the flowchart of FIG. 3 as in the fourth embodiment.
[0142]
Here, as in the fourth embodiment, it is assumed that the user is using the client unit 10 (# 1) and connected from the client unit 10 (# 1) to the server unit 20 (# 2). To do.
[0143]
First, the user connects the client unit 10 (# 1) used by the user to the server unit 20 (# 2) (S1), and then selects a keyword as a search condition from the input unit 11 (# 1). , And a threshold value of “degree weight total” is input (S2). Here, it is assumed that the keyword to be searched is “invention” and the threshold of the degree weight total is “50”.
[0144]
As a result, the server unit 20 having a degree weight sum exceeding 50 becomes a search target.
[0145]
Since no data is stored in the search result history data of the search history storage unit 22 (# 2) at the time of the first search (S3: No), the threshold value of the input degree weight total with only the keyword as a parameter Regardless of whether the document data including the character string “invention” is searched for all the server units 20 (# 1, # 2, # 3) holding the document storage unit 21 (S4).
[0146]
When the search unit 23 (# 2) searches the document data including the character string “invention”, the document data including the character string “invention” and the server unit 20 that stores the document data in the document storage unit 21. And are extracted.
[0147]
Furthermore, the degree weight sum is calculated for each server part 20 (# 1, # 2, # 3), and the server part 20 whose degree weight sum exceeds the threshold value of 50 is extracted.
[0148]
The character string “invention” is searched again for the server unit 20 extracted in this way, the search result is returned to the client unit 10 (# 1), and the display unit 12 (# 1) A list of server units 20 and file names to be displayed is displayed (S6). When the user clicks a desired file name from the list displayed, the file is displayed on the display unit 12 (# 1).
[0149]
In S7, the search result history data is updated or newly created in the search unit 23 (# 2) based on the search result, and is written in the search history storage unit 22 (# 2) of its own server unit 20 (# 2). It is.
[0150]
As a result of the search performed in S4, the document storage units 21 (# 1, # 2, # 3) of all the server units 20 (# 1, # 2, # 3) store the document data including the character string “invention”. Further, when the server unit 20 whose degree weight sum exceeds the threshold value is the server unit 20 (# 1, # 2), the search history storage unit 22 (# 2) is shown in FIG. Such search result history data is stored.
[0151]
When the keyword is registered in the search result history data (S3: Yes), the search unit 23 (# 2) refers to the search result history data stored in the search history storage unit 22 (# 2). Thus, the document data including the keyword is searched for only the document storage unit 21 of the server unit 20 whose flag C of the character string is 1 (S5).
[0152]
The subsequent operations are as described in S6 to S8.
[0153]
As described above, in the search system according to the present embodiment, the degree of the server units that store the document data including the character string as the keyword in the document storage unit 21 based on the search results performed in the past. Document data including a keyword is searched for only the server unit 20 including the document storage unit 21 whose total weight exceeds a predetermined threshold value.
[0154]
As a result, the server unit 20 to be searched can be narrowed down to the server unit 20 including the document storage unit 21 in which information deeply related to the keyword is stored, so that the load on the server unit 20 can be further reduced. Therefore, it is possible to realize a search system that further shortens the search time.
[0155]
Further, the present embodiment can also be applied to a search system having the configuration shown in FIG. 4 or FIG.
[0156]
When this embodiment is applied to the search system having the configuration shown in FIG. 4, the search history storage unit 22 updates the search history storage unit 22 of all the server units 20 to the latest data. Therefore, the above effect can be obtained regardless of which client unit 10 is connected to which server unit 20 by the user.
[0157]
When the present embodiment is applied to the search system having the configuration shown in FIG. 5, search result history data is collectively managed by the management server unit 30 provided on the same network 1, thereby searching from each server unit 20. The history storage unit 22 and the search history synchronization unit 24 can be omitted.
[0158]
In addition, since the latest search result history data is constantly updated in the search history storage unit 22 of the management server unit 30, the above effect can be obtained regardless of which client unit 10 is connected to which server unit 20. It is done.
[0159]
(Sixth embodiment)
A sixth embodiment of the present invention will be described with reference to FIGS.
[0160]
FIG. 8 is a schematic configuration diagram showing an example of the overall configuration of the search system according to the present embodiment. The same parts as those in FIG. 1 are denoted by the same reference numerals and description thereof is omitted, and only different parts are described here. State.
[0161]
As shown in FIG. 8, the search system according to the present embodiment has the same configuration as the search system shown in FIG. 1 except that a synonym dictionary unit 26 is added to each server unit 20.
[0162]
Also, in FIG. 8, as an example, a system including three server units 20 (# 1, # 2, # 3) and two client units 10 (# 1, # 2) is illustrated.
[0163]
The synonym dictionary unit 26 extracts synonyms of keywords input from the user via the client unit 10 and outputs them to the search unit 23.
[0164]
The search unit 23 searches not only the keyword input by the user but also the synonym output from the synonym dictionary unit 26.
[0165]
With respect to the server unit 20 to be searched, a method for searching all server units 20 including a character string to be searched as shown in FIG. 2 or under certain conditions as shown in FIGS. 6 and 7 Any of the methods of narrowing down and searching the server unit 20 in advance may be used.
[0166]
The synonym dictionary means and the third search means in the claims correspond to the synonym dictionary part 26 and the search part 23, respectively, in the present embodiment.
[0167]
Next, the operation of the search system according to this embodiment configured as described above will be described using the flowchart of FIG. 3 as in the case of the fifth embodiment.
[0168]
It is assumed here that the user is using the client unit 10 (# 1) and connected from the client unit 10 (# 1) to the server unit 20 (# 2), as in the fifth embodiment. To do.
[0169]
First, the user connects the client unit 10 (# 1) used by the user to the server unit 20 (# 2) (S1), and then inputs the search condition from the input unit 11 (# 1). . (S2). Here, it is assumed that the keyword to be searched is “PC”.
[0170]
Next, the keyword “PC” input from the input unit 11 (# 1) is input to the synonym dictionary unit 26 (# 2), and the synonym dictionary unit 26 (# 2) selects synonyms related to the keyword “PC”. Extracted and output to the search unit 23 (# 2). Here, it is assumed that “computer” is output as a synonym of “personal computer”.
[0171]
The search unit 23 (# 2) searches for document data including the character string “computer” or the character string “computer”.
[0172]
Since no data is stored in the search result history data of the search history storage unit 22 (# 2) at the first search (S3: No), all the server units 20 (# 1,. The document data is searched for # 2, # 3) (S4).
[0173]
When the search unit 23 (# 2) searches for document data including the character string “computer” or its synonym character string “computer”, the document data including the character string and the document data are stored in the document. The server unit 20 held in the unit 21 is extracted.
[0174]
The document data including the character string “PC” or “COMPUTER” is searched again for the server unit 20 thus extracted, and the search result is returned to the client unit 10 (# 1). 12 (# 1) displays a list of corresponding server units 20 and file names (S6). When the user clicks a desired file name from the list displayed, the file is displayed on the display unit 12 (# 1).
[0175]
In S7, the search result history data is updated or newly created in the search unit 23 (# 2) based on the search result, and stored in the search history storage unit 22 (# 2) of its own server unit 20 (# 2). Is done.
[0176]
FIG. 9 shows an example of the format of search result history data stored in the search history storage unit of the search system according to the present embodiment.
[0177]
As a result of the search performed in S4, the document storage unit 21 (# 1, # 2) of the server unit 20 (# 1, # 2) stores document data including the character string “PC”, while the server unit When the document storage unit 21 (# 2, # 3) of 20 (# 2, # 3) stores a document including the character string “computer”, the search history storage unit 22 (# 2) stores FIG. Search result history data as shown in FIG.
[0178]
When the keyword is registered in the search result history data (S3: Yes), the search unit 23 (# 2) refers to the search result history data stored in the search history storage unit 22 (# 2). Thus, the document storage unit 21 (# 1, # 2, # 3) of the server unit 20 (# 1, # 2, # 3) whose flag “PC” or “computer” is 1 is targeted. The document data including them is searched (S5).
[0179]
The subsequent operations are as described in S6 to S8.
[0180]
As described above, in the search system according to the present embodiment, the server unit 20 stores document data including a character string or a synonym as a keyword from a search result performed in the past in the document storage unit 21. The document data including the keyword or its synonym is searched for.
[0181]
As described above, since not only a keyword but also a synonym of the keyword is set as a search target, it becomes possible to realize a search system that further improves the searchability of related document data.
[0182]
Further, the present embodiment can also be applied to a search system having the configuration shown in FIG. 4 or FIG.
[0183]
When this embodiment is applied to the search system having the configuration shown in FIG. 4, the search history storage unit 22 updates the search history storage unit 22 of all the server units 20 to the latest data. Therefore, the above effect can be obtained regardless of which client unit 10 is connected to which server unit 20 by the user.
[0184]
When the present embodiment is applied to the search system having the configuration shown in FIG. 5, search result history data is collectively managed by the management server unit 30 provided on the same network 1, thereby searching from each server unit 20. The history storage unit 22 and the search history synchronization unit 24 can be omitted.
[0185]
In addition, since the latest search result history data is constantly updated in the search history storage unit 22 of the management server unit 30, the above effect can be obtained regardless of which client unit 10 is connected to which server unit 20. It is done.
[0186]
【The invention's effect】
As described above, according to the search system of the present invention, the server computer in which the document including the keyword is stored is stored as the search history result from the search results performed in the past. In the case of searching, the search history result is referred to and a document including the keyword is searched for the server computer in which the document including the keyword is stored.
[0187]
As described above, it is possible to narrow down the server computers to be searched in advance, thereby realizing a search system and a search device capable of improving the search speed and reducing the load on the server computer.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an example of an overall configuration of a search system according to a first embodiment.
FIG. 2 is a data format showing an example of search result history data stored in a search history storage unit of the search system according to the first embodiment.
FIG. 3 is a flowchart showing the operation of the search system according to the first embodiment.
FIG. 4 is a schematic configuration diagram showing an example of an overall configuration of a search system according to a second embodiment.
FIG. 5 is a schematic configuration diagram showing an example of an overall configuration of a search system according to a third embodiment.
FIG. 6 is a data format showing an example of search result history data stored in a search history storage unit of the search system according to the fourth embodiment.
FIG. 7 is a data format showing an example of search result history data stored in a search history storage unit of a search system according to a fifth embodiment.
FIG. 8 is a schematic configuration diagram showing an example of an overall configuration of a search system according to a sixth embodiment.
FIG. 9 is a data format showing an example of search result history data stored in a search history storage unit of a search system according to a sixth embodiment.
[Explanation of symbols]
1 ... Network,
10 ... Client part,
11 ... Input section,
12 ... display part,
20 ... server part,
21 ... Document storage unit,
22 ... Search history storage unit,
23 ... Search section
24 ... Search history synchronization unit,
26 ... Synonym dictionary part,
30: Management server part.

Claims (5)

A search system composed of a plurality of servers connected to each other via a network,
Document storage means for storing a plurality of document data provided in the plurality of servers ;
The plurality of servers for accumulatively storing a search keyword searched in the past and a server in which document data in which the number of document data including the search keyword is larger than a predetermined threshold is stored in the document storage means Search history storage means provided in the
Based on the search-history storage means to the stored information, the number of document data including a search keyword that is input via the network, a predetermined server document of large document data is accumulated than the threshold First search means provided in the plurality of servers for searching document data including the search keyword from storage means ;
If the input search keyword is not stored in the search-history storage unit, searches the document data including the search keyword targeting said document storage means of all the servers, the provided in said plurality of servers Two search means;
Provided on at least one of said plurality of servers, the number of document data including the search keywords used in the second search means, the predetermined large document data document storage unit than the threshold value extract the server with the stored document storage means, wherein the extracted server, characterized by comprising a search history updating means for accumulating stored and the search keyword in the search-history storage means and retrieval system . A search system composed of a plurality of servers connected to each other via a network,
Document storage means provided in the plurality of servers for storing document data;
Predetermined weights relating to the relationship between the search keyword searched in the past and the search keyword of the stored document data among the servers having the document storage means in which the document data including the search keyword is stored In the plurality of servers , cumulatively storing a server in which document data having a degree weight sum that is a product of the number of stored document data is larger than a predetermined threshold is stored in the document storage unit. Provided search history storage means;
Based on the information stored in the search history storage unit, document data in which the degree weight sum related to the search keyword input via the network is larger than the predetermined threshold is stored in the document storage unit . from the document storage means stored server searches the document data including the search keyword, the first retrieval means provided in said plurality of servers,
When the input search keyword is not stored in the search history storage unit, the plurality of servers provided in the plurality of servers search the document data including the search keyword for the document storage unit of all servers . Two search means;
A server that is provided in at least one of the plurality of servers and that stores document data including the search keyword used in the second search unit is stored in the document storage unit, and the document of the searched server A degree weight sum that is a product of a predetermined weight related to the relevance with the search keyword of the document data stored in the storage means and the number of the stored document data is calculated, and the calculated A server in which document data whose degree weight sum is larger than the predetermined threshold is stored in the document storage means is extracted, and the search history storage means is extracted using the extracted server and the search keyword. retrieval system characterized by comprising a search history updating means for updating the contents of the. The search system according to claim 1 or 2 ,
A synonym dictionary means provided in the plurality of servers and outputting a synonym of the input search keyword;
When the synonym of the search keyword output by the synonym dictionary means is stored as a search keyword in the search history storage means, the server stores the document data including the search keyword in the document storage means. A search system comprising: third search means provided in the plurality of servers for searching for document data including synonyms. In a search device comprising a plurality of servers and searching for document data stored in any of the plurality of servers in response to a search request from a client,
Receiving a search keyword from the client as the search request ;
Together with the when the search keyword is searched history information which has been made using not stored in the search-history storage unit, it searches the document data including the search keyword from all servers, and outputs the search result to the client Then, using the search result, a server storing document data in which the number of document data including the search keyword is larger than a predetermined threshold is extracted, and the extracted server and the search keyword are Storing it as the history information in the search history storage means ;
When history information of a search performed using the search keyword is stored in the search history storage means, document data including the search keyword is used using the history information stored in the search history storage means. A search apparatus for searching for document data including the search keyword from a server storing document data having a number greater than a predetermined threshold . In a search device comprising a plurality of servers and searching for document data stored in any of the plurality of servers in response to a search request from a client,
Receiving a search keyword from the client as the search request ;
When the history information of the search made using the search keyword is not stored in the search history storage means, the document data including the search keyword is searched from all servers , and the search result is output to the client. The product of a predetermined weight related to the relevance of the document data to the search keyword and the number of the stored document data among the servers in which the document data including the search keyword is stored using the search result. A degree weight total is calculated, and a server in which document data having the calculated degree weight total greater than the predetermined threshold is accumulated is extracted, and the extracted server and the degree weight total The search keyword used for calculation is stored in the search history storage means as the history information ,
When a history result of a search performed using the search keyword is stored in the search history storage unit, the search keyword is retrieved from a server larger than the predetermined threshold value using the history information . A retrieval apparatus for retrieving document data including

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