JP2006338559A - Distribution server and distribution method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To more appropriately distribute pattern data and antivirus software to virus which infects mobile machines by short-distance radio communication. <P>SOLUTION: A distribution server 10 distributes the pattern data of the antivirus software and the antivirus software to a plurality of mobile machines 20. The distribution server 10 has a positional information acquisition part 11 which acquires time series positional information of the mobile machines 20, an infection time information acquisition part 12 which acquires infection time information as information about the time when the mobile machine 20 are infected with computer virus, a priority determination part 13 which judges positional relation between the mobile machines 20 infected with the computer virus and other mobile machines 20 based on the acquired positional information and infection time information to determine the priority of distribution for every other mobile machines 20 and a distribution part 14 which performs distribution based on the determined priority. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a distribution server and a distribution method for distributing at least one of pattern data of virus removal software and virus removal software itself to a plurality of mobile devices.

  Virus removal software, which is software for removing computer viruses, detects a virus by comparing a virus detection pattern prepared in advance with a file to be inspected. Since such virus removal software cannot deal with viruses that are not in the virus detection pattern, the latest virus detection pattern pattern data is provided by a software manufacturer or the like. In addition, virus removal software itself for dealing with a specific virus may be provided. The user obtains the above pattern data and virus removal software by accessing a software manufacturer's server.

The user-driven method for acquiring pattern data and virus removal software (Pull distribution) places a heavy burden on the user, and the latest virus data and virus removal software must always be prepared on the user's terminal. difficult. In order to cope with this, a server-driven method of delivering pattern data (Push delivery) has been proposed (for example, see Patent Document 1 below).
JP 2003-241987

  By the way, distribution of pattern data and anti-virus software has to be done before the spread of viruses, so it needs to be done quickly. However, in the case of the above Push distribution, if there are a large number of pattern data, virus removal software, and user terminals that must be distributed, it may be difficult to perform quick distribution due to the performance of the server or network that performs the distribution. .

  Some computer viruses are infected by short-range wireless communication such as Bluetooth. Such a computer virus may be infected only when terminals are located at a certain distance, and it is necessary to perform the above delivery more quickly.

  The present invention has been made to solve the above-described problems, and provides a distribution server and a distribution method that can more appropriately distribute pattern data and virus removal software for a virus that is infected by short-range wireless communication. The purpose is to do.

  A distribution server according to the present invention is a distribution server that distributes at least one of pattern data of virus removal software and virus removal software itself to a plurality of mobile devices, and acquires time-series position information of the mobile devices. By location information acquisition means, infection time information acquisition means for acquiring infection time information that is information on the time when the mobile device was infected with a computer virus, position information acquired by the position information acquisition means, and infection time information acquisition means Priority of determining the distribution priority for each other mobile device by judging the positional relationship between the mobile device infected with the computer virus and the other mobile device based on the acquired infection time information And a distribution unit that performs distribution based on the priority determined by the priority determination unit.

  In the distribution server according to the present invention, the priority for distributing pattern data and the like is determined based on the time-series positional relationship between a mobile device infected with a virus and other mobile devices. Therefore, it is possible to preferentially distribute pattern data and the like to mobile devices that are highly likely to be infected by a virus by short-range wireless communication, and prevent secondary infection of the virus. That is, according to the distribution server according to the present invention, it is possible to more appropriately distribute pattern data and virus removal software for a virus that is infected by short-range wireless communication.

  The location information is preferably information for specifying a base station in the mobile communication network. The mobile communication network normally performs mobile communication using a base station. The information specifying the base station is information specifying the area where the mobile device is located and can be used as position information. Therefore, the present invention can be easily implemented by using information specifying a base station that has been conventionally used.

  By the way, the present invention can be described as the invention of the distribution server as described above, as well as the invention of the distribution method as follows. This is substantially the same invention only in different categories, and has the same operations and effects.

  A delivery method according to the present invention is a delivery method for delivering at least one of pattern data of virus removal software and virus removal software itself to a plurality of mobile devices, and acquires time-series position information of the mobile devices. Acquired in the location information acquisition step, the infection time information acquisition step for acquiring infection time information that is information on the time when the mobile device was infected with a computer virus, and the location information acquired in the location information acquisition step and the infection time information acquisition step Priority determination that determines the positional relationship between a mobile device infected with a computer virus and other mobile devices based on the transmitted infection time information and determines the distribution priority for each of the other mobile devices And a distribution step for performing the distribution based on the priority determined in the priority determination step. And it features.

  According to the present invention, pattern data or the like can be preferentially distributed to a mobile device that is highly likely to be infected with a virus by short-range wireless communication. That is, according to the present invention, it is possible to more appropriately distribute pattern data and virus removal software for a virus that is infected by short-range wireless communication.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 shows a configuration of an embodiment of a distribution server 10 according to the present invention. The distribution server 10 is connected to a mobile communication network, and is a server that distributes virus removal software pattern data and virus removal software to the mobile device 20 via the base station 30 of the mobile communication network. Specifically, the distribution server 10 is realized by a server device including a CPU, a memory, and the like.

  The mobile device 20 is a device that can perform data communication by mobile communication, and specifically corresponds to a mobile phone, a PDA (Personal Digital Assistance), and the like. Mobile communication is realized by performing wireless communication between the base station 30 and the mobile device 20 installed at various positions as shown in FIG. The mobile device 20 is preinstalled with virus removal software for removing computer viruses using pattern data. You can also install and use anti-virus software for specific computer viruses. Moreover, the mobile device 20 has a function capable of performing short-range wireless communication between the mobile devices 20. The short-range wireless communication is specifically Bluetooth, infrared communication, RFID (Radio Frequency Identification), or the like.

  Hereinafter, each component of the distribution server 10 will be described. As shown in FIG. 1, the distribution server 10 includes a position information acquisition unit 11, an infection time information acquisition unit 12, a priority determination unit 13, a distribution unit 14, and a distribution database 15. .

  The position information acquisition unit 11 is a position information acquisition unit that acquires time-series position information of the mobile device 20. Specifically, the location information includes, for example, the area information of the mobile device 20 (information specifying the base station 30 where the mobile device 20 has registered its position), the latitude / longitude information of the location of the mobile device 20, and the like. For the location information acquisition, for example, it is preferable to receive the area information of the mobile device 20 from the mobile communication network. Moreover, it is good also as receiving the position longitude information acquired by GPS (Global Positioning System) etc. from the mobile device 20. FIG. However, in that case, the mobile device 20 needs to have a function capable of acquiring the latitude / longitude information of the own device by GPS or the like.

  The acquisition of the position information is performed for all the mobile devices 20 that are targets of distribution of pattern data and the like. Specifically, the location information is acquired from the mobile communication network by using the mobile device 20 as a trigger to perform location registration with the base station 30 to identify information for identifying the base station 30 for which location registration has been performed. Is done. In addition, it may be performed by checking the base station 30 to which the mobile device 20 is registered periodically, such as every 10 minutes. The acquired position information is stored in the distribution database 15 as time-series data in association with the information specifying the mobile device 20 and the acquired time information.

  The infection time information acquisition unit 12 is an infection time information acquisition unit that acquires infection time information that is information on the time when the mobile device 20 was infected with a computer virus. Acquisition of infection time information is performed, for example, by receiving infection time information that has been found by executing virus removal software transmitted by the mobile device 20 (infected with a virus). The acquired infection time information is stored in the distribution database 15 in association with information specifying the mobile device 20.

  Based on the position information acquired by the position information acquisition unit 11 and the infection time information acquired by the infection time information acquisition unit 12, the priority determination unit 13 and the mobile device 20 infected with the virus and the other It is a priority determination unit that determines the positional relationship with the mobile device 20 and determines the priority of distribution of pattern data or the like for each of the other mobile devices 20. When the priority is determined, the priority determination unit 13 updates the distribution destination list stored in the distribution database 15 based on the priority. The determination of the priority will be described later in detail.

  The distribution unit 14 is a distribution unit that distributes pattern data and the like to the mobile device 20 based on the priority determined by the priority determination unit 13. The distribution unit 14 performs distribution with reference to the distribution destination list stored in the distribution database 15. Distribution is performed through the mobile communication network as described above.

  The distribution database 15 is distribution data storage means for storing data for distributing pattern data and the like. Specifically, the data for distribution includes pattern data to be distributed, virus removal software, a distribution destination list that stores distribution destinations (mobile devices 20) in association with distribution orders, and distribution destinations. This is a located area table or the like holding time-series position information of (mobile device 20).

  For example, as shown in the table shown in FIG. 2, the distribution destination list 15 a is held in association with the priority for distributing the information specifying the distribution target mobile device 20. The table in FIG. 2 shows that the priority decreases from the top to the bottom. That is, distribution is performed in the order described in the table. This order is a preset order in the initial state, and can be changed by the priority determination unit 13. The mobile device 20 to be distributed may be a plurality of specific mobile devices that receive a distribution service such as pattern data, or may be all mobile devices that receive a mobile communication service.

  As information for specifying the mobile device 20, it is preferable to use the telephone number of the mobile device 20, as shown in FIG. In addition, an ID or the like for identifying the mobile device 20 may be used. As shown in FIG. 2, the delivery destination list 15a is preferably capable of storing the delivery status. In the “Status” column of FIG. 2, “Done” indicates that distribution has already been performed, and “Not yet” indicates that distribution has not yet been performed. The distribution destination list 15a exists for each pattern data to be distributed, and is associated with information specifying the pattern data. The example shown in FIG. 2 is a distribution destination list 15a regarding “pattern data A”.

  The located area table 15 b is a table that stores time-series position information acquired by the position information acquisition unit 11 of the distribution server 10. As shown in the table of FIG. 3, the located area table 15b holds the location information of the mobile device 20 in association with the time when the mobile device 20 was located. In the present embodiment, the location information is specifically the area information of the mobile device 20. The position information and the time information are held for each mobile device 20 and are associated with information for identifying the mobile device 20 (phone number of the mobile device 20). For example, in the table of FIG. 3, the data in the third row indicates that the mobile device 20 with the telephone number “090aaaaaaaa” is located in the area where “Nobi III” is located at 12:00 on October 4, 2004. It shows that.

  Subsequently, processing executed by the distribution server 10 in this embodiment will be described below with reference to the sequence diagram of FIG. This process is a process of distributing pattern data and the like by the distribution server 10 when any mobile device 20 to be distributed such as pattern data is infected with a virus. In the description of this process, the mobile device 20 infected with a virus is referred to as an infected mobile device 20a, and the other mobile device 20 that is the target of distribution of pattern data by the distribution server 10 is referred to as a mobile device 20b. In addition, it is assumed that this virus can be removed using the pattern data or virus removal software distributed in the present embodiment. The mobile device 20 is preinstalled with virus removal software that can perform virus scanning and virus removal using the distributed pattern data. In addition, pre-installed anti-virus software and distributed anti-virus software have a function of specifying the time of virus infection.

  In the distribution server 10, the position information acquisition unit 11 acquires the position information of the mobile device 20 (S01). The acquisition of the position information is performed for all the mobile devices 20 that are distribution targets such as pattern data by the distribution server 10. The acquired position information is stored in the area table 15a of the array database 15 together with information on the time when the mobile device 20 was located, and becomes time-series data. The acquisition of the time-series position information is always performed in the distribution process in the distribution server 10.

  In the distribution server 10, the distribution unit 14 distributes pattern data or virus removal software (S02). Distribution is triggered by new pattern data or virus removal software being newly created by a software manufacturer and provided to the distribution server 10 (new pattern data or virus removal software is distributed by the distribution server 10). Stored in the database 15). Distribution is performed through the mobile communication network, that is, through the base station 30.

  Distribution is performed in accordance with the order of the distribution destination list 15 a stored in the distribution database 15. Here, the distribution destination list 15a corresponds to new pattern data or virus removal software as described above. In this way, the distribution is performed sequentially. In this distribution, as shown in FIG. 4, it is distributed to the infected mobile device 20a, and other mobile devices 20b include mobile devices that are not distributed. Suppose that When distribution is performed, the distribution server 10 changes the data in the “status” column corresponding to the mobile device that has distributed the distribution destination list 15 a from “not yet” to “completed”.

  The infected mobile device 20a receives the distributed new pattern data or virus removal software, and performs virus scanning using the pattern data or virus removal software (S03). The virus scan may be automatically performed with reception as a trigger, or may be performed by a user operation. Since the infected mobile device 20a is infected with a virus, the virus is found by virus scanning using pattern data or virus removal software, and the found virus is also removed. In addition, the time of virus infection is specified by virus scanning. Subsequently, the infected mobile device 20a transmits, to the distribution server 10, the infection time information infected with the virus and the removal time information exterminating the virus together with the information specifying the infected virus (S04).

  In the distribution server 10, the infection time information acquisition unit 12 receives the infection time information transmitted from the infected mobile device 20a. The received information is stored in the distribution database 15. Subsequently, in the distribution server 10, the priority determination unit 13 creates an infected terminal area table (S05). As shown in FIG. 5, the infected terminal location area table 13 a is a table that stores data indicating when and where the mobile device 20 infected with a virus was located. The infected terminal area table 13a is created from the information in the area table 15b stored in the distribution database 15 with reference to information such as infection time information transmitted from the infected mobile device 20a. For example, the area table 15b for the infected mobile device 20a is as shown in FIG. 3, the infection time is 12:00 on October 4, 2004, and the virus removal time is October 4, 2004. 17:20. Since the time zone when the infected mobile device 20a was infected with the virus is the time zone of the range A in FIG. 3, the data in the range A, that is, the table shown in FIG. 5 becomes the infected terminal area table 13a.

  Subsequently, the priority determination unit 13 creates a contact terminal table (S06). The contact terminal table 13b is data stored in a table as shown in FIG. 6, and lists mobile devices 20b that existed in the same area at the same time as the infected mobile device 20a. . Being in the same area at the same time as the infected mobile device 20a means that it was located near the infected mobile device 20a, and there is a risk of being infected by a virus by short-range wireless communication. That is. For example, the data in the first row of the contact terminal table 13b in FIG. 6 is stored in the area “Nobi III” where the infected mobile device 20a was located at 12:00 on October 4, 2004, with the telephone number “090bbbbbbbb”. "And" 090cccccccc "indicate that the mobile device 20b specified is located. The contact terminal table 13b is generated by referring to the infected terminal area table 13a and the area area table 15b of the other mobile device 20b and determining the coincidence of the area areas.

  In the present embodiment, the position information is the area information as described above, and it is determined that the position information coincides with the area where the infected mobile device 20a is located. Is determined to be located near the infected mobile device 20a based on whether the distance from the infected mobile device 20a is equal to or less than a predetermined distance. May be.

  Subsequently, the priority determination unit 13 creates a priority distribution order list (S07). As shown in FIG. 7, the priority distribution order list 13c distributes pattern data or virus removal software for a virus that is infected by the infected mobile device 20a (in this embodiment, a virus that can be removed using “pattern data A”). The mobile device 20b is listed in order of priority. Here, the priority is determined by the risk of infection from the infected mobile device 20a. That is, the priority of distribution is higher for those with a high risk of infection. The risk of infection is determined by the number of times ("redundancy" in the priority distribution order list 13c) that the user has been located in the same area as the infected mobile device 20a from the area table 15b. The priority distribution order list 13c is generated by counting the number of appearances in the contact terminal table 13b for each mobile device 20b. For example, the data in the first row of the priority delivery order list 13c in FIG. 7 indicates that the mobile device 20b whose telephone number is “090cccccccc” has been located in the same area 12 times as the infected mobile device 20a. In other mobile devices 20b, the highest number of times indicates the highest priority.

  Subsequently, the priority determination unit 13 updates the distribution destination list 15a stored in the distribution database 15 using the created priority distribution order list 13c (S09). As shown in FIG. 8, the update is performed so that the mobile device 20b in the priority distribution order list 13c occupies the top in the order of the priority distribution order list 13c.

  Subsequently, the distribution unit 14 distributes the pattern data or the virus removal software in accordance with the order of the updated distribution destination list 15a (S09). The mobile device 20b receives the distributed pattern data or virus removal software, and performs virus scanning using the pattern data or virus removal software (S10). If the virus is infected, the virus is also removed.

  As described above, according to the present embodiment, pattern data or the like can be preferentially distributed to the mobile device 20 that is highly likely to be infected with a virus by short-range wireless communication. Infection can be prevented. That is, it is possible to more appropriately distribute pattern data and the like for viruses that are infected by short-range wireless communication.

  Further, as in the present embodiment, if the location area information that is information for specifying the base station 30 registered by the mobile device 20 is used as the position information, the distribution server 10 according to the present embodiment can be easily used. Can be realized. This is because the information specifying the base station 30 can be used as position information, and is normally information used in the mobile communication network, so that it is not necessary to newly acquire position information.

  In this embodiment, both pattern data and virus removal software can be distributed, but only one of them may be distributed.

  In the present embodiment, there is one infected mobile device 20a, but a plurality of infected mobile devices 20a may be generated. In that case, for example, the above-described process may be executed every time there is transmission of infection information from the infected mobile device 20a to the distribution server 10.

  Further, distribution of pattern data or the like may be performed not by the distribution server 10 but by short-range wireless communication or wired operation (regardless of the processing of the distribution server 10 described above) by operation between the mobile devices 20. In this case, in order to prevent double distribution from the distribution server 10, it is preferable that the mobile device 20 that has received the distribution of pattern data or the like from another mobile device 20 transmits a notification to the distribution server 10 that the distribution has been received.

  In the present embodiment, the distribution server 10 also manages the position information and information related to the mobile device 20, but the information may be managed by another server device.

It is a figure which shows the structure of the delivery server which concerns on embodiment of this invention. It is a delivery destination list stored in the delivery database of the delivery server. It is a visiting area table stored in the distribution database of the distribution server. It is a sequence diagram which shows the process performed with a delivery server in embodiment. It is an infected terminal located area table produced | generated by the priority determination part of a delivery server. It is a contact terminal table produced | generated by the priority determination part of a delivery server. It is a priority delivery order list | wrist produced | generated by the priority determination part of a delivery server. It is the delivery destination list updated by the priority determination part of the delivery server.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Distribution server, 11 ... Position information acquisition part, 12 ... Infection time information acquisition part, 13 ... Priority determination part, 13a ... Infected terminal location area table, 13b ... Contact terminal table, 13c ... Preferential distribution order list, 14 DESCRIPTION OF SYMBOLS ... Distribution part, 15 ... Distribution database, 15a ... Distribution destination list, 15b ... In-area table, 20 ... Mobile device (20a ... Infected mobile device), 30 ... Base station

Claims (3)

A distribution server that distributes at least one of pattern data of virus removal software and virus removal software itself to a plurality of mobile devices,
Position information acquisition means for acquiring time-series position information of the mobile device;
Infection time information acquisition means for acquiring infection time information which is information of the time when the mobile device was infected with a computer virus;
Based on the position information acquired by the position information acquisition means and the infection time information acquired by the infection time information acquisition means, the positional relationship between a mobile device infected with a computer virus and other mobile devices is determined. Priority determining means for determining the priority of distribution for each of the other mobile devices;
Distribution means for performing the distribution based on the priority determined by the priority determination means;
A distribution server comprising:   The distribution server according to claim 1, wherein the position information is information for specifying a base station in a mobile communication network. A distribution method of performing at least one distribution of pattern data of virus removal software and virus removal software itself to a plurality of mobile devices,
A position information acquisition step of acquiring time-series position information of the mobile device;
An infection time information acquisition step of acquiring infection time information which is information of the time when the mobile device was infected with a computer virus;
Based on the location information acquired in the location information acquisition step and the infection time information acquired in the infection time information acquisition step, the positional relationship between the mobile device infected with the computer virus and other mobile devices is determined. A priority determining step for determining the priority of the distribution for each of the other mobile devices;
A distribution step of performing the distribution based on the priority determined in the priority determination step;
Having a delivery method.

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