JP2011090614A - Gateway device, management server, and system for monitoring the gateway device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a gateway device that improves security. <P>SOLUTION: An acceleration sensor 34 detects a tilt angle of the device. An alarm generation section 32 requests an e-mail showing the occurrence of abnormal conditions to be transmitted when the acceleration sensor 34 detects the tilt angle that exceeds a predetermined threshold. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a gateway device, a management server, and a gateway device monitoring system that monitor the occurrence of an abnormality such as theft of a gateway device.

  Conventionally, as a measure for preventing theft of a portable information processing device, a theft detection processing device having an acceleration sensor is provided in the information processing device body, and the acceleration sensor detects the acceleration applied to the device body to detect theft. An information processing apparatus to perform is known (for example, see Patent Document 1). Further, as a means for preventing theft, a wire cable or the like for theft prevention is generally used.

JP 2005-242585 A

However, in the case of a device that notifies by alarm using an alarm after the theft is detected, the network relay device such as a gateway device is usually not installed in a place where there are many people. There was a problem of not contributing to improvement.
Also, anti-theft cables are used to prevent theft, but there is a problem that even if there is an abnormal action such as cutting the cable, the abnormality cannot be detected in a remote place. .

  The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a gateway device, a management server, and a gateway device monitoring system capable of improving the security of the gateway device.

  A gateway device according to the present invention includes an acceleration sensor for detecting a tilt angle of the device, and an alarm generation unit that issues a mail transmission request indicating an abnormality when the acceleration sensor detects a tilt angle exceeding a predetermined threshold. It is provided.

  In the gateway device of the present invention, when the acceleration sensor detects an inclination angle exceeding a predetermined threshold value, a mail transmission request indicating the occurrence of an abnormality is made, so that the security of the gateway device can be improved.

It is a block diagram which shows the monitoring system of the gateway apparatus by Embodiment 1 of this invention. It is a flowchart which shows the process of each part of the monitoring system of the gateway apparatus by Embodiment 1 of this invention. It is a flowchart which shows the process of each part of the monitoring system of the gateway apparatus by Embodiment 2 of this invention. It is a flowchart which shows the process of each part of the monitoring system of the gateway apparatus by Embodiment 3 of this invention.

Embodiment 1 FIG.
1 is a block diagram showing a monitoring system for a gateway device according to Embodiment 1 of the present invention.
The gateway device monitoring system shown in FIG. 1 includes an IP network 1, a management server 2, a gateway device 3, and a LAN 4. The IP network 1 is one network that performs communication based on the Internet protocol, and the management server 2 and the gateway device 3 are connected to each other. The management server 2 is a server that monitors the gateway device 3 via the IP network 1. When a mail transmission request is issued from the gateway device 3 due to the occurrence of an abnormality, the management server 2 responds to a preset address of the person in charge It has a function to send mail. The gateway device 3 is a device that performs communication connection processing between the IP network 1 that is one network and the LAN 4 that is the other network. The LAN 4 is a local area network (the other network) in an office or home, and various information communication devices are connected to the LAN 4.

  The gateway device 3 includes a communication control unit 31, an alarm generation unit 32, a threshold storage unit 33, and an acceleration sensor 34. The communication control unit 31 is a functional unit that performs various types of communication control for connecting the LAN 4 to the IP network 1, and when there is a mail transmission request for notifying an alarm from the alarm generation unit 32, It has a function of sending it to the management server 2 via the IP network 1. The alarm generation unit 32 periodically acquires the data of the acceleration sensor 34 and compares it with the threshold value stored in the threshold value storage unit 33, and performs communication control of the determination that the inclination angle exceeds the threshold value and the alarm notification request when the threshold value is exceeded. This is configured to be performed on the unit 31. The threshold value storage unit 33 stores a threshold value of the tilt angle, and stores a predetermined threshold value. The acceleration sensor 34 measures the tilt angle at regular intervals, holds the result, and sends the result in response to a request from the alarm generation unit 32.

Next, the operation of the gateway device monitoring system according to the first embodiment will be described.
A user of the gateway device 3 connects an information communication device to the LAN 4 and performs communication using the IP network 1. The gateway device 3 performs protocol conversion or the like by the communication control unit 31 and performs mutual communication connection between the IP network 1 and the LAN 4. The person in charge of managing the gateway device 3 monitors the gateway device 3 with the management server 2 at a remote location. In the gateway device 3, the alarm generation unit 32 monitors whether an abnormality such as theft has occurred.

FIG. 2 is a flowchart of each part showing a monitoring operation in the monitoring system of the gateway device.
First, the alarm generation unit 32 starts data monitoring of the acceleration sensor 34 (step ST101), and acquires tilt angle data held by the acceleration sensor 34 (step ST102). Next, the alarm generation unit 32 proceeds to a determination process of inclination angle data (step ST103), and determines whether or not the inclination angle exceeds a threshold value. If the threshold value is not exceeded in step ST103, the process returns to the inclination angle data acquisition in step ST102 again. On the other hand, in step ST103, if the threshold is exceeded due to the inclination of the gateway device when attempting the theft, the communication control unit 31 is instructed to send a mail request for notifying the management server 2 of an alarm (step ST104). Next, the communication control unit 31 transmits a mail request to the management server 2 as a TR-069-compliant packet (step ST105). The management server 2 receives this (step ST106), and sends a mail to the designated address (step ST107). Thereby, the person in charge of management can know the abnormality of the gateway device 3 even in a remote place.

  As described above, according to the gateway device 3 of the first embodiment, when the acceleration sensor 34 for detecting the tilt angle of the device and the tilt angle exceeding the predetermined threshold value are detected by the acceleration sensor 34, an abnormality is generated. Since the alarm generation unit 32 that performs the mail transmission request shown is provided, the security of the gateway device 3 can be improved.

  Further, according to the management server 2 of the first embodiment, when the management server 2 that is connected to the gateway apparatus 3 via the network receives a mail transmission request indicating the occurrence of an abnormality from the gateway apparatus 3, it is determined in advance. Since the mail transmission indicating the occurrence of the abnormality of the gateway device 3 is performed to the destination, the occurrence of the abnormality of the gateway device 3 can be notified even in a remote place.

  Further, according to the monitoring system for the gateway device of the first embodiment, the gateway device 3 that communicates and connects one network and the other network is monitored by the management server 2 that is communicably connected via the one network. In the gateway device monitoring system, the gateway device 3 detects the tilt angle of the device and the management server 2 when the acceleration sensor 34 detects a tilt angle exceeding a predetermined threshold. Since the alarm generation unit 32 that makes a mail transmission request indicating the occurrence of an abnormality is provided, the security of the gateway device 3 can be improved.

  Further, according to the monitoring system for the gateway device of the first embodiment, when the management server 2 receives a mail transmission request from the gateway device, the management server 2 sends a mail transmission indicating the occurrence of the abnormality of the gateway device 3 to a predetermined destination. As a result, the person in charge of the gateway device 3 can monitor the gateway device 3 even at a remote location.

Embodiment 2. FIG.
In the first embodiment, notification is performed by mail transmission. However, it is possible to display the occurrence of an abnormality by transmitting an SNMP (Simple Network Management Protocol: The Internet Engineering Task Force (IETF) RFC 1155) trap. This will be described as a second embodiment. The configuration of the gateway device monitoring system according to the second embodiment is similar to that of the first embodiment, and will be described with reference to FIG.

  The alarm generation unit 32 of the gateway device 3 according to the second embodiment is configured to transmit an SNMP trap indicating the occurrence of an abnormality when the acceleration sensor 34 detects an inclination angle exceeding a predetermined threshold. In addition, when the management server 2 receives an SNMP trap indicating the occurrence of an abnormality from the gateway device 3, the management server 2 is configured to display the content on a monitor or the like. Other configurations are the same as those of the first embodiment.

Next, the operation of the second embodiment will be described using the flowchart of FIG.
First, the alarm generation unit 32 starts data monitoring of the acceleration sensor 34 (step ST101), and acquires tilt angle data held by the acceleration sensor 34 (step ST102). Next, the alarm generation unit 32 proceeds to a determination process of inclination angle data (step ST103), and determines whether the inclination angle exceeds a predetermined threshold. The operation so far is the same as in the first embodiment.

  When the threshold value is not exceeded in step ST103, the alarm generation unit 32 returns to the inclination angle data acquisition in step ST102 again. On the other hand, in step ST103, when the threshold is exceeded due to the inclination of the gateway device 3 when attempting the theft, the alarm generation unit 32 instructs the communication control unit 31 to transmit an SNMP trap for performing alarm notification (step ST114). The communication control unit 31 transmits an SNMP trap to the management server 2 (step ST115). When receiving the SNMP trap from the gateway device 3 (step ST116), the management server 2 displays this content on a monitor (not shown) or the like (step ST117).

  As described above, according to the gateway device 3 of the second embodiment, the acceleration sensor 34 for detecting the tilt angle of the device and the occurrence of an abnormality are detected when the acceleration sensor detects a tilt angle exceeding a predetermined threshold. Since the alarm generation unit 32 that performs SNMP trap transmission is provided, the security of the gateway device 3 can be improved.

  Further, according to the management server 2 of the second embodiment, when the management server 2 that is connected to the gateway device via the network receives an SNMP trap indicating an abnormality from the gateway device 3, the contents of the SNMP trap are displayed. Since it is displayed, it is possible to reliably recognize the occurrence of an abnormality in the gateway device 3.

  Further, according to the monitoring system for the gateway device of the second embodiment, the gateway device 3 that communicates and connects one network and the other network is monitored by the management server 2 that is communicably connected via the one network. In the gateway device monitoring system, the gateway device 3 detects the tilt angle of the device and the management server 2 when the acceleration sensor 34 detects a tilt angle exceeding a predetermined threshold. Since the alarm generation unit 32 that performs SNMP trap transmission indicating the occurrence of an abnormality is provided, the security of the gateway device 3 can be improved.

  In addition, according to the monitoring system for the gateway device of the second embodiment, when the management server receives the SNMP trap from the gateway device, the management server displays the contents of the SNMP trap. Can monitor the gateway device 3 in the management server 2.

Embodiment 3 FIG.
In the third embodiment, when a mail transmission request indicating the occurrence of an abnormality is sent from the gateway device 3, the management server 2 determines whether the abnormality is caused by an artificial movement or an earthquake and transmits the mail. It is what you do. The configuration of the gateway device monitoring system according to the third embodiment is similar to that of the first embodiment, and will be described with reference to FIG.

  The configuration of the gateway device 3 in the third embodiment is the same as that in the first embodiment. In addition, the management server 2 has means for acquiring earthquake information of the installation location of the gateway device 3. When a mail request for notifying the occurrence of an abnormality from the gateway device 3 is received, the gateway device 3 at the time of occurrence of the abnormality. It is configured to check whether an earthquake has occurred at the installation location and to determine the content of the email to be sent based on the result.

FIG. 4 is a flowchart showing the operation of the monitoring system for the gateway device in the third embodiment.
First, the alarm generation unit 32 starts data monitoring of the acceleration sensor 34 (step ST101), and acquires tilt angle data held by the acceleration sensor 34 (step ST102). Next, the alarm generation unit 32 proceeds to a determination process of inclination angle data (step ST103), and determines whether or not the inclination angle exceeds a threshold value. If the threshold value is not exceeded in step ST103, the process returns to the inclination angle data acquisition in step ST102 again. On the other hand, if the threshold is exceeded due to the inclination of the gateway device when attempting the theft in step ST103, the communication control unit 31 is instructed to send a mail request to the management server 2 (step ST104). Next, the communication control unit 31 transmits a mail request as a packet conforming to TR-069 to the management server 2 (step ST105), and the management server 2 receives this (step ST106). The above operation is the same as in the first embodiment.

  The management server 2 that has received the mail request collates with the earthquake occurrence information of the place where the gateway device 3 is installed, and determines whether or not an earthquake has occurred at the mail request reception time (step ST127). As a result of the determination in step ST127, when it is determined that the earthquake occurrence time and the mail request reception time from the gateway device 3 are the same, the management server 2 determines that the gateway device 3 caused by the earthquake occurrence with respect to the designated address. E-mail transmission including contents of damage is performed (step ST128). On the other hand, as a result of the determination in step ST127, when it is determined that the earthquake occurrence time and the mail request reception time from the gateway device 3 are not the same, the management server 2 performs artificial movement to the designated address. If it has occurred, an e-mail is sent containing the content that the gateway device 3 has been damaged due to theft (step ST129). As a result, the person in charge of management can know whether the excessive inclination angle of the gateway device 3 is caused by the occurrence of an earthquake or artificially carried in a remote place.

  As described above, according to the management server 2 of the third embodiment, when a mail transmission request indicating the occurrence of an abnormality is received from the gateway device 3, the reception time matches the earthquake occurrence time at the installation location of the gateway device 3. If there is a match, an e-mail is sent indicating that an earthquake has occurred. If not, an e-mail is sent indicating that an artificial movement of the gateway device 3 has occurred. It is possible to reliably notify whether the abnormality of the device 3 is caused by the occurrence of an earthquake or an artificial movement.

  Further, according to the monitoring system for a gateway device of the third embodiment, when the management server 2 receives a mail transmission request from the gateway device 3, the reception time and the earthquake occurrence time at the installation location of the gateway device 3 match. If there is a match, an email is sent indicating that an earthquake has occurred. If they do not match, an email is sent indicating that an artificial movement of the gateway device 3 has occurred. The person in charge of the gateway device 3 can determine whether the abnormality of the gateway device 3 is caused by the occurrence of an earthquake or artificial movement even in a remote place.

  In addition, although Embodiment 3 demonstrated the case where it applied to Embodiment 1, you may apply to the display of the SNMP trap in Embodiment 2. FIG. That is, when receiving the SNMP trap from the gateway device 3, the management server 2 determines whether the reception time and the earthquake occurrence time at the installation location of the gateway device 3 match, and if they match, an earthquake has occurred. If they do not match, a display indicating that an artificial movement of the gateway device 3 has occurred may be performed. In this way, the person in charge of management of the gateway device 3 can determine in the management server 2 whether the abnormality of the gateway device 3 is due to the occurrence of an earthquake or due to artificial movement.

  1 IP network, 2 management server, 3 gateway device, 4 LAN, 31 communication control unit, 32 alarm generation unit, 33 threshold storage unit, 34 acceleration sensor.

Claims (12)

An acceleration sensor for detecting the tilt angle of the device;
A gateway device, comprising: an alarm generation unit that makes a mail transmission request indicating an abnormality when the acceleration sensor detects an inclination angle exceeding a predetermined threshold. An acceleration sensor for detecting the tilt angle of the device;
A gateway device, comprising: an alarm generation unit that transmits an SNMP trap indicating that an abnormality has occurred when the acceleration sensor detects an inclination angle exceeding a predetermined threshold value. In the management server that is connected to the gateway device via the network,
When receiving a mail transmission request indicating the occurrence of an abnormality from the gateway device, the management server performs mail transmission indicating the occurrence of the abnormality of the gateway device to a predetermined destination. In the management server that is connected to the gateway device via the network,
When receiving an SNMP trap indicating an occurrence of an abnormality from the gateway device, the management server displays the contents of the SNMP trap.   When a mail transmission request indicating an abnormal occurrence is received from the gateway device, it is determined whether the reception time matches the earthquake occurrence time at the location where the gateway device is installed, and if they match, an email indicating that an earthquake has occurred 4. The management server according to claim 3, wherein transmission is performed and, if they do not match, mail transmission indicating that the gateway device has been artificially moved is performed.   When an SNMP trap indicating the occurrence of an abnormality is received from the gateway device, it is determined whether the reception time and the earthquake occurrence time at the installation location of the gateway device match, and if they match, a display indicating that an earthquake has occurred is displayed. 5. The management server according to claim 4, wherein, if they do not coincide with each other, a display indicating that an artificial movement of the gateway device has occurred is performed. A gateway device monitoring system for monitoring a gateway device for communication connection between one network and the other network by a management server connected for communication via the one network,
The gateway device includes an acceleration sensor for detecting a tilt angle of the device, and an alarm that issues a mail transmission request indicating an abnormality to the management server when the acceleration sensor detects a tilt angle that exceeds a predetermined threshold. A gateway system monitoring system comprising: a generation unit. A gateway device monitoring system for monitoring a gateway device for communication connection between one network and the other network by a management server connected for communication via the one network,
The gateway device includes an acceleration sensor for detecting a tilt angle of the device, and an alarm for transmitting an SNMP trap indicating an abnormality to the management server when the acceleration sensor detects a tilt angle exceeding a predetermined threshold. A gateway system monitoring system comprising: a generation unit.   8. The monitoring system for a gateway device according to claim 7, wherein when the management server receives a mail transmission request from the gateway device, the management server performs a mail transmission indicating an abnormality occurrence of the gateway device to a predetermined destination.   9. The monitoring system for a gateway device according to claim 8, wherein when the management server receives an SNMP trap from the gateway device, the management server displays the contents of the SNMP trap.   When the management server receives a mail transmission request from the gateway device, the management server determines whether the reception time matches the earthquake occurrence time at the installation location of the gateway device, and if they match, indicates that an earthquake has occurred. The gateway system monitoring system according to claim 9, wherein mail transmission is performed, and if they do not coincide with each other, mail transmission indicating that artificial movement of the gateway apparatus has occurred is performed.   When the management server receives an SNMP trap from the gateway device, the management server determines whether the reception time and the earthquake occurrence time at the installation location of the gateway device match, and if they match, a display indicating that an earthquake has occurred 11. The gateway device monitoring system according to claim 10, wherein if the two values do not coincide with each other, a display indicating that an artificial movement of the gateway device has occurred is performed.

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