JP5459753B2 - Security system - Google Patents

Description

  The present invention relates to a security system. In particular, the present invention can be applied to systems in all fields having a sensor input for monitoring a monitoring target.

  As described in Japanese Patent Application Laid-Open No. 2004-126864 “Monitoring System and Monitoring Information Relay Device and Relay Method” of Patent Document 1, a conventional security system accommodates input from a sensor in a monitoring terminal, A configuration is adopted in which a monitoring terminal notifies a receiving device on the monitoring center side through a network or a dedicated line. That is, as shown in FIG. 4, each of the first monitoring terminal 10A, the second monitoring terminal 20A,..., And the m-th monitoring terminal 30A includes n sensors 1, 2,. There are sensor inputs, and each monitoring terminal 10A, 20A,..., 30A transmits the monitoring result of each sensor for each monitoring terminal to the monitoring center 50 via the network 100A, and each monitoring terminal 10A, 20A,. In the monitoring center 50 that receives the monitoring results of each of the sensors, the receiving device 40A receives and uses the database 60 in which sensor numbers and monitoring locations are registered in association with each monitoring terminal. The monitoring location of the monitoring result of the selected sensor is specified.

For example, when the sensor 1 of the first monitoring terminal 10A detects an abnormality, the first monitoring terminal 10A sends the first monitoring terminal to the receiving device 40A of the monitoring center 50 via the network 100A. Abnormal information including the identification number of 10A and the identification number of the sensor 1 is notified as a monitoring result. In the monitoring center 50 that has received the abnormality information, based on the identification number of the first monitoring terminal 10A and the identification number of the sensor 1 included in the abnormality information notified from the first monitoring terminal 10A. By referring to the database 60, the place where the abnormality has occurred can be specified.
JP 2004-126864 A (page 8-11)

  However, as described above, in the conventional security system, the monitoring terminal normally has a plurality of sensor inputs (for example, n in the case of FIG. 4), and the number of sensor inputs is smaller than the number of sensor inputs of the monitoring terminal. When operating by applying to the equipment to be monitored, there are sensor inputs that are not used, resulting in poor cost performance. In addition, when applied to the number of monitoring target facilities exceeding the number of sensor inputs of the monitoring terminal, it is necessary to install a plurality of monitoring terminals, resulting in a problem that cost performance is poor and flexible additional changes cannot be made.

  On the other hand, in recent years, the spread of the Internet and the expansion of the application of IPv6 (Internet Protocol Version 6) protocol has greatly expanded the assignable IP address space, and it is unique to each sensor (detection unit) that monitors the monitoring target. Can be assigned. As a result, even if the input from the sensor is not accommodated in the monitoring terminal, it is possible to construct a system that directly notifies the monitoring result from the sensor to the receiving device on the monitoring center side via the LAN network, the IP network, or the Internet. It is becoming possible.

  The present invention has been made in view of such circumstances, and by configuring a detection unit (sensor) that monitors the state of a monitoring target as a LAN sensor having a LAN function, and applying the IPv6 protocol to the LAN sensor, The purpose is to provide an inexpensive and highly extensible security system that does not require the installation of a monitoring terminal and can greatly reduce the setting work associated with LAN sensor installation.

  In order to solve the above-described problems, the security system according to the present invention employs the following characteristic configuration.

  (1) In a security system including a monitoring center that collects the results of monitoring the status of one or more monitoring targets via a network and implements security measures according to the collected monitoring results, As a means for monitoring the state, a LAN sensor comprising at least a detection means for detecting the state of the monitoring target and outputting the result as a monitoring result, and a LAN control means for controlling an information transmission / reception operation with the LAN network And the LAN sensor transmits the monitoring result output from the detection means to the monitoring center via the LAN network and the network under the control of the LAN control means.

  According to the security system of the present invention, the following effects can be obtained.

  First, unlike conventional systems, it is not necessary to install a monitoring terminal for accommodating a plurality of sensors, and it is only necessary to arrange LAN sensors corresponding to monitoring targets. Can be provided.

  Second, when a LAN sensor is installed, the IP address of the LAN sensor is automatically acquired by the plug and play function, so that setting work by the user at the time of installation is unnecessary, and the installation time is shortened. The installation cost can be greatly reduced.

  Thirdly, when a LAN sensor is added, the LAN sensor has a hub function, so it can be easily added by simply cascading to the existing LAN sensor via a LAN network (LAN cable). The cost of expansion work can be greatly reduced.

  Preferred embodiments of a security system according to the present invention will be described below with reference to the accompanying drawings.

(Features of the present invention)
Prior to the description of the embodiments of the present invention, an outline of the features of the present invention will be described first. In the present invention, as a means for monitoring the state of a monitoring target, by using a sensor having a LAN function compliant with the IPv6 protocol, that is, a configuration using a LAN sensor, if the LAN environment is provided, It is possible to operate a monitoring function simply by connecting a LAN sensor to a LAN cable, and the greatest feature is that it is possible to provide an inexpensive and highly expandable security system.

(Configuration example of embodiment of the present invention)
FIG. 1 is a system configuration diagram showing an example of a system configuration of a security system according to the present invention. As shown in FIG. 1, the security system of this embodiment monitors the states of the monitoring targets 14 and 24 by the first and second LAN sensors 10 and 20 having LAN network connection functions compliant with the IPv6 protocol. The monitoring result is transmitted to the receiving device 40 of the monitoring center 50 via the Internet 100. The first and second LAN sensors 10 and 20 have detection units 13 and 23 for detecting inputs indicating the results of monitoring the states of the first and second monitoring targets 14 and 24, respectively, and the detection units 13 and 23. Are provided with first LAN control units 11 and 21 for transmitting the monitoring information detected to each outside and second LAN control units 12 and 22 having a hub function.

  The detection units 13 and 23 are parts that read the states of the respective monitoring targets 14 and 24 and output the results as one-input monitoring results to the first LAN control units 11 and 21, respectively. (1 type) only.

  The first LAN control units 11 and 21 respectively receive the monitoring results input from the detection units 13 and 23 and the monitoring results of other LAN sensors transferred from the second LAN control units 12 and 22, respectively. This is a part that transmits to the outside of the sensors 10 and 20 based on the IPv6 protocol. Here, the first LAN control unit 11 in the first LAN sensor 10 transmits the monitoring result to the receiving device 40 on the monitoring center 50 side via the Internet 100. In addition, the first LAN control unit other than the first LAN sensor 10 transfers the monitoring result to the second LAN control unit of the one upstream LAN sensor that is cascade-connected. For example, the first LAN control unit 21 of the second LAN sensor 20 transfers the monitoring result to the second LAN control unit 12 of the first LAN sensor 10 on the upstream side.

  The second LAN control units 12 and 22 have a hub function, and receive the monitoring result transferred from the first LAN control unit of one downstream LAN sensor connected in cascade based on the IPv6 protocol. Then, the data is transferred to the first LAN control unit of the LAN sensor. For example, the second LAN control unit 12 of the first LAN sensor 10 displays the monitoring result transferred from the first LAN control unit 21 of the second LAN sensor 20 on the downstream side based on the IPv6 protocol. Received and transferred to the first LAN controller 11 of the LAN sensor 10. In other words, the second LAN control units 12 and 22 have a cascade connection function for connecting between other newly added LAN sensors in order to monitor the added monitoring target when the monitoring target is added. Have.

  The receiving device 40 is a part that is installed in the monitoring center 50, receives the monitoring results transmitted from the respective LAN sensors such as the first and second LAN sensors 10 and 20, and centrally manages them. Indexing the correspondence table registered in the database 60 based on the identification number of each LAN sensor in which the detection unit that is the transmission source of the monitoring result is accommodated, for example, based on the IP address of each LAN sensor Thus, the monitoring target, that is, the monitoring location of each monitoring result is specified, and the status of the specified monitoring target is displayed on the screen, displayed on the lamp, or outputted as a sound, for example. Further, when an abnormality is detected as a monitoring result, the receiving device 40 activates an emergency measure with a security level corresponding to the content of the abnormality, sounds an alarm, or blinks an alarm lamp.

  For example, FIG. 2 shows an example of information for specifying a monitoring location that is preset and registered as a correspondence table in the database 60 of the monitoring center 50. FIG. 2 is a table showing an example of the database 60 in which the specific information of the monitoring location is registered in the monitoring center 50 having the system configuration of FIG. As shown in FIG. 2, in this embodiment, each LAN sensor 10, 20, 30,... Has only one monitoring object 14, 24, 34,. Acquired and transmitted from the cascaded LAN network (LAN cable) to the receiving device 40 of the monitoring center 50 via the router 70 and the network 100. Therefore, an example is shown in which the monitoring location 63 is set and registered in the database 60 of the monitoring center 50 as information associated with the IP address 61 of the LAN sensor on a one-to-one basis. In FIG. 2, as other information, a LAN sensor identification number is also set and registered as sensor information 62 so that registration to the database 60 at the time of newly installing or increasing / decreasing a LAN sensor can be automatically performed. An example is shown.

  Next, the operation of each part in the LAN sensors 10 and 20 will be described with some supplementary explanation. The first LAN control unit 11 of the first LAN sensor 10 attaches the monitoring information by the detection unit 13 to the IP address of the LAN sensor 10 (first LAN control unit 11) that is the transmission source of the monitoring information. The monitoring information is transmitted to the receiving device 40 via the LAN network and the Internet 100, and the receiving device 40 receives the monitoring information transmitted from the first LAN sensor 10 via the LAN network and the Internet 100. Here, the transmission / reception operation of the monitoring information is performed according to the IPv6 protocol.

  The first LAN control unit 21 of the second LAN sensor 20 attaches the monitoring information by the detection unit 23 to the IP address of the LAN sensor 20 (first LAN control unit 21) that is the transmission source of the monitoring information. The second LAN control unit 12 of the first LAN sensor 10 is transferred to the second LAN control unit 12 of the first LAN sensor 10, and the second LAN control unit 11 of the first LAN sensor 10 is transferred to the second LAN control unit 11 of the first LAN sensor 10. And is transmitted from the first LAN control unit 11 to the receiving device 40 via the LAN network and the Internet 100. Here, the transmission / reception operation of the monitoring information is performed according to the IPv6 protocol.

  When adding a monitoring target and increasing the number of inputs of monitoring information, a LAN sensor that handles the increased monitoring information is added, and the LAN cable is connected to the second LAN control unit having a hub function in the existing LAN sensor. A cascade connection configuration is adopted through (LAN network). For example, when the number of monitoring targets is increased and a third LAN sensor is added, the second LAN control unit 22 of the second LAN sensor 20 is connected to the first LAN control unit of the third LAN sensor by a LAN cable. Just connect. Thereby, the second LAN control unit 22 of the second LAN sensor 20 receives the monitoring information from the first LAN control unit of the added third LAN sensor, and the second LAN sensor 20 of the second LAN sensor 20 The data is transferred to the first LAN control unit 21, and further transferred from the first LAN control unit 21 to the second LAN control unit 12 of the first LAN sensor 10. Further, the second LAN control unit 12 of the first LAN sensor 10 transfers to the first LAN control unit 11 of the first LAN sensor 10, and the LAN network and the Internet are transferred from the first LAN control unit 11. The data is transmitted to the receiving device 40 via 100.

  Here, as described above, there is only one sensor input to the detection units 13 and 23 of the first and second LAN sensors 10 and 20, and there is only one monitoring target to be monitored. This corresponds to a sensor in the case of a conventional security system. In addition, the receiving device 40 on the monitoring center 50 side can have additional sensors as needed, and each of the detection units 13 and 23 of the first, second,... LAN sensors 10,. ,... Can be centrally managed, and various corresponding security setting operations can be flexibly performed, and in order to perform connection control with the Internet 100, a computer that normally operates by program control is used. It is configured. The first, second,... LAN sensors 10, 20,... Are also configured by a computer that operates under program control in order to implement LAN connection control compliant with the IPv6 protocol.

(Description of operation of embodiment)
Next, an example of the operation of the security system shown in FIG. This will be described in detail with reference to the flowchart of FIG. FIG. 3 is a flowchart for explaining an example of the operation of the security system shown in FIG. 1, and shows both the operation of the LAN sensor and the operation of the receiving device 40.

  First, when a LAN sensor is newly installed, an IP address is automatically acquired by an IPv6 plug and play (PnP) function compliant with the IPv6 protocol (step S1). The LAN sensor that automatically acquired the IP address finally uses the acquired IP address and the sensor information that is the LAN sensor identification number as an installation notification signal via other cascaded LAN sensors. One LAN sensor 10 notifies the receiving device 40 via the Internet 100 (step S2). The receiving device 40 that has received the installation notification signal searches the database 60 for the sensor information 62 set corresponding to the monitoring location 63 based on the sensor information of the LAN sensor included in the installation notification signal. Then, the received IP address of the LAN sensor is set and registered in the IP address 61 of the corresponding column (step S11).

  After that, at the timing when the change in the state of the monitoring target is detected or at every predetermined period, the monitoring result of the monitoring target is used as detection information and the IP address of the LAN sensor of the transmission source is added and cascade connection is established. Finally, the receiving device 40 is notified from the first LAN sensor 10 via the Internet 100 via another LAN sensor (step S3). The receiving device 40 that has received the detection information extracts the monitoring target, that is, the monitoring location 63 from the database 60 based on the IP address included in the detection information, and has been notified as a monitoring result. Is specified (step S12).

  In addition, when it is desired to add a monitoring target, a new LAN sensor for monitoring the monitoring target is prepared and cascade-connected to an existing LAN sensor. When the LAN sensors are cascade-connected, an IP address is automatically acquired by an IPv6 plug and play (PnP) function that complies with the IPv6 protocol (step S4). The LAN sensor that has automatically acquired the IP address finally uses the acquired IP address and the sensor information that is the LAN sensor identification number as an installation notification signal for expansion via other cascaded LAN sensors. Then, the first LAN sensor 10 notifies the receiving apparatus 40 via the Internet 100 (step S5).

  Receiving device 40 that has received the installation notification signal for expansion, sensor information set corresponding to monitoring location 63 from database 60 based on the sensor information of the LAN sensor included in the installation notification signal. 62 is searched and the IP address of the received LAN sensor is set and registered in the IP address 61 of the corresponding column (step S13).

  After that, at the timing when the change in the state of the monitoring target is detected or at every predetermined period, the monitoring result of the monitoring target is used as detection information and the IP address of the LAN sensor of the transmission source is added and cascade connection is established. Finally, the receiving device 40 is notified from the first LAN sensor 10 via the Internet 100 via the other LAN sensor (step S6). The receiving device 40 that has received the detection information extracts the monitoring target, that is, the monitoring location 63 from the database 60 based on the IP address included in the detection information, and has been notified as a monitoring result. Is specified (step S14).

(Description of the effect of this embodiment)
As described in detail above, according to the present embodiment, the following effects can be obtained.

  First, unlike conventional systems, it is not necessary to install a monitoring terminal for accommodating a plurality of sensors, and it is only necessary to arrange LAN sensors corresponding to monitoring targets. Can be provided.

  Second, when a LAN sensor is installed, the IP address of the LAN sensor is automatically acquired by the plug and play function, so that setting work by the user at the time of installation is unnecessary, and the installation time is shortened. The installation cost can be greatly reduced.

  Thirdly, when a LAN sensor is added, the LAN sensor has a hub function, so it can be easily added by simply cascading to the existing LAN sensor via a LAN network (LAN cable). The cost of expansion work can be greatly reduced.

  More specifically, as described in the present embodiment, if there is even a LAN environment compliant with the IPv6 protocol, no matter how many monitoring targets increase, LAN sensors can be added as much as necessary. The number of objects to be monitored increases as in the prior art, and there is no need to add not only sensors but also monitoring terminals for capturing sensor inputs.

  Furthermore, when the LAN sensor is installed, it can be automatically operated by simply connecting the LAN sensor to the LAN cable (LAN network), so that the number of construction steps can be greatly reduced. As described above, after laying the sensor wiring, the sensor can be installed and connected, or the sensor information can be set on the monitoring terminal, or the required number of sensors can be used on the monitoring terminal. Security system that is significantly cheaper and more extensible than if a new monitoring terminal is added or the database is updated one by one on the receiving device side when the number of sensor inputs exceeds the limit. Can be provided.

  The configuration of the preferred embodiment of the present invention has been described above. However, it should be noted that such examples are merely illustrative of the invention and do not limit the invention in any way. Those skilled in the art will readily understand that various modifications and changes can be made according to a specific application without departing from the gist of the present invention. For example, the embodiment of the present invention can be expressed as the following configuration in addition to the configuration (1) in the means for solving the problems.

(2) The security system according to (1), wherein the LAN sensor is arranged for each of the monitoring targets, and the detection unit provided in the LAN sensor detects a state of the monitoring target.
(3) The security system according to (1) or (2), wherein the LAN control unit of the LAN sensor has a hub function for cascading with other LAN sensors via the LAN network.
(4) When the LAN control unit of the LAN sensor transmits the monitoring result output from the detection unit to the monitoring center, the LAN control unit transmits the LAN sensor with the IP (Internet Protocol) address of the LAN sensor. The security system according to any one of (1) to (3) above.
(5) The monitoring center includes a database that registers at least a correspondence relationship between the location where the monitoring target exists and the IP address of the LAN sensor, and the monitoring to which the IP address of the LAN sensor is attached from the LAN sensor. (4) The security system according to (4), wherein when the result is received, the location where the monitoring target of the received monitoring result is present is specified with reference to the database.
(6) The LAN control means of the LAN sensor, when the LAN sensor is connected to the LAN network, transmits the IP address of the LAN sensor to the monitoring center and registers it in the database (5) Security system.
(7) The IP address of the LAN sensor is an IP address compliant with the IPv6 standard, and is automatically assigned when the LAN sensor is connected to the LAN network by an IPv6 standard plug-and-play operation. The security system according to any one of (4) to (6) above.

It is a system configuration figure showing an example of a system configuration of a security system by the present invention. 3 is a table showing an example of a database in which specific information of a monitoring place is registered in the monitoring center having the system configuration of FIG. It is a flowchart for demonstrating an example of operation | movement of the security system shown in FIG. It is a system configuration | structure figure which shows the system configuration | structure of the conventional security system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 1st LAN sensor 10A 1st monitoring terminal 11 1st LAN control part 12 2nd LAN control part 13 Detection part 14 Monitoring object 20 2nd LAN sensor 20A 2nd monitoring terminal 21 1st LAN control Unit 22 second LAN control unit 23 detection unit 24 monitoring target 30 third LAN sensor 30A mth monitoring terminal 34 monitoring target 40 receiving device 40A receiving device 50 monitoring center 60 database 61 IP address 62 sensor information 63 monitoring location 70 Router 100 Internet (network)
100A network

Claims (4)

In a security system including a monitoring center that collects the results of monitoring the status of one or more monitoring targets via a network and implements security measures according to the collected monitoring results.
As means for monitoring the status of each of the monitoring targets, detection means for detecting the status of the monitoring target and outputting as a monitoring result;
A LAN sensor comprising at least LAN control means for controlling transmission / reception operations of information with the LAN network,
The LAN control means of the LAN sensor has a hub function for cascading with other LAN sensors via the LAN network,
The LAN sensor is arranged for each one of the monitoring targets,
The detection means provided in the LAN sensor detects a state of one of the monitoring targets,
The LAN sensor attaches an IP (Internet Protocol) address of the LAN sensor to the monitoring result output from the detection unit, and is controlled by the LAN control unit via the LAN network and the network. A security system for transmitting to the monitoring center. The monitoring center includes a database that registers at least a correspondence relationship between the location where the monitoring target exists and the IP address of the LAN sensor, and receives the monitoring result with the IP address of the LAN sensor from the LAN sensor. The security system according to claim 1 , wherein a location where a monitoring target of the received monitoring result exists is specified with reference to the database. The LAN control means of the LAN sensor transmits the IP address of the LAN sensor to the monitoring center and registers it in the database when the LAN sensor is connected to the LAN network. 2. The security system according to 2 . The IP address of the LAN sensor is an IP address conforming to the IPv6 standard, and is automatically assigned when the LAN sensor is connected to the LAN network by a plug-and-play operation of the IPv6 standard. The security system according to any one of claims 1 to 3 .

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