KR100791913B1 - Tester for node module of ubiquitous sensor network system, test method for node module and remote monitoring apparatus for ubiquitous sensor network system - Google Patents

Abstract

A tester for node modules in a ubiquitous sensor network system, a remote monitoring device therein, and a method for testing node modules are provided to save the time, expenses, and man power required to test all node modules one by one by transmitting test information to one or more among node modules having the same specifications, analyzing responses, and measuring error rates or reliability. A tester(210) for node modules in a ubiquitous sensor network system comprises an input part(211), a storage part(212), a communication part(213), an output part(214), and a control part(215). The input part(211) receives a command from a user who tries to test a node module(221). The storage part(212) stores test information to test whether the node module(221) works normally when the node module(221) is overloaded. The communication part(213) transmits and receives signals with the node module(221). The output part(214) displays a test result for the node module(221). The control part(215) loads test information from the storage part(212) according to the user's command, transmits it to the communication part(213), receives a response signal from the node module(221), compares the response signal with the test information, and transmits a test result to the output part(214).

Description

TEST FOR NODE MODULE OF UBIQUITOUS SENSOR NETWORK SYSTEM, TEST METHOD FOR NODE MODULE AND REMOTE MONITORING APPARATUS FOR UBIQUITOUS SENSOR NETWORK SYSTEM}

1 is a diagram for explaining a general ubiquitous sensor network system.

2 is a view for explaining a node module tester of the ubiquitous sensor network system according to an embodiment of the present invention.

Figure 3 is a node module test method according to an embodiment of the present invention.

4 is a view for explaining a remote monitor value of the ubiquitous sensor network system according to an embodiment of the present invention.

FIG. 5 is a view for explaining an example of the tester shown in FIG. 4; FIG.

<Explanation of symbols for the main parts of the drawings>

210,410: tester

211,411 input unit 212 storage unit

213,412: communication unit 214,413: output unit

215,414: control unit

430: Gateway

440: base node module

The present invention relates to a node module tester for a ubiquitous sensor network system, a node module test method, and a remote monitoring apparatus for a ubiquitous sensor network system. The present invention relates to a node module tester and a method for easily testing a node module.

Ubiquitous Sensor Network (USN) is a new concept of ubiquitous computing technology, Ubiquitous Computing (IT) .It attaches electronic identification tags to all necessary objects and based on them, By detecting environmental information (temperature, humidity, pressure, pollution, crack, etc.), it connects to the network in real time so that related information can be managed from a remote server.

Among the technologies related to ubiquitous, there is a technology related to a network system composed of a plurality of node modules, a base module and a management server capable of wireless communication with each other. This network system is briefly described with reference to FIG. 1 as follows.

The plurality of node modules 120 detects the surrounding physical environment (temperature, humidity, etc.), and then transmits information about the detected physical environment to the neighboring node module 120, and the neighboring node module 120 When the base node module 110 receives the information about the physical environment detected by a specific node module 120 continuously through the process of transmitting to the neighboring node module 120 again, the base node module ( 110 is to transmit this to the management server 100, so that the management server 100 can monitor the physical environment around the plurality of node modules 120 are located. Therefore, the administrator is able to grasp the physical environment around each node module 120 is located through the information input to the management server 100, to manually or to implement the physical environment around each node module 120 is located. In some cases, it can be controlled automatically.

According to the above-described network system, since the plurality of node modules 120 and the base node module 110 can perform wireless communication with each other, there is an advantage in terms of installation advantages and convenience in use, and thus the central development technology in the ubiquitous field It is continuously being studied.

Many of these node modules need to undergo some testing before sale and installation, once the product has been produced. However, no device or method for testing has been proposed.

In addition, the system may be installed at a long distance from the place where the administrator is located, in which case it is necessary to monitor the node modules of the system.

The present invention has been made to solve the above-described problems, the node module of the ubiquitous sensor network system that can easily test the state of the node modules located in the distance, or when the test is required after the node module is produced Its purpose is to provide testers, node module test methods, and remote monitoring of ubiquitous sensor network systems.

A ubiquitous sensor network system according to the present invention for achieving the above object, the input unit for receiving a command from the administrator to test the node module; A storage unit for storing test information for testing the node module; Communication unit for transmitting and receiving a signal with the node module; An output unit for displaying a test result of the node module to an administrator; And loading the test information from the storage unit and transmitting the test information to the communication unit according to a user's command input from the input unit, and receiving a response signal of the node module with respect to the test information through the communication unit. A control unit which transmits the test result to the output unit after comparative analysis; It includes.

Here, the communication unit is preferably a test node module capable of wireless communication with the node module.

On the other hand, the node module test method according to the present invention for achieving the above object, the input step of receiving a command from the administrator to test the node module; A loading step of loading test information according to a command received from the manager; A transmission step of transmitting the test information to the node module side; A receiving step of receiving a response signal of the node module according to the test information; A comparative analysis step of comparing and analyzing the response signal and the test information; An output step of outputting a test result according to the comparative analysis step; It includes.

In addition, the remote monitoring device of the ubiquitous sensor network system according to the present invention for achieving the above object, receives a command from the administrator, outputs a request signal for monitoring the node module of the remote location, and the information on the node module A tester for analyzing and displaying; A gateway for connecting to a public communication network; And a base node module for receiving the request signal from the tester side, transmitting the request signal to the gateway side, and receiving information about the node module of the remote location from the gateway side and transmitting the information to the tester side. It includes.

At this time, the tester, the input unit for receiving a command from the administrator to monitor the node module of the remote; Communication unit for transmitting and receiving a signal with the base node module; An output unit for displaying information on the node module of the remote location to an administrator; And generating a request signal according to a user's command input from the input unit and transmitting the request signal to the communication unit, receiving and analyzing information on the node modules of the remote location through the communication unit, and transmitting the result to the output unit side. A control unit; It is preferable to include.

Hereinafter, preferred embodiments will be described so that the present invention described above can be understood in more detail. Prior to the description, the node module tester (hereinafter referred to as 'node module tester') of the ubiquitous sensor network system according to the present invention is a management server 100 (in the ubiquitous sensor network system shown in FIG. 1). In the embodiment, it is noted that the reference numeral 220 and the base node module 110 (in the embodiment of the present invention is operated in conjunction with the node module 221 to be tested).

2 is a view for explaining a node module tester according to an embodiment of the present invention. As shown in FIG. 2, the tester 210 for the node module 221 according to the present invention includes an input unit 211, a storage unit 212, a communication unit 213, an output unit 214, and a controller 215. It includes.

The input unit 211 receives a command from an administrator to test the node module 221.

The storage unit 212 stores test information for testing the node module 221. Here, the test information may be information sent from each node module 120 installed at a corresponding position in FIG. 1. In FIG. 1, the names are divided into the base node module 110 and the node module 120, but according to various embodiments, the base node module and the node module may have the same or different hardware configuration, and similarly, the software The configuration may be the same or different. As described above, in FIG. 1, each node module 120 is capable of wireless communication with each other, and transmits collected information (temperature, humidity, pressure, pollution, crack, roughness, etc.) to a neighboring node module 120. Will finally come to the management server (100). However, depending on the situation, there may be a case where the information sent from the neighboring node module 120 is concentrated in one node module 120 and becomes overloaded. However, even in such a case, it should be possible to operate correctly, and the node module 221 to be tested in the present invention refers to a node module in such a situation. That is, the storage unit 212 sends all the information collected by the node module at the location to the node module 221 to be tested. For example, it is assumed that 1000 node modules (including base node modules) are installed in a ubiquitous sensor network system, and one of the node modules transmits temperature information collected from the remaining 999 node modules. That is, the storage unit 212 stores temperature information collected by 999 virtual node modules.

The communication unit 213 is provided to transmit and receive a signal with the node module 221. At this time, the communication unit 213 may be a test node module capable of wireless communication with the node module 221, where the test node module is a node module that is the same as the node module 221 to be tested in hardware or software. Say. That is, any one of the node modules 120 among the node modules 120 of FIG. 1 capable of wireless communication with each other may be used as a test node module, that is, the communication unit 213.

The output unit 214 displays a test result for the node module 221 so that an administrator can check it.

The control unit 215 loads the test information from the storage unit 212 and transmits the test information to the communication unit 213 according to the user's command input from the input unit 211, and transmits the node module for the test information through the communication unit 213. After receiving the response signal of 221 and comparing and analyzing the test information, the test result is transmitted to the output unit 214.

Referring to Figure 3, the node module tester 210 will be described how to test the node module as follows.

First, in order to test the node module 221, a command is input from an administrator <S310>. The control unit 215 loads the test information according to the command input from the administrator in the storage unit 212 and transmits it to the communication unit 213, and the communication unit 213 transmits the test information to the node module to be tested. Transmit to step 221 <S330>. At this time, the test information may include various sensor information (temperature, humidity, pressure, contamination, crack, roughness, etc.), alarm presence information, topology, packet list, reliability information, operation status, and the like. Can be. The node module 221 transmits the test information thus received to the management server 220. At this time, if the node module 221 can afford the test information normally, the received test information is sent to the management server 220 as it is. As you will see, overloading may cause errors for some information. This error is sufficiently taken into account in the manufacturing of the node module 221, and the management server 220 transmits a response signal for the received test information back to the node module 221 to determine the reliability according to the error. The node module 221 transmits the response signal to the communication unit 213 of the tester 210. The communication unit 213 receives the response signal of the node module 221 and transmits it to the control unit 215, and the control unit receives the received response signal and the test information loaded and transmitted from the storage unit 212. By comparing and analyzing each other (S350), the test result is transmitted to the output unit 214, and the output unit 214 displays the test result to the manager (S360).

That is, the node module tester 210 according to the present invention transmits test information in connection with the management server 220 of the ubiquitous sensor network system, receives a response signal thereto, and compares and analyzes it to determine whether it operates normally. And, to implement a loop-back system (Loop-Back System) to check the reliability, etc., and transmits the test information of a specific condition to the node module 221 which is the test target of any one of the node modules of the same specification By verifying the response, the test for the node module can be simplified after the product is produced or before it is installed in the location.

By using the method for inspecting the node module 221 in the node module tester 210 described above, a remote monitoring value capable of monitoring and managing the node modules of the ubiquitous sensor network system that is far apart in the distance can be proposed. have. 4 is a conceptual diagram illustrating a remote monitoring apparatus (hereinafter, referred to as a "remote monitoring apparatus") of the ubiquitous sensor network system 490. The remote monitoring device according to an embodiment of the present invention includes a tester 410 and a gateway. 430 and the base node module 440.

The tester 410 receives a command from an administrator, outputs a request signal for monitoring a node module (not shown) of a ubiquitous sensor network system 490 at a remote location, and analyzes and displays information about the node module. .

As shown in FIG. 5, the tester 410 preferably includes an input unit 411, a communication unit 412, an output unit 413, and a control unit 414.

The input unit 411 receives a command from an administrator to monitor a remote node module.

The communication unit 412 is provided to transmit and receive signals with the base node module 440. As described above, the communication unit 412 has a test node having the same specifications as the node module 120 of FIG. 1 capable of wireless communication with each other. It may be a module (the same as the node module 120, and only a name is referred to as a test node module because it is connected to the tester 410).

The output unit 413 displays the information on the remote node module for the administrator to check.

The controller 414 generates a request signal according to a user's command input from the input unit 411, transmits the request signal to the communication unit 412, and receives and analyzes information on remote node modules through the communication unit 412. The result is then sent to the output unit 413 side.

The gateway 430 is provided for connecting to the public communication network 480.

The base node module 440 receives the request signal output from the tester 410, that is, output from the communication unit 412 of the tester 410, and transmits the request signal to the gateway 430. Information about the module is received from the gateway 430 and transmitted to the tester 410, that is, to the communication unit 412 of the tester 410.

That is, when the tester 410 monitors a node module remotely (for example, when the tester 410 is located in Seoul and wants to monitor the node modules of the ubiquitous sensor network system 490 in Jeju Island) When the command is input, the communication unit 412 of the tester 410 transmits a request signal to the base node module 440 capable of wireless communication. In order to send such a request signal to a remote site, a public communication network 480 (mobile or network, wired or wireless communication network such as the Internet network) may be used, and the gateway 430 is provided to transmit and receive signals through the communication network 480. . When the request signal reaches the management server 491 of the ubiquitous sensor network system 490 of the remote place through the gateway 430, information about the node modules stored in the management server 491 may be retrieved. Of course, a plurality of node modules (not shown) may be scattered in the ubiquitous sensor network system 490 at a remote location, and the management server 491 may provide information about the node module through another base node module (not shown). Can be collected. In this case, the management server 491 receiving the request signal may collect information on the node module in real time through the base node module and transmit the information to the tester 410. The process of transmitting the information about the node module to the tester 410 side is a reverse process of the process of transmitting the request signal to the management server 491, that is, the communication network 480, the gateway 430, the base node module 440. , Which is transmitted in the process of the tester 410, which may be described as an inverse process of the process of transmitting the request signal.

Of course, the remote ubiquitous sensor network system 490 may further include another gateway (not shown) for the management server 491 to be associated with the communication network 480.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but the above-described embodiments have been described by way of example only, the present invention is limited to the above embodiments. It should not be understood that the scope of the present invention is to be understood by the claims and equivalent concepts described below.

As described in detail above, according to the present invention, the test information of a specific condition is transmitted to any one of a plurality of node modules having the same specification or a predetermined number of test modules, and the response thereto is compared and analyzed. By measuring and measuring the error rate or reliability, it is possible to reduce the time, cost, and manpower that all node modules had to be tested in order to test whether or not it is a normal product. In addition, monitoring and testing of remote node modules can be made easily.

Claims (5)

An input unit for receiving a command from an administrator to test the node module; A storage unit for storing test information for testing whether the node module can be operated properly even when the node module is overloaded; Communication unit for transmitting and receiving a signal with the node module; An output unit for displaying a test result of the node module to an administrator; And The test unit loads the test information from the storage unit and transmits the test information to the communication unit according to a user's command input from the input unit, and receives a response signal of the node module with respect to the test information through the communication unit. A control unit which compares the response signal and transmits the test result to the output unit; Tester for a node module of the ubiquitous sensor network system comprising a. The method of claim 1, The communication unit is a node node tester of the ubiquitous sensor network system, characterized in that the test node module capable of wireless communication with the node module. An input step of receiving a command from an administrator to test a node module; A loading step of loading test information for a test, such as whether the node module can be correctly operated even when the node module is overloaded according to a command received from the manager; A transmission step of transmitting the test information to the node module side; A receiving step of receiving a response signal of the node module according to the test information; A comparative analysis step of comparing and analyzing the test information transmitted in the transmitting step and the response signal received through the receiving step; And An output step of outputting a test result according to the comparative analysis step; Node module test method comprising a. A tester that receives a command from an administrator, outputs a request signal for monitoring whether the node module is properly operated even when the remote node module is overloaded, and analyzes and displays information on the node module; A gateway for connecting to a public communication network; And A base node module for receiving the request signal from the tester side, transmitting the request signal to the gateway side, and receiving information about the node module of the remote location from the gateway side and transmitting the received information to the tester side; Remote monitoring device of the ubiquitous sensor network system comprising a. The method of claim 4, wherein The tester, An input unit for receiving a command from an administrator for monitoring the remote node module; Communication unit for transmitting and receiving a signal with the base node module; An output unit for displaying information on the node module of the remote location to an administrator; And Generating a request signal according to a user's command input from the input unit to the communication unit side, receiving and analyzing information about the node modules of the remote location through the communication unit, and transmits the result to the output unit side Control unit; Remote monitoring device of the ubiquitous sensor network system comprising a.

Images