KR100786716B1 - Device for system setting in a sensor network having a multiple sensor node - Google Patents

Abstract

A system setup device in a sensor network equipped with plural sensor nodes is provided to simultaneously conduct system setup for overall or some of sensor nodes, thereby shortening time taken for the system setup of the sensor nodes as saving application development costs and periods for the sensor network. Plural sensor node communication interface units(230aa-230nm) transmit data for system setup to sensor nodes. Plural data relay units(220a-220n) are connected with the predetermined number of the interface units(230aa-230nm), and relay the data for the system setup to the interface units(230aa-230nm). A system controller(210) controls operation of the interface units(230aa-230nm) and the relay units(220a-220n) so as to transmit the data for the system setup to the sensor nodes.

Description

DEVICE FOR SYSTEM SETTING IN A SENSOR NETWORK HAVING A MULTIPLE SENSOR NODE}

1 is an exemplary configuration diagram of a sensor network platform according to the prior art.

2 is a diagram showing an example of system setting of a sensor network platform according to the prior art;

3 is an exemplary configuration diagram of a system setting apparatus in a sensor network including a plurality of sensor nodes according to the present invention.

4 is another exemplary configuration diagram of a system setting apparatus in a sensor network including a plurality of sensor nodes according to the present invention.

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

100: sensor network platform 110: communication chip

120: control chip 130: sensor

140: battery 150: communication interface

160: system setting device 210: system control unit

220: data relay 230: sensor node communication interface

240: system data storage

The present invention relates to a system setting apparatus in a sensor network having a plurality of sensor nodes, and more particularly, in the case of applying the application to each sensor node after the development of the sensor network application or after the application development. Unlike the conventional method of performing individual system setting for the system, it is possible to perform system setting on all or part of a plurality of sensor nodes at the same time, thereby reducing the time spent on system setting of the sensor node and developing an application for the sensor network. It saves time and cost, prevents errors due to user's mistakes and environment changes that can occur from the individual programming of sensor nodes, and reduces the maintenance cost of sensor network. And to a system setting unit in a sensor network-related service, the sensor network including a plurality of sensor nodes capable of efficiently performing a development application.

The sensor network is a concept that adds a network concept to a sensor to detect the existence and location of an object, manages and controls the network in real time, and is newly attracting attention in relation to ubiquitous computing. The USN (Ubiquitous Sensor Network) is a network configured to collect information detected by various sensors wirelessly, and USN related technologies are developed as technologies such as wireless personal area network (WPAN) and ad-hoc network are developed. Development and dissemination are expanding. Such sensor networks are expected to expand their application, especially in relation to ubiquitous computing environments.

1 is an exemplary configuration diagram of a sensor network platform according to the prior art.

As shown in the drawing, when the development of the existing sensor network platform 100 is performed, a method of attaching the sensor 130 directly to the sensor network platform 100 (on-board type) is used. The sensor network platform 100 includes various components such as a communication chip 110, a control chip (MCU) 120, or a resistor, a capacitor, or a battery 140 for supplying power, although not shown.

Meanwhile, although FIG. 1 illustrates a sensor network processing platform and a single sensor network platform in which a sensor platform is implemented on one board, the sensor network processing platform performing communication functions and a sensor platform for processing values sensed through a sensor are illustrated in FIG. It may be assumed that the complex sensor network platform is implemented on this separate board.

However, even in this case, the sensor platform is similar to that of FIG. 1 in that the sensor network is directly coupled to the sensor network processing platform to configure the sensor network platform 100. Hereinafter, a description will be given with reference to the configuration of FIG.

As shown in the sensor network platform 100, various components such as the communication chip 110 or the control chip 120 exist. Such a sensor network platform 100 may be regarded as a kind of microcomputer system, and thus system setting is necessary for the operation of the sensor network platform 100.

For example, an application development process or a developed application of the sensor network should be set in each sensor node, that is, the sensor network platform 100 in the sensor network, and when the sensor network is configured, operations such as normal operation of each sensor node should be performed. . In the process of developing such a sensor network application, the task of setting an application under development at a sensor node, setting a developed application at a sensor node, or testing a normal operation of each sensor node in each sensor network will be described below. Referred to as the term system configuration.

2 is a diagram illustrating an example of a system configuration of a sensor network platform according to the prior art.

As shown in FIG. 2, the system configuration of the conventional sensor network platform 100 uses a system setting device 160 such as a notebook or a PC and the sensor network platform 100 through a cable such as a serial cable, a USB cable, a parallel cable, or the like. After connecting 1: 1, each sensor network platform 100 performed an operation such as program download for system setting individually.

To this end, the sensor network platform 100 includes a communication interface 150 supporting communication of, for example, a serial cable, a USB cable, and a parallel cable, for communication with the system setting device 160.

Referring to FIG. 2, the sensor network platform 100 is individually set for the system setting in the conventional case. In this case, for example, when the system configuration of the sensor network having hundreds to thousands of sensor nodes is performed, the system setting work must be performed for each sensor node.

For example, even when an application to be applied to each sensor node is changed, a separate system setting task must be performed for each sensor node.

In addition, if the modification is frequently made in the process of developing an application for the sensor network, the number of such system setting operations increases exponentially.

Therefore, this task takes a lot of time because the developer has to perform a simple system configuration for each sensor node, and thus there is a problem of delay in sensor network application development time and increase in development cost.

In addition, since such a conventional system setting is performed by manually connecting sensor nodes to a system setting device by a cable, there is a possibility that an error occurs, for example, a system setting may not be made accidentally for some sensor nodes. In addition, even in the actual use of the sensor network, there is a problem that makes the universal use of the sensor network because of the problems of the system configuration.

An object of the present invention, unlike the conventional method of performing a separate system configuration for a plurality of sensor nodes in the process of developing a sensor network application or in the case of applying the application to each sensor node after the application development, the entire number of sensor nodes or Simultaneous system setup for some can reduce the time spent on sensor node system setup, reduce application development time and costs for sensor networks, and can result from individual programming of sensor nodes. It is possible to prevent errors due to changes in the environment and user error, and to reduce the cost of maintaining the sensor network, so that many sensors can efficiently develop sensor network platform technology, sensor network related service, and application development. furnace To provide a system setting apparatus in a sensor network having a card.

In order to achieve the above technical problem, the present invention provides a system setting apparatus in a sensor network including a plurality of sensor nodes, a plurality of sensor node communication interface unit for transmitting data for the system setting to the sensor node, A plurality of data relays connected to a predetermined number of sensor node communication interface units and relaying data for the system setting to the sensor node communication interface unit, and transmitting data for the system setting to the sensor node; Provided is a system setting apparatus in a sensor network having a plurality of sensor nodes including a sensor node communication interface unit and a system control unit for controlling the operation of the data relay unit.

In a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the apparatus may further include a system data storage for storing data for the system setting.

In addition, in a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the system control unit may read data for the system setting from the system data storage unit.

In addition, in a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the sensor node communication interface unit may transmit data for the system setting to the sensor node through a cable connection with the sensor node. have.

Further, in a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the cable is preferably any one of a USB, a serial, and a parallel cable.

In addition, in the system setting apparatus in the sensor network having a plurality of sensor nodes according to the present invention, the predetermined number of the sensor node communication interface unit and the data relay unit may be integrally implemented.

Further, in a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the system control unit is configured to transmit data for setting the system only to some sensor nodes among the plurality of sensor nodes in the sensor network. An operation of the sensor node communication interface unit and the data relay unit may be controlled.

In addition, in the system configuration apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the data for the system setting may be the initial configuration data of the sensor node for the operation of the sensor node.

In addition, in the system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the data for the system setting may be an application program to be performed in the sensor node.

In addition, in the system configuration apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the data for the system configuration may be test data for testing the operation of the sensor node.

In addition, in a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the system control unit is connected to only one data relay unit of the plurality of data relay units, the one data relay unit is the remaining data It is connected to the relay unit in the form of a chain may be configured to relay the data for the system setting.

In addition, in a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention, the system control unit and the data relay unit may be connected via a cable, in which case the cable is a USB, serial, parallel cable It may be any one of.

Hereinafter, an apparatus and method for setting a system in a sensor network including a plurality of sensor nodes of the present invention will be described in more detail with reference to the accompanying drawings.

3 is an exemplary configuration diagram of a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention.

As shown, a system setting apparatus in a sensor network including a plurality of sensor nodes according to the present invention includes a system control unit 210, a plurality of data relay units 220a to 220n, and a plurality of sensor node communication interface units 230aa. To 230 nm). In addition, the system data storage unit 240 may be further included.

The system controller 210 controls the data relays 220a to 220n and the sensor node communication interface 230aa to 230nm to simultaneously transmit data for system setting of each node in the sensor network to all or some of the plurality of sensor nodes. Control the operation.

That is, the system setting may be performed for all sensor nodes, or may be configured to perform system setting only for specific sensor nodes in the sensor network.

The data for system setting may be initial setting data for the operation of the sensor node, for example. That is, there are many electronic components in the sensor node. For example, in the case of a component implemented in an FPGA form, a ROM image data file for operation is required. The data for system setting may be such a ROM image data file.

Alternatively, the data for system setting may be an application program to be executed at each sensor node in the sensor network. Such an application program is not only developed and actually applied, but also includes a case for developing an application test.

Alternatively, the data for system setting may be test data for testing the operation of the sensor node. That is, test data is transmitted to test whether each sensor node is operating normally, and abnormal sensor nodes among the sensor nodes show abnormal operation with respect to such test data, and thus can be identified.

The system control unit 210 may be implemented as, for example, a computer. In other words, the configuration for controlling the system setting data with the sensor node is the system controller 210, and a computer such as a notebook can be used simply.

The data relay units 220a to 220n are connected to a predetermined number of sensor node communication interface units, and relay data for system setting to the sensor node communication interface units 230aa to 230nm.

For example, when the data relay 220a receives data for system setting from the system controller 210, the data relay 220a relays the data relay 220a to a plurality of connected sensor node communication interface units 230aa to 230am.

Sensor node communication interface units 230aa to 230am connected to one data relay unit 220a may be 10 or less for efficient relaying.

The sensor node communication interface unit 230aa to 230nm transmits data for system setting to each sensor node in the sensor network.

The sensor node communication interface unit 230aa to 230nm transmits data for system setting to each sensor node through, for example, a cable connection with the sensor node. In other words, it uses a wired connection, which is the simplest data transmission method.

In this case, the cable standard may use, for example, USB, serial, parallel cable, or other standard, and the sensor node communication interface unit 230aa to 230nm supports communication by this standard.

In addition, the apparatus for setting a system in a sensor network having a plurality of sensor nodes according to the present invention may further include a system data storage unit 250 for storing data for system setting. The system data storage unit 250 may receive and store data for system setting by the control of the system controller 210 or independently of the system controller 210.

In this case, the system control unit 210 may store data for system setting from the system data storage unit 250 when necessary, particularly when the system data storage unit 250 stores data for system setting independently of the system control unit 210. Can be controlled to read and send it to each sensor node.

Meanwhile, for example, the data relay unit 220a will be described as an example. The data relay unit 220a and the sensor node communication interface units 230aa to 230am connected thereto may be integrated.

That is, when configuring such a data relay 220a and sensor node communication interface units 230aa to 230am connected thereto in the form of a router, for example, application of a system setting apparatus in a sensor network having a plurality of sensor nodes according to the present invention. This can be done more smoothly.

For example, if the system control unit 210 is implemented using a computer, it may be applicable by connecting the integrated data relay unit and the sensor node communication interface unit to the computer.

In this case, the computer operating as the system controller 210 and the integrated data relay unit and the sensor node communication interface unit may be connected through a cable such as a USB, serial, parallel cable, or the like.

Meanwhile, in the system setting apparatus of the sensor network having a plurality of sensor nodes according to the present invention shown in FIG. 3, a plurality of data relay units 220a to 220n are directly connected to the system control unit 210, but the system has a system configuration. The controller 210 may be configured to be connected to only one data relay unit.

4 is another exemplary configuration diagram of a system setting apparatus in a sensor network including a plurality of sensor nodes according to the present invention.

In the case of FIG. 4, the system control unit 210 is connected only to the data relay unit 220a, and the data relay unit 220a is connected to the data relay unit 220b and is similarly connected to the data relay unit 220n.

Such a configuration has an advantage in that the number of sensor nodes that can be set in a system can be increased simply by additionally connecting only the data relay without changing the configuration of the system controller 210.

Other configurations are overlapped with the exemplary configurations of the present invention with reference to FIG. 3, and thus detailed descriptions thereof will be omitted.

Although the configuration of the present invention has been described in detail, it is only for illustrating the present invention, and the protection scope of the present invention is not limited thereto, and the protection scope of the present invention is defined through the description of the claims.

As described above, according to the present invention, in the case of applying the application to each sensor node after the development of the sensor network application or the application development, unlike the conventional method of performing individual system settings for the plurality of sensor nodes, System configuration can be performed simultaneously for all or part of the sensor node, reducing the time spent on system configuration of the sensor node, reducing the time and cost of application development for the sensor network, and resulting from the individual programming of the sensor node. It is possible to prevent the error caused by the change of environment and user's error and to reduce the maintenance cost of sensor network, so that it can efficiently develop sensor network platform technology, sensor network related service and application development. Can be.

Claims (13)

A system setting apparatus in a sensor network having a plurality of sensor nodes, A plurality of sensor node communication interface units for transmitting data for setting the system to the sensor node; A plurality of data relays connected to a predetermined number of sensor node communication interface units and relaying data for setting the system to the sensor node communication interface units; A system control unit controlling the operation of the sensor node communication interface unit and the data relay unit to transmit data for setting the system to the sensor node; System configuration apparatus in a sensor network having a plurality of sensor nodes comprising a. The method of claim 1, System data storage unit for storing the data for the system setting System setting apparatus in the sensor network having a plurality of sensor nodes further comprising. The method of claim 2, And the system control unit reads data for the system setting from the system data storage unit. The method of claim 1, And the sensor node communication interface unit transmits data for setting the system to the sensor node through a cable connection with the sensor node. The method of claim 4, wherein And the cable is one of a USB, a serial, and a parallel cable. The method of claim 1, And a predetermined number of the sensor node communication interface unit and the data relay unit are integrally implemented. The method of claim 1, The system control unit controls a plurality of sensor nodes that control the operation of the sensor node communication interface unit and the data relay unit to transmit data for setting the system to only some of the plurality of sensor nodes in the sensor network. System setting apparatus in a sensor network provided. The method of claim 1, And the data for setting the system is initial setting data of the sensor node for the operation of the sensor node. The method of claim 1, And the data for the system setting is an application program to be executed in the sensor node. The method of claim 1, And the data for system setting is test data for testing the operation of the sensor node. The method of claim 1, The system control unit is connected to only one data relay unit of the plurality of data relay unit, the one data relay unit is connected to the other data relay unit in the form of a chain to relay the data for setting the system System configuration apparatus in a sensor network having a node. The method of claim 1, And the system control unit and the data relay unit are connected via a cable. The method of claim 12, And the cable is one of a USB, a serial, and a parallel cable.

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