KR101519149B1 - Wireless sensor network system and method of controlling the same - Google Patents

Abstract

A wireless sensor network system and a control method thereof according to an embodiment of the present invention include a step in which a sensor node wakes up to request a management message and maintains a transmission standby state for a certain period of time before transmission of a management message request signal ; Confirming whether the sensor node in the transmission standby state has received the management message request signal broadcasted by another sensor node; When receiving the management message request signal from the other sensor node, switching to a management message reception standby state for receiving the management message broadcasted by the base station; Storing the management message received from the base station and switching to a sleep mode. According to the embodiment, it is possible to reduce the network traffic generated when a management message for network setting is provided to each sensor node, save the power consumed by the sensor node in receiving the management message, The system load of the base station can be reduced.

WSN, management message, wireless sensor network

Description

Technical Field [0001] The present invention relates to a wireless sensor network system and a control method thereof,

An embodiment of the present invention relates to a wireless sensor network system and a control method thereof.

A wireless sensor network (WSN) is a network designed to detect and collect information generated in a specific area and transmit it to a user through a wireless communication technique. In a wireless sensor network, a sensor node that collects various data over a distributed area and a base station that collects data sensed by the sensor node transmit and receive data in a multi-hop manner .

A plurality of sensor nodes are installed in a wide area to be monitored. Therefore, the processing resources are limited because the sensor node is constructed using a minimum number of components so that the sensor node can be implemented at a low cost. In addition, since the sensor node is driven by a battery and it is not easy to replace the battery of the sensor nodes installed in a wide area, various methods for minimizing power consumption are being studied.

In order to minimize the power consumption of the wireless sensor network, the sensor node maintains the sleep mode in which the power of the RF transmitting / receiving end is shut off, and wakes up only when transmitting / receiving data to / from the base station. The sensor node can be switched to a wake up state when an event such as an external interrupt or a timer interrupt occurs.

Accordingly, even when the base station provides a management message for network setting, the initially driven sensor node requests the base station to send a management message. The base station provides a management message to the sensor node requesting the management message, and the sensor node stores the received management message and then enters the sleep mode. Here, the management message may include network setting information such as a sensing data transmission period of the sensor node and the number of sensor nodes of the entire network.

As described above, in the conventional wireless sensor network control method, each sensor node transmits a management message to the base station, and the base station transmits a management message to only the sensor node that requests the management message transmission.

Accordingly, network traffic increases due to a plurality of sensor nodes requesting and receiving a management message, and the load of the base station increases because the base station must transmit a management message to each sensor node. There is also a problem that the sensor node consumes power due to the transmission request of the management message.

The embodiment of the present invention reduces network traffic generated when a management message for network setting is provided to each sensor node, saves power consumed by a sensor node in receiving a management message, The present invention provides a wireless sensor network system capable of reducing the system load of a base station and a control method thereof.

A method of controlling a wireless sensor network system according to an exemplary embodiment of the present invention includes: a step in which a sensor node wakes up to request a management message and maintains a transmission standby state for a certain period of time before transmission of a management message request signal; Confirming whether the sensor node in the transmission standby state has received the management message request signal broadcasted by another sensor node; When receiving the management message request signal from the other sensor node, switching to a management message reception standby state for receiving the management message broadcasted by the base station; Storing the management message received from the base station and switching to a sleep mode.

A wireless sensor network system according to an embodiment of the present invention includes a base station for broadcasting a management message when receiving a management message request from a sensor node; When a management message request signal of another sensor node is received in the transmission wait state, the control unit waits for a management message request and keeps the transmission standby state for a predetermined time before transmitting the management message request signal. And a sensor node for receiving the management message received from the base station, the sensor node being switched to a management message reception standby state for receiving the management message.

According to the embodiment of the present invention, the following effects are obtained.

First, it is possible to reduce the network traffic generated when a management message for setting up a network is provided to each sensor node.

Second, the sensor node can save power consumed to receive the management message.

Third, the system load of the base station caused by the transmission of the management message can be reduced.

Hereinafter, a wireless sensor network system and a control method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the exemplary embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a configuration diagram of a wireless sensor network system according to an embodiment of the present invention.

As shown in FIG. 1, the wireless sensor network may include a sensor node 40 and a base station 20.

The base station 20 generates a management message including network management information such as a sensing data transmission period of each sensor node 40 and the number of sensor nodes 40 included in the network. The base station 20 broadcasts a management message when receiving a management message request from the sensor node 40. All the sensor nodes 40 included in the sensor network can receive the management message.

The sensor node 40 wakes up to request a management message, maintains a transmission standby state for a certain time, and broadcasts a management message request signal. Accordingly, not only the base station 20 but also the adjacent sensor nodes 40 can receive the management message request signal transmitted by the other sensor node 40. Accordingly, when it is determined that the predetermined sensor node 40 has transmitted the management message request signal, the sensor node 40 does not transmit the management message request signal and is immediately switched to the management message reception standby state.

The sensor node 40 receiving the management message wakes up according to the sensing data transmission period included in the management message and transmits the sensing data to the base station 20.

The wireless sensor network may also include a router 30 for routing between the sensor node 40 and the base station 20 and a PC 10 for accessing the data collected at the base station 20 have.

The router 30 transmits data transmitted between the sensor node 40 and the base station 20.

The PC 10 provides a user interface so that the user can use the sensing data of the sensor node 40 collected in the base station 20.

In the wireless sensor network system according to the embodiment, the base station 20, in which the sensor node 40 broadcasts a management message request signal, responds thereto, also broadcasts a management message to each sensor node 40.

2 is a control flowchart of a wireless sensor network system according to an embodiment of the present invention.

2, the sensor node A 40A wakes up for a management message request (P10). After that, the sensor node A 40A temporarily holds the transmission of the management message request signal, (P12). The wait time can be set to any time using a random backoff algorithm.

The sensor node A 40A can receive the management message request signal broadcasted by the other sensor node B 40B while maintaining the transmission standby state (P14).

Upon receiving the management message request signal from the other sensor node B (40B), the sensor node A (40A) is switched to the reception standby state for receiving the management message (P16).

Upon receiving the management message request signal from the sensor node B (40B), the base station (20) broadcasts a management message (P18). The management message broadcasted by the base station 20 is received not only by the sensor node B 40B that originally requested the management message but also by the sensor node A 40A.

Then, the sensor node A 40A sets the network information such as the sensing data transmission period according to the received management message (P20), and switches to the sleep mode (P22).

In this way, the sensor node A 40A can receive the management message request signal broadcast by the adjacent sensor node B 40B in the transmission standby state for requesting the management message. Accordingly, the sensor node A 40A terminates the transmission standby state and is switched to the reception standby state in order to receive the management message broadcasted by the base station 20. [

Accordingly, it is possible to prevent the sensor nodes from duplicating the management message request signal to the base station 20, thereby saving power of the sensor node and reducing traffic. In addition, since all the sensor nodes in the transmission standby state can receive the management message broadcasted by the base station 20, the number of times the base station 20 transmits the management message is reduced and the load of the base station 20 Can be reduced.

3 is a control flowchart of a wireless sensor network system according to another embodiment of the present invention.

After the sensor node A 40A wakes up (P30), the sensor node A 40A temporarily suspends the transmission of the management message request signal and maintains the transmission standby state for an arbitrary time (P32).

The sensor node A 40A can receive the management message request signal broadcasted by the other sensor node B 40B while maintaining the transmission standby state (P34).

Upon receiving the management message in the transmission standby state, the sensor node A 40A immediately switches to the management message reception standby state (P36).

The sensor node A 40A, which has been switched to the management message reception standby state, monitors whether the reception wait time has expired (P38).

If no management message is received in the reception waiting state for receiving the management message response, the sensor node A 40A is switched to the sleep mode and maintains the sleep mode state until the next wakeup period (P40).

In this manner, the sensor node A 40A waits for a management message response of the base station 20 according to the management message request signal transmitted from the adjacent sensor node B 40B, and when the reception waiting time expires, the sensor node A 40A switches to the sleep mode do. Accordingly, when a problem occurs on the base station 20 or the network, it is possible to save power of the sensor node by preventing the sensor node from transmitting an invalid management message request signal.

4 is a control flowchart of a sensor node in a wireless sensor network system according to an embodiment of the present invention.

After the sensor node A 40A wakes up for a management message request, the sensor node A 40A temporarily holds the transmission of the management message request signal and maintains the transmission standby state for a certain period of time (S12).

In the transmission standby state, the sensor node A 40A monitors whether or not a management message request signal broadcasted by the other sensor node B 40B is received (S30).

If it is determined that the other sensor node B 40B has transmitted the management message request signal, the sensor node A 40A is switched to the management message reception standby state (S60).

When the management message request signal of the other sensor node B 40B is not received in the transmission standby state and the transmission wait time expires, the sensor node A 40A broadcasts a management message request signal to the base station 20 (S50 ).

 The sensor node A 40A switches to a reception waiting state for receiving a management message (S60), and monitors whether a management message has been received (S70).

When the management message is received, the sensor node A 40A stores the management message (S80) and then switches to the sleep mode (S100).

Even if the management message is not received, the sleep mode is changed to the sleep mode until the next wakeup period (S100).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

1 is a block diagram of a wireless sensor network system;

BACKGROUND OF THE INVENTION Field of the Invention [0001]

3 is a control flowchart of a wireless sensor network system according to another embodiment of the present invention.

FIG. 4 is a flowchart illustrating a control of a sensor node in a wireless sensor network system according to an embodiment of the present invention. FIG.

Claims (8)

The sensor node wakes up for a management message request and maintains a transmission standby state for a certain period of time before transmission of a management message request signal; Confirming whether the sensor node in the transmission standby state has received the management message request signal broadcasted by another sensor node; When receiving the management message request signal from the other sensor node, switching to a management message reception standby state for receiving the management message broadcasted by the base station; And storing the management message received from the base station and switching to a sleep mode. The method according to claim 1, Wherein the sensor node wakes up for a management message request and maintains a transmission wait state for a predetermined time before transmitting the management message request signal, And maintaining a transmission wait state for the arbitrary time using a random backoff algorithm. The method according to claim 1, Determining whether the retention time of the predetermined transmission wait state has expired when the management message request signal of the other sensor node is not received; And broadcasting the management message request signal when the retention time of the transmission wait state has expired. The method according to claim 1, Determining whether or not the holding time of the predetermined waiting state has expired when the management message is not received in the waiting state of receiving the management message; And switching to a sleep state when the retention time of the reception waiting state has expired. The method according to claim 1, The management message includes: A sensing data transmission period information of the sensor node, and a number of sensor nodes in the network.  A base station for broadcasting a management message; When a management message request signal of another sensor node is received in a waiting state in the transmission standby state, And a sensor node which is switched to a management message reception standby state for receiving a management message and receives the management message received from the base station. The method according to claim 6, The sensor node comprises: And broadcasts the management message request signal when the control message request signal of the other sensor node is not received. The method according to claim 6, The sensor node comprises: And if the management message is not received in a state of waiting for reception of the management message, the wireless sensor network system switches to a sleep state.

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