KR20100121411A - Asynchronous multi channel adaptation method for wireless ad-hoc network - Google Patents

Abstract

PURPOSE: An asynchronous multichannel adaptation method for saving the resources of the entire network in a wireless AD hoc network is provided to improve the reliability and expandability of data transmission. CONSTITUTION: A new node participating in a wireless ad hoc network searches a channel(S10). The new node selects its own reception channel. The new node transmits the reception channel information to a peripheral node(S20). The new node obtains circumferential channel information. The new node as performs the channel modification(S30).

Description

Asynchronous Multichannel Adaptation in Wireless Ad Hoc Networks {ASYNCHRONOUS MULTI CHANNEL ADAPTATION METHOD FOR WIRELESS AD-HOC NETWORK}

The present invention relates to an asynchronous multi-channel adaptation method in a wireless ad hoc network, and more particularly, each node constituting the wireless ad hoc network receives data from neighboring nodes through its reception channel and receives a destination node. In order to transmit data through the channel, new nodes participating in the wireless ad hoc network can utilize multiple channels through channel discovery, receiving channel information transmission, and channel change process, thereby ensuring the reliability of data transmission in the wireless ad hoc network. And techniques for improving scalability.

The present invention is derived from a study conducted as part of the IT source technology development project of the Korea Institute of Industrial Technology Evaluation and Planning [Task Management No .: 2008-F-052, Title: QoS and Scalability Support (S-MoRe) Sensor Network Enhancement] Technology Development (Standardization)].

Wireless data transmission in wireless ad hoc networks is vulnerable in terms of reliability and scalability due to frequency interference and unstable RF channel characteristics between nodes.

In order to solve such a problem, there are channel hopping and channel adaptation.

According to the channel hopping scheme, all nodes constituting the wireless ad hoc network transmit and receive synchronization signals to perform channel hopping periodically in a synchronized structure. However, in this case, since the entire network must be kept in sync, the overhead and stability may be a problem.

In addition, according to the channel adaptation method, while performing data communication in a given channel, if the quality of the channel being used is deteriorated, the channel adaptation moves to a new channel and continues data communication. After the channel adaptation method is divided into synchronous and asynchronous, the synchronous method has a problem with synchronization similar to the channel hopping method described above.

Therefore, there is a need for a technique for allocating and maintaining multiple channels asynchronously with simple and low control overhead.

Accordingly, the present invention is to solve the above problems of the prior art, each node constituting the wireless ad hoc network receives data from the neighboring node through its receiving channel, and the data is received through the receiving channel of the destination node. To enable transmission, new nodes participating in the wireless ad hoc network can utilize multiple channels through channel discovery, transmission of received channel information, and channel change, thereby improving reliability and scalability of data transmission in the wireless ad hoc network. An asynchronous multichannel adaptation method in a wireless ad hoc network is provided.

In an asynchronous multichannel adaptation method in a wireless ad hoc network according to an embodiment of the present invention for achieving the above object, a channel in which a new node participating in the wireless ad hoc network searches for a channel and selects its own reception channel. Search process; And receiving channel information transmission process of the new node transmitting the selected receiving channel information of the selected node to neighboring nodes.

Accordingly, each node constituting the wireless ad hoc network may receive data only through its own reception channel, and may move to a reception channel of a destination node, which is a destination of data, to transmit data for transmission of data.

The channel discovery process may further include: transmitting, by the new node, a beacon request (Beacon Requset) at predetermined time intervals in all available channels according to an active scan scheme; A coordinator receiving the beacon request, transmitting a beacon at predetermined time intervals in all available channels; And selecting, by the new node, its own receiving channel by using channel information on neighboring nodes obtained from the beacons received from the coordinator node.

In the selecting of the reception channel, when the new node receives a plurality of beacons through a plurality of channels, it is preferable to select a channel having the best quality among the plurality of channels as its reception channel.

The channel discovery process may further include: transmitting, by the new node, an association request including its reception channel information through a reception channel of the coordinator node; And receiving, by the new node, an association response to the access request from the coordinator node through its receive channel.

The receiving channel information transmitting process may further include: transmitting, by the new node, a hello frame including its receiving channel information on all available channels; And receiving, by the new node, a hello response from at least one neighbor node that has received the hello frame through its receive channel.

On the other hand, in the asynchronous multi-channel adaptation method in a wireless ad hoc network according to another embodiment of the present invention, after the receiving channel information transmission process, the channel change process in which the new node acquires the neighbor channel information to perform a channel change It may further include.

In this case, the channel changing process may include: transmitting a channel probe request for requesting a channel probe frame for checking a channel to a neighbor node by a new node; And the new node sequentially receiving a channel probe response to the channel probe request and a channel probe from the neighbor node.

Accordingly, the new node may change its reception channel by using the neighbor channel information obtained from the channel probe.

According to the present invention, in order to solve the problem of reliability of data transmission and scalability of a network in a wireless ad hoc network, an asynchronous multichannel adaptation scheme with simple and low control overhead is proposed.

Using this asynchronous multichannel adaptation scheme, not only can the interference and stability of the wireless channel be obtained, but also have the additional advantage of reusing space and saving resources of the entire network.

In particular, when the wireless ad hoc network is configured in a large scale, the channel environment may be unstable spatially or temporally. According to the present invention, a simple and low network load may be obtained by asynchronously using available multichannels. do.

In addition, assuming that the link channel between all nodes constituting the wireless ad hoc network is asymmetrical, the characteristics of the actual wireless environment can be reflected as much as possible, thereby providing an asynchronous multichannel adaptation method with high excellence and utility.

1 is a view for explaining a method of using a receiver-based asymmetric channel,
2 is a flowchart of an asynchronous multichannel adaptation method according to the present invention;
3 is a detailed flowchart of a channel discovery process;
4 is a detailed flowchart of a reception channel information transmission process; and
5 is a detailed flowchart of a channel change process.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing the preferred embodiment of the present invention in detail, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

1 is a view for explaining a method of using a receiver-based asymmetric channel.

According to the present invention, every node constituting the wireless ad hoc network has a reception channel which it uses to receive data, and receives data only through this reception channel.

In addition, in order to transmit data, each node moves to a receiving channel of a destination node, which is a destination of data, and transmits data.

In this case, if the channel environment is symmetrical, the ACK frame may be received through the same channel, that is, the receiving channel of the receiving node. Otherwise, the ACK frame may move to the receiving channel of the transmitting node to receive the ACK frame.

In order to perform data communication in a manner of receiving data through a reception channel of a reception node as described above with reference to FIG. 1, the present invention selects a reception channel through an asynchronous multichannel adaptation process described below and receives channel information. Is transmitted to neighboring nodes and channel change is performed as needed.

2 is a flowchart of an asynchronous multichannel adaptation method according to the present invention.

As shown in FIG. 2, the asynchronous multi-channel adaptation method according to the present invention includes a channel search process (S10) in which a new node searches for a channel and selects its own reception channel to participate in a wireless ad hoc network. The new node may be configured to include a reception channel information transmission process (S20) for transmitting its reception channel information to neighboring nodes and a channel change process (S30) for channel change, wherein the channel change process (S30) Optionally, if a change is needed.

Hereinafter, each process of the asynchronous multichannel adaptation method according to the present invention will be described in more detail with reference to FIGS. 3 to 5.

3 is a detailed flowchart of a channel discovery process, in which a new node discovers a channel and selects its own reception channel to join a wireless ad hoc network.

In FIG. 3, it is assumed that the number of available channels is four (C1 to C4), and the number of available channel searches is assumed twice. However, the number of available channels and the number of available channel searches are not limited thereto.

First, the new node transmits a beacon request (Beacon Requset) at a predetermined time interval T in all available channels according to an active scan scheme (S11).

Accordingly, the coordinator, which is the neighboring node that receives the beacon request, transmits a beacon at a predetermined time interval T in all available channels, like the new node (S12). In this case, the coordinator node refers to a node having a routing function and a network participation function in a wireless ad hoc network.

Accordingly, the new node acquires channel information about the neighboring nodes using the beacon frame received from the coordinator node, and thus can select its own receiving channel. In this case, when a new node receives a plurality of beacon frames in each of the plurality of channels, a channel having a higher quality may be selected as its reception channel using channel information obtained from the received beacon frame. For example, in FIG. 2, the new node may select one channel C1 among its two channels C1 and C3 that have received the beacon frame as its receiving node.

Thereafter, the new node sends an association request S13 through the coordinator node's receive channel C4, which includes the receive channel information selected by the new node.

Thereafter, the coordinator node receiving the access request from the new node transmits an association response S14 through the reception channel C1 of the new node.

FIG. 4 is a detailed flowchart illustrating a process of transmitting received channel information, and illustrates a process of transmitting received channel information to neighboring nodes when a new node participating in a wireless ad hoc network determines its own received channel.

The new node that has selected its own reception channel through the process shown in FIG. 3, carries its own reception channel information in a hello frame and transmits the received channel information to one or more neighboring nodes located nearby (S21). In this case, it is assumed that the new node selects C3 as its reception channel.

Accordingly, neighbor nodes 1 and 2 receiving the hello frame from the new node acquire the reception channel information of the new node from the hello frame, and then data can be transmitted through the reception channel of the new node. In addition, neighbor nodes 1 and 2 transmit a hello response (HELLO REPLY) for the received hello frame through the reception channel of the new node C3 (S22).

FIG. 5 is a detailed flowchart illustrating a channel change process and illustrates a process of obtaining channel information by performing channel change by requesting transmission of a channel probe frame to a neighbor node when channel change is required.

In a wireless ad hoc network, a channel requesting a channel probe frame for inspection of a channel to a neighboring node, in order for any requesting node to verify that a particular channel is no longer valid during operation, or to obtain information about a new channel. The probe request may be transmitted (S31).

Accordingly, the neighbor node having received the channel probe request transmits a channel probe response to the channel probe request to the request node (S32), and transmits the channel probe to the requesting node to provide information about the channel (S33).

Accordingly, the requesting node can obtain the surrounding channel information from the received channel probe and use this to select a new channel as the receiving channel.

The present invention is not limited by the above-described embodiment and the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be substituted, modified, and changed in accordance with the present invention without departing from the spirit of the present invention.

S10: Channel Discovery Process
S20: Receiving channel information transmission process
S30: Channel Change Process

Claims (10)

A channel discovery process in which a new node participating in the wireless ad hoc network searches for a channel and selects its own reception channel; And
And receiving channel information transmission of the new node to transmit the selected reception channel information of the selected node to a neighboring node.
The method of claim 1,
Each node constituting the wireless ad hoc network receives data only through its own receiving channel.
The method of claim 2,
And each node constituting the wireless ad hoc network moves to a reception channel of a destination node which is a data destination and transmits data for transmission of data.
The method of claim 1, wherein the channel searching process comprises:
Transmitting, by the new node, a beacon request (Beacon Requset) at predetermined time intervals in all available channels according to an active scan scheme;
A coordinator receiving the beacon request, transmitting a beacon at predetermined time intervals in all available channels; And
And selecting, by the new node, its own receiving channel using channel information on neighboring nodes obtained from the beacons received from the coordinator node.
The method of claim 4, wherein
Selecting the receiving channel,
And when the new node receives a plurality of beacons through a plurality of channels, selects a channel having the best quality among the plurality of channels as its reception channel.
The method of claim 4, wherein the channel search process comprises:
Sending, by the new node, an association request containing its own channel information through a channel of the coordinator node; And
And the new node receiving an association response to the connection request from the coordinator node through its receive channel.
The method of claim 1, wherein the receiving channel information transmission process comprises:
Transmitting, by the new node, a hello frame containing its received channel information in all the available channels; And
And receiving, by the new node, a hello response from at least one neighbor node that has received the hello frame through its receive channel.
The method of claim 1,
After the reception channel information transmission process,
And performing a channel change by the new node acquiring peripheral channel information.
The method of claim 8, wherein the channel change process,
Transmitting, by the new node, a channel probe request for requesting a channel probe frame for checking a channel to a neighbor node; And
And the new node sequentially receives a channel probe response to the channel probe request and a channel probe from the neighbor node.
The method of claim 9,
And the new node changes its reception channel using the neighbor channel information obtained from the channel probe.

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