KR100638718B1 - Channel preemption communication method according to ieee 802.15.4 - Google Patents

Abstract

The present invention relates to a communication method between a coordinator and a network device according to IEEE 802.15.4. According to the present invention, a channel preemption according to IEEE 802.15.4 in which a predetermined network device among the plurality of network devices preempts a predetermined channel and continuously communicates with the coordinator during communication between the coordinator and the plurality of network devices according to IEEE 802.15.4. A communication method, comprising: creating a beacon in which the coordinator records a channel preemption field indicating a predetermined channel preemption of a predetermined network device; Transmitting, by the coordinator, a beacon in which the channel preemption field is recorded to the plurality of network devices; And continuing, by the coordinator, the channel preemption network device recorded in the channel preemption field of the beacon among the plurality of network devices that have received the beacon, preoccupying the predetermined channel to continuously communicate.

IEEE 802.15.4, Beacons, Channel Preemption, Coordinator, Network Devices, Header Frames

Description

Channel preemption communication method according to IEEE 802.15.4 {CHANNEL PREEMPTION COMMUNICATION METHOD ACCORDING TO IEEE 802.15.4}             

1 is a diagram illustrating an example of a personal area network according to IEEE 802.15.4.

2 is a view showing a communication method according to a conventional beacon mode.

3 is a flowchart illustrating a channel preemption communication method according to IEEE 802.15.4 of the present invention.

4 is a diagram illustrating an example of a beacon header frame according to the present invention.

* Explanation of symbols for main parts of drawings *

10: PAN 11: Coordinator

12a, 12b: Network device 21: Beacon

41a, 41b: Reserved area

The present invention relates to a method of communication between a coordinator and a network device according to IEEE 802.15.4. More particularly, when the coordinator and the network device preempt a predetermined channel for continuous communication, other network devices intervene to communicate. The present invention relates to a channel preemption communication method according to IEEE 802.15.4 in which the coordinator and a network device can continuously communicate by using a preempted channel by preventing disconnection.

In general, IEEE 802.15.4 refers to a standard for a low-rate wireless personal area network (LR-WPANs), which is divided into three bands and used for each frequency band. Refers to a system that communicates by setting different spreading methods and data rates.

IEEE 802.15.4 aims at small, low power, and low cost products, and is currently attracting attention as a technology for ubiquitous computing and the near field communication market within 10 to 20m and recently attracting attention in wireless networking in homes and offices. .

Recently, as the specification for the IEEE 802.15.4 medium access control (MAC) layer is confirmed, interest in various applications using the same has increased. The specification for the IEEE 802.15.4 MAC layer is a protocol that enhances low-power low-speed communication and is known to be suitable for sensor networks or low-speed communication. In particular, research and development is needed to be able to use in low-speed communication modules such as a wireless mouse or a wireless headset.

1 is a diagram illustrating an example of a personal area network (PAN) according to the general IEEE 802.15.4. Referring to FIG. 1, in the personal area network 10 according to IEEE 802.15.4, the coordinator 11 and the lower network devices 12a and 12b are centered around the coordinator 11. Has a structure connected to The coordinator 11 serves as a host of the personal area network 10 according to IEEE 802.15.4, and relays data within the personal area network 10 according to IEEE 802.15.4 and IEEE 802.15.4. It functions to manage the personal area network 10 according to. The network devices 12a and 12b represent end devices capable of communicating within the personal area network 10 according to the IEEE 802.15.4.

A communication method between the coordinator 11 and the network devices 12a and 12b defined in IEEE 802.15.4, wherein the coordinator 11 is a beacon at regular intervals from the coordinator 11 to the network devices 12a and 12b. There is a beacon mode for transmitting the non-beacon (non-beacon) mode does not transmit the beacon.

FIG. 2 is a diagram illustrating a communication method according to a beacon mode among these communication methods. In the beacon mode communication as shown in FIG. 2, the coordinator (11 in FIG. 1) periodically performs a beacon network device (12a and 12b of FIG. It is possible to transmit data in intervals 22 and 23 that do not transmit beacons while maintaining data synchronization with each network device by transmitting to the network. The sections 22 and 23 not transmitting the beacon are sections 22 to which a competition scheme based on carrier sense multiple access-collision avoidance (CSMA-CA) is applied and sections 23 through which communication is performed by guaranteed channel allocation. Can be divided into

In addition, in the non-beacon mode communication, beacons are not periodically transmitted, and communication is always performed as in the section 23 where communication is performed by the channel assignment.

In the communication method of the coordinator 11 and the network devices 12a and 12b as described above, since the beacons must be periodically transmitted in the beacon mode, the coordinator 11 and the network devices 12a and 12b are continuous without disconnection of communication. If communication needs to occur, there is a problem that communication is interrupted by beacon transmission.

In addition, in the non-beacon mode, when the coordinator 11 and the network device (for example, 12a) communicate with the other channel device 12b while requesting communication, the coordinator 11 for the corresponding channel There is a problem in that continuous communication cannot be made because the occupation must be determined again.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and when a coordinator and a plurality of network devices communicate with each other according to IEEE 802.15.4, a predetermined network device among the plurality of network devices preempts a predetermined channel to disconnect the communication. It is an object of the present invention to provide a channel preemption communication method according to IEEE 802.15.4 that can continuously communicate with the coordinator without the need.

In order to achieve the above object, according to the present invention, IEEE 802.15 in which a predetermined network device among the plurality of network devices preempts a predetermined channel and continuously communicates with the coordinator during communication between the coordinator and the plurality of network devices according to IEEE 802.15.4. In the channel preemption communication method according to .4,

Creating, by the coordinator, a beacon that records a channel preemption field indicating a predetermined channel preemption of a predetermined network device;

Transmitting, by the coordinator, a beacon in which the channel preemption field is recorded to the plurality of network devices; And

And coordinating, by the coordinator, the channel preemption network device recorded in the channel preemption field of the beacon among the plurality of network devices that have received the beacon.

In the present invention, the step of creating the beacon, the coordinator is to record the channel preemption field in the spare area of the header frame of the beacon.

In addition, the present invention, when a device other than the channel preemptive network device requests communication to the coordinator, the coordinator transmits a beacon in which the channel preemption field is recorded to the network device requesting the communication to block communication. It may further comprise the step.

Hereinafter, a channel preemption communication method according to IEEE 802.15.4 of the present invention will be described in detail with reference to the accompanying drawings.

3 is a flowchart illustrating a channel preemption communication method according to IEEE 802.15.4 of the present invention. Referring to FIG. 3, the channel preemption communication method according to the present invention includes: creating a beacon in which a coordinator records a channel preemption field indicating a channel preemption of a network device preempting a predetermined channel (S31); Transmitting, by the coordinator, a beacon in which the channel preemption field is recorded to a plurality of network devices (S32); And the channel preemptive network device of the plurality of network devices and the coordinator continuously communicate with each other, and the remaining network devices do not request communication with the coordinator (S33).

In addition, when the coordinator communicates with the channel preemptive network device and the device other than the channel preemptive network device requests communication to the coordinator (S34), the coordinator records the channel preemption field. Blocking the communication by transmitting the beacons to the network device requesting the communication (S35) may be further included.

As described above, each step of configuring the channel preemption communication method according to the IEEE 802.15.4 of the present invention will be described in detail with reference to FIGS. 1 and 3. For convenience of description, in FIG. 1, a network device that preempts a predetermined channel and continuously communicates with the coordinator 11 is referred to as a first network device 12a, and the other network device that does not communicate is referred to as a second network device 12b. Will be described as an example.

First, during communication between the coordinator 11 and the plurality of network devices 12a and 12b, the first network device 12a among the plurality of network devices 12a and 12b preempts a predetermined channel to continuously coordinate the coordinator 11. In order to communicate with the coordinator 11, the coordinator 11 creates a beacon in which the channel preemption field indicating that the first network device 12a continues to communicate by preempting a predetermined channel (S31).

According to IEEE 802.15.4, the coordinator 11 is defined as being able to communicate with the network devices 12a and 12b using 27 channels. The coordinator 11 records in the beacon a preemptive channel of the channel to continue communication with the first network device 12a (channel preemption field). This beacon has a frame according to the MAC specification of IEEE 802.15.4, and in particular, records a channel preemption field indicating that the channel is preempted in the header frame of the beacon and continuously communicating with the first network device 12a.

4 shows a header frame of a beacon as defined in the IEEE 802.15.4 MAC specification. The header frame of the beacon may consist of 16 bits in total, and information as shown in FIG. 4 is recorded in the corresponding bit. In particular, the seventh through ninth bits 41a and the twelfth and thirteenth bits 41b are bits provided as spare areas, which are bits left for recording information that can be added later. In the present invention, the channel preemption field is recorded in the seventh through ninth bits 41a and the twelfth and thirteenth bits 41b which are spare areas of the beacon header frame. For example, the coordinator 11 records a channel preemption field indicating that the predetermined network preemptively communicates with the first network device 12a in the spare area of the header frame.

Subsequently, the coordinator 11 transmits a beacon having a header frame in which a channel preemption field is recorded, to the network devices 12a and 12b. The second network device 12b receiving the beacon may determine that the coordinator 11 continuously communicates with the first network device 12a through the channel preemption field included in the header frame of the beacon. Thus, the first network device 12a to communicate using the pre-empted predetermined channel may continuously communicate with the coordinator 11 using the corresponding channel, and the second network device 12b preempts the corresponding channel. It is possible to determine that the network device 12a and the coordinator 11 are continuously communicating, so that the coordinator 11 does not request the use of the corresponding channel (S33). That is, the remaining network device 12b does not request the coordinator 11 to communicate using the preemptive channel so that the network device 12a and the coordinator 11 are continuously guaranteed communication without disconnection.

Meanwhile, while the first network device 12a and the coordinator 11 are continuously communicating, a case where a communication request is received from a network device that has not received a beacon in which the channel preemption field is recorded may occur. The power is turned off when the coordinator 11 transmits a beacon that records the channel preemption field, and there is a network device that is powered on while the first network device 12a and the coordinator 11 are continuously communicating. This can happen if:

As such, when the first network device 12a and the coordinator 11 continuously communicate with each other and receive a communication request from the network device that has not received the beacon in which the channel preemption field is recorded (S34), the coordinator ( 11) transmits a beacon in which the channel preemption field is recorded to the network device (S35). The network device receives the beacon in which the channel preemption field is recorded, thereby determining that the coordinator 11 is in continuous communication by preempting a predetermined channel with the first network device 12a. You will not.

Subsequently, it is determined that the communication between the first network device 12a and the coordinator 11 is terminated (S36). If the communication is not terminated, the communication is continued, and if the communication is terminated, the coordinator with the first network device 12a is terminated. The channel preemption communication of (11) is terminated, and the coordinator 11 can communicate with other network devices.

In addition, the present invention can block other coordinators from using preempted channels. For example, when a first coordinator and a second coordinator exist in a space capable of wireless communication according to the IEEE 802.15.4 standard, assuming that the first coordinator and a lower network device are preemptively communicating with a predetermined channel. The second coordinator checks the channel with which the first coordinator communicates through a beacon in which the channel preemption field of the first coordinator is recorded, and attempts to communicate using another channel. The second coordinator does not attempt to use the corresponding channel until the channel preemption communication of the first coordinator ends.

As such, according to the present invention, interference of a channel by another coordinator may be excluded.

Since the present invention enables the seamless channel occupancy between the coordinator and the network device, the present invention can be applied to various applications requiring seamless communication such as a wireless mouse or a wireless headset.

The present invention is not limited by the above-described embodiment and the accompanying drawings, but is intended to be limited by the appended claims, and various forms of substitution, modification, and within the scope not departing from the technical spirit of the present invention described in the claims. It will be apparent to those skilled in the art that changes are possible.

 As described above, according to the present invention, according to the IEEE 802.15.4 standard, the coordinator and the lower network equipment can preempt a predetermined channel to continuously communicate without disconnection.

In addition, according to the present invention, the standard of IEEE 802.15.4 can be extended to various applications such as a wireless mouse or a wireless headset requiring disconnectionless communication.

Claims (3)

In the channel preemption communication method according to IEEE 802.15.4 in which a predetermined network device among the plurality of network devices preempts a predetermined channel and continuously communicates with the coordinator during communication between the coordinator and the plurality of network devices according to IEEE 802.15.4. , Creating, by the coordinator, a beacon that records a channel preemption field indicating a predetermined channel preemption of a predetermined network device; Transmitting, by the coordinator, a beacon in which the channel preemption field is recorded to the plurality of network devices; And Channel preemption communication in accordance with IEEE 802.15.4, wherein the coordinator preempts the predetermined channel and continuously communicates with the channel preemption network device recorded in the channel preemption field of the beacon among the plurality of network devices receiving the beacon. Way. The method of claim 1, wherein creating the beacons, And the coordinator writes a channel preemption field in a spare area of the header frame of the beacon. The method of claim 1, When a device other than the channel preempted network device requests communication to the coordinator, the coordinator further includes the step of transmitting a beacon in which the channel preemption field is recorded to the network device requesting the communication to block the communication. A channel preemption communication method according to IEEE 802.15.4.

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