KR20120119513A - Wireless local network system for transmitting massive data - Google Patents

Abstract

PURPOSE: A wireless near field network system for mass data transmission is provided to effectively transmit and receive mass data like voice data in a wireless near field network. CONSTITUTION: A channel allocation unit allocates channels for a plurality coordinators(300). A channel management unit monitors whether a channel set in a specific coordinator is used for mass data communication(302,304,306). Recommendation channel information for the mass data communication is created based on the monitoring of the channel management unit. The coordinator broadcasts a beacon message. The beacon message includes the recommendation channel information. [Reference numerals] (300) Using channel allocation of each coordinator; (302) Using channel information is received from a coordinator; (304) Recommended channel selection; (306) Recommended channel transmission

Description

Wireless Local Area Network System for Massive Data Transmission {Wireless Local Network System for Transmitting Massive Data}

Embodiments of the present invention relate to a wireless local area network system, and more particularly, to a wireless local area network system capable of transmitting large amounts of data such as voice data.

A wireless personal area network (WPAN) is a network in which a conventional PAN (Personal Area Network) is designed wirelessly, and a plurality of nodes perform short range wireless communication.

In the wireless personal area network, a plurality of devices (nodes) form one network for convenience, and there is an IEEE 801.15 working group as a working group for this purpose.

The IEEE 802.15 working group is a subgroup with four task grouts, IEEE 802.15.1 is Bluetooth, IEEE 802.15.3 and IEEE 802.15.3a are high rate WPANs, and IEEE 802.15.4 is slow As for WPAN, it's called ZigBee.

Zigbee, one of the wireless personal area networks, is a low power, low cost, low speed network that is a personal wireless area network for home automation and data transmission. According to the IEEE 802.15.4 standard, ZigBee uses frequency bands of 240 GHZ, 915 MHz, and 868 MHz, and available channels and data rates are set for each frequency.

In the ZigBee network, transmission of sensing data and control data between nodes has been a main operation, but in recent years, transmission of a large amount of data such as voice data is required through the ZigBee network.

Voice communication may be provided over an established 3G or 4G network, but as the use of wireless personal area networks increases, the transmission of voice data through personal area wireless networks such as Zigbee is required, such as translation systems in conference halls. have.

Due to the low data rate of 250 Kbps, ZigBee networks cannot accommodate large data such as multimedia data in one channel, which is the channel of a typical ZigBee network when real time transmission is required such as voice communication and continuous data transmission is required. There is a problem that the normal data transfer can not be achieved by the allocation algorithm.

The present invention proposes a network system capable of efficiently transmitting and receiving large data such as voice data in a wireless local area network.

In addition, the present invention proposes a channel allocation method for efficient transmission of large data in a wireless local area network.

In addition, the present invention proposes a channel allocation method capable of transmitting and receiving voice data in a Zigbee network having a low speed and narrow band characteristics.

According to a preferred embodiment of the present invention to achieve the above object, a channel management device provided in a short-range wireless network system including a plurality of coordinators and node devices communicating with the plurality of coordinators, in the plurality of coordinators A channel allocator for allocating a channel to be used; And a channel manager configured to monitor whether a channel set in a specific coordinator is used for mass data communication, wherein recommendation channel information for use in mass data communication is generated based on the monitoring of the channel manager, wherein the coordinator is the recommended channel. Provided is a channel management apparatus of a short range wireless network for broadcasting a beacon message including information.

The channel manager receives channel usage information on whether a large amount of data communication is performed through an assigned channel from each of the plurality of coordinators.

The channel manager generates recommendation channel information for use in large capacity communication based on the channel usage information from a plurality of coordinators.

The channel manager lists channel information for which mass data communication is not performed based on the channel usage information, and provides the channel information to the coordinator. The coordinator generates the recommended channel information based on the listed channel information.

The node device configured to communicate with any one of the plurality of coordinators selects a channel for mass data communication based on recommended channel information included in the beacon message when a mass data communication event occurs.

According to another aspect of the present invention, a node device provided in a wireless network including a plurality of coordinators and a channel management device coupled to the plurality of coordinators to manage a channel, the recommended channel information to be used for mass data communication from the coordinator A beacon message receiving unit which receives the included beacon message; And a channel selector configured to select a channel to be used for mass data communication based on the recommended channel information included in the beacon message when the mass data communication event occurs. The channel management apparatus includes a channel set in a specific coordinator among the plurality of coordinators. A node apparatus is provided for monitoring whether or not it is used for mass data communication and generating the recommended channel information based on the monitoring result.

According to another aspect of the invention, the step of monitoring whether a particular channel of the allocated plurality of channels is used for communication of large data; Generating recommended channel information for mass data communication based on the monitoring result; And broadcasting a beacon message including the generated recommendation channel information, wherein the node device receiving the broadcasted beacon message is included in the recommendation channel information included in the beacon message when a large data communication event occurs. Provided are a channel management method in a wireless local area network that selects a channel to be used for mass data communication based on the above.

According to another aspect of the present invention, a channel management method executed in a node device provided in a wireless network including a plurality of coordinators and a channel management device coupled to the plurality of coordinators to manage a channel, wherein a large amount of data from the coordinator is provided. Receiving a beacon message including recommended channel information for use in communication; And selecting a channel to be used for mass data communication based on the recommended channel information included in the beacon message when a mass data communication event occurs, and whether a channel set in each of the plurality of coordinators is used for mass data communication. Whether the channel management apparatus is monitored by the channel management apparatus and the recommended channel information is generated based on the monitoring result is provided.

According to the present invention, there is an advantage that can efficiently transmit and receive a large amount of data such as voice data in a wireless local area network, while maintaining the characteristics of the Zigbee network can be efficient channel allocation for large-capacity data communication.

1 is a diagram illustrating a system configuration of a wireless local area network according to an embodiment of the present invention.
2 is a diagram illustrating a field configuration of a beacon message broadcasted to node devices by a coordinator according to an embodiment of the present invention.
3 is a flowchart illustrating an operation of a channel management apparatus in a wireless local area network according to an embodiment of the present invention.
4 is a flowchart illustrating operation of a node device of a wireless personal area network according to an embodiment of the present invention.
5 is a flowchart illustrating the overall operation of devices included in a wireless personal area network according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

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

Referring to FIG. 1, a wireless local area network system according to an embodiment of the present invention includes a plurality of coordinators 100, a channel management device 102, a base station 104, and a plurality of node devices 106.

The plurality of coordinators 100 are communicatively connected with the channel management device 102 and the base station 104. Each of the plurality of coordinators 100 controls the communication of the node device 106 belonging to the coordinator.

Each coordinator communicates through different channels, for example, the first coordinator 100a communicates with the node device through the first channel CH1 and the second coordinator 100b communicates with the second channel. Communicate with the node device via CH2.

In a typical wireless local area network, a plurality of coordinators are not provided for using a plurality of channels, but the network system of the present invention allows a plurality of coordinators to be provided to secure a plurality of channels.

However, only having a large number of coordinators does not allow efficient communication of large data in a Zigbee system. When the node device belonging to the existing Zigbee network selects the coordinator, the node device determines the energy of the beacon message transmitted by each coordinator, and selects a coordinator having a good channel state to perform communication through the coordinator channel.

That is, the node device selects an appropriate channel (coordinator) after performing a channel scan procedure for each channel. The channel allocation method of the conventional Zigbee network is not suitable as a channel allocation method for transmitting a large amount of data such as voice data.

In this ZigBee network where the channel bandwidth is not large because the node device sets the channel of the coordinator having a good channel as the use channel, it is more likely that a plurality of node devices use one channel. This means that large data such as is not suitable to be transmitted through the corresponding channel.

Accordingly, in the present invention, a channel allocation scheme other than the channel scan scheme of the node apparatus used in the existing Zigbee network is used, and a channel management apparatus 102 connected to a plurality of coordinators is provided for the new channel allocation scheme.

The channel management apparatus 102 primarily functions to allocate a channel for use by each coordinator. The channel management apparatus 102 assigns independent channels to each coordinator, and the plurality of coordinators do not use duplicate channels. According to a preferred embodiment of the present invention, since up to 16 channels are supported according to the Zigbee standard, 16 independent coordinators may be provided, but this is an exemplary embodiment and is not limited thereto.

The channel management apparatus 102 monitors whether each coordinator performs mass data transmission and reception. That is, it monitors whether the channel allocated to the coordinator is used for transmitting and receiving large data. According to an embodiment of the present invention, each coordinator provides the channel management device 102 with channel usage information when a specific node device uses its own channel for transmitting and receiving large data.

The channel management apparatus 102 provides recommended coordinator channel information for mass data transmission to each coordinator. In this case, the channel management apparatus 102 provides recommended channel information excluding a channel currently occupied for transmitting and receiving large data.

The coordinator 100 receiving the recommended channel information from the channel management device 102 broadcasts the recommended channel information in the beacon message to the node devices. Node devices receive beacon messages including recommended channel information from the coordinator to which they belong.

The node device 106 selects a recommendation channel to be used for mass data communication based on the recommended channel information included in the received beacon message, and transmits and receives mass data such as voice data through the corresponding channel.

When transmitting and receiving general ZigBee communication data such as sensing data and control data, the node device communicates with the coordinator to which the node device belongs, and channel change is not made.

However, when an event that needs to transmit / receive large data such as voice data occurs, the node device allocates a channel for transmitting / receiving voice data by using recommended channel information of the beacon message received from the coordinator and performs mass data communication through the assigned channel. Perform.

As described above, the channel allocation method of the existing ZigBee network is not only inefficient for allocating a channel after scanning all channels, but also unlike a conventional system, a plurality of coordinators are used to operate an appropriate channel. Management could not be achieved.

The system and channel management scheme of the present invention described above makes it possible to constantly use a plurality of channels for transmitting large data such as voice data.

The base station 104 converts the large-capacity data provided from each coordinator 100 into a packet of a predetermined format and delivers it to an external network. For example, when the base station 104 communicates with a base station in another region by IP protocol, the base station 104 converts a large amount of data into an IP packet and transmits the large amount of data to a base station in another region through the IP network. do.

The Zigbee network is also coupled to the base stations in other regions that receive large amounts of data. If the destination of the voice data is a node device included in the Zigbee network, the channel is selected by the channel assignment method as described above. May be sent to the destination node device.

Although the base station and the channel management device are shown as independent devices in FIG. 1, this is only an example, and it will be apparent to those skilled in the art that the base station is provided with a channel management function so that the base station may operate as the channel management device. will be.

FIG. 2 is a diagram illustrating a field configuration of a beacon message broadcasted to node devices by a coordinator according to an embodiment of the present invention.

2, a beacon message according to an embodiment of the present invention may include a frame control field 200, a sequence number field 202, an address field 204, an auxiliary security header field 206, and a channel information field 208. ) And the payload field 210.

Since data of fields other than the channel information field 208 are included in a general beacon message, a detailed description thereof will be omitted.

The channel information field 208 includes channel information to be used by the node device when transmitting and receiving large data such as voice communication.

According to an embodiment of the present invention, the recommendation channel may be determined by the channel management apparatus 102. The channel management apparatus 102 receives information on whether to transmit a large amount of data from each coordinator and lists a channel for which a large amount of data is not transmitted. The channel management apparatus 102 selects a preset number of recommended channels among the channels for which the mass data transmission is not performed. In this case, the preset number of recommended channels may be two. Setting the number of recommended channels to two allows the node device to select a channel without increasing the data size of the beacon message and it will be apparent to those skilled in the art that the number of recommended channels can be changed as needed.

The channel management apparatus 102 may select a preset number of recommended channels randomly among the channels for which the mass data transmission is not performed, and select the preset number of higher channels as the recommended channel based on the channel number. There will be.

The recommended channel information selected by the channel management device 102 is transmitted to each coordinator, and the coordinator includes the recommended channel in the beacon message as shown in FIG. 2 and broadcasts it to the node device. The node device selects and uses one of the recommendation channels included in the beacon message as a channel for transmitting a large amount of data.

According to another embodiment of the present invention, the recommendation channel may be selected by the coordinator. At this time, the channel management apparatus 102 transmits to the coordinator all channel lists for which large data transmission is not performed, and the coordinator selects a predetermined number of channels among the channels included in the received list. The coordinator includes the selected channel in the beacon message and broadcasts it to the node device.

3 is a flowchart illustrating an operation of a channel management apparatus in a wireless local area network according to an embodiment of the present invention.

Referring to FIG. 3, the channel management apparatus allocates a channel to be used by each of the plurality of coordinators (step 300). The channel management apparatus allocates channels independently to each coordinator.

The channel management apparatus receives channel usage information from the connected coordinator (step 302). Here, the channel usage information is information about whether the coordinator uses a channel for transmitting a large amount of data. The channel usage information may be periodically received from the coordinator, or may be received from the coordinator when a corresponding event occurs when a channel allocated for large data transmission is used in a specific coordinator.

The channel management apparatus lists available channels (channels in which mass data transmission and reception is not performed) based on the channel usage information transmitted from the coordinators, and selects a recommended channel from the listed channels (step 304).

As described above, the recommendation channel may be randomly selected, or may be sequentially selected based on the channel number.

The channel management apparatus transmits the selected recommended channel to the plurality of coordinators (step 306). The channel management apparatus may periodically transmit the recommended channel information, or may transmit the recommended channel information whenever an event in which the recommended channel changes.

Unlike the operation of the channel management apparatus of FIG. 3 described above, the channel management apparatus may provide only the channel information available to the coordinator without selecting a recommended channel.

4 is a flowchart illustrating operation of a node device of a wireless personal area network according to an embodiment of the present invention.

Referring to FIG. 4, the node device is in a mode of communicating with a coordinator to which it belongs in a normal state (step 400). In this case, the normal state refers to a state of transmitting and receiving sensing data and control data, which are general operations of a Zigbee network. In this normal state, the node device broadcasts or receives data through a channel set in the coordinator to which the node device belongs.

The node device checks whether an event for transmitting / receiving mass data such as voice data occurs (step 402). The node apparatus may be changed to a mode for transmitting and receiving voice data at the request of a user, or may be changed to a mode for transmitting and receiving voice data from the external network to a destination.

When an event that needs to transmit and receive large amounts of data such as voice data occurs, the node device searches for recommended channel information included in the most recently received beacon message (step 404).

The node device selects a channel to be used for mass data communication based on the recommended channel information (step 406).

If the channel is selected, the node device performs mass data transmission and reception via the selected channel (step 408). In addition, the node device provides the coordinator with channel usage information indicating that large data is being transmitted and received through the selected channel (step 410).

5 is a flowchart illustrating the overall operation of devices included in a wireless personal area network according to an embodiment of the present invention.

Referring to FIG. 5, the channel management apparatus allocates a channel to be used by each of the plurality of coordinators and provides channel assignment information to the coordinator (step 500). As described above, an independent channel is assigned to each coordinator to provide channel assignment information to each coordinator.

The coordinator, which has set a channel to be used based on the channel assignment information, performs a network participation procedure of the node device through communication with the node devices (step 502). The node device selects the coordinator and participates in the wireless personal area network by the normal network participation procedure of the Zigbee network.

The channel management apparatus transmits recommended channel information to each coordinator (step 504).

The coordinator broadcasts a beacon message containing recommended channel information (step 506).

When a large data communication event occurs in the node device (step 508), the node device selects a channel for transmitting and receiving large data based on the recommended channel information included in the beacon message and performs the large data communication through the corresponding channel (step 510).

The node device transmits the selected channel usage information to the coordinator (step 512), and the coordinator transfers the received channel usage information to the channel management device (step 514).

After receiving the channel usage information, the channel management apparatus updates the recommended channel information if necessary (step 516).

In the present invention as described above has been described by the specific embodiments, such as specific components and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention, the present invention is not limited to the above embodiments. For those skilled in the art, various modifications and variations are possible from these descriptions. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

Claims (13)

A channel management apparatus provided in a short-range wireless network system including a plurality of coordinators and node devices communicating with the plurality of coordinators,
A channel allocator for allocating channels to be used in the plurality of coordinators; And
Including a channel management unit for monitoring whether a channel set in a specific coordinator is used for large data communication,
Recommended channel information for use in mass data communication is generated based on the monitoring of the channel manager, and the coordinator broadcasts a beacon message including the recommended channel information. The method of claim 1,
And the channel manager receives channel usage information on whether or not a large amount of data communication is performed through an assigned channel from each of the plurality of coordinators. The method of claim 2,
And the channel manager generates recommended channel information to be used for mass communication based on the channel usage information from a plurality of coordinators. The method of claim 2,
The channel manager is configured to list channel information for which mass data communication is not performed based on the channel usage information and provide the coordinator with the coordinator to generate the recommended channel information based on the listed channel information. Channel management device of a local area network. The method of claim 1,
The node device configured to communicate with any one of the plurality of coordinators may select a channel for mass data communication based on recommended channel information included in the beacon message when a mass data communication event occurs. Channel management device. A node device provided in a wireless network including a plurality of coordinators and a channel management device coupled to the plurality of coordinators to manage a channel.
A beacon message receiving unit receiving a beacon message including recommended channel information to be used for mass data communication from the coordinator; And
If a large data communication event occurs based on the recommended channel information included in the beacon message includes a channel selector for selecting a channel to use for large data communication,
The channel management apparatus monitors whether a channel set in a specific coordinator among the plurality of coordinators is used for mass data communication, and the recommended channel information is generated based on the monitoring result. The method according to claim 6,
Wherein each of the plurality of coordinators transmits channel usage information on whether the mass data communication is performed through the assigned channel to the channel management apparatus. The method of claim 7, wherein
The channel management apparatus generates recommendation channel information for use in mass communication based on the channel usage information from a plurality of coordinators, and the coordinator broadcasts the beacon message including the recommendation channel information. . The method of claim 7, wherein
The channel management apparatus lists channel information on which mass data communication is not performed based on the channel usage information, and provides the coordinator to generate the recommended channel information based on the listed channel information. Node device. Monitoring whether a particular channel of the allocated plurality of channels is used for communication of a large amount of data;
Generating recommended channel information for mass data communication based on the monitoring result; And
Broadcasting a beacon message including the generated recommended channel information,
The node device receiving the broadcast beacon message selects a channel to be used for mass data communication based on recommended channel information included in the beacon message when a mass data communication event occurs. How to manage. The method of claim 10,
And a recommendation channel included in the recommendation channel information is selected from channels in which mass data communication is not performed. The method of claim 10,
Monitoring whether the specific channel is used for communication of a large amount of data is performed by a plurality of coordinators included in a network transmitting channel usage information on whether a channel allocated to each coordinator is used for mass data communication to a channel management apparatus. Channel management method in a wireless personal area network, characterized in that. A channel management method executed in a node device provided in a wireless network including a plurality of coordinators and a channel management device combined with the plurality of coordinators to manage a channel.
Receiving a beacon message including recommended channel information for use in mass data communication from the coordinator; And
Selecting a channel to be used for mass data communication based on recommended channel information included in the beacon message when a mass data communication event occurs;
The channel management apparatus monitors whether a channel set in each of the plurality of coordinators is used for mass data communication, and the recommended channel information is generated based on the monitoring result.

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