KR100897808B1 - Method of communicating in wireless network - Google Patents

Abstract

The present invention is directed to a method of predetermining an alternate coordinator in a wireless network comprising a coordinator and allowing the determined alternative coordinator to perform the function of the coordinator when the coordinator cannot suddenly function. The process of passing the adjustment function without the handover process as described above is called a recovery process. The present invention relates to such a recovery method, a method of determining an alternative regulator for performing recovery. In addition, the method of determining the replacement regulator provides a method that can be determined by a more appropriate regulator using the information on the regulator priority.

Wireless Network, WVAN, Regulator, Recovery, Alternate Regulator (SCD)

Description

Method of communicating in wireless network

1 shows an example of a WVAN composed of multiple devices.

FIG. 2 is a diagram for explaining an example of the superframe structure used in the WVAN.

3 is a diagram illustrating a protocol hierarchy implemented in a device of a WVAN.

4 is a process flow diagram of one preferred embodiment according to the present invention.

5 is a process flow diagram for a method for determining an alternative regulator according to a preferred embodiment of the present invention.

6 is a process flow diagram for a method for determining an alternative regulator according to another preferred embodiment of the present invention.

The present invention relates to wireless communication, and more particularly, to a method of performing communication for coordination function recovery in a wireless network.

There are many cases where various devices are used nearby, and these devices need to be used in conjunction with each other. However, it is rather inconvenient to wire the plurality of devices to each other, and the applications of each device are often incompatible with each other, which is substantially difficult. Performing communication via wireless technology makes it possible to eliminate wires such as cables between the devices, and also, through a wireless network between devices, it is possible for the devices to form a network and directly exchange data information. Devices capable of communicating in the network include computers, PDAs, notebooks, digital TVs, camcorders, digital cameras, printers, microphones, speakers, headsets, bar code readers, displays, mobile phones, and the like. All digital devices can be used. have.

In order to perform communication via the wireless network, an apparatus for performing a control function of controlling and distributing resource allocation between devices configuring the network is required. However, a situation may occur in which a power supply of the control device is suddenly stopped or the control device is moved and thus out of a distance where the network can be formed without performing the process of transferring the control function. In the above situation, if there is no device capable of continuously performing the control function, the device fails to respond to resource allocation requests of devices communicating in the network, and timing control cannot be performed. As a result, the devices communicating through the network can no longer transmit and receive data, and eventually there is a fatal problem that the network cannot be maintained.

The present invention has been made to solve the problems of the prior art as described above, and to provide a method for continuously maintaining the coordination function of the network so that smooth wireless communication can be performed.

According to an aspect of the present invention, a method for performing communication includes a coordinator and at least one or more devices, and in the coordinator, a method for performing communication in a wireless network in which communication is performed using a high speed physical channel and a low speed physical channel. Selecting a device having the highest priority among the at least one or more devices as an alternate coordinator to perform coordinating function if the coordinator fails to perform coordinating function without a handover process; Transmitting information indicating that an alternate coordinator has been selected, sending a confirmation request message to the coordinator if the device does not receive a beacon in a time interval in which the beacon should be received from the coordinator, and from the coordinator Confirmation request mesh If the response message for the non-reception is achieved by a new coordinator of the wireless network includes the steps of: broadcasting a beacon pohamreul through the low-speed physical channel.

According to another aspect of the present invention, a method of performing communication includes a coordinator and at least one or more devices, and a method of performing communication in a specific device of a wireless network in which communication is performed using a high speed physical channel and a low speed physical channel. Receiving information from the coordinator indicating that an coordinator has been selected as an alternative coordinator to perform coordinating if the coordinator fails to perform coordinating without a handover procedure; Transmitting an acknowledgment message to the coordinator if not received; and broadcasting a beacon over the slow physical channel as a new coordinator of the wireless network if a response message to the acknowledgment request message is not received from the coordinator. Including but not limited to The preconditioner is characterized by selecting the device having the highest priority among the at least one or more devices as the substitute regulator.

According to the present invention, if the apparatus for controlling communication resources of each device in the wireless network system does not perform the process of transferring the control function and terminates the function, a method for restoring the control function and continuing communication is disclosed. do. Hereinafter, when the control function is suddenly terminated, it is called recovery to allow the control function in the network to be maintained and restored.

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An embodiment of the recovery method may include a method in which a new control device performs a recovery after a new control device is determined in advance before the recovery process is performed. Hereinafter, the device determined as the new control device is referred to as an alternate controller or secondary coordinator (SCD). If the substitute coordinator finds out that there is an error in the control function, it transmits a request message to confirm whether the original control device is continuing or the function of the device is terminated. If no response message is received from the original control device even after a predetermined time has elapsed, the replacement coordinator newly performs a control function as a control device in the network.

The objects, structures and other features of the present invention described above will become apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are examples in which the technical features of the present invention are applied to a wireless video area network (WVAN), which is a kind of a wireless network. WVAN is a wireless network that can provide throughput of more than 4.5Gbps using a 60 GHz frequency band to transmit 1080p A / V streams without compression over a short range of 10 meters.

1 shows an example of a WVAN composed of multiple devices. The WVAN is a network configured for data exchange between devices located in a predetermined space. The WVAN consists of two or more devices 10-14, one of which acts as a coordinator 10. The coordinator 10 has a function of allocating and scheduling the radio resource in order to configure a radio network between the devices, in which a plurality of devices must share a radio resource, and communicate the devices without collision. It is a device to perform. The coordinator may transmit and receive data through at least one channel as a normal device, in addition to a function of allocating resources so that devices configuring the network can perform communication. In addition, functions such as clock synchronization, network association, and maintaining bandwidth resources may be performed.

WVAN supports two types of physical layers (PHYs). That is, WVAN supports a high-rate physical layer (HRP) and a low-rate physical layer (LRP) as a physical layer. HRP is a physical layer capable of supporting a data rate of 1Gb / s or more, LRP is a physical layer supporting a data rate of several Mb / s. HRP is highly directional and is used for isochronous data streams, asynchronous data, MAC commands and A / V control data transmission over unicast connections. LRP supports directional or omni-directional modes and is used for sending beacons, asynchronous data, and MAC commands including beacons through unicast or broadcast. The HRP channel and the LRP channel share a frequency band and are used separately by the TDM method.

FIG. 2 is a diagram for explaining an example of the superframe structure used in the WVAN. Referring to FIG. 2, each superframe includes an area 20 through which a beacon is transmitted, a reserved channel time block 22 and an unreserved channel time block 21. time block). The beacon 20 is sent periodically to identify the beginning of every super frame. The beacon packet includes management and control information of the scheduled timing information WVAN. The device may exchange data in the network through timing information and management / control information included in the beacon. In addition, although not shown in FIG. 2, a contention-based control period (CBCP) next to the beacon is included to transmit an urgent control / management message. The interval length of the CBCP is set to set a certain threshold (mMAXCBCPLen) and not to exceed the threshold.

3 is a diagram illustrating a protocol hierarchy implemented in a device of a WVAN. Referring to FIG. 3, each device included in the WVAN may be divided into at least two layers according to its function, and generally includes a PHY layer 31 and a MAC layer 30. The device includes an entity managing each layer, the MAC layer management entity (MLME) 300 for the entity managing the MAC layer, and a PHY layer management entity (PLME) 310 for the entity managing the PHY layer. It is called. The device also includes a device management entity (DME) 320 that collects state information of each device and serves as a control interface between the host and the wireless device. Messages exchanged between the different layers are called primitives.

WVAN begins with the regulator broadcasting a beacon. The device performs communication by receiving a channel time block for data exchange through a subscription procedure with the coordinator.

4 is a process flow diagram of one preferred embodiment according to the present invention. WVAN is composed of a plurality of devices (10-14) as shown in Figure 1, any one of the devices operates as a regulator (10). In FIG. 4, only some devices are shown for clarity.

4, the DME of the coordinator transmits an MLME-BEACON.req primitive requesting beacon transmission to the MLME (S400). The beacon is transmitted from the MLME of the coordinator to the MLME of the devices configuring the WVAN (S401). MLME-BEACON.ind primitives indicating that the beacon is transmitted from the MLME of the beacon-received devices to the DME of each device are transmitted (S402 and S403). The devices configuring the WVAN may perform data exchange with other devices through the scheduling information of the beacon. When beacon broadcasting is no longer possible, such as when the regulator is powered off (S404) or when the regulator is out of the region of the WVAN, devices in the WVAN do not receive the beacon at a predetermined timing (S405 and S406). ). The beacon is said to be lost when the scheduled beacon is not transmitted as described above.

In WVAN communication, a secondary coordinator (SCD) is pre-determined in case the regulator suddenly fails to perform the adjustment function. If the device determined as the substitute coordinator (hereinafter referred to as an "replacement coordinator") does not receive the beacon (S406), the DME of the substitute coordinator requests CTB-TIME to transmit a confirmation request message to the current coordinator to the MLME. -Send an IE.req primitive (S407). The MLME of the substitute coordinator transmits a confirmation request message (CTB-TIME-IE req) to the MLME of the current coordinator according to the primitive (S408). Table 1 shows an example of an information element (IE) format that can be used when transmitting the confirmation request message.

The IE format of Table 1 includes n schedule block fields. Table 2 shows an example of a detailed format of the schedule block.

The format of the schedule block includes information on a transmission device ID, a reception device ID, a stream index, start timing information, allocated time information, scheduled period information, and the number of time blocks. If no beacon is received from the current coordinator, the alternate coordinator sends a confirmation request message using the IE format. The replacement coordinator may know that the current coordinator does not perform its coordination function if a response messager for the request message is not received.

It waits for a predetermined time whether a response to the confirmation request message is received (S409). If no response message is sent from the current coordinator during the predetermined time, the alternate coordinator begins to act as a new coordinator of the WVAN. The DME of the alternative coordinator transmits an MLME-BEACON.req primitive for transmitting a beacon at the next beacon transmission timing as a new coordinator to the MLME (S410). The MLME of the substitute coordinator broadcasts the beacon on the network (S411). The first beacon may be configured to include information on a new coordinator to transmit the beacon (S411). The broadcast beacon is received by the MLME of each device, and the MLME-BEACON.ind primitive indicating that the beacon is received is transmitted to the DME of each device (S412).

An embodiment of a time criterion for transmitting the confirmation request message (CTB-TIME-IE req) and waiting for a response message will be described in detail. A predetermined timer function can be used. That is, it can be known by setting a waiting time and before or after transmitting the confirmation request message by the method of operating the timer and ending the timer.

Also preferably, the coordinator may use the structure of the superframe described with reference to FIG. 2 in which timing control for the channel time resource is shown. If the alternate coordinator does not receive the beacon at the timing at which the beacon is to be transmitted, it sends a timing information request message to the coordinator during CBCP S409 to request timing information that would have been known through the non-received beacon. In the recovery process, the confirmation request message (CTB-TIME-IE req) is transmitted using the CBCP (S409). If the replacement coordinator does not receive the beacon at the timing at which the beacon is to be transmitted, a confirmation request message (CTB-TIME-IE req) is transmitted during the CBCP (S409) (S408).

5 is a process flow diagram for a method for determining an alternative regulator according to a preferred embodiment of the present invention. Hereinafter, an example of how the current regulator determines the replacement regulator prior to the recovery process will be described.

The coordinator selects any device among the plurality of devices that make up the WVAN. However, the selected device should be a device capable of performing at least an adjustment function. The DME of the coordinator sends an MLME-BACKUP.req primitive to request a backup to the MLME (S500). The MLME of the coordinator transmits a backup request message (Back-up Request) to the MLME of the selected device (S502). The backup request message is a message requesting that the coordinator select any device to perform recovery later as an alternate coordinator. The format of the MAC command that can be used when transmitting the backup request message is shown in Table 3 below.

The command format for the backup request message in Table 3 includes a field for the device list. The device list is a list of information about devices constituting the current network. The device list may be included in the backup request message and transmitted to be used to determine whether the selected device is to be a substitute coordinator.

Since the response message to the backup request message is preferably received within a predetermined time, the elapse of the predetermined time may be checked through a timer. That is, the timer is set before the backup request message is transmitted (S501). It is also possible to operate the timer with or after the request message has been transmitted. After the set time has elapsed since the timer is activated, it is possible to know whether a certain time has elapsed since the operation is completed. In addition, the coordinator may transmit a backup request message including the information on the predetermined time, so that the device receiving the backup request message transmits the backup response message within the predetermined time.

Before the timer is completed, that is, before a predetermined time elapses, the DME of the device receiving the backup request message transmits an MLME-BACKUP.rsp primitive to transmit a backup response message to the MLME (S504). The MLME of the device transmits a backup response message (Back-up Response) to the MLME of the coordinator (S505). The format of the MAC command that can be used when transmitting the backup response message is shown in Table 4 below.

The command format for the backup response message in Table 4 includes a field regarding the reason code. The reason code indicates the result of whether to accept the replacement coordinator for the backup request message. The coordinator may know whether the backup request message succeeds or fails using the reason code.

If the backup response message is received, the timer stops operation before completing (S511). The MLME of the coordinator transmits an MLME-BACKUP.cfm primitive to inform the DME that the backup response message has been received (S506). The device is determined to be an alternate coordinator when a successful backup response message is sent. The MLME of the coordinator transmits a beacon to the MLME of the device determined as the substitute coordinator (S508). The device determined as the substitute coordinator stores the information included in the transmitted beacon to perform the coordinating function as a new coordinator after the recovery process is completed (S510).

In another embodiment, it may be more desirable to determine the priority of the device's coordination function and select it in consideration of the priority, rather than selecting any device from the plurality of devices and sending a backup request message. Each device differs in its suitability as a regulator depending on the nature and characteristics of the device. Therefore, the priority of the coordination function can be set through the information on the characteristics of each device from the devices configuring the network. This set priority information can be made known to the coordinator or shared by the devices constituting the network, so that it can be more appropriately determined which device is more suitable as the coordinator.

In another embodiment, the coordinator receives priority information for the coordination function from the devices to construct a priority list for the coordination function. The priority list for the configured adjustment function is transmitted through a message informing each device. Alternatively, the coordinator receives a message requesting a list from each device, and transmits a priority list for the coordination function through a response message to the message requesting the list. Devices that know the priority list for the transmitted coordination function become an alternative coordinator and store information necessary for performing the coordination function in case of beacon loss. The device that has become the substitute coordinator may inform the coordinator that it has been determined to be the substitute coordinator through a message informing. If the alternate coordinator does not receive a beacon from the coordinator, it transmits a beacon on its own to act as a new coordinator.

In determining the priority, features that can be considered include the number of other accessible devices according to the location of each device, the duration of power supply, the output power, and the like.

6 is a process flow diagram for a method for determining an alternative regulator according to another preferred embodiment of the present invention. The selection method shown in FIG. 6 is for a case where a successful backup response message is not transmitted for the backup request message sent by the coordinator. In addition, in FIG. 6, only the MLME transmission message of the device is illustrated without showing the hierarchical structure of each device for the sake of brevity. However, in this case, it is obvious that there should be signal exchange between hierarchies.

Referring to FIG. 6, the coordinator transmits a backup request message (Back-up Request) to an arbitrary first device (S601). The method of checking whether the backup response message is transmitted from the first device for a predetermined time is performed in the same manner as the method shown in FIG. 4. That is, the timer operates before transmitting the backup request message, and the timer is completed after the predetermined time has passed (S600 and S602). In addition, the coordinator may transmit a backup request message including the information on the predetermined time, so that the device receiving the backup request message transmits the backup response message within the predetermined time. If the backup response message is not received from the first device during the predetermined time, or if the backup response message of 'failure' is received, the replacement coordinator determination process for the first device has failed. The coordinator transmits a backup request message (Back-up Request) to another second device (S604). Hereinafter, the determination method for the second device may be performed in the same manner as the method shown in FIG. 4 (SS603 to S608).

Also in this case, priority information on the adjustment function between the devices described above may be used. That is, the backup request message is first sent to the device with the highest priority, and if the backup response message is not transmitted or the backup response message with the failure is sent, the backup request is sent back to the second highest priority device. Send a message (Back-up Request). As described above, communication between networks can be performed more efficiently by selecting an alternative coordinator in consideration of the priority of the coordination function.

The terms used above may be replaced with others. For example, the device may be changed to a user device (or appliance), a station, etc., and the coordinator may be a coordinator (or control) device, a coordinator (or control) device, a coordinator (or control) station, a coordinator ), Piconet coordinator (PNC) and the like.

Those skilled in the art to which the present invention described above belongs will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the embodiments described above are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the above description, and it is to be construed that all changes or modifications derived from the meaning and scope of the claims and the same concept are included in the scope of the present invention. will be.

According to the present invention, communication can be performed smoothly in a wireless network. In particular, there is an effect that can seamlessly communicate without being affected by the situation of a particular device. In addition, when deciding on an alternative coordinator, a more suitable device can be selected, resulting in an efficient communication.

Claims (11)

A method of performing communication in a wireless network comprising a coordinator and at least one device, wherein communication is performed using a high speed physical channel and a low speed physical channel, Selecting, by the coordinator, the device with the highest priority among the at least one or more devices as an alternative coordinator to perform coordination if the coordinator fails to perform coordination without a handover process; Transmitting, at the coordinator, information indicating that the device has been selected as the alternate coordinator; And Sending a confirmation request message to the coordinator if the device does not receive a beacon in a time interval in which the beacon is to be received from the coordinator; And Broadcasting a beacon on the slow physical channel as a new coordinator of the wireless network if a response message to the acknowledgment request message is not received from the coordinator. The method of claim 1, Transmitting information necessary for performing an adjustment function from the regulator to the replacement regulator. delete The method of claim 1, The priority of the device is determined in consideration of at least one of the number of other devices that the device can access, the time the power of the device is maintained, the transmission power of the device, communication method. The method of claim 1, And a beacon broadcast by the alternate coordinator includes information about a new coordinator. A method of performing communication in a specific device of a wireless network, comprising a coordinator and at least one device, wherein communication is performed using a high speed physical channel and a low speed physical channel. Receiving information from the coordinator indicating that the coordinator has been selected as an alternative coordinator to perform the coordinating function if the coordinator fails to perform the coordinating function without a handover process; Transmitting a confirmation request message to the coordinator when the beacon is not received in the time interval in which the beacon is to be received from the coordinator; And Broadcasting a beacon on the slow physical channel as a new coordinator of the wireless network if a response message to the acknowledgment request message is not received from the coordinator; And the coordinator selects the device with the highest priority among the at least one or more devices as the replacement coordinator. The method of claim 6, Receiving information necessary for an adjustment function from the regulator. delete delete The method of claim 6, And a beacon broadcast by the alternate coordinator includes information about a new coordinator. delete

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