KR100785814B1 - Device and the method for control of transmission of real-time data in low-rate wireless personal area network - Google Patents

Abstract

An activation time control device for ensuring real-time data transmission in a low-rate WPAN(Wireless Personal Area Network) and a method therefor are provided to adaptively extend activation time, depending on whether real-time data exists, in order to guarantee real-time data transmission in the low-rate WPAN. A message queue(210) stores data to be transmitted. A decider(220) decides whether the data to be transmitted is real-time data. A transceiver(260) transceives data with a network controller in active state, and transmits data which demands extension of activation time to the network controller if the data to be transmitted is the real-time data in the active state. A state controller(257) extends the activation time if data approving of the extension of the activation time is received from the network controller in the active state.

Description

Activation time adjusting device and method for guaranteeing real time data transmission at low speed JPAN {device and the method for control of transmission of real-time data in Low-rate Wireless Personal Area Network}

1 is a configuration diagram of a superframe in the conventional IEEE 802.15.4 according to the prior art.

2 is a block diagram of one embodiment of a whole system according to the present invention.

3 is a flowchart of an embodiment of an algorithm in the determining unit.

4 is a flowchart of an embodiment of an algorithm in the table manager.

5A is a diagram of one embodiment of a table that a network coordinator has.

5B is a diagram of one embodiment of a table that the device has.

6 is a flowchart of an embodiment of an algorithm in the frame generation unit.

7 is a flowchart of an embodiment of an algorithm in an active time adjustment unit.

8 is a flow diagram of one embodiment of a message to be exchanged between a device and a network coordinator.

The present invention relates to a method for allocating an optimized active time for guaranteeing real-time sex data in a low-speed low-rate wireless personal area network (WPAN), and more particularly, to prevent loss of real-time data. The present invention relates to a method for adaptively extending the active time of a device depending on the presence or absence of a.

In IEEE 802.15.4, a representative communication protocol of a low-speed low-rate wireless personal area network (WPAN), the active state and the sleep state are repeated at regular intervals. More specifically, a time interval having a certain length called a superframe is repeated.

1 is a configuration diagram of a superframe in the conventional IEEE 802.15.4 according to the prior art.

Referring to FIG. 1, a super frame includes a beacon transmission section, an active section, and a sleep section. The active time and the sleep time have a predetermined value, and the above active time and the sleep time can be known by the device with the superframe information included in the beacon frame.

The active section is a section in which the transceiver of the device is awake and can send actual data. The active period is divided into a content access period (CAP) and a guaranteed time slot (GTS). In addition, the sleep section is a section in which the transceiver of the device is in the sleep state, and thus cannot actually transmit or receive data. Therefore, since no communication is performed during this time, a communication shadow period occurs, and a communication delay occurs as much as the sleep period length.

Since there is real-time data in the communication shadow section, if a communication delay occurs, many problems may occur. In the case of data that needs to be sent before the next beacon frame, if it is not sent in this active section, it may be discarded because it does not satisfy the delay condition, and when the above data is very important telematics data or command data. Fatal problems can occur.

An object of the present invention is to provide an apparatus and method for adaptively extending the active time according to the presence or absence of real-time data in order to guarantee real-time data transmission in a low-speed wireless personal area network (WPAN).

Message queue for storing data to be transmitted to an embodiment of the device for extending the active time in the low-speed WPAN according to the present invention for solving the above technical problem; A determination unit determining whether the data to be transmitted is real-time data; A transceiver for transmitting and receiving data with the network coordinator in the active state, and transmitting data for requesting extension of an active time to the network coordinator if the data to be transmitted in the active state is real-time data; And a state controller which extends the active time when receiving the data approving the extension of the active time from the network coordinator in the active state.

In one embodiment of the present invention for extending the active time in a low-speed WPAN according to the present invention for solving the above technical problem (a) in the active state, the transmission data stored in the message queue to store the data to be transmitted is real-time Determining whether it is data; (b) if the data to be transmitted is real-time data, sending data to the network coordinator requesting an extension of the active time; And (c) extending the active time upon receiving data from the network coordinator in the active state acknowledging the extension of the active time.

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

2 is a block diagram of one embodiment of a whole system according to the present invention.

Referring to FIG. 2, an apparatus for adjusting an active time in a low speed WPAN includes a message queue 210, a determiner 220, a table manager 230, a frame generator 240, an active time adjuster 252, and a state adjuster. The unit 257 and the transceiver 260 is included.

The message queue 210 is where each device stores data. The determination unit 220 determines whether there is real-time data among the data stored in the message queue 210.

The table manager 230 examines the real-time data of the message queue in the determination unit 220, and if it is determined that the active time needs to be extended, the table manager 230 formally stores the data in the table, and the effective time of the stored data has passed or successful transmission has been made. In this case, the data information is removed from the management table.

When the frame generation unit 240 receives the activation time extension request from the determination unit 220, the frame generation unit 240 adds the activation time extension request information as part of a data frame to be sent at the current time to generate a new frame.

The activation time adjustment unit 252 requests the device to switch to the sleep state when the table of the table management unit 230 is empty and the activation time determined by the beacon frame has passed.

The state controller 257 changes the device from the active state to the sleep state or from the sleep state to the active state when receiving the state switch request message from the active time adjuster 252.

The transceiver 260 is a part where actual frame transmission is performed. In general, the transceiver 260 is a part corresponding to a transceiver, an RF antenna, and a modem in the device.

3 is a flowchart of an embodiment of an algorithm in the determining unit.

Referring to FIG. 3, a criterion for determining whether the determination unit needs to extend the active time of the device is whether or not there is real-time data satisfying the following equation (1) in the memory. At this time, the valid time of data refers to a time boundary that must be delivered in order for the data to be meaningful. This is calculated as the sum of the time the data was generated and the delay bound of the data.

Valid time of data <Estimated time of next beacon frame transmission ......... (1)

The estimated beacon transmission time can be estimated from the information contained in the recently received beacon frame. It can predict the BO (Beacon Order) and the beacon frame included in the beacon frame with the reception time.

Next beacon frame transmit time estimate = beacon frame receive time + 2 ^ BO * aBaseSuperFrameDuration * Symbol_duration...........................(2)

In this case, BO is a beacon order (beacon order), aBaseSuperFrameDuration is a minimum period of the superframe, Symbol_duration is a symbol transmission period, a standard term of IEEE 802.15.4.

If data exists in the message queue (310), and the data meets Eq. The frame generation unit is requested to generate an active time extension request message (330).

4 is a flowchart of an embodiment of an algorithm in the table manager.

Referring to FIGS. 2 and 4, when the determination unit 220 examines real-time data of the message queue 210 and determines that the active time needs to be extended (410), the information of the data is temporarily stored. 420. Only when the activation time extension approval is received from the coordinator (430) formally stored in the table (440). On the other hand, when the coordinator receives the request for extending the activation time, the coordinator stores it in a table.

On the other hand, when the valid time of the stored data has passed or the successful transmission of the stored data is performed (450), the corresponding data information is removed from the management table (460).

5A is a diagram of one embodiment of a table that a network coordinator has.

Referring to Fig. 5A, the network coordinator's table consists of a data identifier (data ID), a valid time of the data (information indicating when the data should arrive, a delay constraint), and a device ID.

5B is a diagram of one embodiment of a table that the device has.

5B, the table of devices does not include the device ID in the network coordinator's table.

6 is a flowchart of an embodiment of an algorithm in the frame generation unit.

Referring to FIGS. 2 and 6, when the frame generation unit 240 receives the request for extending the active time from the determination unit 220 (610), the frame generation unit 240 adds a new frame as part of the ACK frame to be sent at the present time. Create

7 is a flowchart of an embodiment of an algorithm in an active time adjustment unit.

2 and 7, the active time adjusting unit 252 requests the sleep state switching of the device only when the table of the table managing unit 230 has passed the note 710 and the active time determined by the beacon frame 720. (730).

The state controller 257 changes the device from the active state to the sleep state or from the sleep state to the active state when receiving the state switch request message from the active time adjuster 252. The transition from the active state to the sleep state is made when the active time adjustment unit 252 receives a state switch request. The transition from the sleep state to the active state itself looks at the information stored in the beacon frame and predicts when the device will receive the beacon frame.

8 is a flow diagram of one embodiment of a message to be exchanged between a device and a network coordinator.

Referring to FIG. 8, the device receiving the beacon message knows the start of the activation time and exchanges a message with the coordinator. At this time, if there is real-time data in the message queue that may cause the active time, the active time request is sent in the next data frame, and the network coordinator receives the request acknowledgment message in the ACK frame and sends it to the device. Through this process, an entry is created in the table, and after the activation time set in the beacon, it stays active without going to sleep. The following two conditions must be met to transition from the active state to the sleep state.

Condition 1: The activation time specified in the beacon message must pass.

Condition 2: The table must be empty

If the data corresponding to the entry in the table is successfully transmitted, or if the data corresponding to the entry expires after the valid time of the data, the entry is automatically deleted from the table.

The present invention is not limited to the embodiments described herein and may be modified in other forms. It is to be understood that the embodiments of the present invention are provided to those skilled in the art to more fully understand the present invention.

According to the present invention (1) can prevent the loss of real-time data caused by the presence of the communication shadow interval in the WPAN (Wireless Personal Area Network) to ensure the transmission of important data, (2) to extend the active time of the device Delivery of request and network coordinator's allowance of extension of active time is not made by making special frame but through existing data and acknowledgment frame, so it can extend active time by minimizing network cost. In addition, since (3) the memory is checked in real time without the superframe reconstruction process, the active time is extended according to the presence or absence of real-time data, so that the active time can be extended more adaptively and (4) the superframe reconstruction process. By extending only the active period of the required device, and maintaining the active period of the other device, power consumption can be reduced from a network perspective.

Claims (10)

In a device of a low-speed wireless personal area network (WPAN) having an active state of transmitting and receiving data with a network coordinator and a sleep state of not transmitting or receiving data, A message queue to be stored for transmission; A determination unit determining whether the data to be transmitted is real-time data; A transceiver for transmitting and receiving data with the network coordinator in the active state, and transmitting data for requesting extension of an active time to the network coordinator if the data to be transmitted in the active state is real-time data; And And a state controller for extending the active time when receiving the data approving the extension of the active time from the network coordinator in the active state. The method of claim 1, And storing the data to be transmitted when receiving the data approving the extension of the active time, and deleting the stored data when the valid time of the stored data has elapsed or when the stored data is transmitted to the network manager. , And the state controller transitions to the sleep state when the active time defined in the beacon frame has elapsed and there is no data stored in the table. The method of claim 2, And the table temporarily stores the data to be transmitted if the data is real-time data, and deterministically stores the data to be transmitted when data for approving the extension of the active time is received. The method of claim 1, And the determining unit determines the data to be transmitted as real-time data when the valid time of the data is earlier than the estimated transmission time of the next beacon frame. The method of claim 1, If the data is real-time data further includes a frame generation unit for generating the current data and the data requesting the extension of the active time as one new data frame, And the transceiver transmits the new data frame to the network coordinator. In a device of a low-speed wireless personal area network (WPAN) having an active state of transmitting and receiving data with a network coordinator and a sleep state of not transmitting or receiving data, (a) in the active state, determining whether the data to be transmitted stored in the message queue in which data to be transmitted is stored is real-time data; (b) if the data to be transmitted is real-time data, sending data to the network coordinator requesting an extension of the active time; And (c) extending the active time upon receiving data from the network coordinator acknowledging the extension of the active time in the active state. The method of claim 6, (d) storing the data to be transmitted when receiving the data approving the extension of the active time in the active state; and deleting the stored data when the valid time of the stored data has elapsed or when the stored data is transmitted to the network manager. Doing; And and (e) transitioning to the sleep state when the active time defined in the beacon frame has elapsed in the active state and there is no data stored in the table. The method of claim 7, wherein In step (d), if the data is real-time data, temporarily storing the data to be transmitted, and if data to approve the extension of the active time is received, the data to be transmitted is definitely stored. Way. The method of claim 6, In the step (a), when the valid time of the data to be transmitted reaches the transmission time of the next beacon frame, the data is determined as the real time data. The method of claim 6, If the data is real-time data, generating the data to be transmitted and the data requesting the extension of the active time into one new data frame, In step (b), transmitting the new data frame to the network coordinator.

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