KR102215646B1 - Method and Apparatus for Wireless Transmission and Reception for Preventing Data Transmission Error - Google Patents

Abstract

Disclosed are a wireless transmission and reception method for preventing a data transmission error and an apparatus therefor. According to an embodiment of the present invention, the wireless transmission and reception method for preventing a data transmission error includes: a reception confirmation step of confirming a signal received from a neighboring node; a mode setting step of setting a transmission or reception mode in accordance with a confirmation result of the received signal; and a mode control step of preventing a data transmission error by transmitting a message about data transmission and reception or setting a transmission timer for data transmission, in accordance with the confirmation result of the signal in the set mode.

Description

TECHNICAL FIELD [Method and Apparatus for Wireless Transmission and Reception for Preventing Data Transmission Error]

The present invention relates to a wireless transmission/reception method and apparatus for preventing data transmission errors.

The content described in this section merely provides background information on the embodiments of the present invention and does not constitute the prior art.

The amount of data transmitted using a wireless communication network has exploded over time. Therefore, in order to accommodate this, wireless communication networks are evolving at a rapid rate, and a communication system in which a number of devices autonomously schedule using only a local channel state without a centralized scheduling device has been proposed.

However, in the case of a communication system in which a plurality of devices autonomously schedule using only a local channel state, there is a possibility of data collision, so there is a need to limit the simultaneous transmission of data by each device.

To this end, a method of sharing a wireless medium using RTS (Request To Send) and CTS (Clear To Send) messages is used to solve the problem of a hidden node.

The conventional method using the RTS and CTS messages uses a single CTS message as a response to the RTS message for collision avoidance. In this conventional method, there is a drawback that an error occurs during data transmission as shown in FIG. 1. Referring to FIG. 1, when a communication node B 120 receives data A from a communication node A 110, transmission of data B may occur from a communication node C 130, which is a neighboring node. For this reason, there is a problem that an error in data transmission occurs in the communication node B 120.

The present invention sets a mode for received data to prevent data transmission errors, and sets a transmission timer for data transmission or transmits at least one message for data transmission and reception according to a result of confirming a signal in the set mode. The main object is to provide a wireless transmission/reception method for preventing data transmission errors and an apparatus therefor.

According to an aspect of the present invention, a wireless transmission/reception method for achieving the above object includes a reception confirmation step of confirming a signal received from a neighbor node; A mode setting step of setting a transmission mode or a reception mode according to a result of confirming the received signal; And a mode control step of preventing data transmission errors by setting a transmission timer for data transmission or transmitting a message for data transmission/reception according to a result of confirming the signal in the set mode.

In addition, according to another aspect of the present invention, a wireless transmission/reception apparatus for achieving the above object includes at least one processor; And a memory for storing one or more programs executed by the one or more processors, wherein the processor includes an acknowledgment step of confirming signals received from neighboring nodes; A mode setting step of setting a transmission mode or a reception mode according to a result of confirming the received signal; And a mode control step of preventing data transmission errors by setting a transmission timer for data transmission or transmitting a message for data transmission/reception according to a result of confirming the signal in the set mode.

As described above, the present invention uses a plurality of transmittable messages instead of the conventional single transmittable message, and adjusts not to transmit data packets from neighboring nodes of the receiving node, thereby reducing the possibility of a data frame transmission error. There is an effect that can increase the transmission efficiency by removing.

In addition, as shown in FIG. 9C, the present invention transmits during RT _B time even if the terminal C receives the transmission request message from the terminal D while exchanging a transmission request message and a transmission available message for data transmission between terminal A and terminal B. Since the possible message is not generated, there is an effect that the terminal B can receive data from the terminal A without error.

In addition, the present invention distinguishes and includes the type of data to be transmitted (voice or non-voice (general) data) in the transmission request message, and when transmitting a transmittable message corresponding to the transmission request message, a different number according to the type of data There is an effect of being able to control the priority of data by transmitting a message that can be transmitted.

1 is a diagram showing a data transmission error in a conventional wireless communication system.
2 is a block diagram schematically illustrating a wireless transmission/reception apparatus for preventing data transmission errors according to an embodiment of the present invention.
3 is a block diagram schematically showing the configuration of a processor of a wireless transmission/reception apparatus according to an embodiment of the present invention.
4 is a flowchart illustrating a wireless transmission/reception method for preventing data transmission errors according to an embodiment of the present invention.
5A to 5C are flowcharts illustrating a method of operating a wireless transmission/reception apparatus in a transmission mode according to an embodiment of the present invention.
6A and 6B are flowcharts illustrating a method of operating a wireless transmission/reception apparatus in a reception mode according to an embodiment of the present invention.
7 is a flowchart illustrating an operation of setting a transmission timer in a wireless transmission/reception apparatus according to an embodiment of the present invention.
8 is a flowchart for explaining inter-layer interworking of a wireless transmission/reception device according to an embodiment of the present invention.
9A to 9C are exemplary diagrams illustrating a wireless communication system for preventing data transmission errors according to an embodiment of the present invention.
10 is an exemplary diagram showing a wireless communication system for preventing an error in transmission of voice data according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, a preferred embodiment of the present invention will be described below, but the technical idea of the present invention is not limited thereto or is not limited thereto, and may be modified and variously implemented by those skilled in the art. Hereinafter, a wireless transmission/reception method for preventing a data transmission error proposed by the present invention and an apparatus therefor will be described in detail with reference to the drawings.

The present invention is preferably applied to a wireless communication network using a transmission request message and a transmission available message, but is not necessarily limited thereto, and can be applied to various systems for transmitting and receiving data after transmitting and receiving a message for data transmission.

2 is a block diagram schematically illustrating a wireless transmission/reception apparatus for preventing data transmission errors according to an embodiment of the present invention.

The wireless transmission/reception apparatus 200 according to the present embodiment includes a communication unit 210, a processor 220, a memory 230, and a signal detector 240. The wireless transmission/reception device 200 of FIG. 2 is according to an embodiment, and not all blocks shown in FIG. 2 are essential components, and some blocks included in the wireless transmission/reception device 200 are added or changed in other embodiments. Or it can be deleted.

The wireless transmission/reception device 200 refers to a communication node included in a wireless communication system for data transmission and reception, and may be implemented as various types of devices if data sharing is possible by transmitting and receiving a transmission request message and a transmission available message.

The communication unit 210 performs an operation of transmitting and receiving signals to and from nodes located nearby. Here, the communication unit 210 includes a transmitter 212 that amplifies or modulates and transmits a signal, a receiver 214 that filters or demodulates and receives a signal, and a plurality of transmission/reception antennas connected to each of the transmitter 212 and the receiver 214 ( 216).

The processor 220 controls the overall operation of the wireless transmission/reception device 200 to prevent data transmission errors. Here, the processor 220 may be referred to as a central processing unit (CPU), and may be implemented as a data transmission error prevention unit that performs some functions to prevent data transmission errors. A detailed operation and configuration for preventing a data transmission error in the processor 220 will be described with reference to FIG. 3.

The memory 230 may include a read-only memory (ROM) and a random access memory (RAM), and provides instructions, data, and the like to the processor 220. A portion of the memory 230 may include a nonvolatile random access memory (NVRAM). Processor 220 typically performs logical and arithmetic operations based on program instructions stored in memory 230. Instructions in memory 230 may be executable to implement the methods described herein.

The signal detector 240 may be used as a part of detecting and quantifying signals transmitted and received through the communication unit 210. The signal detector 240 may detect various types of information about a signal to be transmitted and received, such as characteristics of signals such as total energy, energy per subcarrier per symbol, power spectral density, and other signals.

3 is a block diagram schematically showing the configuration of a processor of a wireless transmission/reception apparatus according to an embodiment of the present invention.

The processor 220 of the wireless transmission/reception apparatus 200 according to the present embodiment includes a signal receiving unit 310, a mode setting unit 320, and a mode control unit 330. The processor 220 of FIG. 2 is according to an embodiment, and not all blocks shown in FIG. 2 are essential components, and some blocks included in the processor 220 may be added, changed, or deleted in other embodiments. have.

The processor 220 performs an overall operation for preventing data transmission errors in the wireless transmission/reception device 200. Here, the processor 220 may be implemented as a data transmission error prevention unit that performs some functions to prevent data transmission errors. In addition, the processor 220 is described as being a module included in the wireless transmission/reception device 200, but is not limited thereto, and may be implemented as a separate device such as a data transmission error prevention device.

The signal receiver 310 receives a signal from a neighboring node and performs an operation of checking the received signal.

The signal receiver 310 may receive a signal for a transmission request message, a transmission available message, data, a data response message, etc. in a process of performing communication with a neighboring node. Meanwhile, the signal receiver 310 may not receive any signal when there is no signal transmitted from the neighboring node.

The transmission request message received by the signal receiver 310 is preferably an RTS (Request To Send) message, but may be implemented as various types of messages for transmitting data. The transmittable message received by the signal receiving unit 310 is preferably a CTS (Clear To Send) message, but may be implemented as a response signal of a transmission request message in various types of messages. In addition, the data received by the signal receiving unit 310 may be various types of data such as voice data and non-voice (general) data.

The mode setting unit 320 checks the signal received by the signal receiving unit 310 and sets an operation mode of the wireless transmission/reception apparatus 200 according to the confirmation result of the signal. The mode setting unit 320 may set the operation mode of the wireless transmission/reception device 200 to a transmission mode or a reception mode. Here, the transmission mode means a mode in which the wireless transceiver 200 operates as a transmission node for transmitting data, and the reception mode means a mode in which the wireless transmission/reception device 200 operates as a reception node for receiving data.

The mode setting unit 320 sets the wireless transmission/reception apparatus 200 to a transmission mode when the signal reception unit 310 receives a transmission available message or a data response message from a neighboring node. In addition, the mode setting unit 320 may set the wireless transmission/reception apparatus 200 to a transmission mode when there is no signal received from a neighboring node in the signal reception unit 310.

Meanwhile, the mode setting unit 320 sets the wireless transmission/reception apparatus 200 to a reception mode when a transmission request message or data is received from a neighboring node in the signal reception unit 310.

The mode control unit 330 performs operation control to prevent data transmission errors in a set mode. Specifically, the mode controller 330 controls an operation of preventing data transmission errors by setting a transmission timer for data transmission or transmitting a message for data transmission/reception according to a result of confirming the signal in a set mode. The mode control unit 330 includes a transmission mode control unit 340 and a reception mode control unit 350.

The transmission mode controller 340 controls the operation of the wireless transmission/reception device 200 to prevent data transmission errors in the transmission mode.

When the transmission mode is set due to the reception of the transmission mode message, the transmission mode control unit 340 checks whether the transmission available message is duplicated and the reception destination information, and controls data transmission according to the confirmation result.

The transmission mode control unit 340 is a transmission capable message when the previously received transmission available message and the received transmission available message do not overlap, and the reception destination information included in the transmission available message matches the node for the wireless transmission/reception device 200 Transmits the data corresponding to the neighboring nodes. Here, the data may be voice data or non-voice (general) data.

The transmission mode control unit 340 may store data for retransmission of the data after transmitting data corresponding to the transmittable message.

On the other hand, the transmission mode control unit 340 transmits when the previously received transmittable message and the received transmittable message do not overlap, and the receiving destination information included in the transmittable message is inconsistent with the node for the wireless transceiver 200 A radio channel reservation time (RT _CTS ) included in the enable message is obtained, and a data transmission timer is set equal to the radio channel reservation time (RT _CTS ). The transmission mode control unit 340 transmits data to neighboring nodes when the set time of the transmission timer expires.

After transmitting the data, if the transmission mode is set due to the reception of the data response (ACK) message, the transmission mode control unit 340 checks the reception destination information of the data response message, and the reception destination information is the wireless transmission/reception device 200 If it matches the node for, the stored data and the transmission request message associated with the data are deleted for retransmission. Here, the transmission request message associated with the data refers to a request message transmitted to the neighboring node before transmitting the data, and the transmission request message may be stored until a data response message for completion of transmission of the data is received. .

When the transmission mode is set to the transmission mode because there is no signal received from the neighboring node, the transmission mode control unit 340 checks a preset transmission timer (Send_Timer).

When the transmission timer expires, the transmission mode controller 340 controls the transmission of the transmission request message by comparing the transmission number of the transmission request message with a preset threshold number.

The transmission mode control unit 340 transmits the transmission request message by setting a radio channel reservation time (RT _CTS ) when the transmission frequency of the transmission request message does not exceed the threshold number. Here, the transmission mode controller 340 may set a preset number or a time for waiting to receive a plurality of transmittable messages in the transmission timer after transmitting the transmission request message.

When the number of transmissions of the transmission request message exceeds the threshold number, the transmission mode control unit 340 deletes the transmission request message in which the transmission number exceeds. The transmission mode control unit 340 transmits the data transmission failure to the upper layer, and the wireless transmission/reception apparatus 200 controls the wireless transmission/reception standby state. Here, the upper layer refers to a layer (eg, a network layer) interworking with a layer (eg, a MAC layer, an LLC layer) that transmits and receives a message.

Meanwhile, the transmission mode control unit 340 sets the transmission mode control unit 340 to a wireless transmission/reception standby state waiting for a signal to be received from a neighboring node when the transmission timer has not expired.

The reception mode controller 350 controls the operation of the wireless transmission/reception apparatus 200 to prevent data transmission errors in the reception mode.

When the reception mode is set due to the reception of the transmission request message, the reception mode control unit 350 checks the reception destination information of the transmission request message and controls transmission of the transmission available message according to the confirmation result.

When the reception destination information included in the transmission request message matches the node for the wireless transmission/reception device 200, the reception mode control unit 350 checks the type of transmission scheduled data included in the transmission request message, and according to the data type. Control to transmit different numbers of transmittable messages to neighboring nodes.

When the reception destination information included in the transmission request message is inconsistent with the node for the wireless transmission/reception device, the reception mode control unit 350 acquires a radio channel reservation time (RT _RTS ) included in the transmission request message, and sets the transmission timer to the radio channel. Set the same as the reserved time (RT _RTS ) and control to wait for data reception from neighboring nodes.

The reception mode control unit 350 transmits a transmittable message to the neighboring nodes, and then receives data from the neighboring nodes and, when set to the reception mode, checks the reception destination information of the data and responds to the data according to the confirmation result (ACK). Control the transmission of messages.

The reception mode control unit 350 controls to transmit a data response message corresponding to the data to neighboring nodes when the reception destination information of the data matches the node for the wireless transmission/reception apparatus 200.

4 is a flowchart illustrating a wireless transmission/reception method for preventing data transmission errors according to an embodiment of the present invention.

The wireless transmission/reception apparatus 200 checks a signal received from a neighboring node (S410). The wireless transmission/reception apparatus 200 may receive signals for a transmission request message, a transmission available message, data, and a data response message from a neighboring node, and may not receive any signal when there is no signal transmitted from the neighboring node.

The wireless transmission/reception apparatus 200 sets a mode according to a result of confirming the received signal (S420). The wireless transmission/reception apparatus 200 may set an operation mode to a transmission mode or a reception mode according to the received signal.

The wireless transmission/reception device 200 sets a transmission mode when a transmission-ready message or a data response message is received from a neighboring node or no signal is received, and a reception mode when a transmission request message or data is received from a neighboring node. do.

When the wireless transmission/reception apparatus 200 is set to the transmission mode (S430), the wireless transmission/reception apparatus 200 sets a transmission timer for data transmission and transmission of a transmission request message, or controls the operation of a transmission node for data transmission ( S440).

When the wireless transmission/reception apparatus 200 is set to the reception mode (S430), the wireless transmission/reception apparatus 200 controls the operation of the reception node for transmission/reception of data reception and transmission available messages (S450).

In FIG. 4, it is described that each step is sequentially executed, but is not limited thereto. In other words, since the steps described in FIG. 4 may be changed and executed or one or more steps may be executed in parallel, FIG. 4 is not limited to a time series order.

The wireless transmission/reception method according to the present embodiment illustrated in FIG. 4 may be implemented as an application (or program) and recorded on a recording medium that can be read by a terminal device (or computer). The application (or program) for implementing the wireless transmission/reception method according to the present embodiment is recorded and the recording medium that can be read by the terminal device (or computer) is any type of recording device that stores data that can be read by the computing system or Includes the medium.

5A to 5C are flowcharts illustrating a method of operating a wireless transmission/reception apparatus in a transmission mode according to an embodiment of the present invention.

5A is a flowchart illustrating an operating method of transmitting data in the wireless transmission/reception apparatus 200 in a transmission mode.

The wireless transmission/reception apparatus 200 operates in a transmission mode when a transmittable message is received from a neighboring node (S502).

The wireless transmission/reception device 200 checks whether or not it overlaps with a previously received transmission-capable message (S503).

If it is determined that the transmission available message received in step S502 overlaps with the previously received transmission available message, the wireless transmission/reception apparatus 200 operates in a wireless transmission/reception standby state without processing the packet of the received transmission available message (S509). .

On the other hand, when it is determined that the transmittable message received in step S502 does not overlap with the previously received transmittable message, the wireless transmission/reception apparatus 200 checks the destination of the received transmittable message (S504).

If the destination of the transmittable message is this node (wireless transceiver 200), the wireless transceiver 200 deletes the transmission request message associated with the received transmittable message (S505), and the transmission timer (Send_Timer) is 0 ( (S506).

When the transmission timer (Send_Timer) becomes 0, the wireless transmission/reception apparatus 200 transmits data related to a reception/transmission available message to a neighboring node (S507). Here, the wireless transmission/reception device 200 may store data transmitted for retransmission.

On the other hand, in step S504, if the destination of the transmittable message is not the present node (wireless transmission/reception device 200), the wireless transmission/reception device 200 acquires a radio channel reservation time (RT _CTS ) from the received transmittable message, The transmission timer (Send_Timer) value is set to the maximum value that can be set or the same as the radio channel reservation time, and the wireless transmission/reception standby state is operated (S509).

5B is a flowchart illustrating a method of obtaining a data response message for data transmitted from the wireless transmission/reception device 200 in a transmission mode.

After transmitting the data to the neighboring node, the wireless transmission/reception apparatus 200 operates in a transmission mode when a data response (ACK) message for the previously transmitted data is received from the neighboring node (S510).

The wireless transmission/reception device 200 checks the destination of the received data response message (S512).

In step S512, if the destination of the data response message is the present node (wireless transmission/reception device 200), the wireless transmission/reception device 200 communicates to the upper layer that the transmission of data associated with the received data response message has been normally completed, and performs retransmission. The stored data is deleted, and an operation of deleting a transmission request message related to transmission of the corresponding data is performed (S514).

On the other hand, if the destination of the data response message in step S512 is not the present node (wireless transmission/reception device 200), the wireless transmission/reception device 200 operates in a wireless transmission/reception standby state without processing the packet of the received data response message ( S516).

5C is a flowchart illustrating a method of transmitting a transmission request message for data transmission in the wireless transmission/reception apparatus 200 in a transmission mode.

If there is no signal received from the neighboring node (there is no signal transmitted from the neighboring node), the wireless transmission/reception apparatus 200 checks the transmission timer Send_Timer (S520).

The wireless transmission/reception apparatus 200 checks whether the transmission timer has expired (S522).

If the transmission timer is ended in step S522 and the transmission timer value is 0, the wireless transmission/reception apparatus 200 checks whether there is a transmission request message to be transmitted (S524). On the other hand, if the transmission timer has not expired in step S522, it operates in a wireless transmission/reception standby state (S526).

When there is a transmission request message to be transmitted, the wireless transmission/reception device 200 checks the number of transmissions of the transmission request message (S530). Meanwhile, when the transmission request message to be transmitted does not exist, the wireless transmission/reception apparatus 200 operates in a wireless transmission/reception standby state (S526).

The wireless transmission/reception device 200 compares the number of transmissions of the transmission request message with a preset threshold number, and when the number of transmissions exceeds the threshold number, deletes the transmission request message exceeding the number of transmissions, and prevents data transmission failure from being transmitted to a higher layer. It is transmitted to (S532). Thereafter, the wireless transmission/reception apparatus 200 operates in a wireless transmission/reception standby state (S526).

On the other hand, the wireless transmission/reception apparatus 200 compares the number of transmissions of the transmission request message with a preset threshold number and sets a radio channel reservation time (RT _CTS ) for data transmission in the transmission request message when the transmission number is less than the threshold number. (S534), after transmitting the transmission request message, a preset number or a time for waiting to receive a plurality of transmittable messages is set in the transmission timer (S536).

In FIGS. 5A to 5C, it is described that each step is sequentially executed, but is not limited thereto. In other words, since the steps described in FIGS. 5A to 5C may be changed and executed or one or more steps may be executed in parallel, and thus FIGS. 5A to 5C are not limited to a time series order.

6A and 6B are flowcharts illustrating a method of operating a wireless transmission/reception apparatus in a reception mode according to an embodiment of the present invention.

6A is a flowchart illustrating a method of transmitting a transmittable message for data reception in the wireless transmission/reception apparatus 200 in a reception mode.

When a transmission request message is received from a neighboring node, the wireless transmission/reception apparatus 200 operates in a reception mode (S601).

The wireless transmission/reception apparatus 200 checks the destination of the received transmission request message (S602).

If the destination of the transmission request message is not the present node (wireless transmission/reception device 200), the neighboring node determines that there is data transmission and acquires the radio channel reservation time (RT _RTS ) included in the transmission request message, and a transmission timer (Send_Timer) ) Set the value to the maximum value that can be set or set the same as the radio channel reservation time, and operate in a wireless transmission/reception standby state (S604). Here, the radio channel reservation time (RT _RTS ) means a time for delaying radio output.

On the other hand, if the destination of the transmission request message is this node (the wireless transmission/reception apparatus 200), the wireless transmission/reception apparatus 200 checks the transmission timer Send_Timer and checks whether the transmission timer has expired (S606).

If the transmission timer is ended in step S606 and the transmission timer value is 0, the wireless transmission/reception apparatus 200 checks the type of transmission scheduled data (S610). On the other hand, if the transmission timer has not expired in step S606, it operates in a wireless transmission/reception standby state (S608).

The wireless transmission/reception device 200 adds a radio channel reservation time (RT _CTS ) to a transmittable message corresponding to the transmit request message, and transmits one transmittable message when the type of data to be transmitted from the neighboring node is general data. Do (S612).

On the other hand, the wireless transmission/reception apparatus 200 adds a radio channel reservation time (RT _CTS ) to a transmittable message corresponding to the transmission request message when the form of data to be transmitted from the neighboring node is voice data, and a preset number (2 (S614).

6B is a flowchart illustrating an operation method of receiving data in the wireless transmission/reception apparatus 200 in a reception mode.

The wireless transmission/reception apparatus 200 transmits a transmittable message to a neighboring node and then operates in a reception mode when data is received from the neighboring node (S620).

The wireless transmission/reception device 200 checks the destination of the received data (S622).

In step S622, if the destination of the data is the present node (wireless transmission/reception apparatus 200), the wireless transmission/reception apparatus 200 transmits the received data to the upper layer and transmits a data response message for reception of the data (S624). .

On the other hand, in step S622, if the destination of the data is not the present node (wireless transmission/reception apparatus 200), the wireless transmission/reception apparatus 200 operates in a wireless transmission/reception standby state (S626).

In FIGS. 6A and 6B, it is described that each step is sequentially executed, but is not limited thereto. In other words, since the steps described in FIGS. 6A and 6B may be changed and executed or one or more steps may be executed in parallel, and thus FIGS. 6A and 6B are not limited to a time series order.

7 is a flowchart illustrating an operation of setting a transmission timer in a wireless transmission/reception device according to an embodiment of the present invention.

7 is a flowchart illustrating a procedure for processing an interrupt of a transmission timer in the wireless transmission/reception device 200.

Referring to FIG. 7, when the transmission timer interrupt occurs, the wireless transmission/reception apparatus 200 controls the transmission timer value to be decreased by an interrupt period (S710).

Thereafter, the wireless transmission/reception apparatus 200 determines whether the reduced transmission timer value is less than 0 (S720). When the transmission timer value is less than 0, the wireless transmission/reception apparatus 200 sets the transmission timer value to 0 (S730).

When the transmission timer value is greater than or equal to 0, or when the transmission timer value is set to 0, the wireless transmission/reception apparatus 200 checks whether there is data to be transmitted (S740).

If data exists in the transmission schedule list, the wireless transmission/reception apparatus 200 determines whether to time out transmission specific data (S750). On the other hand, if there is no data in the transmission schedule list, the wireless transmission/reception apparatus 200 terminates the timer interrupt service and waits for the next timer interrupt.

If the transmission schedule data is timed out in step S750, the wireless transmission/reception apparatus 200 deletes the timed transmission schedule data from the transmission list and also deletes the related transmission request message (S760). Thereafter, the timer interrupt service is terminated and the next timer interrupt is awaited.

Meanwhile, in step S750, if the transmission schedule data has not timed out, the wireless transmission/reception apparatus 200 maintains the transmission schedule list as it is, terminates the timer interrupt service, and waits for the next timer interrupt.

8 is a flowchart for explaining inter-layer interworking of a wireless transmission/reception device according to an embodiment of the present invention.

In FIG. 8, a processing procedure for a case in which data is transmitted to the MAC layer in an upper layer existing above the MAC layer of the wireless transmission/reception apparatus 200 is shown. The processing procedure of the MAC layer shown in FIG. 8 is performed in the form of a thread, and may be repeatedly performed at a predetermined period by a thread timer.

The MAC layer of the wireless transmitting/receiving apparatus 200 determines whether data is transmitted from the upper layer (S810).

When the MAC layer of the wireless transceiver 200 receives data from an upper layer, it reserves the transmission of a transmission request message in relation to the received data (S820), and the received data is stored in the transmission schedule list for transmission and retransmission. Do (S830).

Meanwhile, if there is no data transmitted from the upper layer, the MAC layer of the wireless transmission/reception apparatus 200 finishes the processing procedure of FIG. 8 and waits until the next thread is called.

The wireless transmission/reception apparatus 200 according to the present embodiment may implement the implementation method of FIG. 8 by processing an event. In this case, when data is transmitted from an upper layer and generated as an event, the thread related to the event can be processed in a way that operates. In this case, the MAC layer does not perform step S810 of determining whether to transmit the data of the upper layer, and reserves the transmission of a transmission request message in relation to the received data (S820), and the received data is transmitted for transmission and retransmission. Only the procedure of storing in the schedule list (S830) can be implemented in a thread.

9A to 9C are exemplary views showing a wireless communication system for preventing data transmission errors according to an embodiment of the present invention.

9A to 9C are operations for preventing data transmission errors on the assumption of a wireless communication system including communication node A 110, communication node B 120, communication node C 130, and communication node D 140 Let's explain. 9A to 9B, it is assumed that the communication node A 110 and the communication node C 130 operate in a transmission mode, and the communication node B 120 and the communication node D 140 operate in a reception mode. do.

Referring to FIG. 9A, when the communication node A 110 transmits data to the communication node B 120, a data transmission error due to interference of the communication node C 130 must be prevented. Operation steps of the wireless communication system to prevent such data transmission errors are as follows.

a) Communication node A 110 transmits a transmission request message (RTS) to communication node B 120.

b) After receiving the transmission request message (RTS), the communication node B (120) can transmit to the communication node A (110) When a message (CTS) is responded, the neighboring nodes (node C) of the receiving node can transmit two Two transmittable messages (CTS _B1 and CTS _B2 ) are sequentially transmitted so that at least one of the messages (CTS) can be received.

c) The communication node C 130 transmits a transmission request message (RTS) to the communication node B 120 and the communication node D 140.

d) Communication node C 130 receives a transmittable message (CTS _B2 ). Although the transmittable message (CTS _B1 ) transmitted from the communication node B 120 collides 910 with the transmission request message (RTS) of the communication node C 130, the communication node C 130 transmits the transmittable message (CTS _B2). ) Can be received (920).

e) Communication node A 110 sequentially receives two transmittable messages (CTS _B1 and CTS _B2 ).

f) Communication node A 110 transmits a data frame to communication node B 120 after receiving two transmittable messages CTS _B1 and CTS _B2 .

g) After receiving the transmission request message (RTS), the communication node D (140) responds to the transmittable message (CTS) to the communication node C (130) when the neighboring node of the communication node D (140) is at least one of the two CTSs. Two transmittable messages (CTS _D1 and CTS _D2 ) are sequentially transmitted so that one can be received.

h) Communication node B 120 transmits a data response (ACK) message after receiving the data frame from communication node A 110.

i) Since the communication node C (130) received the transmission available message (CTS _B2 ) of the communication node B (120) before the transmission available message (CTS _D1 , CTS _D2 ) of the communication node D (140), the data to be transmitted The transmission of the frame is suspended, and the transmission request message (RTS) is retransmitted after the transmission reservation time (RT _B ) included in the transmission available message (CTS _B2 ) has elapsed.

Meanwhile, as shown in FIG. 9B, when the communication node C 130 receives a transmittable message (CTS _B1 ) from the communication node B 120 (930), the communication node C 130 receives a transmission request message ( RTS) is not transmitted, the transmission reservation time (RT _B ) included in the transmission available message (CTS _B1 ) is checked, and the transmission request message (RTS) is transmitted after the transmission reservation time (RT _B ) has elapsed.

In FIG. 9C, it is assumed that the communication node A 110 and the communication node D 140 operate in a transmission mode, and the communication node B 120 and the communication node C 130 operate in a reception mode.

9C, the transmission request message (RTS) transmitted from the communication node D 140 to the communication node C 130 collides with the transmittable message (CTS _B1 ) transmitted from the communication node B 120 ( Even if 940) occurs, the transmittable message (CTS _B2 ) successively transmitted from the communication node B 120 is transmitted to the communication node C 130 and the data between the communication node A 110 and the communication node B 120 Transmission errors do not occur in the delivery.

10 is an exemplary diagram showing a wireless communication system for preventing a transmission error of voice data according to an embodiment of the present invention.

In FIG. 10, as an example showing the start time of the transmission request message (RTS) for each terminal, the transmission request message (RTS) for transmission of voice data at the communication node A 110 is indicated by RTS _AV , and non-voice The transmission request message (RTS) for data transmission is indicated by RTS _AD .

Similarly, the transmission request message (RTS) for the transmission of voice data in communication nodes B, C, D (120, 130, 140) is expressed as RTS _BV , RTS _CV , RTS _DV , and for non-voice data transmission. The transmission request message (RTS) is indicated by RTS _BD , RTS _CD , and RTS _DD .

Referring to FIG. 10, the RTS _AV and RTS _AD start time setting in the communication node A 110 is a step of scheduling transmission of a transmission request message (RTS) in relation to data received from an upper layer (S820 in FIG. 8). At, voice (VOICE) data and non-voice data are classified and a delay time corresponding to each start point is designated in a transmission timer (Send_Timer).

The other communication nodes 120, 130, and 140 similarly perform the setting of the start time of the corresponding transmission request message RTS by designating the value of the transmission timer (Send_Timer).

Transmission request message in the example (RTS _AV , RTS _BV , RTS _CV , RTS _DV , RTS _AD , RTS _BD , RTS _CD , RTS _DD ) are generally occupied by setting the period of the transmission frame for the transmission request message (RTS) through a timer in a wireless transmission system equipped with a beacon or GPS. It can be configured.

If the transmission request message (RTS) time is specified as shown in FIG. 10, the node that generated the transmission request message (RTS) before other nodes through CSMA (Carrier Sense Multiple Access) can deliver data, and it is possible to transfer data to a specific node. It becomes possible to rank or to deliver voice data before normal data.

The above description is merely illustrative of the technical idea of the embodiments of the present invention, and those of ordinary skill in the technical field to which the embodiments of the present invention belong to, various modifications and modifications without departing from the essential characteristics of the embodiments of the present invention Transformation will be possible. Accordingly, the embodiments of the present invention are not intended to limit the technical idea of the embodiments of the present invention, but to explain, and the scope of the technical idea of the embodiments of the present invention is not limited by these embodiments. The scope of protection of the embodiments of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the rights of the embodiments of the present invention.

200: wireless transceiver
210: communication unit 220: processor
230: memory 240: signal detector
310: signal receiving unit 320: mode setting unit
330: mode control unit

Claims (13)

In a method for preventing data transmission errors in a wireless transceiver,
An acknowledgment step of confirming a signal received from a neighboring node;
A mode setting step of setting a transmission mode or a reception mode according to a result of confirming the received signal; And
Including a mode control step of performing an operation to prevent data transmission errors in each of the set modes,
In the mode setting step, when a transmission available message or data response message is received from the neighboring node or there is no signal received, the transmission mode is set, and when a transmission request message or data is received from the neighboring node, the transmission mode is set, and ,
In the mode control step, when the transmission enable message is received and is set to the transmission mode, whether or not the transmission possible message is duplicated and reception destination information is checked, and data transmission is controlled according to the confirmation result,
In the mode control step, when the previously received transmittable message and the transmittable message do not overlap, and the receiving destination information included in the transmittable message matches a node for the wireless transmission/reception device, the transmittable message is When the corresponding data is transmitted to the neighboring node, and the reception destination information is inconsistent with the node for the wireless transmission/reception device, a radio channel reservation time included in the transmission available message is obtained, and a data transmission timer is set to the radio channel. A wireless transmission/reception method for preventing data transmission errors, comprising setting the same as the reservation time and transmitting the data when the set time of the transmission timer expires. delete delete The method of claim 1,
The mode control step,
A wireless transmission/reception method for preventing a data transmission error, characterized in that transmitting data corresponding to the transmittable message and storing the data for retransmission of the data. The method of claim 4,
The mode control step,
After transmitting the data, when a data response (ACK) message is received in the acknowledgment step, when the reception destination information of the data response message is checked, and when the reception destination information matches the node for the wireless transceiver And deleting the data stored for the retransmission and a transmission request message for the data. delete The method of claim 1,
The mode setting step,
If there is no signal received from the neighboring node in the acknowledgment step, set to the transmission mode,
In the mode control step, the transmission of a transmission request message is controlled by checking a preset transmission timer and, when the transmission timer expires, comparing the transmission number of the transmission request message with a preset threshold number. Wireless transmission and reception method to prevent errors. The method of claim 7,
The mode control step,
When the number of transmissions of the transmission request message does not exceed the threshold number, a radio channel reservation time is set and the transmission request message is transmitted,
A wireless transmission/reception method for preventing data transmission errors, comprising setting a time for waiting to receive a plurality of transmittable messages corresponding to the transmission request message in the transmission timer. The method of claim 1,
The mode setting step,
When a transmission request message is received from the neighboring node in the reception confirmation step, setting to the reception mode,
The mode control step includes checking reception destination information of the transmission request message, and controlling transmission of a transmittable message according to a result of the confirmation. The method of claim 9,
The mode setting step,
When the reception destination information included in the transmission request message matches the node for the wireless transmission/reception device, the type of transmission scheduled data included in the transmission request message is checked, and a different number of transmissions according to the type of data A wireless transmission/reception method for preventing data transmission errors, characterized in that transmitting a possible message to the neighboring nodes. The method of claim 9,
The mode setting step,
When the reception destination information included in the transmission request message is inconsistent with the node for the radio transmission/reception device, a radio channel reservation time included in the transmission request message is obtained, and a transmission timer is set equal to the radio channel reservation time. And waits for reception of the data from the neighboring node. The method of claim 11,
The mode setting step,
When the data is received from the neighboring node in the data reception standby state, the reception destination information of the data is checked, and the data corresponding to the data when the reception destination information matches the node for the wireless transmission/reception device A wireless transmission/reception method for preventing data transmission errors, comprising transmitting a response message to the neighboring nodes. One or more processors; And
And a memory for storing one or more programs executed by the one or more processors,
The processor is
An acknowledgment step of confirming a signal received from a neighboring node;
A mode setting step of setting a transmission mode or a reception mode according to a result of confirming the received signal; And
Performing operations including a mode control step of performing an operation to prevent data transmission errors in each of the set modes,
In the mode setting step, when a transmission available message or data response message is received from the neighboring node or there is no signal received, the transmission mode is set, and when a transmission request message or data is received from the neighboring node, the transmission mode is set, and ,
In the mode control step, when the transmission enable message is received and is set to the transmission mode, whether or not the transmission possible message is duplicated and reception destination information is checked, and data transmission is controlled according to the confirmation result,
The mode control step corresponds to the transmittable message when the previously received transmittable message and the transmittable message do not overlap and the receiving destination information included in the transmittable message matches a node for a wireless transmission/reception device. When the data to be transmitted is transmitted to the neighboring node, and the reception destination information is inconsistent with the node for the wireless transmission/reception device, a radio channel reservation time included in the transmission available message is obtained, and a data transmission timer is reserved for the radio channel. Set the same as the time, and transmit the data when the set time of the transmission timer is over.

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