KR101348839B1 - Hybrid data transmission system and method thereof - Google Patents

Abstract

The present invention relates to a hybrid data transmission system and a transmission method thereof. The hybrid data transmission system according to an embodiment of the present invention comprises: a wireless access point; a reference terminal device for determining whether target data received via a preset channel from the wireless access point is in a normal state, and if in a normal state, transmitting a reception confirm signal to the wireless access point; and at least one neighboring terminal device, affiliated to a communication range of the wireless access point, for selectively receiving the target data according to the communication mode, wherein the wireless access point, if receiving the reception confirm signal from the reference terminal device, transmits new target data to the reference terminal device. Therefore, data transmission speed between terminal devices over the wireless network can be enhanced and the reliability in data transmission can be enhanced.

Description

Hybrid data transmission system and its transmission method {HYBRID DATA TRANSMISSION SYSTEM AND METHOD THEREOF}

The present invention relates to a hybrid data transmission system and a transmission method thereof, and more particularly, a technology related to hybrid data transmission capable of unicast and multicast data transmission is disclosed.

IEEE 802.11 is a wireless LAN standard developed by the Working Group of the Institute of Electrical and Electronics Engineers (IEEE). The standard includes 802.11, 802.11a, 802.11b, 802.11g, and 802.11n, all of which use carrier sense multiple access / collision prevention (CSMA / CA) as a path sharing protocol. The method of transmitting data in the IEEE 802.11 standard is divided into a unicast and a multicast method according to the sender and the receiver participating in the data transmission.

The unicast method is a 1: 1 communication method. When a sender acquires a channel, the sender sends a request to send (RTS) to the receiver to reserve access to the channel, and in response, sends a clear to send (CTS) from the receiver. Receive. Here, other terminals can listen to the RTS / CTS and avoid collisions. After the data transfer is made, the receiver sends an ACK to the sender to indicate that the data transfer was successful. If the data transfer is not successful, the sender retransmits the data. However, when data is transmitted to a plurality of receivers in a unicast manner, there is a problem in that an overhead occurs because ACKs are received from the plurality of receivers.

On the other hand, the multicast scheme is a method in which one sender simultaneously transmits data to multiple receivers. The channel usage efficiency is high because the sender acquires the channel through channel competition, and then transmits data to multiple receivers. However, unlike the unicast method, since there is no feedback process that sends an ACK to the sender after the receiver successfully receives the data, it does not guarantee the reliability of the data transmission. In addition, there is a disadvantage in that a fixed transmission rate is used at a slow speed in order to guarantee maximum reliability to a plurality of receivers.

The background technology of the present invention is disclosed in Republic of Korea Patent Publication No. 10-1038735 (2011. 05. 27).

The technical problem to be solved by the present invention is to transmit data in a unicast manner with a reference terminal device among a plurality of terminal devices existing on a wireless network of a wireless access point, and transmits data in a multicast manner with the remaining terminal devices. To provide a hybrid data transmission system and its transmission method.

In the hybrid data transmission system according to an embodiment of the present invention, the wireless access point and the target data received through the predetermined channel from the wireless access point is determined whether or not normal, and if normal, the acknowledgment signal to the wireless access point A reference terminal device for transmitting a message and at least one neighboring terminal device included in a communication range of the wireless access point, and selectively receiving the object data according to a communication mode, wherein the wireless access point includes the reference terminal device. When receiving the acknowledgment signal from the mobile station, new target data is transmitted to the reference terminal device.

The reference terminal apparatus may further include a communication unit communicating with the wireless access point, and determining whether the object data received from the wireless access point is normal through a preset channel, and storing the received object data if the object data is normal. And a second data processor for generating the acknowledgment signal and transmitting the acknowledgment signal to the wireless access point when the target data is normal.

The communication unit may communicate with the wireless access point using a channel having a predetermined fixed IP address.

The at least one neighboring terminal device receives data having its own IP address as a destination address among the target data transmitted from the wireless access point in the normal mode, and the wireless access point in the monitoring mode. From among the target data transmitted from the target data can be received the data using the IP address of the reference terminal device as the destination address.

In the monitoring mode, the at least one neighboring terminal device may monitor the preset channel between the wireless access point and the reference terminal device and receive the target data normally received from the reference terminal device.

A hybrid data transmission method of a hybrid data transmission system including a wireless access point, a reference terminal device included in a communication range of the wireless access point, and at least one neighboring terminal device according to another embodiment of the present invention may include: Transmitting object data from the access point to the reference terminal device through a preset channel; and receiving the object data from at least one neighboring terminal device receiving the object data according to the reference terminal device and a communication mode. And transmitting an acknowledgment signal from the reference terminal device to the wireless access point, and when receiving the acknowledgment signal from the reference terminal device at the wireless access point, transmitting new object data to the reference terminal device. It includes a step.

Accordingly, by transmitting data in a unicast manner with a reference terminal device among a plurality of terminal devices existing on the wireless network of the wireless access point, and transmitting data in a multicast manner with the remaining terminal devices, It is possible to improve the data transmission speed and to improve the reliability of the data transmission.

1 is a block diagram of a hybrid data transmission system according to an embodiment of the present invention;
2 is a configuration diagram of a reference terminal device included in a hybrid data transmission system according to FIG. 1;
3 is a flowchart of a hybrid data transmission method according to a first embodiment of the present invention;
4 is a flowchart of a hybrid data transmission method according to a second embodiment of the present invention;
5A is an exemplary diagram for comparing and explaining data delay times in neighboring terminal devices in the hybrid data transmission system according to FIG. 1;
5B is an exemplary diagram for comparing and comparing the number of packets in a neighboring terminal device in the hybrid data transmission system of FIG. 1.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms used are terms selected in consideration of the functions in the embodiments, and the meaning of the terms may vary depending on the user, the intention or the precedent of the operator, and the like. Therefore, the meaning of the terms used in the following embodiments is defined according to the definition when specifically defined in this specification, and unless otherwise defined, it should be interpreted in a sense generally recognized by those skilled in the art.

1 is a block diagram of a hybrid data transmission system according to an embodiment of the present invention.

Referring to FIG. 1, a hybrid data transmission system 10 according to an embodiment of the present invention includes a wireless access point 100, a reference terminal device 200, and at least one neighboring terminal device 300.

A wireless access point (WAP) refers to a device that enables wireless devices to connect to wired devices using Wi-Fi and Bluetooth related standards in a computer network. The wireless access point 100 may be connected to a router via a wired network, and may relay data between a wireless device such as a computer and a smartphone and a wired device on a network. In this case, the wireless access point 100 preferably uses the IEEE 802.11 standard.

In addition, the wireless access point 100 may transmit the target data through the reference terminal device 200, and a fixed IP address may be pre-assigned to the reference terminal device 200. The wireless access point 100 searches for the terminal devices included in the communication area range, identifies the reference terminal device 200 using an ID of the terminal device, etc., and sets the reference terminal device 200 through a preset fixed IP address. Communicate with

The reference terminal device 200 is located in a communication range of the wireless access point 100 and communicates with the wireless access point 100, and serves to confirm reception of the target data. The reference terminal device 200 may be the same type of terminal device as the neighboring terminal device 300, and communicates with the wireless access point 100 among the neighboring terminal devices 300 using a channel in which a fixed IP address is set. It is set as a terminal.

In addition, the wireless access point 100 transmits only the object data having the IP address of the reference terminal device 200 on the wireless network, and the reference terminal device 200 receives the object data having its own IP address. Therefore, communication is performed between the wireless access point 100 and the reference terminal device 200 in a preset address unicast manner. A detailed description of the reference terminal device 200 will be described later with reference to FIG. 2.

The neighboring terminal device 300 refers to at least one terminal device included in a communication range of the wireless access point 100. In addition, the neighboring terminal device 300 is equipped with a communication module capable of Wi-Fi or Bluetooth communication. The neighboring terminal device 300 may communicate with the wireless access point 100, and in this case, the neighboring terminal device 300 uses data whose own IP address is the destination address among the destination data transmitted from the wireless access point 100. Can be received.

More specifically, the neighboring terminal device 300 may operate in a normal mode or a monitoring mode. The neighboring terminal device 300a in the normal mode may receive a target channel by receiving a new channel from the wireless access point 100. In addition, the neighboring terminal device 300b in the monitoring mode monitors object data having an IP address transmitted through a predetermined channel between the wireless access point 100 and the reference terminal device 200, and then monitors the target data from the wireless access point 100. The destination data can be received. That is, the neighboring terminal device 300 may receive object data transmitted to the reference terminal device 200 without forming a separate communication channel with the wireless access point 100.

For example, mode switching of the neighboring terminal device 300 inputs a selection for enabling / disabling the RFMON function through the presence or absence of a chip having a radio frequency monitoring (RFMON) function or an interface of the neighboring terminal device 300 itself. Can be determined by receiving. RFMON is a method of monitoring a wireless LAN network. It collects all the wireless LAN packets floating on the network and can detect the existence of the network efficiently. RFMON is a receive-only mode. In RFMON mode, the data may be received only but not transmitted.

FIG. 2 is a configuration diagram of a reference terminal device included in the hybrid data transmission system according to FIG. 1.

Referring to FIG. 2, the reference terminal device 200 includes a communication unit 210, a first data processor 220, and a second data processor 230.

The communication unit 210 communicates with a wireless access point. For example, the communication unit 210 may be a wireless communication module such as a Wi-Fi module or a Bluetooth module, and may communicate with a wireless access point using a channel having a predetermined fixed IP address.

The first data processor 220 determines whether the object data received through the preset channel from the wireless access point is normally received. In this case, if the received target data is normal, it is stored in the DB 225. In the hybrid data transmission system of the present invention, whether each terminal device normally receives the target data transmitted from the wireless access point through the wireless network is performed only through the reference terminal device 200, and the neighboring terminal device determines whether the normal reception is normal. Do not make judgments.

When the object data is normal, the second data processor 230 may generate an acknowledgment signal and transmit the acknowledgment signal to the wireless access point through the communication unit 210. In this case, when the second data processor 230 does not transmit the acknowledgment signal of the target data to the wireless access point within a preset time, the wireless access point retransmits the target data to the reference terminal device 200. In addition, the at least one neighboring terminal device may operate in a normal mode or a monitoring mode, and in the normal mode, receives only data whose IP address is a destination address from the wireless access point, and wireless access in the monitoring mode. The preset channel may be monitored between the point and the reference terminal device 200 to directly receive the target data transmitted from the wireless access point to the reference terminal device 200. That is, the neighboring terminal device can receive the destination data using the IP address of the reference terminal device 200 as the destination address.

In addition, the second data processor 230 may transmit the target data stored in the DB 225 to at least one neighboring terminal device through the communication unit 210. In this case, the second data processor 230 may operate the communicator 210 in the transmission mode to transmit the target data, and may not receive data from the neighboring terminal device. In addition, at least one neighboring terminal device may operate in a normal mode or a monitoring mode. In the normal mode, a new channel is allocated from the wireless access point to receive the target data directly. The preset channel between the reference terminal devices 200 may be monitored to receive the target data normally received from the reference terminal device 200.

3 is a flowchart of a hybrid data transmission method according to a first embodiment of the present invention.

In FIG. 3, the neighboring terminal device 300 is represented as one for convenience of description, but the data transmission method of the present invention may be applied to the plurality of neighboring terminal device 300.

Referring to FIG. 3, first, the wireless access point 100 transmits a reception ready signal to the reference terminal device 200 (S300). This is a signal for checking whether the reference terminal device 200 is in a state capable of receiving data and corresponds to a Request To Send (RTS) signal in a unicast transmission method.

Next, when the data reception is possible, the reference terminal device 200 transmits a reception ready signal to the wireless access point 100. This is a response signal corresponding to the reception ready signal, and corresponds to a clear to send (CTS) signal in the unicast transmission method. However, steps S300 and S301 are optional processes, and once a communication channel using a fixed IP address is formed between the wireless access point 100 and the reference terminal device 200, it may be omitted in a subsequent data transmission process.

Next, the wireless access point 100 transmits the target data (S302). In this case, the wireless access point 100 transmits the target data to the reference terminal device 200 and the neighboring terminal device 300 belonging to its communication range in the wireless network. In this case, although the IP address of the reference terminal device 100 is set as the destination address, the destination data may receive the destination data when the neighboring terminal device 300 is in the monitoring mode.

Next, the reference terminal device 200 receives the object data, and determines whether the object data is normally received (S303). Whether the target data is normally received may be determined by analyzing the fields of the target data, but the determination method may be differently set by the user.

Next, the reference terminal device 200 transmits an acknowledgment signal to the wireless access point 100 within a predetermined time only when it is determined that the target data is normally received in step S303 (S304). In addition, the reference terminal device 200 stores the normally received object data in the DB (S305). In this case, step S305 may be performed simultaneously with step S303. In addition, the neighboring terminal device 300 operating in the monitoring mode receives and stores the target data (S306). Since the wireless access point 100 transmits the target data on the wireless network using the IP address of the reference terminal device 200 as a destination address, the neighboring terminal device 300 knows the IP address of the reference terminal device 200. The destination data can be received.

On the other hand, after transmitting the target data, the wireless access point 100 increases the count and checks whether an acknowledgment signal is received from the reference terminal device 200 within a preset count. If the acknowledgment signal is not received within the preset count, it is determined as an error in transmission of the target data, and the target data is retransmitted to the reference terminal device 200.

Next, when the wireless access point 100 receives the acknowledgment signal from the reference terminal device 200, the wireless access point 100 transmits a reception ready signal to the reference terminal device 200 to transmit the next object data (S307). Next, the reference terminal device 200 transmits a reception ready signal to the wireless access point 100 (S308). Next, the wireless access point 100 transmits new object data whose destination is the IP address of the reference terminal device 200 (S309).

In this manner, steps S300 to S306 are repeated to transmit data. In this case, the wireless access point 100 and the reference terminal device 200 perform unicast data transmission, and the neighboring terminal device 300 operating in the monitoring mode with the wireless access point 100 is substantially multicast. It's like communicating in a way.

4 is a flowchart of a hybrid data transmission method according to a second embodiment of the present invention.

Referring to FIG. 4, since steps S400 to S405 are the same as steps S300 to S305 of FIG. 3, detailed descriptions thereof will be omitted.

In the hybrid data transmission method according to the second embodiment of the present invention, unlike the first embodiment, the reference terminal device 200 may relay the target data to the neighboring terminal device 300. When the neighboring terminal device 300 operates in the monitoring mode, the neighboring terminal device 300 frequently monitors a channel between the wireless access point 100 and the reference terminal device 200 to determine whether new object data is stored. (S406). The neighboring terminal device 300 may determine whether the reference terminal device 200 has received the target data by collecting all the wireless LAN packets in the wireless network.

Next, the reference terminal device 200 transmits the target data on the wireless network (S407). In this case, the receiving node of the target data is not predetermined, and the neighboring terminal device 300 which is the receiving node determines whether to receive the received data. The neighboring terminal device 300 operating in the monitoring mode stores the target data in operation S408.

5A is an exemplary diagram for comparing and comparing data delay times in neighboring terminal devices in the hybrid data transmission system according to FIG. 1, and FIG. 5B compares the number of packets in a neighboring terminal device in the hybrid data transmission system according to FIG. 1. It is an illustrative diagram for explanation.

First, referring to FIG. 5A, when node 1 and node 3 are neighboring terminal devices, and node 2 is a reference terminal device, when the data transmission method of the hybrid data transmission system of the present invention is used, multicast according to the IEEE 802.11 standard is used. Compared with the method, the average delay time of each node is reduced to less than half. Accordingly, it can be seen that the data transmission method of the hybrid data transmission system of the present invention has a faster data transmission rate than the multicast method according to the IEEE 802.11 standard.

Meanwhile, referring to FIG. 5B, when the node 1 and the node 3 are neighbor terminal devices and the node 2 is a reference terminal device, when the data transmission method of the hybrid data transmission system of the present invention is used, 500 packets are transmitted from the wireless access point. In the case of transmitting the packet, the total number of packets received at each node is 500, and when the multicast method according to the IEEE 802.11 standard is used, 498 packets are lost. Thus, two packets are lost. Accordingly, it can be seen that the data transmission method of the hybrid data transmission system of the present invention has higher reliability of data transmission than the multicast method according to the IEEE 802.11 standard.

As described above, according to an embodiment of the present invention, by transmitting data in a unicast manner with a reference terminal apparatus among a plurality of terminal apparatuses existing on a wireless network of a wireless access point, and transmitting data in a multicast manner with the remaining terminal apparatuses. In addition, the data transmission speed between the terminal devices on the wireless network can be improved, and the reliability of data transmission can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, Therefore, the present invention should be construed as a description of the claims which are intended to cover obvious variations that can be derived from the described embodiments.

10: hybrid data transmission system
100: wireless access point
200: reference terminal device
210:
220: first data processing unit
225: DB
230: second data processing unit
300: neighbor terminal device
300a: neighboring terminal device in normal mode
300b: neighboring terminal device in monitoring mode

Claims (10)

Wireless access point;
A reference terminal device for determining whether or not the target data received from the wireless access point through a predetermined channel is normal, and if normal, transmitting an acknowledgment signal to the wireless access point; And
At least one neighboring terminal device included in a communication range of the wireless access point, and selectively receiving the object data according to a communication mode,
When the wireless access point receives the acknowledgment signal from the reference terminal device, the wireless access point transmits new object data to the reference terminal device.
The at least one neighboring terminal device,
In the normal mode, the data received from the target data transmitted from the wireless access point using its own IP address as a destination address,
In the monitoring mode, a hybrid of monitoring a preset channel between the wireless access point and the reference terminal device and receiving data including an IP address of the reference terminal device as a destination address among the target data transmitted from the wireless access point. Data transmission system. The method of claim 1,
The reference terminal device,
A communication unit communicating with the wireless access point;
A first data processor configured to determine whether the object data received from the wireless access point through a predetermined channel is normal, and if the object data is normal, store the received object data; And
And a second data processor configured to generate the acknowledgment signal and transmit the acknowledgment signal to the wireless access point when the target data is normal. 3. The method of claim 2,
Wherein,
Hybrid data transmission system for communicating with the wireless access point using a channel having a predetermined fixed IP address. delete delete A hybrid data transmission method of a hybrid data transmission system including a wireless access point, a reference terminal device included in a communication range of the wireless access point, and at least one neighboring terminal device,
Transmitting object data from the wireless access point to the reference terminal device through a preset channel;
Receiving the object data at at least one neighboring terminal device receiving the object data according to the reference terminal device and a communication mode;
Transmitting an acknowledgment signal from the reference terminal device to the wireless access point; And
When the wireless access point receives the acknowledgment signal from the reference terminal device, transmitting new object data to the reference terminal device.
The at least one neighboring terminal device,
In the normal mode, the data received from the target data transmitted from the wireless access point using its own IP address as a destination address,
In the monitoring mode, a hybrid channel is configured to monitor a preset channel between the wireless access point and the reference terminal device and to receive data including an IP address of the reference terminal device as a destination address among the target data transmitted from the wireless access point. Data transfer method. The method according to claim 6,
The reference terminal device,
A communication unit communicating with the wireless access point;
A first data processor configured to determine whether the object data received from the wireless access point through a predetermined channel is normal, and if the object data is normal, store the received object data; And
And a second data processor configured to generate the acknowledgment signal and transmit the acknowledgment signal to the wireless access point when the target data is normal. The method of claim 7, wherein
Wherein,
Hybrid data transmission method using a channel having a predetermined static IP address and the wireless access point. delete delete

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