KR102276918B1 - Wireless data transmission method and system - Google Patents

Abstract

The present technology relates to a wireless data transmission method and system. According to an embodiment of the present technology, even when a plurality of transmitting wireless devices transmit and receive wireless data to a receiver and transmission data occurs simultaneously to a plurality of transmitting wireless devices, it is possible to increase the accuracy of wireless data transmission timing and prevent data collision. There is an advantage.

Description

Wireless data transmission method and system

To a wireless data transmission method and system, and more particularly, to a wireless data transmission method and system for preventing data collision when transmitting data from multiple transmitting wireless devices and increasing accuracy of wireless data transmission timing.

In short-distance wireless communication, a receiver, which is a controller, can send and receive data to and from a plurality of transmitting wireless devices.

The receiver and the transmitting wireless device can send and receive wireless data using one of 16 channels depending on the installation environment, and a maximum of 46 transmitters can be registered and used in one channel.

Although data collision prevention is possible with an algorithm that selects a channel with the fewest radio signals to prevent wireless data collision, a large number of transmitting wireless devices are registered and used in one channel. In the environment in which it is used or when multiple transmitting wireless devices are simultaneously generating transmission data, there is a delay in the method of monitoring the wireless signal usage of the wireless communication channel, and it is difficult to match the timing to transmit data. Errors such as bit breakage may occur.

In addition, when the wireless data between the receiver and the transmitting wireless device is continuously monitored, the bit timing value of the signal according to the timing is missed, and it is recognized as wireless noise, and wireless data is transmitted because there is no signal in the wireless communication channel. As such, there is a problem that data collision occurs.

Korea Patent No. 10-0675481 discloses a method of preventing data collision by setting a delay time as a data collision avoidance method of short-range wireless communication devices, but solves the difficulty of matching the transmission timing due to the delay of scan check of many devices It is different from the present invention for following.

1. Korean Patent No. 10-0675481

An object of the present invention is to provide a wireless data transmission method and system capable of improving wireless data transmission timing accuracy and data collision using wireless RSSI reception sensitivity.

In the wireless data transmission method of the present invention for achieving the above object, in short-distance wireless communication, registering a wireless device to transmit data to a wireless communication channel of a receiver through which data communication is to be performed; setting a predetermined RSSI reception sensitivity criterion according to a wireless device installation distance; checking the RSSI reception sensitivity of the wireless communication channel; and transmitting data of a transmitting wireless device according to a result of comparing the RSSI reception sensitivity detected in the step of checking the RSSI reception sensitivity and the predetermined RSSI reception sensitivity criterion.

Preferably, in the step of transmitting the data of the transmitting wireless device, a part of the received data packet of the wireless communication channel through which the data is to be transmitted is scanned before transmitting the data of the transmitting wireless device according to the comparison result, and if a predetermined value exists, wait to maintain status.

Preferably, the predetermined RSSI reception sensitivity criterion is -98 dBm.

A wireless data transmission system according to another embodiment of the present invention comprises: a wireless device registration unit for registering a wireless device to transmit data to a wireless communication channel of a receiver to which data communication is to be performed in short-distance wireless communication; a reception sensitivity setting unit for setting a predetermined RSSI reception sensitivity criterion set according to the installation distance of the wireless device; a reception sensitivity inspection unit for inspecting the RSSI reception sensitivity of the wireless communication channel; and a data transmitting unit which transmits data of a transmitting wireless device according to a result of comparing the RSSI reception sensitivity detected by the reception sensitivity test unit and the predetermined RSSI reception sensitivity criterion.

Preferably, the data transmitting unit scans a part of a received data packet of a wireless communication channel through which data is to be transmitted before transmitting the data of the transmitting wireless device according to the comparison result, and if a predetermined value exists, the standby state is maintained. .

Preferably, the predetermined RSSI reception sensitivity criterion is -98 dBm.

According to the present invention as described above, even when a situation in which a receiver and a plurality of transmitting wireless devices transmit and receive data and a plurality of transmitting wireless devices simultaneously transmit data occurs, data collision and errors due to this are reduced, so that the data transmission accuracy of the wireless transmitter Even if many transmitters are connected, it is possible to minimize the loss rate of the wireless network, and it is possible to identify the timing of transmission, thereby preventing signal omission and unnecessary dispatch.

1 is a flowchart illustrating a wireless data transmission method according to an embodiment of the present invention.
2 shows a detailed flowchart of wireless data transmission according to an embodiment of the present invention.
3 shows an example of a data packet configuration according to the present invention.
4 shows an example in which a receiver and a plurality of transmitting wireless devices are installed together with distance and reception sensitivity.
5 shows the RSSI reception sensitivity during data transmission/reception at a distance of about 0.5 m.
6 shows the RSSI reception sensitivity when transmitting and receiving data at a distance of about 61 m.
7 shows RSSI reception sensitivity during data transmission/reception at a distance of about 170 m.
8 is a block diagram of a wireless data transmission system according to another embodiment of the present invention.
9 shows a block diagram of detailed hardware according to an embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, with reference to the embodiments described below in conjunction with the accompanying drawings, the advantages and features of the present invention, and methods of achieving them, are described below with the accompanying drawings. It will become clear with reference to examples.

Prior to this, it should be noted that, if it is determined that a detailed description of a known function and its configuration related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof is omitted.

1 is a flowchart illustrating a wireless data transmission method according to an embodiment of the present invention.

First, a wireless device to transmit data to a wireless communication channel of a receiver through which data communication is to be performed is registered (S100). Next, a predetermined RSSI reception sensitivity criterion according to the installation distance of the wireless device is set (S200). Next, the RSSI reception sensitivity of the wireless communication channel is checked (S300). Next, the data of the transmitting wireless device is transmitted according to the result of comparing the RSSI reception sensitivity detected in step S300 with the predetermined RSSI reception sensitivity criterion set in step S200 ( S400 ).

In addition, in step S400, according to the result of comparing the RSSI reception sensitivity detected in step S300 with the predetermined RSSI reception sensitivity criterion set in step S200, before transmitting the data of the transmitting wireless device, the reception data of the wireless communication channel through which data is to be transmitted If a predetermined value exists by scanning a part of the packet, the standby state may be maintained.

In addition, the predetermined RSSI reception sensitivity criterion set in step S200 may be -98 dBm.

2 shows a detailed flowchart of wireless data transmission according to an embodiment of the present invention.

Referring to FIG. 2 , when data to be transmitted to a transmitting wireless device is generated, a data transmission procedure is started. Next, the RSSI reception sensitivity of the wireless communication channel through which data is transmitted is checked and compared with a predetermined RSSI reception sensitivity set. In this case, the preset RSSI reception sensitivity may be, for example, -98 dBm. As a result of the comparison, if the detected RSSI reception sensitivity is higher than the predetermined RSSI reception sensitivity, the standby state is maintained. As a result of the comparison, if the detected RSSI reception sensitivity is lower than the predetermined RSSI reception sensitivity, data transmission may be started.

In addition, before starting data transmission, some of the received data packets of the wireless communication channel are inspected and when a value indicating data transmission of another transmitting wireless device is confirmed, data transmission can be started again from the beginning. That is, as a result of the comparison, even if the detected RSSI reception sensitivity is lower than the predetermined RSSI reception sensitivity, if a value indicating data transmission is confirmed by examining some of the received data packets of the wireless communication channel, data collision is detected and data transmission is started again from the beginning. do.

3 shows an example of a data packet configuration according to the present invention. Referring to FIG. 3 , the front part of the data packet may include Preamble and Sync values indicating that data is currently being transmitted in the wireless communication channel.

4 shows an example in which a receiver and a plurality of transmitting wireless devices are installed together with distance and reception sensitivity.

As shown in Fig. 4, when transmitting wireless devices are installed and operated in each location, if alarm/on-time detection information generated from many transmitting wireless devices (for example, up to 46) is simultaneously generated, wireless data signals may collide continuously. have. At this time, even if the wireless data transmission signal is monitored by each transmitting wireless device, the transmission timing may not be matched due to the delay of the signal scan check of many devices. Therefore, there is a need to enable wireless data transmission by timing the wireless data transmission signal in real time without delay.

Depending on the distance between the transmitting wireless device and the receiver, the strength of RSSI reception sensitivity may vary as shown in Table 1 below, assuming there are no obstacles.

<Table 1>

For example, since most of the transmitting wireless devices for an alert are installed at a distance of about 100m from a receiver, which is a controller, it is preferable to set the predetermined RSSI reception sensitivity set in step S200 to -98dBm.

5 shows the RSSI reception sensitivity during data transmission/reception at a distance of about 0.5 m.

6 shows the RSSI reception sensitivity during data transmission/reception at a distance of about 61 m.

7 shows the RSSI reception sensitivity during data transmission/reception at a distance of about 170 m.

Referring to FIG. 7 , since a transmitting wireless device transmitting data at a distance of about 170m has an RSSI reception sensitivity lower than a predetermined RSSI reception sensitivity of -98dBm, other transmitting wireless devices may ignore it and transmit data. If this is regarded as an error situation, data collision can be prevented by checking a part of a received data packet of a wireless communication channel to be transmitted and checking a value indicating transmission of data from another transmitting wireless device.

8 is a block diagram of a wireless data transmission system according to another embodiment of the present invention.

The wireless data transmission system according to the present invention includes a wireless device registration unit 100 , a reception sensitivity setting unit 200 , a reception sensitivity inspection unit 300 , and a data transmission unit 400 .

The wireless device registration unit 100 registers a wireless device to transmit data to a wireless communication channel of a receiver through which data communication is to be performed.

The reception sensitivity setting unit 200 sets a predetermined RSSI reception sensitivity criterion set according to the installation distance of the wireless device.

The reception sensitivity inspection unit 300 inspects the RSSI reception sensitivity of the wireless communication channel.

The data transmitting unit 400 transmits data of the transmitting wireless device according to a result of comparing the RSSI reception sensitivity detected by the reception sensitivity inspection unit 300 with the predetermined RSSI reception sensitivity criterion.

At this time, the data transmitting unit 400 scans a part of a received data packet of a wireless communication channel through which data is to be transmitted before transmitting the data of the transmitting wireless device according to the comparison result, and maintains a standby state if a predetermined value exists. it could be

In this case, the predetermined RSSI reception sensitivity criterion set by the reception sensitivity setting unit 200 may be -98 dBm.

9 shows a block diagram of detailed hardware according to an embodiment of the present invention.

Harmonic represents a block containing harmonic filters that are multiples of the source frequency.

Low noise amplification refers to a block including an amplifier that minimizes noise of an externally received signal and amplifies and receives an original signal.

The RSSI scan represents a block including a circuit for checking the radio reception sensitivity.

RF Amplifier represents a block including an amplifier that amplifies wireless power and transmits a signal at an appropriate maximum power.

Carrier Sensing/Channel Scan represents a block including a device for detecting a carrier wave and a device for determining whether data exists by scanning a signal of a radio channel.

Channel represents a block including a variable channel selectable device.

The RF transceiver represents a block including a device for transmitting and receiving data while digitizing an analog value for data transmission and reception or converting a digitized value into an analog value.

Processor represents a block containing devices that generate and monitor data, including central processing unit and memory, and control channel management and data transmission.

Although described and illustrated in relation to a preferred embodiment for illustrating the technical idea of the present invention above, the present invention is not limited to the configuration and operation as shown and described as such, and deviates from the scope of the technical idea. It will be appreciated that many changes and modifications may be made to the present invention without reference to the invention. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as falling within the scope of the present invention.

100: wireless device register
200: reception sensitivity setting unit
300: reception sensitivity inspection unit
400: data transmitter

Claims (6)

In short-distance wireless communication,
registering a wireless device to transmit data to a wireless communication channel of a receiver through which data communication is to be performed;
a reception sensitivity setting step of setting a predetermined RSSI reception sensitivity criterion set according to a wireless device installation distance of 104 m;
checking the RSSI reception sensitivity of the wireless communication channel; and
Transmitting data of a transmitting wireless device according to a result of comparing the RSSI reception sensitivity detected in the step of checking the RSSI reception sensitivity and the predetermined RSSI reception sensitivity criterion;
The data transmission step of the transmitting wireless device,
According to the comparison result, before data is transmitted from the transmitting wireless device, the reception wireless power of the wireless communication channel through which data is transmitted is checked, and if the detected RSSI reception sensitivity is higher than the predetermined RSSI reception sensitivity criterion, the standby state is maintained and the Short-distance wireless data transmission method , characterized in that the transmission is lower than a predetermined RSSI reception sensitivity standard. delete According to claim 1,
The short-range wireless data transmission method, characterized in that the predetermined RSSI reception sensitivity criterion is -98 dBm. In short-distance wireless communication,
a wireless device registration unit for registering a wireless device to transmit data to a wireless communication channel of a receiver through which data communication is to be performed;
a reception sensitivity setting unit for setting a predetermined RSSI reception sensitivity criterion set according to a wireless device installation distance of 104 m;
a reception sensitivity inspection unit for inspecting the RSSI reception sensitivity of the wireless communication channel; and a data transmitting unit which transmits data of a transmitting wireless device according to a result of comparing the RSSI reception sensitivity detected by the reception sensitivity inspection unit and the predetermined RSSI reception sensitivity criterion;
In the data transmitting unit of the transmitting wireless device ,
According to the comparison result, before data is transmitted from the transmitting wireless device, the reception wireless power of the wireless communication channel through which data is transmitted is checked, and if the detected RSSI reception sensitivity is higher than the predetermined RSSI reception sensitivity criterion, the standby state is maintained and the Short-distance wireless data transmission system , characterized in that it is transmitted when it is lower than a predetermined RSSI reception sensitivity standard delete 5. The method of claim 4,
The short-range wireless data transmission system, characterized in that the predetermined RSSI reception sensitivity criterion is -98 dBm.

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