KR20200037931A - Low Speed RF communication system with Increased reliability and time saving - Google Patents

Abstract

The present invention relates to a radio frequency (RF) communication system which communicates data at low speed. According to the present invention, the RF communication system comprises: a first main control unit for generating data; a first RF communication unit including a plurality of transmission communication modules connected to the first main control unit and transmitting the data to a plurality of channels formed on an industrial scientific medical (ISM) band through the plurality of transmission communication modules; a second RF communication unit including a plurality of reception modules for one-to-one communication by forming one channel with each of the communication modules of the first RF communication unit; and a second main control unit connected to the second RF communication unit and comparing and operation-processing the data received through each second communication module.

Description

Low speed RF communication system with increased reliability and time saving

The present invention belongs to the technical field of the RF communication system. More specifically, the present invention belongs to the technical field of RF communication systems that communicate data at low speed.

Low-speed radio frequency (RF) communication generally exhibits a communication speed of 1200 bps to 2400 bps in a frequency band of 400 MHz.

The Federal Communications Commission (FCC) standard prevents a channel from occupying more than 0.4 seconds within 20 seconds when the output exceeds 0 dBm. Typically, low-speed RF communication is communicating data in compliance with FCC standards. Low-speed RF communication that complies with FCC standards forms a short communication distance for smooth communication so that data can be transmitted and received.

The low-speed RF communication has an advantage of low-cost RF equipment construction equipment because it uses a frequency band that can be used for free.

However, since low-speed RF communication uses one fixed channel, data transmitted by surrounding radio waves is easily lost.

Republic of Korea Registered Patent No. 10-1175147 (2012.08.13)

The present invention is to solve the above-described problem, and allows the low-speed RF communication system to receive normal data without losing data even by interference with surroundings.

The problem to be solved of the present invention is not limited to the problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The low-speed RF communication system for increasing data reliability and saving communication time of the present invention for achieving the above-mentioned problem is achieved.

A first main control unit generating data;

A first RF communication unit including a plurality of transmission communication modules connected to the first main control unit, and transmitting data to a plurality of channels formed on an Industrial Scientific Medical (ISM) band through a plurality of transmission communication modules;

A second RF communication unit including a plurality of reception modules for one-to-one communication by forming one channel with each communication module of the first RF communication unit;

And a second main control unit connected to the second RF communication unit and comparing and processing data received through each second communication module.

The first RF communication unit includes twenty transmission modules, and the second RF communication unit includes twenty reception modules, and the first to 20th transmission modules of the transmission module include the first reception module of the reception module. 20You can communicate one-to-one with the receiving module.

When the same data is received by at least ten receiving modules, the second main control unit may process the received data as normal data.

The second main control unit searches for a receiving module that does not receive normal data, and then turns off the receiving module that does not receive normal data,

The first main control unit may turn off the transmission module communicating with the receiving module that is turned off.

The communication module may further include a sub-communication device installed between the transmission communication module and the reception communication module to receive data transmitted from the transmission communication module and transmit the data to the first main control unit.

The low-speed RF communication system according to the present invention, which increases data reliability and saves communication time, transmits data using a plurality of channels and compares the transmitted data to receive normal data. Through this, the retry time for data communication failure can be eliminated.

In addition, the low-speed RF communication system according to the present invention, which increases data reliability and saves communication time, checks a channel in which communication is vulnerable in a data transmission environment, then stops communication to a channel in which data communication is vulnerable and retries for communication failure. It can be prevented. In addition, it is possible to block unnecessary channels so that radio waves are not wasted.

1 is a relationship diagram of a low-speed RF communication system that increases data reliability and saves communication time according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a state in which a low-speed RF communication system that increases data reliability and saves communication time in FIG. 1 operates in an environment in which radio interference is present.
FIG. 3 is a diagram illustrating data transmitted and received in a low-speed RF communication system that increases data reliability and saves communication time in FIG. 2.
FIG. 4 is a diagram illustrating a state in which some transmission modules and some reception modules are turned off in communication in a low-speed RF communication system that increases data reliability and saves communication time in FIG. 2.
5 is a relationship diagram of a low-speed RF communication system that increases data reliability and saves communication time according to another embodiment of the present invention.
FIG. 6 is a diagram showing a state in which the low-speed RF communication system of increasing data reliability and saving communication time in FIG. 5 operates in an environment in which radio interference is present.
FIG. 7 is a diagram illustrating a state in which some transmission modules and some reception modules are turned off and do not communicate in a low-speed RF communication system that increases data reliability and saves communication time in FIG. 5.

Advantages and features of the present invention and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments make the disclosure of the present invention complete and have ordinary knowledge in the art to which the present invention pertains. It is provided to completely inform the person of the scope of the invention.

The claims of the present invention may be defined by the claims supporting the claims. In addition, the same reference numerals refer to the same components throughout the specification.

Hereinafter, a low-speed RF communication system that increases data reliability and saves communication time according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4.

However, in order to simplify the description on the present specification, an overview of a low-speed RF communication system that increases data reliability and saves communication time with reference to FIG. 1 and then applies the present invention with reference to FIGS. 2 to 4 Examples and the operation of the system of the present invention in this application example will be described in detail.

1 is a relationship diagram of a low-speed RF communication system that increases data reliability and saves communication time according to an embodiment of the present invention.

The low-speed RF communication system 1 that increases data reliability and saves communication time uses a plurality of transmission modules (RF # 1 to RF # 20) connected to the first main control unit 10 on the ISM band to receive data from multiple reception modules. (RF # 1-1 ~ RF # 20-1), and transmitted to the receiving module through the second main control unit 20 connected to a plurality of receiving modules (RF # 1-1 ~ RF # 20-1) Data can be compared and computed.

The low-speed RF communication system 1 that increases data reliability and saves communication time can compare the transmitted data and check whether the received data is normal. In addition, the low-speed RF communication system 1 that increases data reliability and saves communication time includes a plurality of transmitting modules (RF # 1 to RF # 20) and a plurality of receiving modules (RF # 1-1 to RF # 20-1). Each of these is connected one by one to form a path capable of transmitting and receiving data, and a plurality of data transmitting and receiving paths can be formed.

Through this, the low-speed RF communication system 1, which increases data reliability and saves communication time, can transmit data to a channel without radio interference and transmit data without error even if radio interference occurs in some channels. That is, the present invention forms a plurality of data communication channels, and enables data to be successfully communicated by stably communicating data from radio wave interference.

The low-speed RF communication system 1 that increases data reliability and saves communication time is useful when it is necessary to stably transmit and receive main data.

The low-speed RF communication system 1 that increases data reliability and saves communication time includes a first main control unit 10, a second main control unit 20, and a first RF communication unit that transmits and receives data through an Industrial Scientific Medical (ISM) band. 110), the second RF communication unit 210 as a component. In addition, the sub-communication unit 30 may be further included as a component.

Hereinafter, each component constituting the low-speed RF communication system 1 that increases data reliability and saves communication time will be described in detail.

The first main control unit 10 is a computer that generates data to be transmitted and computes and processes the data. The first main control unit 10 is connected to the first RF communication unit 110 so that data can be transmitted through the first RF communication unit 110.

The first RF communication unit 110 transmits data to the second RF communication unit 210 on the ISM (Industrial Scientific Medical) frequency band. The first RF communication unit 110 includes a plurality of transmission modules (RF # 1 ~ RF # 20). For example, the first RF communication unit 110 includes a first transmission module (RF # 1), a second transmission module (RF # 2), a third transmission module (RF # 3), and a fourth transmission module (RF # 4), 5th transmission module (RF # 5), 6th transmission module (RF # 6), 7th transmission module (RF # 7), 8th transmission module (RF # 8), 9th transmission module (RF # 9), 10th transmission module (RF # 10), 11th transmission module (RF # 11), 12th transmission module (RF # 12), 13th transmission module (RF # 13), 14th transmission module (RF # 14), 15th transmission module (RF # 15), 16th transmission module (RF # 16), 17th transmission module (RF # 17), 18th transmission module (RF # 18), 19th transmission module (RF # 19), It may include a 20th transmission module (RF # 20).

As described above, the first RF communication unit 110 including a plurality of transmission modules transmits data to each transmission module (RF # 1-1 to RF # 20-1).

The second RF communication unit 210 communicates with the first RF communication unit 110 and forms a plurality of channels. The second RF communication unit 210 is configured to receive a plurality of transmission modules (RF # 1 to RF # 20) constituting the first RF communication unit 110 so as to form a plurality of channels with the first RF communication unit 110. It can include modules. For example, the second RF communication unit 210 includes a first receiving module (RF # 1-1), a second receiving module (RF # 2-1), a third receiving module (RF # 3-1), and a fourth receiving module. (RF # 4-1), 5th receiving module (RF # 5-1), 6th receiving module (RF # 6-1), 7th receiving module (RF # 7-1), 8th receiving module (RF # 8-1), 9th receiving module (RF # 9-1), 10th receiving module (RF # 10-1), 11th receiving module (RF # 11-1), 12th receiving module (RF # 12 -1), 13th receiving module (RF # 13-1), 14th receiving module (RF # 14-1), 15th receiving module (RF # 15-1), 16th receiving module (RF # 16-1) ), 17th receiving module (RF # 17-1), 18th receiving module (RF # 18-1), 19th receiving module (RF # 19-1), 20th receiving module (RF # 20-1) Can contain

Each receiving module of the second RF communication unit 210 forms a data communication channel on a one-to-one basis with each transmitting module RF # 1 to RF # 20 of the first RF communication unit 110 to enable data communication.

The second main control unit 20 is connected to the second RF communication unit 210, that is, a plurality of receiving modules RF # 1-1 to RF # 20-1, and a plurality of receiving modules RF # 1-1 to RF #. 20-1). The second main control unit 20 compares and processes the received data, and determines and uses normal data among the received data.

The second main control unit 20 may be a computer that generates data to be transmitted and computes and processes the data as the first main control unit 10.

Hereinafter, an example to which the present invention is applied with reference to FIGS. 2 to 4 and operation of the system of the present invention will be described in detail.

FIG. 2 is a view showing a state in which the low-speed RF communication system of FIG. 1 increases data reliability and saves communication time, operates in an environment in which radio interference is present, and FIG. 3 shows a low-speed increase of data reliability of FIG. 2 and saves communication time. It is a diagram showing data transmitted and received in an RF communication system. And FIG. 4 is a view showing a state in which some transmission modules and some reception modules are turned off in communication in a low-speed RF communication system that increases data reliability and saves communication time in FIG. 2.

In the ISM band where the low-speed RF communication system 1 that increases data reliability and saves communication time transmits and receives data, frequent radio interference occurs by other systems.

As shown in FIG. 2, the low-speed RF communication system 1 that increases data reliability and saves communication time may receive radio interference from the jammer A by another external system.

Interference propagation (A), which generates radio wave interference, includes a plurality of transmission modules (RF # 1 to RF # 20) and a plurality of reception modules (RF # 1) of a low-speed RF communication system (1) that increases data reliability and saves communication time. -1 ~ RF # 20-1) It contaminates the channel and interferes with normal communication of data.

More specifically, the jammer (A) is a plurality of transmission modules (RF # 1 ~ RF # 20) and a plurality of receiving modules (RF #) of the low-speed RF communication system (1) that increases data reliability and saves communication time. 1-1 to RF # 20-1) Some of the first to 20th channels formed between the channels may pollute the 11th to 20th channels.

For example, the first formed between the first transmission module (RF # 1) to the 20th transmission module (RF # 20) and the first reception module (RF # 1-1) to the 20th reception module (RF # 20-1) When data of '101011' is communicated through the channel through the 20th channel, the jammer A pollutes the 11th to 20th channels to communicate the data, such as '101000', '101010', and '100001'. It can be transformed into data.

The second main control unit 20 may compare data received through the first transmission module (RF # 1) to the 20th transmission module (RF # 20) to process data received from an uncontaminated channel as normal data. have. For example, when the same data is received by at least ten receiving modules RF # 1-1 to RF # 10-1, the second main control unit 20 may process the received data as normal data.

In other words, as shown, when the second main control unit 20 receives the same data in the first channel to the tenth channel, and receives different data in the eleventh channel to the twenty channel, through multiple channels The same data received may be processed as normal data.

The low-speed RF communication system 1, which increases data reliability and saves communication time, can stably transmit data through other channels even if there is interference in the corresponding channel and process the transmitted data as normal data.

In addition, when receiving the modified data through the contaminated channel, the second main control unit 20 turns off the receiving module that determines the at least ten identical data and other data as the modified data and receives the determined data. Order.

At this time, the first main control unit 10 turns off the transmitting module communicating with the turned-off receiving module, thereby increasing data reliability and saving communication time. It blocks the channel contaminated by so that data communication is not performed.

The low-speed RF communication system 1, which increases data reliability and saves communication time, identifies a channel in which communication is vulnerable in a data transmission environment, and prevents data communication from proceeding to a channel in which data communication is vulnerable, thereby retrying communication due to communication failure. You can prevent it from going on. In addition, it prevents unnecessary radio wave waste by blocking contamination.

Hereinafter, a low-speed RF communication system that increases data reliability and saves communication time according to another embodiment of the present invention will be described with reference to FIGS. 5 to 7.

However, the low-speed RF communication system that increases data reliability and saves communication time according to another embodiment of the present invention is compared with the low-speed RF communication system that saves data reliability and saves communication time according to one embodiment of the present invention. The components except the communicator 30 are the same.

Accordingly, a low-speed RF communication system that increases data reliability and saves communication time according to the above-described embodiment so that the description of the low-speed RF communication system that increases data reliability and saves communication time according to another embodiment of the present invention may be concise. Description of the same components as will be omitted.

The sub-communication unit 30 is installed between the transmitting modules RF # 1 to RF # 20 and the receiving modules RF # 1-1 to RF # 20-1. In one example, the sub-communication unit 30 is formed of the first sub-communication unit 30 to the 20th sub-communication unit 30, and is to be installed in the first transmission module RF # 1 to the 20th transmission module RF # 20. You can.

The sub-communication unit 30 transmits data to the second RF communication unit 210 and the first main control unit 10 after receiving the data transmitted from the transmission modules RF # 1 to RF # 20. The first main control unit 10 may compare the data received from the sub-communication unit 30 and identify the sub-communication unit 30 that transmits different data from the sub-communication unit 30.

More specifically, the first main control unit 10 sets the data transmitted by the ten sub-communication devices 30 as normal data. The first main control unit 10 may identify the sub-communication unit 30 that transmits data different from the normal data by the jammer A based on the set normal data as the sub-communication unit 30 in question. In one example, the first main control unit 10 is connected to the 11th transmission module (RF # 11) to the 20th transmission module (RF # 20) by the interference propagation (A) 11th sub-communication device (30) to 20th sub The communication line between the communicators 30 is contaminated, so that data transmitted from the first sub-communication unit 30 and the tenth sub-communication unit 30 from the eleventh sub-communication unit 30 to the twentieth sub-communication unit 30 is different from the data transmitted. In case of transmission, it can be determined by the sub-communication unit 30 in question and the transmission module RF # 20 in question.

As described above, the low-speed RF communication system that increases data reliability and saves communication time according to another embodiment of the present invention is a transmission module (RF #) that forms an unnecessary channel through the sub-communication unit 30 and the first main control unit 10. 20) can be turned off to prevent data from being transmitted to an invalid channel. Through this, the present invention can reduce the communication error rate and eliminate the communication retry time for communication failure.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. You will understand. Therefore, the embodiments described above are to be understood in all respects as illustrative and not restrictive.

1: Low-speed RF communication system that increases data reliability and saves communication time
10: first main control unit 110: first RF communication unit
20: second main control unit 210: second RF communication unit
RF # 1 ~ RF # 20: 1st transmission module ~ 20th transmission module
RF # 1-1 ~ RF # 20-1: 1st receiving module ~ 20th receiving module
30: sub-communication A: jammer

Claims (5)

A first main control unit generating data;
A first RF communication unit including a plurality of transmission communication modules connected to the first main control unit, and transmitting data to a plurality of channels formed on an Industrial Scientific Medical (ISM) band through a plurality of transmission communication modules;
A second RF communication unit including a plurality of reception modules for one-to-one communication by forming one channel with each communication module of the first RF communication unit;
And a second main control unit connected to the second RF communication unit and comparing and processing data received through each second communication module to increase data reliability and save communication time. According to claim 1,
The first RF communication unit includes twenty transmission modules, and the second RF communication unit includes twenty reception modules, and the first to 20th transmission modules of the transmission module include the first reception module of the reception module. 20 A low-speed RF communication system that communicates one-to-one with the receiving module, increasing data reliability and saving communication time. According to claim 2,
When the second main control unit receives the same data from at least ten receiving modules, the received data is processed as normal data, thereby increasing data reliability and saving communication time. According to claim 3,
The second main control unit searches for a receiving module that does not receive normal data, and then turns off the receiving module that does not receive normal data,
The first main control unit is a low-speed RF communication system to turn off the transmission module to communicate with the receiving module is turned off, increasing data reliability and saving communication time. According to claim 2,
It is installed between the transmission communication module and the reception communication module, after receiving the data transmitted from the transmission communication module, and transmits to the first main control unit, further comprising a sub-communication to increase data reliability and save communication time Low speed RF communication system.

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