KR100949796B1 - Method and equipment for reducing radio interference in the presence of noise by using adaptive frequence hopping - Google Patents

Abstract

In the present invention, a frequency hopping communication system of a short range communication method is a method for mitigating radio interference when a radio wave environment is bad. The level of surrounding noise is determined according to a parity check result checked by a receiver, and accordingly, the frequency hopping rate is determined. The present invention relates to a method and apparatus for mitigating radio interference from other wireless communication devices by shortening the time occupied per hopping channel by changing the frequency of the hopping channel, and the adaptive frequency hopping device according to the present invention is adaptive frequency hopping in a radio noise environment. An apparatus, comprising: a controller configured to perform a parity check on a received signal, determine a degree of ambient radio noise based on the result, and output a corresponding hopping rate change control signal; A hopping frequency changing unit for changing a hopping rate of a hopping channel based on a hopping rate changing control signal from the controller; And a frequency synthesizer configured to generate a signal to be transmitted and received based on the hopping rate of the hopping channel by the hopping frequency changing unit.

Near field communication, frequency hopping, and interference mitigation

Description

Method and apparatus for mitigating interference by adaptive frequency hopping rate in radio noise environment {Method and equipment for reducing radio interference in the presence of noise by using adaptive frequence hopping}

The present invention relates to a method and apparatus for mitigating interference by an adaptive frequency hopping rate. In particular, the present invention provides an adaptive method for automatically changing a frequency hopping rate according to a radio noise level in a radio noise environment in a short-range low power wireless communication. A method and apparatus for mitigating radio interference by frequency hopping rate are provided.

The present invention is derived from a study conducted as part of the standardization support environment creation project of the Ministry of Information and Communication and the Institute of Information and Telecommunication Research and Development. [Task Management No .: 2006-P20-57, Project Name: A study on radio environment] communication environment for ISM bands).

Recently, short-range wireless communication methods using low power such as WLAN, Bluetooth, Zigbee, and binary CDM have been in the spotlight in the evolution to ubiquitous sensor network. In particular, Bluetooth allows to replace several cable connections required between devices through a single wireless connection in a short distance. For example, when Bluetooth technology is implemented in mobile phones and laptop computers, it is connected and used without cables.

However, since these communication devices use 2400-2483.5 MHz Industrial, Scientific, and Medical (ISM) frequencies (frequency allocated by international organizations for industrial, scientific, and medical distribution) that anyone can easily emit radio waves without reporting, There is a high possibility of radio interference between wireless communication devices in the same service location. In other words, because it is designed to operate in a noisy radio frequency (RF) environment, short-range wireless communication such as Bluetooth O has been increasingly attempted to strengthen the connection by using fast recognition and frequency hopping.

Therefore, in the conventional short-range communication method, Bluetooth and binary CDM hop frequency every hour to reduce the possibility of radio interference, thereby avoiding or mitigating radio interference generated from other short-range communication devices. In addition, in order to further mitigate radio interference, Bluetooth and binary CDM may use an adaptive frequency hopping scheme that selects a hopping frequency by measuring the radio wave strength of the surrounding before wireless data communication.

However, due to the popular dissemination of 2.4GHz wireless LAN in the city streets and office environment, 2.4GHz ISM radio environment is not good, so search for a hopping channel available for Bluetooth and binary CDM using adaptive frequency hopping. Can be difficult.

1 is a block diagram illustrating a conventional adaptive frequency hopping apparatus.

FIG. 1 shows a search for radio noise in the vicinity of a short range communication device using a 2.4 GHz ISM frequency band and a frequency hopping communication method in which transmission and reception are performed using a TDD scheme. The receive amplifier 1 amplifies the received signal, and the frequency oscillator 2 adjusts the oscillation frequency and sends each received RF channel signal to the baseband processor 3 with an A / D converter. The radio wave signal intensity entering the baseband processor 3 measures the intensity of the radio wave signal present in each received RF channel through the electric field strength measuring instrument 4, and determines the degree of radio noise according to the electric field strength. Will change. As described above, in the conventional adaptive frequency hopping device, the electric field noise is physically measured by the electric field strength meter of the receiver as the electric field strength to derive a hopping channel among all the hopping channels. However, since the actual propagation channel has a random characteristic, the received electric field strength value may change greatly every measurement time. This large change can misjudge the exact state of the hopping channel. In addition, the value measured by this method has a weak point that does not reflect the radio noise signal result passed through the automatic gain controller.

The present invention has been made in order to solve the above-described problem. In the frequency hopping communication method in which transmission and reception are performed in a TDD scheme, a plurality of short range wireless devices using the same frequency band exist, so that the surrounding radio environment is poor. The present invention provides a method and apparatus for mitigating interference by adaptive frequency hopping rate in a radio noise environment in which a frequency hopping rate is increased to mitigate radio interference after determining the propagation noise of the receiver as a parity check value of the receiver.

In addition, the present invention changes the hopping rate according to the surrounding radio noise environment in the frequency hopping system to shorten the time occupied by the hopping channel, thereby adaptive frequency hopping in the radio noise environment to mitigate radio interference from other wireless communication devices Provided are a method and apparatus for mitigating radio wave interference by rate.

The adaptive frequency hopping apparatus according to the embodiment of the present invention is an adaptive frequency hopping apparatus in a radio noise environment, and performs a parity check on a received signal and then determines the degree of surrounding noise based on the result. A controller for outputting a hopping rate change control signal; A hopping frequency changing unit for changing a hopping rate of a hopping channel based on a hopping rate changing control signal from the controller; And a frequency synthesizer configured to generate a signal to be transmitted and received based on the hopping rate of the hopping channel by the hopping frequency changing unit.

The present invention includes a transmitter for amplifying and transmitting a signal; Further comprising, the control unit preferably transmits and synchronizes the changed hopping rate to the corresponding receiver through the transmitter.

The control unit of the present invention, the parity check unit for checking the parity of the received signal; And a channel state determination unit for comparing the parity value of the received signal inspected by the parity checker with a reference value to determine an ambient propagation noise level. It is preferable to include.

The control unit of the present invention may further include a hopping rate setting unit for setting a current hopping rate, and when the parity value for the received signal inspected by the parity check unit is equal to or greater than a reference value, the hopping rate setting unit includes a preset pre-hopping rate. It is desirable to set the current hopping rate on the basis of.

The control unit of the present invention, the pre-hopping rate DB for storing the pre-hopping rate; Further, when the parity value for the received signal checked from the parity check unit is greater than the reference value, it is preferable to change the current hopping rate among the pre-hopping rate of the pre-hopping rate DB to a higher hopping rate.

When the parity value of the received signal checked by the parity check unit is less than or equal to a previous parity value, the controller may change the current hopping rate to a lower hopping rate among the pre-hopping rates of the pre-hopping rate DB.

According to an embodiment of the present invention, a radio wave interference mitigation method using an adaptive frequency hopping rate in a radio noise environment is a radio wave interference mitigation method using an adaptive frequency hopping rate in a radio noise environment, and a parity check for a received signal is performed. After the operation is performed, the current hopping rate is changed by judging the degree of ambient radio noise based on the result.

In determining the ambient noise level of the present invention, it is preferable to determine the level of ambient radio noise by comparing the parity value of the received signal with a reference value.

The present invention preferably sets the current hopping rate based on a preset pre-hopping rate when the parity value for the received signal is greater than or equal to the reference value.

In the present invention, when the parity value for the received signal is equal to or greater than the reference value, it is preferable to change the current hopping rate to a higher hopping rate among preset preset hopping rates.

According to the present invention, when the parity value for the received signal is less than or equal to the previous parity value, it is preferable to change the current hopping rate to a lower hopping rate among preset preset hopping rates.

According to another exemplary embodiment of the present invention, a radio interference mitigation method using an adaptive frequency hopping rate in a radio noise environment is a radio interference mitigation method using an adaptive frequency hopping rate in a radio noise environment. A first step of controlling a hopping rate through the hopping frequency changing unit by determining a degree of ambient radio noise based on the result after the inspection; And a second step of synchronizing by transmitting the changed hopping rate to a corresponding receiver.

The first step of the present invention comprises the steps 1-1 of checking parity for a received signal; A first and second step of determining an ambient radio noise level by comparing the checked parity value with a reference value; And setting the current hopping rate on the basis of the preset pre-hopping rate based on the determination result.

Steps 1-3 of the present invention preferably include changing a current hopping rate to a higher hopping rate among preset preset hopping rates when the parity value of the received signal is equal to or greater than a reference value.

Steps 1-3 of the present invention preferably include changing the current hopping rate to a lower hopping rate among preset pre-hopping rates when the parity value for the received signal is equal to or less than the previous parity value.

According to the present invention, the short-range wireless communication device using the frequency hopping method adaptively communicates at a predetermined hopping rate according to the surrounding radio noise environment, thereby having an excellent effect of mitigating radio interference generated from other communication devices.

In addition, according to the present invention, by using the state of the parity check code to check in the demodulation of the receiver to evaluate the surrounding noise level (evaluation of the entire hopping band by the parity check of the receiver) to select a predetermined hopping rate in advance Therefore, the higher the hopping rate, the shorter the time occupied by each hopping channel, thereby reducing the interference caused by other radio devices.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention will be described based on the transmission medium is applied to a short-range communication device, such as Bluetooth (Bluetooth) using the ISM frequency band through the radio, such as RF. In addition, it is to be noted that the same components in the drawings are represented by the same reference numerals and symbols as much as possible even if shown in different drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a block diagram showing the overall configuration of the adaptive frequency hopping device according to the present invention, Figure 3 is a block diagram showing the internal configuration of the adaptive frequency hopping device according to the present invention.

2 and 3, the adaptive frequency hopping device to which the interference interference mitigation method by the adaptive frequency hopping rate in the radio noise environment according to the present invention is applied includes an antenna (5) and a receiving amplifier (11) The receiver 10, the transmitter 20 including the receiver amplifier 21, the frequency synthesizer 30, the filter 41, the baseband 40, the controller 50, and the hopping frequency changer 70. Include.

The receiver 10 amplifies the received signal through the short range communication (for example, blue pitcher, wireless LAN, etc.) input from the antenna 5 in the reception amplifier 11. In this case, the received signal may include voice data, text data, image data, and the like.

At this time, the reception amplifier 11 may be used amplifying materials to amplify the output of the received signal.

The frequency synthesizer 30 synthesizes a signal in accordance with a hopping channel of a signal to be transmitted and received. The signal synthesized by the frequency synthesizer 30 is separated and filtered into a desired signal through the filter 41.

The baseband 40 converts the filtered signal into digital data and transmits the filtered signal to the controller 50, and the controller 50 may determine a level of radio noise in the vicinity by performing a parity check on the input digital data. That is, the determination of the radio noise level is high when the surrounding noise is high, the signal-to-noise ratio of the transmission and reception is low, so that a large number of bit errors occur, such a frequency error rate can be known through the parity check. For example, if more than 10 parity check values for a received signal occur in one frame, it may be determined that radio wave noise is high.

The controller 50 determines the hopping rate based on the level of ambient radio noise, and transmits and receives the frequency synthesizer 30 as a signal for changing the hopping rate of the hopping channel through the hopping frequency changing unit 70 according to the hopping rate. The hopping rate of the hopping channel of the signal to be changed is changed. For example, 802.11 wireless LAN using frequency hopping at 2.4 GHz frequency has a hop rate of 150 hop / sec and Bluetooth using a 2.4 GHz frequency of the same wireless LAN has a fixed frequency of 1600 hop / sec. Although a fixed arbitrary hopping rate is used without consideration, the control unit 50 according to the present invention may change the hopping rate of the hopping channel according to the parity check value (for example, when the error rate is 10 or more as a result of the parity check). Will be done.

That is, the controller 50 is to change the current hopping rate according to the radio noise level from a predetermined set of preset hopping rate (for example, 800 hop / sec, 1600 hop / sec, 3200 hop / sec, 6400 hop / sec) .

In this case, frequency hopping (FH) is a method in which a carrier wave emitted from a corresponding transmitter generally converts a modern frequency signal into a wideband signal by temporally converting according to an arbitrary pattern. Should be. For example, the frequency hopping may be performed several times for a signal and the frequency hopping may be performed several times for a plurality of signals. That is, in order to reduce the probability that the signal overlaps with a communication device using the same frequency, the signal is continuously changed according to a hopping rate (hopping / time) to prevent overlapping with signals of other communication devices.

In addition, when the hopping rate is variably determined according to the parity check result, the controller 50 may set a step of changing the hopping rate from the pre-hopping rate set. For example, the radio noise level may be divided into upper / medium / lower according to the parity value, and thus the pre-hopping rate may be divided into low speed, medium speed, and high speed.

Therefore, the present invention is to determine the level of the ambient radio noise according to the parity check value for the signal received through the short-range communication, it is possible to vary the frequency hopping rate accordingly.

4 is a block diagram illustrating an internal configuration of a controller of FIG. 3.

Referring to FIG. 4, the controller 50 may include a parity checker 52, a channel state determiner 54, a hopping rate setting unit 56, and a pre-hopping rate DB 58.

The parity check unit 52 performs a parity check on the digital data input through the above-described signal processing. The parity check may be a conventional parity check scheme. In other words, the parity check uses checking that an error occurs in a transmitted / received signal due to surrounding frequency disturbance, attenuation noise, and the like.

The channel state determiner 54 compares the parity check value by the parity checker 52 with a preset reference value to determine the level of ambient radio noise.

Here, the reference value may be variably applied based on the normal communication range. For example, if the parity error rate is 0 to 10%, it is assumed that normal communication can be maintained, that is, if the parity error rate is 10% or more, the reference value is set to 10% because normal communication is impossible due to radio noise. will be.

As described above, the channel state determination unit 54 may determine the radio noise level by comparing the parity value for the digital data checked by the parity checker 52 with a preset reference value. That is, when the parity check result value is larger than the reference value, the channel state determination unit 54 may determine that a large number of bit errors occur due to a low signal-to-noise ratio being received, and thus may determine that the level of radio noise in the vicinity is high.

The hopping rate setting unit 56 selects a current hopping rate among preset preset hopping rate sets according to the propagation level determined by the channel state determining unit 54 and changes the current hopping to be changed to the hopping frequency changing unit 70 described above. The control signal for the rate can be sent. That is, the hopping rate setting unit 56 determines the hopping rate based on the level of the surrounding radio noise, and changes the hopping rate of the hopping channel through the hopping frequency changing unit 70 according to the hopping rate. The hopping rate of the hopping channel of the transmitted / received signal of 30 is changed.

In addition, the hopping rate setting unit 56 determines the pre-hopping rate when the parity value inspected by the parity check unit 52 is equal to or greater than the reference value, that is, when the determination result of the channel state determining unit 54 has a high ambient radio noise level. It is possible to change the current hopping rate to a higher hopping rate among the pre-hopping rates included in the DB 58.

In addition, the hopping rate setting unit 56 designates the lowest hopping rate as the current hopping rate among the pre-hopping rate sets stored in the pre-hopping rate DB 58, and compares the parity value and the reference value for the received signal later than the reference value. That is, when the determination result of the channel state determination unit 54 indicates that the surrounding noise level is high, the process of changing the current hopping rate to the higher hopping rate is repeated so that the hopping rate that is suitable for the surrounding propagation noise level is variably applied. It may be.

In addition, the hopping rate setting unit 56 performs a pre-hopping rate DB when the parity value checked by the parity check unit 52 is equal to or greater than a reference value, that is, when the determination result of the channel state determining unit 54 has a high ambient noise level. It is possible to change the current hopping rate to a higher hopping rate among the pre-hopping rates included in (58).

In addition, the hopping rate setting unit 56 compares the parity value of the received signal with the parity value of the previous signal as a reference value, and when the reference value is less than or equal to the reference value, that is, the determination result of the channel state determination unit 54 is the ambient radio noise. When the level is lower than the previous radio noise level, the current hopping rate may be changed to a lower hopping rate.

The pre-hopping rate DB 58 stores a preset set of pre-hopping rates. For example, a predetermined set of pre-hopping rates can be specified by classifying one or more steps between the lowest and highest available hop rates (e.g. 800 hop / sec, 1600 hop / sec, 3200 hop / sec, 6400 hop /). sec).

In addition, the pre-hopping rate DB 58 may correspond to the pre-hopping rate corresponding to the radio noise level according to the parity value. For example, it may be possible to divide the noise level into upper / medium / lower levels, thereby dividing the pre-hopping rate into low speed, medium speed, and high speed.

As such, the present invention evaluates the propagation noise level in accordance with the parity check value for the received signal (evaluation of the entire hopping band with the parity check of the receiver), and varies the predetermined hopping rate to occupy per hopping channel. It is possible to mitigate radio interference from other wireless devices by changing the time.

Hereinafter, a radio wave interference mitigation method by an adaptive frequency hopping rate according to an embodiment of the present invention will be described with reference to the accompanying drawings.

5 is a flowchart illustrating a method for mitigating interference due to an adaptive frequency hopping rate according to the present invention. In the following description, the same reference numerals as used in FIGS. 1 to 4 refer to performing the same function.

Referring to FIG. 5, the interference interference mitigation method using the adaptive frequency hopping rate according to the present invention first sets a pre-hopping rate set according to a hopping rate applicable according to a communication environment (S100). That is, the controller 50 stores and sets the pre-hopping rate set in which the hopping rates per second are discretely defined as integer values in the pre-hopping rate DB 58.

Subsequently, the controller 50 selects the lowest hopping rate as the current hopping rate from the pre-hopping rate set (S200).

At this time, the transmitter 10 transmits the synchronization signal and the data signal at the lowest hopping rate, and the receiver 10 also receives the signal of the transmitter corresponding to the lowest hopping rate (S300).

As described above, the received signal undergoes an intermediate process such as amplification, and the controller 50 performs a parity check on the bits included in the data of the received signal (S400).

Thereafter, the controller 50 compares the parity value and the reference value of the signal and determines a channel state based on the result (S500).

In step S500, if it is determined that the propagation noise level is good as a result of the parity check, that is, if the error detection number of the parity value for the signal is smaller than a predetermined reference (reference value), the controller 50 continues to communicate at the lowest hopping rate. Then, the hopping rate adaptive algorithm ends.

If, in step S500, the control unit 50 determines that the radio wave noise level is high as a result of the parity check, that is, if a large number of errors are detected in the parity check, the control unit 50 determines that the neighboring radio wave noise level is high, A predetermined upper hopping rate is selected (S600).

That is, the controller 50 changes the hopping rate of the hopping channel of the frequency synthesizer 30 through the hopping frequency changing unit 70 according to the selected higher hopping rate.

At this time, the controller 50 transmits the currently selected hopping rate information together with the signal transmitted through the transmitter 20 to the corresponding receiver to synchronize (S700).

As described above, the present invention transmits a signal based on the transmitted and received hopping rate information, and repeats steps S300 to S700 to determine a neighboring radio noise condition according to the parity check result of the signal to maximize the current hopping rate. By repeatedly performing the hopping rate, it is possible to maintain a good communication state.

In addition, the present invention, when the parity value for the received signal is equal to or greater than the reference value, that is, when the determination result of the channel state determination unit 54 has a high ambient radio noise level, the dictionary included in the pre-hopping rate DB 58 Among the hopping rates, the current hopping rate may be changed to a higher hopping rate.

In addition, the present invention includes the pre-hopping rate DB 58 when the checked parity value for the received signal is equal to or greater than the reference value, that is, when the determination result of the channel state determining unit 54 has high ambient radio noise level. It is possible to change the current hopping rate to a higher hopping rate among the preliminary hopping rates.

In addition, the present invention compares the parity value of the received signal with the parity value of the previous signal as a reference value when the parity value is less than or equal to the reference value, that is, the result of the determination of the channel state determination unit 54 indicates that the radio noise level of the previous radio noise level is earlier. When lower than the level, the current hopping rate may be changed to a lower hopping rate.

Accordingly, the present invention can mitigate radio wave interference generated from other communication devices by performing a communication at a predetermined hopping rate by a short range wireless communication device using a frequency hopping method adaptively according to the surrounding radio noise environment.

In addition, the present invention uses the state of the parity check code checked in the demodulation of the receiver to evaluate the surrounding noise level (evaluation of the entire hopping band by the parity check of the receiver) to select a predetermined hopping rate in advance The higher the hopping rate, the shorter the time occupied by each hopping channel, thereby mitigating radio interference from other wireless devices.

While the technical idea of the embodiment of the present invention as described above has been described with the accompanying drawings, it is intended to illustrate the best embodiment of the present invention by way of example and not to limit the present invention. In addition, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit of the present invention.

1 is a block diagram showing a conventional adaptive frequency hopping apparatus.

Figure 2 is a block diagram showing the overall configuration of the adaptive frequency hopping apparatus according to the present invention.

3 is a block diagram showing an internal configuration of an adaptive frequency hopping apparatus according to the present invention.

4 is a block diagram illustrating an internal configuration of a control unit of FIG. 3.

Figure 5 is a flow chart illustrating a method of mitigation of interference caused by the adaptive frequency hopping rate in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

10: receiver 20: transmitter

30: frequency synthesizer 40: baseband

50 control unit 52 parity check unit

54: channel state determination unit 56: hopping rate setting unit

58: pre-hopping rate DB 70: hopping frequency change unit

80: filter

Claims (15)

An adaptive frequency hopping device in a radio noise environment, A controller for performing a parity check on the received signal and determining a degree of ambient radio noise based on the result and outputting a corresponding hopping rate change control signal; A hopping frequency changing unit for changing a hopping rate of a hopping channel based on a hopping rate changing control signal from the controller; And And a frequency synthesizer configured to generate a signal to be transmitted and received based on the hopping rate of the hopping channel by the hopping frequency changing unit. The method of claim 1, A transmitter for amplifying and transmitting a signal; More, And the control unit transmits and synchronizes the changed hopping rate to the corresponding receiver through the transmitter. The method according to claim 1 or 2, The control unit, A parity checker checking a parity of a received signal; And A channel state determination unit to determine a level of ambient radio noise by comparing a parity value of the signal checked by the parity checker with a reference value; Adaptive frequency hopping device comprising a. The method of claim 3, wherein The control unit, And a hopping rate setting unit for setting a current hopping rate. And the hopping rate setting unit sets the current hopping rate based on a preset pre-hopping rate when the parity value of the signal checked by the parity check unit is equal to or greater than a reference value. The method of claim 3, wherein The control unit, A pre-hopping rate DB for storing the pre-hopping rate; More, And when a parity value for the signal checked by the parity check unit is equal to or greater than a reference value, the current hopping rate among the pre-hopping rates of the pre-hopping rate DB is changed to a higher hopping rate. The method of claim 3, wherein The control unit, A hopping rate setting unit for setting a current hopping rate; And A pre-hopping rate DB for storing the pre-hopping rate; More, The channel state determination unit, And compares the parity value of the signal checked by the parity checker with the parity value of the previous signal to determine the ambient propagation noise level. The hopping rate setting unit may change the current hopping rate from the prehopping rate of the pre-hopping rate DB to a lower hopping rate when the parity value of the signal checked by the parity check unit is less than or equal to the parity value of the previous signal. Adaptive frequency hopping device. A method of mitigating interference by adaptive frequency hopping rate in a radio noise environment, A method of mitigating interference by adaptive frequency hopping in a radio noise environment, characterized in that after performing a parity check on a received signal, determining the degree of surrounding radio noise and changing the current hopping rate based on the result. The method of claim 7, wherein The ambient radio noise level is, A method of mitigating interference by adaptive frequency hopping in a radio noise environment, characterized in that a parity value of a received signal is compared with a reference value to determine an ambient propagation noise level. The method of claim 8, And a current hopping rate is set based on a preset pre-hopping rate when the parity value for the signal is equal to or greater than a reference value. The method of claim 8, When the parity value for the signal is greater than or equal to the reference value, the interference interference mitigation method according to the adaptive frequency hopping rate in the radio noise environment, characterized in that for changing the current hopping rate among the preset pre-hopping rate. The method of claim 8, The ambient radio noise level is, Parity value for the received signal is compared with the parity value of the previous signal to determine the level of ambient propagation noise, When the parity value for the signal is less than or equal to the parity value of the previous signal, the interference interference mitigation by the adaptive frequency hopping rate in the radio noise environment, characterized in that for changing the current hopping rate among the predetermined pre-hopping rate to a lower hopping rate Way. A method of mitigating interference by adaptive frequency hopping rate in a radio noise environment, A first step of performing a parity check on the received signal and determining a degree of ambient radio noise based on the result to change the hopping rate; And And a second step of transmitting the changed hopping rate to a corresponding receiver and synchronizing with the corresponding receiver. 13. The method of claim 12, The first step is, Performing a parity check on the received signal; A first and second steps of determining an ambient radio noise level by comparing a parity value of the checked signal with a reference value; And And a first step 1-3 of setting a current hopping rate based on a predetermined pre-hopping rate based on the determination result. The method of claim 13, The first 1-2 steps, Compare the parity value for the signal with the reference value to determine the level of ambient propagation noise, The first 1-3 steps, When the parity value for the signal is greater than or equal to the reference value, changing the current hopping rate from the preset pre-hopping rate to a higher hopping rate. Way. The method of claim 13, The first 1-2 steps, Compare the parity value for the signal with the parity value of the previous signal to determine the level of ambient propagation noise, The first 1-3 steps, When the parity value for the signal is equal to or less than the parity value of the previous signal, changing the current hopping rate among the preset pre-hopping rates to a lower hopping rate. Radio interference mitigation method

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