KR100658021B1 - Apparatus and method for changing transmitting frequency of a wireless set - Google Patents

Abstract

An FPS capable of changing a communication frequency and a control method thereof are provided to enable a user to more conveniently sense an emergency state of the other user and actively coping with the emergency state. An emergency signal transceiving method comprises the following steps of: enabling plural terminals belonging to first and second wireless communication groups to perform voice communication by using first and second frequency channels; enabling the terminals belonging to the first and second wireless communication groups to set the third frequency channel as an emergency frequency; enabling a terminal, where an emergency situation occurs, transmit an emergency signal, where its ID(Identification) is included in a DTMF(Dual Tone Multi Frequency) signal, to a terminal of a briefing room by using the third frequency channel when the emergency situation occurs in the first or the second wireless communication group; and determining a member who transmits the emergency signal by enabling the terminal of the briefing room to extract the ID of the DTMF signal included in the emergency signal.

Description

Radio and its control method which can change communication frequency {Apparatus and Method for Changing Transmitting Frequency of a Wireless Set}

1 is a block diagram showing the configuration of a radio communication network using a general emergency call radio.

Figure 2 is a block diagram showing the internal structure of the radio according to an embodiment of the present invention.

3 is a flowchart illustrating a method for transmitting / receiving an emergency frequency of a radio according to an embodiment of the present invention.

Figure 4 is a block diagram showing the configuration of a radio communication network using an emergency call radio according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: radio 11: PTT switch

12 control unit 13 wireless transmission unit

14: wireless receiver 15: antenna

16: low frequency amplifier 17: speaker

18: frequency selector

The present invention relates to a radio capable of changing the emergency communication frequency and a control method thereof.

In general, a family radio service (FRS) is a radio that can be freely used without paying a license or notification, and without paying a radio fee. In the past, the radio frequency of the short-wave frequency (HF) of 27MHz band has been used, and recently, microwaves of the 448MHz or 462MHz band are mainly used. Radios using frequencies in the 448 MHz or 462 MHz bands generally use FM (Frequency Modulation) modulation, use multiple channels, and have a radio communication distance of about 3 KM. These radios are divided into European-style PMR and US-type FRS, but the functions of the radio are almost the same as there are differences in frequency and output.

The conventional radio only provides a function of transmitting and receiving simple voice between a sender and a receiver. However, in recent years, when a user has an emergency situation, a separate emergency signal transmission key is provided, and when a user presses it, a radio for making an emergency call to another user or a situation room has been developed.

1 is a block diagram showing the configuration of a radio communication network using a general emergency call radio.

As shown in FIG. 1, the radio communication network may include first, second, and third radio communication groups and an operation room managing the radio communication groups. Such a network is very similar to how military or police work.

In this case, each radio communication group communicates among the members of the group using frequencies of different channels. For example, suppose that the first, second, and third groups perform voice communication using A, B, and C channels, respectively.

When a member of the first group makes an emergency call using a general emergency call radio, the radio in the first group sends an emergency situation to the first group via the A channel to the emergency room. Similarly, when a member of the second or third group wants to make an emergency call, the radio in each group notifies the situation room of the emergency situation through the B and C channels, respectively. This emergency call method has the following problems.

First, the situation room should be equipped with radios according to the number of A, B, and C channels, and each radio should be checked periodically. This makes the detection of emergency calls very inconvenient. In particular, when checking the emergency situation while the situation disease moves, it has to move with a plurality of radios, there is a problem that is very inconvenient.

Also, by keeping the emergency frequency and voice communication frequency the same, there is a possibility that the emergency call signal is ignored. Even if an emergency call is made, there is a possibility that the emergency call signal is not normally transmitted when another member makes a voice communication at that time. Due to the characteristics of the military or the police, where many emergency situations occur, such a problem may be a fatal disadvantage.

Accordingly, the present invention is to solve the problems according to the prior art, the call of the emergency signal using a separate frequency instead of the voice call frequency, the frequency is a user-settable radio and its radio control To provide a method.

According to an aspect of the present invention, a radio capable of transmitting an emergency signal may include a frequency selector and an emergency signal transmitting frequency configured to receive an emergency signal transmitting frequency for transmitting an emergency signal from a user and to communicate according to the emergency signal transmitting frequency. It generates an emergency signal according to, and comprises a wireless transmission unit for transmitting it.

The wireless transmission unit may include an emergency signal transmission module for generating an emergency signal according to the emergency signal transmission frequency and a voice signal transmission module for converting and transmitting a voice signal received from a user into a radio signal of a voice communication frequency.

The radio according to the present invention may further include a control unit managing ID information of the radio and transmitting the radio ID information to the emergency signal transmission module, in which case the emergency signal transmission module is a radio received from the control unit. A DTMF signal is generated using ID information, and the DTMF signal is inserted into the emergency signal and transmitted.

In addition, in the case of a radio receiving an emergency signal, it receives an emergency signal into which the DTMF signal is inserted, extracts a DTMF signal from the emergency signal, and analyzes the radio ID information to check the radio transmitting the emergency signal. The wireless receiver further comprises.

In the emergency signal transmission and reception method using a radio according to another aspect of the present invention, the first transceiver receives an emergency signal transmission frequency for transmitting an emergency signal from the user, the first radio is an emergency signal according to the emergency signal transmission frequency Generating and transmitting a signal, and receiving the emergency signal by scanning the emergency signal transmission frequency.

In this case, the generating and transmitting the emergency signal by the first radio may include generating a DTMF signal including ID information of the first radio, inserting the DTMF signal into the emergency signal, and transmitting the emergency signal.

The receiving of the emergency signal by the second radio may include receiving an emergency signal having the DTMF signal inserted therein, extracting a DTMF signal from the emergency signal, analyzing the radio ID information, and the radio ID information. The display may include displaying a radio for transmitting an emergency signal.

Hereinafter, with reference to the accompanying drawings, a radio and a control method thereof capable of changing the emergency call communication frequency according to the present invention will be described in detail.

Figure 2 is a block diagram showing the internal structure of the radio according to an embodiment of the present invention.

As shown in FIG. 2, the general radio 10 includes a PTT switch 11, a controller 12, a wireless transmitter 13, a wireless receiver 14, an antenna 15, a low frequency amplifier 16, a speaker ( 17), the frequency selector 18 and the like.

The PTT switch 11 is responsible for the function of the transmission and reception switch, the control unit 12 is responsible for the overall control of the radio according to an embodiment of the present invention, and in particular controls the emergency signal transmission and reception operation using the DTMF signal. The radio transmitter 13 and the radio receiver 14 are each responsible for frequency conversion between a voice signal and a high frequency signal to transmit and receive a voice signal. The antenna 15 is responsible for transmitting and receiving radio signals of high frequency. In addition, the low frequency amplifier 16 serves to amplify the low frequency signal. The speaker 17 serves to output an audio signal amplified by the low frequency amplifier. Finally, the frequency selector 18 receives a communication frequency from the user, and controls voice communication or emergency signal communication according to the frequency.

In this case, the wireless transmitter 13 is a component that generates a radio frequency (RF) signal to be transmitted to the reception radio 10, and may include a voice signal transmission module 21 and an emergency signal transmission module 22. have.

The voice signal transmission module 21 corresponds to a component for converting a voice signal into a frequency according to a voice signal channel set by the user through the frequency selector 18. The emergency signal transmission module 22 is a component for generating a radio signal having a frequency for making an emergency call. The emergency signal module 22 receives DTMF data including the ID of the radio 10 from the controller 12 and inserts the DTMF data into the emergency call signal.

For example, if the user performs voice communication at 448 MHz and is set to transmit an emergency call signal at 450 MHz, the voice signal transmitting module 21 converts the voice signal into a signal of 448 MHz and transmits an emergency signal transmitting module ( 22) generates an emergency call signal of 450 MHz. Of course, the emergency signal transmission module 22 also inserts the DTMF signal into the 450 MHz emergency call signal.

In addition, although not shown, for the additional function of the radio, if a valid signal is weak or does not exist, a squelch (Squelch) for blocking the speaker output of the unwanted signal, and a PTT switch for selecting the transmission and reception mode to the voice level of the talker Accordingly, the electronically operated VOX unit, a power charging unit for charging the battery, a power save unit for reducing unnecessary power consumption, and a headset for secret and convenient calls may be further configured. Hereinafter, the operation of the radio according to the present invention will be described in detail.

First, the emergency signal transmission operation of the radio will be described.

The controller 12 activates the radio transmitter 12 and the radio receiver 13 to set the radio 10 to a transceivable state. In this state of transmission and reception, the transceiver 10 performs the same voice signal transmission and reception operation as a general radio. Specifically, for transmission, the transceiver 10 receives a voice signal from a microphone (not shown) when the user presses the PTT switch 11. The microphone (not shown) converts a voice signal into an electrical signal, and the wireless transmitter 13 modulates a low frequency voice signal into a high frequency signal for wireless communication. The high frequency signal modulated in this manner is transmitted through the antenna 15.

If the user presses the emergency signal transmission button, the control unit 12 transmits the ID of the radio to the emergency signal transmission module 22 of the wireless transmission unit 13. In this case, the emergency signal transmission module 22 of the wireless transmitter 13 receives ID data of the radio, generates a DTMF signal, inserts it into a predetermined emergency signal frequency signal, and transmits the signal.

The frequency selector 18 corresponds to a component for setting the emergency signal frequency described in the above process. When the user sets the transmission frequency of the current channel to be used by the frequency selector 18, these frequency changes are transmitted to the radio transmitter 13 and the radio receiver 14. The emergency signal transmission module 21 of the wireless transmitter 13 generates an emergency signal according to the transmitted frequency.

As such, a method of inputting a frequency through the frequency selector 18 includes a method in which a user selects one of the channels supported by the radio 10 and a PC (not shown) and the radio 10 connected to each other. There is a method of directly inputting the frequency to be used through (10).

Hereinafter, an emergency signal reception operation of the radio will be described.

When receiving a high frequency signal from the other party, the wireless receiver 14 outputs an audio signal from the received high frequency signal. The audio signal is output through the speaker 17 via an audio filter, an audio amplifier, a low frequency amplifier 61, and the like.

Meanwhile, the emergency signal as well as the voice signal are transmitted to the wireless receiver 14 through the antenna 15. The wireless receiver 14 detects the emergency signal by using the emergency signal frequency information received from the frequency selector 18.

In addition, the radio receiver 14 extracts a DTMF signal including ID information of the radio together with the emergency signal, and the DTMF signal is transmitted to the controller 12. The control unit 12 detects the DTMF signal extracted by the wireless receiving unit 14, and reads from which radio the emergency signal is received. The read result is delivered to the user through a separate display device.

3 is a flowchart illustrating a method for transmitting / receiving an emergency frequency of a radio according to an embodiment of the present invention.

First, a pair of radios transmits and receives a voice signal using a general frequency (S301). The first radio determines whether the emergency button is pressed by the user (S302). When the emergency button is not pressed in step S301, the transceiver transmits and receives a voice signal using a general frequency.

If the emergency button of the radio is pressed in step S302, the first radio loads emergency signal transmission frequency data (S303). For example, if an emergency frequency of 450 MHz is set, the first radio loads 450 MHz of frequency information.

In addition, the first radio checks whether its own alarm option is activated (S304). When the self alarm option of the first radio is activated, the first radio sets the volume to the maximum and outputs an emergency bell or emergency sound (S305).

In addition, the first radio transmits the emergency signal frequency, thereby reporting to the second radio that an emergency has occurred (S306). Thereafter, the DTMF TONE signal is transmitted to the second radio three times in succession (S307). The DTMF TONE signal includes ID information of the first radio.

On the other hand, the second radio is set to receive a frequency of 450MHz (S309). The second radio receives an emergency call signal transmitted by the first radio (S310). Thereafter, the second radio reports to the user of the second radio that the emergency call signal has been received (S311). In addition, the DTMF signal inserted in the emergency call signal is read to read and display the ID of the first radio having sent the emergency call signal (S312).

4 is a block diagram showing the configuration of a radio communication network using an emergency call radio according to another embodiment of the present invention.

As shown in FIG. 4, the radio communication network may include first, second, and third radio communication groups and an operation room managing the same. In addition, the wireless communication network of FIG. 4 is similar to the network of FIG. 1.

In this case, each radio communication group communicates among the members of the group using frequencies of different channels. For example, the first, second, and third groups perform voice communication using A, B, and C channels, respectively.

Unlike the case of FIG. 1, each group of FIG. 4 operates by setting both emergency channels to D channels. Even when an emergency situation occurs to the members of the first group, it is reported to the operation room through the D channel, and even if an emergency situation occurs to the members of the second group, it is reported to the operation room through the D channel.

In the case of FIG. 1, all radios should be provided for each of A, B, and C channels, and each of the radios can be detected by checking the radios alternately. However, in the present invention, the situation room or the situational disease is equipped with only the radio according to the D channel, it is possible to determine whether an emergency situation occurs by checking only the radio.

In addition, after receiving the emergency signal through the D-channel, the situation room may check who is the member that sent the emergency signal by extracting the ID of the DTMF signal included therein.

The preferred embodiment of the present invention has been described above. The present invention is not limited to the above-described embodiment, and various modifications can be made by anyone having ordinary skill in the art to which the present invention pertains.

As described above, according to the radio and the method of controlling the emergency communication frequency change according to the present invention, by calling the emergency signal using a frequency other than the voice call frequency, the user can more conveniently emergency of other users You can detect the situation and respond proactively.

Claims (10)

delete delete delete delete delete In the emergency signal transmission and reception method, Performing a voice communication using a plurality of terminals belonging to the first and second radio communication groups using the first and second frequency channels, respectively; Setting, by a terminal belonging to the first and second radio communication groups, a third frequency channel to an emergency frequency; When an emergency situation occurs in the first or second radio communication group, the terminal having an emergency situation receives an emergency signal whose ID is included in a dual tone multi frequency (DTMF) signal using the third frequency channel. Transmitting to the terminal; And And the situation room terminal determines a member that has transmitted an emergency signal by extracting an ID of a DTMF signal included in the emergency signal. delete delete In a radio communication network for transmitting and receiving emergency signals, A plurality of radio communication terminals perform voice communication with each other using a first frequency channel, and the radio communication terminal includes a first radio communication group for transmitting an emergency signal using a third frequency channel; A plurality of radio communication terminals perform voice communication with each other using a second frequency channel, and the radio communication terminal includes a second radio communication group for transmitting an emergency signal using a third frequency channel; And a situation room terminal that receives an emergency signal from the first or second radio communication group transmitted through the third frequency channel and determines a terminal that has transmitted an emergency signal by extracting an ID of a DTMF signal included in the emergency signal. Radio communication network. The method of claim 9, The terminal of each radio communication group, A frequency selector configured to receive an emergency signal transmission frequency to transmit an emergency signal from a user, and control to communicate according to the emergency signal transmission frequency; A control unit that manages radio ID information and outputs radio ID information when an emergency signal is transmitted; An emergency signal transmission module for generating a DTMF signal using radio ID information received from the controller, inserting the DTMF signal into an emergency signal having the emergency signal transmission frequency, and transmitting the emergency signal; And And a wireless receiver configured to identify a radio having transmitted the emergency signal by extracting a DTMF signal from the emergency signal and analyzing radio ID information when the emergency signal having the DTMF signal is inserted therein.

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