KR101340685B1 - System and method for serching using radio frequency - Google Patents

Abstract

The present invention relates to a device search system using wireless communication, in which a sine wave signal generated by applying power is modulated according to a driving signal input by a user, and amplified to the required power level by using an antenna in advance. A signal received from the RF transmitter is required by using an RF transmitter that outputs to at least one peripheral wireless communication apparatus through a set frequency, and a power supplied through a toggle switch operated by an external selection to control power. And demodulating the modulated sinusoidal signal after amplifying the power level, and amplifying the demodulated signal into a sound signal and outputting the same through a speaker.

Description

Device search system and method using wireless communication {SYSTEM AND METHOD FOR SERCHING USING RADIO FREQUENCY}

The present invention relates to device location tracking using wireless communication.

With the recent development of wireless communication technology, various kinds of wireless devices are provided in a variety of rooms, and each wireless device is provided with a user's convenience by using a remote controller for controlling the operation remotely for convenience of use. However, in the case of the remote control is to operate in one-to-one correspondence with the corresponding device, the more the number of the device is provided, the number of the corresponding remote control also increases.

Therefore, the user usually controls the operation conveniently by using the remote control when operating the device, but the operation of the remote control after the operation of the device occurs inadvertently, when you want to use the remote control does not have to find the place all over the place. In addition, as the aging society enters an aging society, there is a problem that often occurs when the location of the remote control to remotely control the TV, fan, air conditioner, and the like.

The present invention is provided with a radio transmission and reception module capable of wireless communication, and after attaching the RF reception module to a device that is frequently lost, and modulates and amplifies a predetermined signal in the RF transmission module to transmit at a preset frequency When the RF receiving module receives this and outputs it as a sound signal, and generates a tracking signal using wireless communication to search for a lost location of the device, the receiving device presents a direction in which the received device responds through sound generation. A device search system and method are disclosed.

In addition, the present invention is the RF receiving module attached to the device frequently occurs loss is to receive the tracking signal from the RF transmission module to attempt to track the location to recognize their location through the sound signal generation but the generated sound signal The present invention relates to a device search system and method using wireless communication that provides a hearing impaired user with ease by outputting using a pure tone frequency.

In addition, the present invention is to provide a proximity sensor to each of the RF transmission and reception modules to detect another proximity sensor neighboring a predetermined area using the proximity sensor when the device to which the RF reception module is attached is to be detected, and the sensing By controlling the sound signal of the RF receiving module in proportion to the signal strength, when the location of the lost device is located close to the device to be tracked, the sound signal output is adjusted accordingly and sensed by the proximity sensor of the lost device. If the size of the signal is detected to be small, it is located far from the device to be tracked. Therefore, by increasing the output of the sound signal, it is possible to differentiate the current supply from the module by controlling the tracking signal and the sound signal generated from each RF transceiver module according to proximity. The present invention relates to a device search system and method using wireless communication.

According to an aspect of the present invention, in a device search system using wireless communication, according to the drive signal input of the user modulates a sinusoidal signal generated by applying power, and after amplifying the modulated signal to the required power level Received from the RF transmitter using an RF transmitter that outputs to at least one or more peripheral wireless communication devices through a preset frequency using an antenna, and a power supplied through a toggle switch operated by an external selection to control power And amplifying the decoded signal to a required power level, demodulating the modulated sinusoidal signal, and then amplifying the demodulated signal into a sound signal and outputting the same through a speaker.

According to another aspect of the present invention, in the device search method using wireless communication, when the drive signal of the user is input, the process of generating a sine wave signal by applying power, and modulating the generated sinusoidal signal, the modulated Amplifying the signal to a required power level and outputting the signal to at least one or more peripheral wireless communication devices through a predetermined channel using an antenna; and a toggle switch operated by external selection to control a power supply And a process of supplying power, amplifying the received signal to a required power level and demodulating, and amplifying the demodulated signal into a voice signal and outputting the same through a speaker.

The present invention has an effect of easily realizing the location tracking of a lost device by generating a tracking signal using the wireless communication of the location of the device within a predetermined area and presenting the direction in which the device receiving the response is located in response to sound generation. have.

In addition, the present invention has the effect of providing convenience for the hearing impaired by allowing the hearing impaired to easily recognize by outputting a sound signal generated for the position indication of the lost device using a pure sound frequency.

In addition, the present invention is provided with a proximity sensor in each RF transmitting and receiving module to sense another neighboring sensor in a predetermined area, by controlling the sound signal in proportion to the intensity of the sensed signal and thereby differentiating the current supply It is effective to prevent unnecessary current consumption.

1 is a schematic configuration diagram of a device search system using wireless communication according to an embodiment of the present invention.
2 is a detailed block diagram of an RF transmitter in a device search system using short-range wireless communication according to an embodiment of the present invention.
3 is a detailed block diagram of an RF receiver in a device search system using short-range wireless communication according to an embodiment of the present invention.
4 is a flowchart illustrating a device searching method using wireless communication according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be appreciated that those skilled in the art will readily observe that certain changes in form and detail may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims. To those of ordinary skill in the art.

The present invention relates to a device search using wireless communication, and more particularly, includes an RF transmission / reception module capable of wireless communication, and attaches the RF reception module to a device that frequently occurs. When the signal is transmitted at a preset frequency through modulation and amplification, the signal received by the RF receiving module is amplified and demodulated, and then generated as a sound signal and outputted. When to generate the device to receive the device in response to the sound generated in response to the present location to provide a technique for easily realizing the location tracking of the lost device.

In addition, the RF receiving module attached to the device frequently occurs loss receive a tracking signal from the RF transmission module to attempt to track the location to recognize their location through the sound signal generation, but the sound signal generated pure sound frequency By using the output to make it easier for the hearing impaired by providing a convenience for the hearing impaired.

According to another embodiment of the present invention, if a proximity sensor is provided in each RF transmission / reception module to find a device to which the RF reception module is attached, another proximity sensor neighboring a predetermined area is sensed using the proximity sensor. By controlling the sound signal of the RF receiving module in proportion to the intensity of the sensing signal, if the location of the lost device is located close to the device to be tracked, the sound signal output is adjusted accordingly, and the lost device If the size of the signal sensed by the proximity sensor is small, it is located far from the device to be tracked. Therefore, by increasing the output of the sound signal, the tracking signal and the sound signal generated from each RF transmission / reception module are controlled according to the proximity. By differentiating current supply, we provide technology to prevent unnecessary current consumption, The.

In addition, the RF transmission module according to an embodiment of the present invention is preferably a digital broadcasting terminal, a personal digital assistant (PDA), a smart phone, a tablet PC, an iPad. , 3G, 4G Long Term Evolution (LTE) terminals such as International Mobile Telecommunication 2000 (IMT-2000) terminals, Wideband Code Division Multiple Access (WCDMA) terminals, Global System For Mobile Communication Packet Radio Service (GSM / GPRS), and UMTS It can be attached to all information communication devices and multimedia devices such as a Universal Mobile Telecommunication Service terminal. However, it will be readily apparent to those skilled in the art that the configuration according to the embodiment described herein may be applied to a fixed terminal such as a digital TV, a desktop computer, and the like, except when applicable only to a user terminal.

Hereinafter, a device search system using wireless communication according to an embodiment of the present invention will be described in detail with reference to FIG. 1.

1 is a schematic configuration diagram of a device search system using wireless communication according to an embodiment of the present invention.

Referring to FIG. 1, the system 100 to which the present invention is applied includes a remote controller 110, an RF receiver 112, and an RF transmitter 114.

The RF transmitter 114 modulates a sinusoidal signal generated by applying power according to a drive signal input by a user when the remote controller 110 is lost to determine a lost position of the remote controller 110 in the home, and modulates the modulated signal. After amplifying to the required power level using an antenna and outputs to the RF receiver 112, that is, at least one or more peripheral wireless communication capable of using a predetermined frequency.

Here, when the user inputs a driving signal through a predetermined button, the RF transmitter 112 is supplied with 3V DC battery power to the RF transmitter 112 and generates a sine wave signal for tracking the location of the remote controller 110 to modulate and amplify the signal. When the current is not used by the antenna to transmit through the form of the DC battery is not consumed at all.

The RF receiver 112 is operated by an external selection to amplify a signal received from the RF transmitter 114 to a required power level using a power supplied through a toggle switch controlling power. After demodulating the amplified signal to a sound signal and outputs through a speaker.

In this case, the RF receiver 112 may be attached to the remote controller 110 to receive a sine wave signal from the RF transmitter 114 generated remotely through wireless communication in the home.

The RF transmitter 114 and the RF receiver 112 will be described in more detail with reference to FIGS. 2 and 3.

First, FIG. 2 is a detailed block diagram of an RF transmitter in a device search system using short range wireless communication according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the RF transmitter 200 includes an input unit 210, a power supply unit 212, a proximity sensor unit 214, a control unit 216, a sine wave generator 218, an RF modulator 220, and an RF unit. It includes an amplifier 222 and a wireless communication unit 224.

The input unit 210 is selected by the user to generate a driving signal and outputs it to the controller 216.

The control unit 216 notifies the power supply unit 212 according to the generation of the driving signal input from the input unit 210 to instruct power generation.

The power supply unit 212 applies the power in the RF transmitter 200 according to the driving signal generated by the control unit 216.

In this case, when the user inputs a driving signal through the input unit 210, the 3V DC battery power is applied to the RF transmitter 200 to generate a sinusoidal signal for tracking the location of the lost device. The battery's current is not consumed at all.

The sine wave generator 218 connected thereafter receives power from the power supply unit 212 through the controller 216 to generate a sine wave signal.

The generated sine wave signal is applied through the controller 216 to modulate the digital signal by the RF modulator 220 and the RF amplifier 222, respectively, and amplify the modulated signal to a required power level.

In this case, the RF modulator 220 and the RF amplifier 222 is to use a public frequency available in a predetermined region, the RF amplifier 222 is limited to a preset output to use only personally. .

The wireless communication unit 224 outputs the amplified signal to at least one or more peripheral wireless communication capable devices through predetermined channels using an antenna. Here, the antenna is embedded in the RF transmitter 200.

In this case, the predetermined channel refers to a pure tone frequency of the 500 Hz ~ 1 kHz band that is an audible frequency, it is adjusted through the control unit 216 so that the deaf can be tuned to the low sound that can be heard well.

The proximity sensor 214 senses the proximity of another proximity sensor that can be sensed through the reflection, that is, the proximity sensor 214, and outputs it to the controller 216.

That is, the proximity sensor unit 214 determines whether the proximity to the detected peripheral reflector is generated by differentiating the intensity of the sensing signal in proportion to the proximity position with the reflector.

The controller 216 controls amplification of the sine wave signal based on the output of the proximity sensor 214 and outputs the amplified signal.

More specifically, the controller 216 adjusts the amplitude of the sine wave signal in proportion to the strength of the sensing signal output from the proximity sensor unit 214, and is capable of sensing from the proximity sensor through wireless communication. If the distance between each other is close, it is possible to receive even with a low transmission power. Therefore, the power supply unit 212 is controlled to lower the transmission power to minimize the power consumption, while high distance when the distance between the targets reached by outputting the proximity sensing or sinusoidal signal is high. Extend the signal reach using the transmit power.

3 is a detailed block diagram of an RF receiver in a device search system using short-range wireless communication according to an embodiment of the present invention.

Referring to FIG. 3, the RF receiver 300 includes an RF amplifier 310, an RF demodulator 312, a proximity sensor 314, a controller 318, a sound signal generator 316, and a volume unit ( 320 and speaker 322.

The RF receiver 300 includes a toggle switch (not shown) which is operated by external selection to control power and determines whether to receive a signal from the outside through on / off control of the toggle switch, and the RF receiver ( Determine the power supply of 300).

That is, when the toggle switch is turned on, the power of the 3 V DC battery is continuously supplied to the RF receiver 300.

The RF amplifier 310 amplifies the signal received through the antenna to the required power level.

The RF demodulator 312 demodulates the amplified signal and outputs a sine wave signal that has been modulated.

The sound signal amplifier 316 amplifies the demodulated signal into a sound signal and outputs it to the speaker.

The proximity sensor unit 314 senses the proximity of another proximity sensor that can be sensed through the reflector, that is, the proximity sensor unit 314, and outputs it to the controller 318. That is, the proximity sensor unit 314 determines whether or not the proximity to the detected peripheral reflector is generated by differentiating the strength of the sensing signal in proportion to the proximity position with the reflector.

The volume unit 320 adjusts the volume of the sound signal output through the speaker. In the case of a hearing impaired user, the volume unit 320 may be adjusted appropriately so that a sufficient level of sound may be heard through the speaker.

The controller 318 controls the amplification of the sound signal based on the output of the proximity sensor 314 and outputs the amplification of the sound signal.

More specifically, the control unit 318 adjusts the amplitude of the amplification of the sound signal in proportion to the intensity of the sensing signal output from the proximity sensor unit 314, the object capable of sensing from the proximity sensor through wireless communication If the distance between them is close, it can be received even with a low transmit power. Therefore, it controls the applied power to reduce the transmit power to minimize the power consumption. Use to extend the signal reach.

The configuration of the device search system using wireless communication according to an embodiment of the present invention has been described above.

Hereinafter, a device search method using wireless communication according to an embodiment of the present invention will be described in detail with reference to FIG. 4.

4 is a flowchart illustrating a device searching method using wireless communication according to an embodiment of the present invention.

Referring to FIG. 4, in step 410, a user inputs a driving signal using an RF transmitter to generate a tracking signal for searching for a lost device in a predetermined region.

When power is applied due to the driving signal input in step 412 to generate a sine wave signal, the sine wave signal generated in step 414 is modulated and amplified.

At this time, when outputting the amplified signal to the outside in step 416, it is checked whether the radio channel to be output is a preset frequency.

As a result of the checking, if it is a preset frequency, the process proceeds to step 420 to output the amplified signal, and if it is not a preset frequency, it proceeds to step 418 to adjust the frequency to output the amplified signal to a pure sound frequency.

In this case, the pure tone frequency refers to a frequency of the 500Hz ~ 1kHz band of the audible frequency, by adjusting it so that the hearing impaired can be tuned to the low sound that can be heard well.

In step 422, the signal transmitted through the preset frequency channel is activated by external selection to turn on a toggle switch for controlling power and to supply and activate power to receive the signal.

In step 424, the received signal is amplified to a required power level and demodulated. In step 426, the demodulated signal is amplified into a voice signal and output through a speaker.

As described above, an operation related to a device search system and method using wireless communication according to the present invention may be performed. Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Can be implemented. Therefore, the scope of the present invention should not be defined by the described embodiments, but by the claims and equivalents of the claims.

210: input unit 212: power unit
214: proximity sensor unit 216: control unit
218: sinusoidal wave generator 220: RF modulator
222: RF amplifier 224: wireless communication unit

Claims (9)

In the device search system using wireless communication,
A device capable of modulating a sinusoidal signal generated by applying power according to a driving signal input by a user, amplifying the modulated signal to a required power level, and then using at least one peripheral antenna for wireless communication through a preset frequency RF transmitter to output to
By amplifying the signal received from the RF transmitter to a required power level by using a power supplied through a toggle switch operated by an external selection, and demodulating a modulated sinusoidal signal, the demodulated signal is sounded. It includes an RF receiver for amplifying the signal and output through the speaker,
The preset frequency is,
Use the pure sound frequency of 500Hz-1KHz band, which is an audible frequency,
The RF receiver,
Toggle switch operated by external selection to control the power,
An RF amplifier for amplifying the signal received through the antenna to a required power level;
An RF demodulator for demodulating the amplified signal and outputting a sine wave signal;
A sound signal amplifier for amplifying the demodulated signal into a sound signal and outputting the same to a speaker;
Proximity sensor for sensing and outputting the proximity of the reflection,
A volume unit for adjusting a volume of a sound signal output through the speaker;
A control unit for controlling and outputting an amplification of the sound signal based on the output of the proximity sensor unit,
The control unit,
Adjusting the amplitude of the sine wave signal in proportion to the intensity of the sensing signal output from the proximity sensor unit,
The proximity sensor unit determines whether the proximity to the detected surrounding reflector is generated by differentiating the intensity of the sensing signal in proportion to the proximity position with the reflector,
The control unit,
Adjusting the amplitude of the amplification of the sound signal in proportion to the intensity of the sensing signal output from the proximity sensor unit,
The proximity sensor unit determines whether or not the proximity to the detected surrounding reflector is a device search system using a wireless communication, characterized in that the intensity of the sensing signal is generated differently in proportion to the proximity position with the reflector. The method of claim 1, wherein the RF transmitter,
A power supply unit for applying power according to the generation of the driving signal;
A sine wave generator for generating a sine wave signal by receiving power from the power supply unit;
An RF modulator for modulating the generated signal into a digital signal;
An RF amplifier for amplifying the modulated signal to a required power level;
A wireless communication unit for outputting the amplified signal to at least one or more surrounding wireless communication devices through predetermined channels using an antenna;
Proximity sensor for sensing and outputting the proximity of the reflection and
And a controller for controlling and amplifying the sinusoidal signal based on the output of the proximity sensor unit. delete delete delete delete The method of claim 1,
When a driving signal is input to the RF transmitter, the RF receiver receives the signal to generate a sound signal, or generates a sensing signal by using a proximity sensor attached to each of the RF transmitter and the RF receiver and detects the position by detecting the position. Device search system using wireless communication, characterized in that. In the device search method using wireless communication,
When the driving signal of the user is input, the process of generating a sine wave signal by applying power;
Modulating the generated sinusoidal signal, amplifying the modulated signal to a required power level and outputting the modulated signal to at least one or more surrounding wireless communication devices through predetermined channels using an antenna;
Supplying power by turning on a toggle switch operated by an external selection to control power;
Amplifying and then demodulating the received signal to the required power level;
Amplifying the demodulated signal into a voice signal and outputting the same through a speaker;
The predetermined channels,
Use a pure tone frequency in the 500 Hz to 1 KHz band, which is an audible frequency,
Sensing the proximity of the reflector,
Adjusting and outputting a sensing signal size in proportion to the proximity of the sensed reflector;
And controlling the amplification of a sine wave signal or a sound signal according to the output sensing signal. delete

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