KR101228643B1 - Apparatus and method for motion detection, and apparatus for audio and image gerneration - Google Patents

Abstract

PURPOSE: A movement detecting apparatus, a method thereof, an acoustic apparatus thereof, and a video apparatus thereof are provided to effectively reduce the cost and time of implementing the same. CONSTITUTION: An audio device(200) outputs a controlling signal as a sound of an audible frequency band. A multi-functional electronic device(100) detects a Doppler shift value by recording as well as analyzing the controlling signal and generates the location of an audio device using the Doppler shift value. A multifunctional electronic device comprises a microphone(130) and a position tracking unit(150). The microphone records a controlling signal. The position tracking unit detects the Doppler shift value by comparing the controlling signal recorded by the microphone with the controlling signal generated from the audio device and draws the distance between multi-functional electronic device and the audio device from the Doppler shift value. [Reference numerals] (100) Multi-functional electronic device; (110) Control signal generator; (120) Audio output unit; (130) Microphone; (140) Input filter; (150) Position tracking unit; (160) User interface; (200) Audio device; (210) Audio input unit; (220) Transducer; (AA) Control sound(18kHz); (BB) Control signal(18kHz)

Description

Apparatus and method for detecting motion and sound and image using the same {APPARATUS AND METHOD FOR MOTION DETECTION, AND APPARATUS FOR AUDIO AND IMAGE GERNERATION}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a motion detection technology, and more particularly, to a motion detection apparatus and method for easily and effectively detecting a motion of an audio caller using an audible audio signal, and an audio and video device using the same.

Motion detection technology is widely applied in the fields of pure scientific research, practical fields such as sports and security, and music in media art.

Motion detection technology is being developed along with detection mechanisms and sensors, and examples include image processing using cameras and infrared sensors, magnetic field detection using compasses, and sensing using accelerometers.

However, such motion detection technology had to include an external device such as a camera, a compass, a sensor, and the like, and a device for interfacing data obtained through the external device to be used by a computing device such as a desktop or a laptop. As a result, there is a disadvantage in that the implementation cost and time of the apparatus for implementing the motion detection technique are relatively increased.

Accordingly, an object of the present invention is to provide a motion detection apparatus and method, and a sound and imaging apparatus using the same, by which a motion detection operation can be implemented through an existing sound apparatus and the implementation cost and time can be drastically reduced.

As a means for solving the above problems, according to an embodiment of the present invention, an audio device for outputting a control signal as audible frequency band sound; And a multifunctional electronic device configured to record and analyze the control signal to detect a Doppler shift value and to calculate the position of the audio device using the Doppler shift value.

In this case, the control signal may use a frequency band of 18kHz to 22kHz.

The multifunction electronic device includes a microphone for recording the control signal; And comparing and analyzing a control signal recorded by the microphone and a control signal generated by the audio device to detect a Doppler shift value and to derive a distance between the multifunction electronic device and the audio device from the Doppler shift value. It may include wealth.

The multifunction electronic device may include a control signal generator configured to generate the control signal; And an audio output unit configured to provide the control signal to the audio device.

The audio device may include a transducer that converts the control signal into a sound form and outputs the sound.

The audio device may include an audio input unit receiving the control signal from the multifunction electronic device and transmitting the control signal to the transducer; And a control signal generator for generating the control signal and providing the control signal to the transducer.

As a means for solving the above problems, according to another embodiment of the present invention, an audio device for outputting a control signal as audible frequency band sound; And recording and analyzing the control signal to detect a Doppler shift value, calculate a movement of the audio device using the Doppler shift value, and output at least one of an image and a sound source corresponding to the movement of the audio device. It provides a sound and imaging device including an electronic device.

In this case, the control signal may use a frequency band of 18kHz to 22kHz.

The multifunction electronic device includes a microphone for recording the control signal; A position tracking unit which detects a Doppler shift value of the recorded control signal, calculates and accumulates the position of the audio device, and detects the movement of the audio device; An audio visual mapping unit generating at least one of an image and a sound source corresponding to the movement of the audio device; And a user interface unit configured to output at least one of an image generated by the audio visual mapping unit and a sound source.

The multifunction electronic device may include a control signal generator configured to generate the control signal; And an audio output unit configured to provide at least one of the control signal and the sound source to the audio device.

The audio device may include an audio input unit receiving the control signal from the multifunction electronic device and transmitting the control signal to the transducer; And a control signal generator for generating the control signal and providing the control signal to the transducer.

As a means for solving the above problem, according to another embodiment of the invention, the step of receiving a control signal output by the audio device and using an audible frequency band; Detecting a Doppler shift value of the control signal; And deriving the position of the audio device based on the Doppler shift value.

In this case, the control signal may use a frequency band of 18kHz to 22kHz.

The present invention considers that some bands of the audible frequency band cannot be recognized by a human being, and generates and transmits a motion detection control signal using the audible frequency band not recognized by a human, and measures the Doppler shift value thereof. This allows the audio measurer to detect the movement of the audio generator.

Therefore, the present invention not only increases the frequency utilization by using a frequency band that has not been conventionally used, but also enables the above motion detection operation to be implemented by using the existing sound device as it is, and its implementation cost and time. It can also reduce dramatically.

1 is a diagram illustrating a motion detection apparatus using an audible audio signal according to an embodiment of the present invention.
2 is a diagram illustrating an acoustic and imaging device implemented using a motion detection apparatus according to an exemplary embodiment of the present invention.
3 is a diagram illustrating a frequency band used for a sound source and a control signal generated by an audio and video apparatus according to another embodiment of the present invention.
4 is a view showing an image generated by the motion detection apparatus according to another embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. However, the present invention can be implemented in various different forms, and is not limited to the embodiments described. In order to clearly describe the present invention, parts that are not related to the description are omitted, and the same reference numerals in the drawings denote the same members.

Throughout the specification, when an element is referred to as " including " an element, it does not exclude other elements unless specifically stated to the contrary. The terms "part", "unit", "module", "block", and the like described in the specification mean units for processing at least one function or operation, And a combination of software.

The present invention is conceived in that some bands of the audible frequency band cannot be recognized by a person.

The audible frequency is defined as 20 Hz to 22 kHz, but a phenomenon occurs in which audio signals using some bands of the audible frequency cannot be heard. For example, even if you generate and provide an audio signal that uses a high frequency band of 18kHz to 22kHz, most people will not be able to recognize it at all.

Accordingly, the present invention generates and outputs a control signal using a frequency band of 18 kHz to 22 kHz, and calculates the distance between the audio generator and the measurer by measuring the Doppler shift when the control signal is transmitted to the air. do.

The Doppler effect is an effect that occurs when one or more of the wave-generating wave source and the observer observing the wave is in motion, and the frequency of the wave is higher when the distance between the wave source and the observer is narrowed, When the distance increases, the frequency of the wave is observed to be lower.

Basically, the Doppler effect is due to the relative velocity between the source of the wave and the observer. If the nature of the medium is fixed, the wave propagation speed is constant, but if the relative velocity of the wave source and observer is present, the wave's arrival time changes and the wave is modulated. The basic equation of the Doppler effect is as follows.

f: wave frequency observed

f ₀ : transmitted wave frequency

V: Propagation velocity of waves in the medium

V _s : Relative velocity of the wave source with respect to the medium

V _r : Relative velocity of the observer to the medium

Since the present invention assumes the motion of a wave source (audio device) with respect to a fixed observer (multifunctional electronic device), Vr = 0 in equation (1). Therefore, if Equation 1 is rearranged, Equation 2 is summarized below.

In the present invention, it is assumed that V is an approximation value in the state where f ₀ is known in advance, and V _s is calculated based on the measured wave f.

In addition, it can be seen from Equation 2 that the relative speed of the wave source with respect to the medium is proportional to the ratio of the two frequencies. In other words, the higher the outgoing wave frequency for the same relative speed, the greater the frequency modulation width. This is reflected in the control signal selection, where the higher the frequency of the control signal, the larger the modulation width, which means that higher speed resolution can be achieved for the same frequency analysis resolution. In addition, indoor noise is concentrated in the low frequency band.

Accordingly, in the present invention, in consideration of these points, in selecting a control signal band, a high frequency band of a low frequency and a high frequency band is selected.

The further away from the audible sound range, the lower the probability that the control signal will be perceived by the user. Experimental results show that humans are not aware of signals above 18 kHz. The lower limit of the control signal is set to 18 kHz. On the contrary, if the frequency is too high, the signal itself is not generated according to the impedance limit of the acoustic device. The input / output band of the general sound equipment is set to 22 kHz, which is the human audio frequency range, and is higher or lower depending on the model. In this respect, the lower the control signal is, the better it is to be able to operate in as many devices as possible.

Since the lower limit of the control signal was selected as 18 kHz, the higher limit and 22 kHz was set as the upper limit as a band for the input and output of the audio equipment without difficulty.

As described above, the present invention generates a motion detection control signal using a frequency band (particularly 18 kHz to 20 kHz), which is not conventionally used, and detects the movement of the audio generator through the Doppler effect. It is to propose a technology.

1 is a diagram illustrating a motion detection apparatus using an audible audio signal according to an embodiment of the present invention.

As shown in FIG. 1, the motion detection apparatus includes a multifunctional electronic device 100 serving as an audio measurer and an audio device 200 serving as an audio generator.

Since the multifunction electronic device 100 and the audio device 200 of the present invention transmit and receive a control signal in the form of sound, it is preferable that the multifunction electronic device 100 and the audio device 200 be implemented as a device having a conventional sound device. For example, the multifunction electronic device 100 that operates as an audio measurer may be implemented as various electronic devices that include a microphone capable of recording external sounds, such as a desktop or a laptop, and may operate as an audio generator. The 200 may be implemented as various electronic devices incorporating a transducer capable of converting and outputting an electrical signal into a sound form such as an earphone, a microphone, an MP3 player, a smart phone, a tablet PC, and the like.

The multifunction electronic device 100 may include a control signal generator 110 generating a control signal using a frequency band from 18 kHz to 22 kHz, an audio output unit 120 providing the control signal to the audio device 200, and a sound. At least one microphone 130 for receiving (ie, recording) a control signal transmitted to the air in the form, an input filter 140 for removing noise included in the control signal recorded by the at least one microphone 130, The position tracker detects the Doppler shift value of the control signal from which the noise is removed by the input filter 140, calculates the current position of the audio device 200, and accumulates it to obtain a movement pattern of the audio device 200. 150, and a user interface 160 for notifying the user of the movement of the audio device 200 in the form of an image or sound.

The audio device 200 converts an audio input unit 210 that acquires a control signal provided by the multifunction electronic device 100 and a control signal obtained by the audio input unit 210 into a sound form, and outputs the sound. ) May be included.

The control signal of one channel may be transmitted between the multifunction electronic device 100 and the audio device 200, but the control signal of two or more channels may be transmitted.

Hereinafter, an operation method of the motion detection apparatus will be described with reference to FIG. 1.

First, the control signal generator 110 generates a control signal for motion detection using a frequency included in the audible frequency band, but not easily heard by a user (ie, 18 kHz to 22 kHz), and outputs the audio signal 120. Is provided to the audio device 200 through.

The control signal may be provided to the audio device 200 using both a wired communication method and a wireless communication method, but may use a wireless communication method (eg, Bluetooth, etc.) to ensure mobility of the audio device 200. It would be more desirable.

The audio device 200 receives a control signal output from the audio output unit 120 through the audio input unit 210, and converts the control signal into a sound form through the transducer 220. Then, the control signal converted into the sound form (that is, the control sound) will be provided to the multifunctional electronic device 100 after the frequency is changed by the Doppler effect while propagating through the air.

Then, the multifunction electronic device 100 records the control sound through the microphone 130, and the input filter 140 removes all the noise included in the recorded control sound through the narrow band band pass filter. .

For reference, in the present invention, the position of the audio device 200 is tracked through the Doppler shift value of the control signal. In this case, the Doppler shift is generally measured by a peak value detection method. Accordingly, the input filter 140 of the present invention uses a narrow band band pass filter to remove all external noise peaks belonging to the frequency band in addition to the control frequency.

Thereafter, the position tracking unit 150 calculates a frequency deviation (that is, a Doppler shift value) between the input frequency of the control sound and the generation frequency of the control signal, and calculates the distance deviation between the multifunction electronic device 100 and the audio device 200. Convert to That is, the current location of the audio device 200 is tracked using the Doppler effect.

Thereafter, the current position value of the audio device 200 is converted into an image, a sound, and the like, and then output through the user interface 160 so that the user of the multi-function electronic device 100 can move the audio device 200. Be able to recognize visually and aurally.

As described above, the present invention generates and outputs a control signal using a frequency band which has not been utilized in the past, and calculates a distance between an audio generator and a measurer by measuring a Doppler shift value of the control signal. You can track the movement of the.

Particularly, in the present invention, the control signal has a sound form, and both the transmission and reception operations of the control signal are performed by using a conventional sound device (microphone, transducer, speaker, etc.) used for sound source reproduction and recording. Do it.

As a result, in the present invention, the above-described movements are performed using the sound devices that are conventionally provided in the multifunction electronic device 100 without adding and setting separate devices to the multifunction electronic device 100 and the audio device 200. The detection operation can be implemented. That is, the motion detection apparatus of the present invention can implement the motion detection operation by utilizing the existing sound apparatus as it is, so that the total implementation cost and time can be significantly reduced.

In addition, in the above description, the control signal generator is provided in the multifunction electronic device, but in some cases, the control signal generator may be provided in the audio device instead of the multifunction electronic device.

For example, when the audio device is a device incorporating an audio generating device such as an MP3 player, a smart phone, a tablet PC, or the like, the audio device utilizes the audio generating device as a control signal generator to provide a control signal for detecting the motion. Of course it can be provided.

Hereinafter, the application of the present invention will help to understand the present invention.

FIG. 2 is a diagram illustrating an audio and video device implemented by using a motion detection apparatus according to an exemplary embodiment of the present invention, which indicates the positions of the left and right transducers 221 and 222 provided in the audio device 200. A device for generating and providing a sound source and an image corresponding to the same.

In FIG. 2, for convenience of description, the multifunction electronic device 100 is implemented as a laptop, the audio device 200 is implemented as earphones connected to the laptop, and the transducers 221 and 222 in the audio device 200 are respectively. Only the case of generating and providing a sound source and an image corresponding to the position of will be described.

In addition, the multi-function electronic device 100 supports four or more channels, but assumes that the control signal of the present invention is transmitted through two of the four or more channels, and the original sound source is transmitted through the remaining channels. . Of course, if necessary, the control signal and the sound source may be simultaneously transmitted through one channel.

2, the multifunction electronic device 100 includes the control signal generator 110, the audio outputter 120, the microphone 130, the input filter 140, and the position tracker 150 of FIG. 1. In addition to the user interface 160, the audio visual mapping unit 170 generates and provides a sound source and / or an image signal corresponding to the movement of each of the transducers 221 and 222 included in the audio device 200. The output filter 180 may further include a low pass filtering of the sound source signal so that only a sound source using a lower frequency band than the control signal is passed to prevent a signal collision between the sound source and the control signal. In addition, the user interface 160 may be implemented as an internal speaker 161 and an image reproducing unit 162 implemented as a speaker, a monitor, a laser pointer, a beam project, or the like.

The audio device 200 transmits two channel left and right transducers 221 and 222 and two channel control signals transmitted from the multifunction electronic device 100 to the left and right transducers 221 and 222, respectively. It may include an audio receiver 210 to provide.

The motion detection device configured as described above is operated as follows, and detects the movement of the left and right transducers 221 and 222, and provides a user with a sound source and an image corresponding thereto.

First, in response to a user's request, the multifunction electronic device 100 generates a control signal of two channels using a frequency band of 18 kHz and 19 kHz through the control signal generator 110, and transmits the control signal to the audio device 200. to provide.

The audio input unit 210 of the audio device 200 receives the control signals of the two channels, transmits them to the left and right transducers 221 and 222, and each of the left and right transducers 221 and 222 is 18 kHz. And a control signal of 19 kHz is input, converted into a sound form, and output.

Sound control signals are propagated through the air, and they are input to the multifunction electronic device 100 after the Doppler shift.

Then, the noise is removed while passing through the two-channel microphone 130 and the input filter 140 input to the multifunction electronic device 100, and then transmitted to the location tracking unit 150, and the location tracking unit 150 of these signals The Doppler shift value is determined, and the current position values of the left and right transducers 221 and 222 are calculated therefrom.

If the position values of the left and right transducers 221 and 222 are accumulated while the output and re-receive operations of the control signals of 18 kHz and 19 kHz are repeated, the left transducer 221 and the right transducer 222 Continuous movement is identified.

Then, the audio visual mapping unit 170 generates a sound source signal and an image signal that can best reflect the movement of the left transducer 221 and the right transducer 222 in consideration of the movement speed, direction, intensity, and the like. do.

Then, the audio output unit 120 converts the sound source signal into sound, and the user interface unit 160 converts the audio visual mapping unit 170 and the audio visual mapping unit 170 through a speaker, a monitor, a laser pointer, and a beam project. Outputting sound and image corresponding to the output of the left transducer 221 and the right transducer 222 so that the user can output the left transducer 221 and the right It allows the movement of the transducer 222 to be visually recognized.

In addition, the audio output unit 120 may provide a sound source signal generated by the audio visual mapping unit 170 to the audio device 200, so that the user of the audio device 200 may listen to it.

3 is a diagram illustrating a frequency band used for a sound source and a control signal generated by an audio and video apparatus according to another embodiment of the present invention.

Referring to FIG. 3, the audio generated by the audio and video device uses an audible frequency band lower than 18 kHz where a human can hear it, and the two-channel control signals Signal CH1 and CH2 can be heard by a human. You can see that 18kHz and 19kHz are not used.

4 is a view showing an image generated by a motion detection apparatus according to another embodiment of the present invention. Referring to FIG. 4, the movement speed, direction, and It can be seen that the moving speed, direction, size, etc. of the image corresponding to each of the left transducer 221 and the right transducer 222 vary according to the intensity.

That is, by tracking the movements of the left and right transducers 221 and right transducers 222 generated by the user, and generating and outputting various images reflecting the movements, the user and / or the viewer may interact with the left transducer 221. The movement of the right transducer 222 can be visually recognized.

In addition, although not shown in FIG. 4, the left and right transducers 221 and 222 may be changed by varying the rhythm, scale, size, etc. of the sound source according to the movement speed, direction, and intensity of each of the left and right transducers 221 and 222. ) 'S movements will also be audible.

As such, the motion detection apparatus of the present invention can convert visual and auditory information of motion information of an audio source (i.e., left and right transducers 221 and 222) to be used later as an audio and video device. To help.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications will fall within the scope of the invention.

Claims (14)

An audio device for outputting a control signal as sound in an audible frequency band; And
Recording and analyzing the control signal to detect a Doppler shift value and calculating a position of the audio device using the Doppler shift value, the multifunction electronic device comprising: a microphone for recording the control signal; And comparing and analyzing a control signal recorded by the microphone and a control signal generated by the audio device to detect a Doppler shift value and to derive a distance between the multifunction electronic device and the audio device from the Doppler shift value. Motion detection device comprising a. The method of claim 1, wherein the control signal is
A motion detection device using a frequency band of 18 kHz to 22 kHz. delete The method of claim 1, wherein the multifunction electronic device
A control signal generator for generating the control signal; And
And an audio output unit for providing the control signal to the audio device. The method of claim 1, wherein the audio device
And a transducer for converting and outputting the control signal into a sound form. The method of claim 5, wherein the audio device
An audio input unit receiving the control signal from the multifunction electronic device and transmitting the control signal to the transducer; And
And a control signal generator for generating the control signal and providing the control signal to the transducer. An audio device for outputting a control signal as sound in an audible frequency band; And
Multi-function electronics for recording and analyzing the control signal to detect a Doppler shift value, calculate a movement of the audio device using the Doppler shift value, and output at least one of an image and a sound source corresponding to the movement of the audio device. A multifunction electronic device comprising: a microphone for recording the control signal; A position tracking unit which detects a Doppler shift value of the recorded control signal, calculates and accumulates the position of the audio device, and detects the movement of the audio device; An audio visual mapping unit generating at least one of an image and a sound source corresponding to the movement of the audio device; And a user interface unit configured to output at least one of an image generated by the audio visual mapping unit and a sound source. The method of claim 7, wherein the control signal is
Acoustic and imaging device using a frequency band of 18 kHz to 22 kHz. delete The method of claim 7, wherein the multifunction electronic device
A control signal generator for generating the control signal; And
And an audio output unit for providing at least one of the control signal and the sound source to the audio device. The apparatus of claim 7, wherein the audio device is
And a transducer for converting and outputting the control signal into a sound form. The method of claim 11, wherein the audio device
An audio input unit receiving the control signal from the multifunction electronic device and transmitting the control signal to the transducer; And
And a control signal generator for generating the control signal and providing the control signal to the transducer. delete delete

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