KR101752320B1 - Glove controller device system - Google Patents

Abstract

The present invention is globally formed so that it can be worn on the user's hand so that it is easy to use by executing not only the movement of the hand but also the execution of the content by sensing the contact of the finger and controlling the content, It is an improved glove controller system.
A bending detection sensor 121 for detecting the degree of bending of the finger by wearing on the user's body and a plurality of contact sensors 123 for sensing contact with the user's finger when the bending detection sensor 121 is not operated A gyro sensor 124 for detecting a signal change of the contact sensor 123 or a hand movement of a user and a gyro sensor 124 for controlling the gyro sensor 124, the bending detection sensor 121 and the contact sensor 123 And a signal generator 140 for generating a signal through signal switching between the controller 130 and the gyro sensor 124. The glove controller 100 includes a control unit 130 for controlling the glove controller 100, A signal converter 200 for receiving and converting a signal generated by the signal converter 200 and a content device 300 for adjusting a volume according to a signal converted from the signal converter 200, The glove The controller 100 includes an LED 160 for changing the light according to the movement of the user's hand and the gyro sensor 124 of the glove controller 100 measures the angular velocity of the hand to control the overall volume of the sound And a conversion sensor for converting the signals of the touch sensor and the acceleration sensor into different signals through the movement of the user's hand, wherein the content device (300) comprises: an angular velocity sensor A virtual musical instrument storage unit 330 for storing a virtual musical instrument for outputting sounds, a virtual musical instrument designation unit 340 for designating virtual musical instruments of the virtual musical instrument storage unit 330 according to the classified signals, And a virtual musical instrument matching unit 350 for matching virtual musical instruments through the virtual musical instrument designation unit 340.

Description

[0001] GLOVE CONTROLLER DEVICE SYSTEM [0002]

The present invention relates to a glove controller system, and more particularly, to a glove controller system which is globally formed so as to be worn on a user's hand, It is a glove controller system that can be freely used regardless of its portability and convenience.

With the recent advances in IT technology, smart phones, tablet PCs, and wearable devices that can be used regardless of time and place are being launched and development efforts are accelerating.

Since the wearable device is compact and lightweight, it is a device that can be freely worn on the body such as clothes, watches, glasses, and used wirelessly with a smart device.

Such a wearable device recognizes not only voice but also body movements, so that various technologies can be applied. Accordingly, it is used in various fields such as games and music.

Among them, the music field is limited to controlling the volume or controlling the music reproduction. Therefore, in a place where a music facility such as a club is required to play a virtual musical instrument that generates a sound according to a MIDI signal or to mix a sound source, Have been used.

Due to the sound equipment, the DJs use the two hands in the space in which the sound equipment is installed, so that they are not free to move and are restricted from moving.

In order to solve the above-mentioned problem, in the patent application No. 10-2002-0060338 (published on Jul. 18, 2002), there is provided a device for detecting a finger movement of a finger installed on a finger portion of a glove corresponding to each finger of a user A pair of electronic gloves on which the finger sensors of the electronic gloves are mounted; An octave selection switch for selecting and outputting one octave out of a plurality of musical octaves related to the electronic glove; A multiplexer for selectively receiving a plurality of signals output from a plurality of finger sensors provided in the electronic glove and an output signal of the octave selection switch; An octave selection switch connected to the multiplexer and receiving a signal of each finger switch of the electronic glove, A computer for receiving a signal of the octave selection switch and the electronic glove from the control unit and generating a sound source corresponding to each of the finger switches of the selected octave and the electronic glove; And a converter for changing the format of data exchanged between the control unit and the computer.

However, the above-mentioned Japanese Patent Application Laid-Open No. 10-2002-0060338 has a problem in that it is difficult to be used by the general public since the user must use three foot switches separately for octave input while sensing the finger motion.

In addition, since a separate foot switch must be provided, portability may be inconvenient.

Therefore, there is a demand for a wired-type controller that is easy to control the sound and can freely move regardless of the place.

It is an object of the present invention to provide a system of a glove controller which is worn in a user's hand and detects the movement of the user's hand and finger contact to execute or control the content.

Another object of the present invention is to provide a system of a glove controller capable of simultaneously playing a plurality of virtual musical instruments while adjusting a range of a sound through movement of a user's hand and finger contact.

In addition, there is a purpose of providing a glove controller system in which the LED light is changed according to the movement of the hand.

 The problems to be solved by the present invention are not limited to the above-mentioned problems, and other matters not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a glove controller system according to the present invention includes a bending detection sensor 121 for detecting the degree of finger bending of a wearer's body, A gyro sensor 124 for detecting a signal change of the contact sensor 123 or a movement of a user's hand, a gyro sensor 124 for detecting a contact of the gyro sensor 124 and the bending sensor 123, A control unit 130 for controlling the sensing sensor 121 and the contact sensor 123 and a signal generating unit 140 for generating a signal through signal switching between the control unit 130 and the gyro sensor 124 A signal converter 200 for receiving and converting a signal generated by the glove controller 100 and a control unit 200 for controlling the volume of the signal to be controlled according to the signal converted from the signal converter 200, The glove controller 100 includes an LED 160 for changing the light according to the movement of the user's hand and the gyro sensor 124 of the glove controller 100 Includes an angular velocity sensor for measuring the angular velocity of the hand and controlling the overall volume of the sound and a switch sensor for switching the signals of the touch sensor and the acceleration sensor to different signals through the movement of the user's hand, The apparatus 300 includes a virtual musical instrument storage unit 330 storing a virtual musical instrument for outputting sound in accordance with a signal classified according to a predetermined reference and a virtual musical instrument storage unit 330 for storing a virtual musical instrument of the virtual musical instrument storage unit 330 as the classified signal And a virtual musical instrument matching unit 350 for matching the virtual musical instruments through the virtual musical instrument designation unit 340 It shall be.

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As described above, according to the present invention, the system of the glove controller can be freely and conveniently used regardless of the place because the system of the glove controller is implemented in the user's hand and detects the movement of the user's hand and finger contact to execute or control the content. There is an effect that the radius is widened.

In addition, it is possible to play many virtual instruments at the same time while adjusting the frequency band through only the movement of the user's hand and the finger contact, so that it is easy to operate and easy to use, and besides cost saving and portability There is an effect of significantly improving.

Also, the light of the LED changes according to the movement of the hand, so that it can be used in a dark place, and the atmosphere is improved.

1 shows a glove controller system according to an embodiment of the present invention,
2 is a block diagram of a glove controller of a glove controller system according to an embodiment of the present invention,
3 is a block diagram of a signal converter of a glove controller system according to an embodiment of the present invention;
FIG. 4 is a block diagram of a content device of a glove controller system according to an embodiment of the present invention; FIG.
5 is a control conceptual diagram of a glove controller system according to an embodiment of the present invention,
6 is a flowchart of a control method of a glove controller system according to an embodiment of the present invention;
FIG. 7 and FIG. 8 are flowcharts of a sensor sensing step in a control method of a glove controller system according to an embodiment of the present invention;

Hereinafter, a glove controller system according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a glove controller of a glove controller system according to an embodiment of the present invention. FIG. 3 is a block diagram of a glove controller according to an embodiment of the present invention. FIG. 4 is a block diagram illustrating a content device of a glove controller system according to an embodiment of the present invention. Referring to FIG.

6 is a flowchart illustrating a control method of a glove controller system according to an embodiment of the present invention. FIGS. 7 and 8 are flowcharts of a control method of a glove controller system according to an embodiment of the present invention. FIG. 4 is a flowchart of a sensor sensing step in a method of controlling a glove controller system according to an embodiment.

In the drawings, the same reference numerals are given to the same elements even when they are shown in different drawings. In the drawings, the same reference numerals as used in the accompanying drawings are used to designate the same or similar elements. And detailed description of the configuration will be omitted. Also, directional terms such as "top", "bottom", "front", "back", "front", "forward", "rear", etc. are used in connection with the orientation of the disclosed drawing (s). Since the elements of the embodiments of the present invention can be positioned in various orientations, the directional terminology is used for illustrative purposes, not limitation.

As shown in FIG. 1, a glove controller system according to a preferred embodiment of the present invention includes glove controllers 100 and signal converters 200, And a content device 300.

2, the glove controller 100 includes a power supply unit 110 for receiving power from the outside, a sensing unit 110 for operating the sensing unit 100 by the power supply unit 110, A control unit 130 for controlling the sensing unit 120 and a signal generating unit 140 for generating a signal through the control unit 130 and the sensing unit 120, To the signal converter (200).

The sensing unit 120 includes a bending sensor 121, a contact sensor 123, and a gyro sensor 124.

The bending detection sensor 121 is a sensor for detecting bending, and it is preferable to use a flex sensor having flexibility to detect bending. It is formed in a predetermined length and is attached to one side of the finger, So that the signal generator 140 can generate signal values ranging from 0 to 127 by detecting the degree of bending.

The bending detection sensor 121 may be attached to one side of each finger to control the volume of the virtual instrument designated by the user.

A bending detection power button 122 for activating or deactivating the bending detection sensor 121 may be configured in the glove controller 100.

The bending detection power button 122 is formed to prevent the bending detection sensor 121 and the contact sensor 123 from operating simultaneously. That is, since the contact sensor 123 is attached to the fingertip portion of the user, it can be detected by overlapping with the bending detection sensor 121 attached to one side of the finger, When the bending detection sensor 121 is operated by the button 122, the contact sensor 123 is stopped, and when the bending detection sensor 121 is stopped, the contact sensor 123 is operated.

The contact sensors 123 are attached to the ends of the fingers and sense that the fingers are in contact with the table or other objects, their bodies, etc., and a plurality of fingers are attached to each finger to request the generation of different signals for the respective fingers .

When the contact sensor 123 detects contact with the finger attached thereto, the signal generator 140 generates a signal of the finger and transmits a signal through the transmitter 150, The signal generating unit 140 does not generate a signal of the finger.

Meanwhile, the gyro sensor 124 is attached to a user's hand to detect movement of the hand, and includes an angular velocity sensor for measuring the angular velocity of the hand, an acceleration sensor for measuring the acceleration of the hand, And a conversion sensor for converting the signals of the contact sensor and the acceleration sensor into another signal.

The angular velocity sensor senses the degree of rotation of the forearm about the rotation axis, and signal values from 0 to 127 are generated through the signal generation unit 140 according to the rotated inclination.

The overall volume of the sound being executed by the inclination of the angular velocity sensor can be controlled. At this time, even if the operation of the angular velocity sensor is stopped while the volume is controlled using the angular velocity sensor, the controlled volume is maintained as it is.

The acceleration sensor recognizes the acceleration generated when the gyro sensor 124 is moved in the X-axis, the Y-axis, and the Z-axis with reference to the position of the gyro sensor 124. That is, when each hand is moved in the direction of the hand or palm, each signal is generated according to the direction of movement.

At this time, the acceleration sensor continuously generates a signal at a single acceleration of the signal generator 140 and transmits the signal to the signal converter 200 when the signal generator 140 does not transmit the signal to the signal converter 200 Generates and does not generate signals continuously.

Further, the conversion sensor recognizes that the hand is rotated 360 degrees and controls whether or not the operation is performed.

The conversion sensor converts the signals of the contact sensor 123 and the acceleration sensor into different signals.

For example, when the switching sensor is activated, if the signal #, signal is also used for the detection, stop, and ring finger attached to the contact sensor 123, the switching sensor is activated, A signal is transmitted to the signal generator 140 (140) when the touch sensor 123 is detected and the contact is detected by the touch sensor 123, And transmitted. On the other hand, when the switching sensor is not operated, the contact sensor 123 is used for detecting, stopping, and ringing with the sensor 123 as a signal.

In the acceleration sensor, for example, when the hand direction is the sway direction and the palm direction is the sore signal, when the change sensor is operated, the hand direction is designated as a sole # and the palm direction is designated as a hand signal. And the signal generator 140 generates and transmits the SAL # signal. On the other hand, when the acceleration sensor is operated without the conversion sensor being activated, the wave signal is generated when the acceleration sensor is moved in the hand direction.

That is, the contact sensor 123 and the acceleration sensor can generate signals twice as much as the conventional sensor.

Here, the contact sensor 123 and the acceleration sensor can designate a virtual instrument or a band, respectively.

As the signal generation increases, it is possible to play various musical instruments and virtual instruments, so that various music can be produced.

On the other hand, the gyro sensor 124 can not simultaneously operate the angular velocity sensor and the acceleration sensor, and the angular velocity sensor and the changeover sensor can not be simultaneously operated.

In other words, when the angular velocity sensor is operated, the acceleration sensor and the conversion sensor should not be operated because the movement of the angular velocity sensor overlaps with the movement of the acceleration sensor and the conversion sensor, .

The gyro sensor change power source 125 may be configured in the glove controller 100 so that the angular velocity sensor of the gyro sensor 124 may be separately operated. That is, the gyro sensor changing power source 125 changes the sensor operation of the gyro sensor 124 so that the angular velocity sensor is operated or the acceleration sensor and the switching sensor are operated.

The bending detection sensor 121, the contact sensor 123, and the gyro sensor 124 are controlled through the controller 130.

In other words, the gyro sensor change power source 125 for avoiding the operation of the angular velocity sensor and the acceleration sensor of the gyro sensor 124 and the biaxial sensor 121 and the contact sensor 123 may not be operated in a redundant manner The bending detection power button 122 for controlling the bending force is controlled through the control unit 130.

The controller 130 senses movement of a hand and finger contact according to the bending sensor 121, the contact sensor 123 and the gyro sensor 124 controlled by the controller 130 and generates the sensed signal in the signal generator 140.

At this time, the signals of the acceleration sensors of the contact sensor 123 and the gyro sensor 124 in the signal generator 140 are generated according to whether the conversion sensor of the gyro sensor 124 operates.

The signal generated through the signal generator 140 is transmitted to the signal converter 200 through the transmitter 150.

The transmitting unit 150 may use the signal converter 200, Wi-Fi, Bluetooth, or the like.

The glove controller 100 can mount the LED 160 whose light is changed according to the movement of the user's hand.

As the LED 160 is mounted, the light is changed according to the movement of the hand, so that the LED 160 can be used in a dark place.

The glove controller 100 configured as described above can easily mix and play various virtual instruments by controlling the virtual instruments and the bands of the contents device 300 using three channels, and can mix various music, It can be used in a small space so DJs can freely and conveniently do DJing.

3, the signal converter 200 includes a communication unit 210 for wirelessly communicating with the glove controller 100, and a communication unit 210 for transmitting signals received from the glove controller 100 to a MIDI signal And a signal conversion unit 220 for converting the signal to a signal.

The communication unit 210 may be a Wi-Fi, Bluetooth, or the like.

The signal converting unit 220 converts signals of the angular velocity sensor of the bending detection sensor 121 and the gyro sensor 124 received from the glove controller 100 into a MIDI CC signal, To the device (300).

The signal converter 220 converts the signal of the acceleration sensor among the contact sensor 123 and the gyro sensor 124 received from the glove controller 100 into a note signal, To the device (300).

4, the content device 300 includes a receiving unit 310 for receiving a MIDI signal from the signal converter 200, a signal storage unit (not shown) A virtual musical instrument storage unit 330 storing a virtual musical instrument for outputting a sound according to the signal and a virtual musical instrument storage unit 330 for assigning a virtual musical instrument of the virtual musical instrument storage unit 330 to the virtual musical instrument storage unit 330 according to a signal of the signal storage unit 320 A virtual musical instrument designation unit 340 which receives the MIDI signal converted from the virtual musical instrument designation unit 340 and the signal converter 200 and receives the converted MIDI signal from the virtual musical instrument designation unit 340, And a volume control unit 360 for controlling the volume according to the converted MIDI signal.

The virtual musical instrument designation unit 340 previously designates the virtual musical instruments of the virtual musical instrument storage unit 330 according to the stored MIDI signal of the signal storage unit 320. [ That is, the user designates a virtual musical instrument for outputting a sound according to a signal of a predetermined range or a specific signal in advance.

At this time, in order to play the virtual musical instrument, it is possible to set a specific virtual musical instrument and set the band of the virtual musical instrument according to the signal.

The virtual musical instrument matching unit 350 may be configured such that the signals of the acceleration sensor among the contact sensor 123 and the gyro sensor 124 are transmitted from the glove controller 100 to a virtual The sound is output by matching the musical instrument.

The virtual musical instrument matching unit 350 determines whether the MIDI signal received from the signal converter 200 is a signal matched with the virtual musical instrument. If the MIDI signal is not a signal matched with the virtual musical instrument, And transmits it to the control unit 360.

The volume control unit 360 controls the volume controller 360 so that the signals of the angular velocity sensors of the bending detection sensor 121 and the gyro sensor 124 are transmitted from the glove controller 100 to the virtual Adjust the volume or overall volume of the instrument.

5 to 8, the control method of the glove controller system of the present invention configured as described above detects movement or contact of a user's hand through the sensing unit 120 of the glove controller 100 (S100).

At this time, it is determined whether the bending detection sensor 121 of the glove controller 100 is operating.

When the bending detection sensor 121 is operated, the contact sensor 123 is not operated and requests to generate a signal according to the degree of bending of the user's finger.

On the other hand, when the bending detection sensor 121 is not operated, the contact sensor 123 is activated and requests generation of a signal according to the contact of the user's finger. Here, it is determined whether the switching sensor of the gyro sensor 124 is operated. When the conversion sensor is not operated, a signal generation request for generating a signal designated to the contact sensors 123 is made, and when the conversion sensor is activated, a signal different from the signal designated to the contact sensors 123 And requests generation of the converted signal.

Also, it is determined whether the angular velocity sensor of the gyro sensor 124 of the glove controller 100 is operating.

When the angular velocity sensor is operated, the acceleration sensor is not operated, and the user's hand requests the generation of a signal according to the rotated slope.

On the other hand, when the angular velocity sensor is not operated, the acceleration sensor is activated and requests to generate a signal according to the acceleration of the hand motion of the user. Here, it is determined whether the switching sensor of the gyro sensor 124 is operated. A signal generation request for generating a signal designated by the acceleration sensor is made when the conversion sensor is not operated, and when the conversion sensor is activated, a signal different from the signal designated for the acceleration sensor is converted to generate a converted signal .

In response to the request for generating the signal, the signals of the sensors of the sensing unit 120 are generated (S200).

However, when no movement or contact is sensed by the sensors of the sensing unit 120, the sensing unit 120 senses movement or contact of the user's hand again.

The generated signal is converted into a MIDI signal by the signal converter 200 and transmitted to the content device 300 (S300).

After receiving the converted MIDI signal from the content device 300, the virtual musical instrument matching unit 350 determines whether the MIDI signal and the virtual musical instrument can be matched (S400).

If the received MIDI signal is a signal of the contact sensor 123 and the acceleration sensor of the gyro sensor 124, which match the virtual musical instrument, the sound is outputted by matching with the virtual instrument corresponding to the signal (S500).

If the received MIDI signal is a signal of the angular velocity sensor of the bending detection sensor 121 and the gyro sensor 124 that are not matched with the virtual musical instrument, the volume is adjusted according to the signal (S600).

The glove controller system, which is controlled as described above, can be freely and conveniently used regardless of the location because it is worn in the user's hand and detects the movement of the user's hand and finger contact to execute or control the content. .

In addition, by combining the bending sensor 121, the touch sensor 123 and the gyro sensor 124 for detecting the movement of the user's hand and the finger contact, a plurality of virtual musical instruments can be simultaneously played while adjusting the range, It is easy to use, and besides, there is no need for additional equipment, which is effective in cost reduction and portability.

Further, the light of the LED 160 changes according to the movement of the hand, so that it can be used in a dark place, and the atmosphere is improved.

On the other hand, the content of the content device 300 is not limited to the music production field, and can be utilized in various fields such as video production field, application execution, and the like, and can be used for music therapy and learning.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention if they are apparent to those skilled in the art.

100: glove controller 110: power supply unit
120: sensing unit 121: bending sensor
122: bending detection power button 123: contact sensor
124: Gyro sensor 125: Gyro sensor change power source
130: control unit 140:
150: Transmitting section 160: LED
200: signal converter 210:
220: signal conversion unit 300: content device
310: Receiving unit 320:
330: virtual instrument storage unit 340: virtual instrument instruction unit
350: virtual musical instrument matching unit 360: volume adjusting unit

Claims (2)

A bending detection sensor 121 for detecting the degree of bending of the finger by being worn on the body of the user, a plurality of contact sensors 123 for detecting contact with the user's finger when the bending detection sensor 121 is not operated, A gyro sensor 124 for detecting a signal change of the contact sensor 123 or a movement of a user's hand and a control unit 130 for controlling the gyro sensor 124, the bending detection sensor 121 and the contact sensor 123, And a signal generator 140 for generating a signal through signal switching between the controller 130 and the gyro sensor 124. The glove controller 100 includes a controller 130, A glove controller system comprising a signal converter (200) for receiving and converting a generated signal, and a content device (300) for adjusting a volume according to a signal converted from the signal converter (200)
The glove controller 100 includes an LED 160 for changing the light according to the movement of a user's hand,
The gyro sensor 124 of the glove controller 100 includes an angular velocity sensor for measuring the angular velocity of the hand and controlling the overall volume of the sound, And a switching sensor for switching,
The content device 300 includes a virtual musical instrument storage unit 330 storing a virtual musical instrument for outputting sound according to a signal classified in accordance with a predetermined reference and a virtual musical instrument storage unit 330 for storing the virtual musical instrument of the virtual musical instrument storage unit 330 as the classified And a virtual musical instrument matching unit 350 for matching virtual musical instruments through the virtual musical instrument designation unit 340. The virtual musical instrument designation unit 340 includes a virtual musical instrument designation unit 340, system. delete

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