KR20100136384A - Apparatus and method for fingerboard of mobile virtual guitar - Google Patents

Abstract

PURPOSE: A board implementing device of a virtual mobile guitar and a method thereof using distance variation between a main body and a peripheral body is provided to move the board by moving a mobile virtual miscellaneous base plate according to the distance variation between the peripheral body and the main body. CONSTITUTION: A mobile device(1) includes a touch screen displaying a base plate or a keyboard of the musical instrument according to the manipulation of a player. A first margin instrument(2) is wirelessly connected to the main body as the wire. The distance measuring unit measures distance between the first margin instrument and the main body. According to application is the distance information, the base plate or keyboard is moved to the touch screen.

Description

Apparatus and method for fingerboard of mobile virtual guitar}

The present invention relates to an apparatus and method for implementing a fingerboard of a mobile virtual guitar.

In implementing a guitar in a mobile information device having a small touch screen such as an iPhone, there is a problem in that the small fingerboard is not sufficiently displayed due to the small screen. The way to solve this is to move the fingerboard naturally within the range that does not break the rhythm of the song. Accordingly, the present invention seeks to solve this problem.

It is still another object of the present invention to provide an apparatus and method for processing a keyboard movement of a piano and a pedal input of a drum with one portable speaker for processing other fingerboards according to the present invention.

The present invention requires at least one peripheral device other than the main body on which the mobile virtual guitar is driven, and moves the fingerboard of the virtual guitar on the screen according to the change of the distance between the main body and the peripheral device.

As the means for measuring the distance, all general distance measuring sensors such as an infrared sensor, a laser sensor, and an ultrasonic sensor can be applied. A distance between the two devices can be measured according to the rotation distance of the roller which rides the rail.

Also, when the peripheral device equipped with the distance measuring sensor is placed on the side of the foot, it becomes a pedal input device. In this case, the peripheral device should have the light emitting part and the light receiving part on the same side.

Using the present invention, it is possible to realistically move the fingerboard in the mobile virtual guitar driven in the body floating in the air.

The present invention will be described with reference to the drawings.

1 is an embodiment using an infrared sensor.

According to the present invention, a mobile device (hereinafter, referred to as a main body) 1 on which a virtual guitar is driven has an infrared light emitting unit 3, and a first peripheral device related to right-handed playing connected via short-range wireless communication such as Bluetooth (physical drawing in the drawing). The portable speaker (2) with a string has a light receiving portion (4).

The principle that such a device handles the movement of the fingerboard of the virtual guitar is that the infrared ray scanned by the light emitting unit 3 is received by the light receiving unit 4 and the signal is transmitted to the main body 1 via Bluetooth, and the distance from the main body 1 is reduced. Measure and move the fingerboard of the virtual guitar in proportion to the distance.

The distance between the two devices in the figure is the length of the infrared light 5 from the light emitting part 3 to the light receiving part 4.

2 is another embodiment using infrared rays.

This embodiment is a case where the light emitting portion 3 is not mounted on the main body 1 but is mounted on separate accessories 22 and 23.

(a) is divided into two parts having a water list ring 214 for inputting a strum signal connected to a virtual guitar and a speaker 211, 212, 221 for outputting a performance sound of the virtual guitar. It is a portable speaker and a water list. The speaker is a 2.1-channel system, and is composed of a bass speaker 212, a left treble speaker 211, and a right treble speaker 221 which are in charge of both bass. Among them, the infrared light receiving unit 4 is provided in the water wristring unit 21 provided with the water wrist ring 214, and the infrared light emitting unit 3 is provided in the main body coupling unit 22. Here, the positions of the light emitting portion and the light receiving portion may be interchanged.

In addition, the two parts 21 and 22 are connected by wire or wirelessly.

As shown in (b), when the apparatus 1 and the body coupling portion 22 overlap (or hold together) and play the virtual guitar, the fingerboard of the virtual guitar can be moved by the method described above. Can be. In this manner, the main body coupling part 22 needs a power connection device that can be supplied with a built-in battery or connected to the main body 1 to supply power.

(c) is an embodiment in which the main body coupling part 23 is connected to an external device connecting terminal of the main body 1 without a speaker so that power can be supplied.

3 is an example of applying the speaker according to the present invention to a virtual piano.

In this example, the device according to the embodiment of FIG. 2 is applied to a virtual piano so that the position of the keyboard of the piano can be moved by distance information with the speaker measured according to the movement of the piano body from side to side.

4 is an example of using the speaker according to the present invention as a pedal input device.

In this example, the distance measuring sensor is mounted on both sides of the speaker, which is a peripheral device, and when both feet are lifted up, the pedal recognizes the movement and transfers the result to the main body. In this case, the peripheral device should be provided with the light emitting part and the light receiving part on the same side.

5 is another embodiment using an infrared sensor.

In this embodiment, the second peripheral device 6 other than the two devices has an infrared camera 41, and the light emitting unit 3 is provided in the main body 1 and the first peripheral device 2 related to the playing of the right hand. . The second peripheral device 6 is also connected to the main body 1 by Bluetooth, so that the infrared image received from the infrared camera 41 is transmitted to the main body 1, and the main body 1 has two infrared rays on the infrared image. It calculates the distance between them and moves the fingerboard of the virtual guitar.

6 is an embodiment using a rail.

According to the present embodiment, the rail 7 is mounted between the main body 1 and the first peripheral device 2 related to the playing of the right hand so that the main body 1 adjusts the distance from the first peripheral device 2. It is a method that processes the movement of fingerboard of the virtual guitar in units of pixels in proportion to the rotational distance of the roller rolled in contact with 7).

7 is a view showing the coupling of the rails.

The figure shows the back of the system configuration using the said rail system.

The main body 1 has a rail fixing part 8 which can fix the rail 7, the first peripheral device 2 has a rail penetrating therein and is rotated together in accordance with the movement of the rail 7, There is a rail sensor part 9 with a roller in contact with the rail 7, and the end of the rail 7 has a stop 10 for preventing the rail 7 from coming off the rail sensor part 9. It is prepared.

In this system, when the main body 1 is moved to the left and right, the rails 7 are moved to the left and right together, and the moving information is sensed by the roller in the rail sensor unit 9 so that the rotation signal is the Bluetooth of the first peripheral device 2. The main body 1 is transmitted to the main body 1 through the module so that the main body 1 can handle the fingerboard movement of the virtual guitar.

In the method using such a rail structure, it is not necessary to use the rotation signal of the roller rotated by the rail as described above. For example, the rail 7 connects the main body 1 and the peripheral device 2 to each other so that the main body ( 1) to only support the peripheral device 2, the moving signal is to use the above-described infrared sensor. In addition, since the main body 1 and the peripheral device 2 are always aligned in a straight line, a distance measuring sensor using a laser sensor may be used.

The invention is not limited to the specific methods set forth herein. This is because the basic technical idea of the present invention is to process the fingerboard movement of the virtual guitar by measuring the distance between the main body 1 and the first peripheral device 2, and this method is used to determine the positions of the light emitting part and the light receiving part. This is because the principle, such as changing or changing the position of the rail fixing part and the rail sensor part, can be variously changed or applied without changing. In addition, as the means for measuring the distance, all general distance measuring sensors such as an infrared sensor, a laser sensor, and an ultrasonic sensor are applicable.

Using the present invention, it is possible to realistically move the fingerboard in the mobile virtual guitar driven in the body floating in the air.

1 is an embodiment using an infrared sensor.

2 is another embodiment using infrared rays.

3 is an example of applying the speaker according to the present invention to a virtual piano.

4 is an example of using the speaker according to the present invention as a pedal input device.

5 is another embodiment using an infrared sensor.

6 is an embodiment using a rail.

7 is a view showing the coupling of the rails.

Claims (6)

In the virtual instrument device, An application for implementing a guitar or piano, etc. is installed and executed, the application is a small mobile device (hereinafter, the main body) having a touch screen for displaying the fingerboard or keyboard of the instrument according to the player's operation; A first peripheral device connected to the main body by wire or wirelessly; Distance measuring means for measuring a distance in real time between the main body and the first peripheral device is provided in at least one of the main body and the first peripheral device, the application receives the distance information, the distance information According to the virtual instrument device, characterized in that to display in real time by moving the fingerboard or keyboard of the instrument on the touch screen. The method of claim 1, The distance measuring means is implemented by any one of infrared, ultrasonic, laser, rail. The method of claim 1, The first peripheral device is provided with a water wrist ring, and transmits a performance signal detected by the water wrist ring to an application executed in the main body. The method of claim 1, The first peripheral device is further provided with a speaker. The method of claim 1, The first peripheral device further includes a means for detecting the pedal signal of both feet of the player. The mobile device includes a small mobile device having a touch screen (hereinafter, referred to as a main body) and a first peripheral device connected to the main body by wire or wirelessly, and a distance measuring means capable of measuring a distance from the main body in real time. In the virtual instrument device provided in any one of the first peripheral device, Method for implementing a virtual instrument, The virtual instrument application installed and executed on the main body receives distance information between the main body and the first peripheral device from the distance measuring means, and the fingerboard or keyboard of the instrument on the touch screen in real time according to the distance information. How to implement a virtual instrument, characterized in that for moving to display.

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