KR101780546B1 - Method of inputting for ring user interface based on trace of touch input, application and computer recording medium - Google Patents

Abstract

According to the present invention, there is provided a touch input receiving step of receiving a touch input of a user in a ring worn by a user; A touch input set based trace calculating step of calculating a total trace of the touch input using the set of touch inputs received in the touch input receiving step; And a corresponding user command inquiry step of inquiring a command of the user corresponding to the whole trace calculated in the touch input set based trace calculation step.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an input method, an application, and a computer-readable recording medium for a touch-based trace-based ring user interface.

[0001] The present invention relates to an input method, an application, and a computer-readable recording medium for a touch-based ring-based user interface of a touch input device, and more particularly, An input method, application and computer-readable recording medium for inputting a trace-based ring user interface of a touch input capable of calculating a corresponding trace of a corresponding user based on the calculated trace, .

The user interface refers to a command or technique that ordinary users use to control data input or operation in a computer system, a program, various electrical devices, or an electronic device. The user interface allows a user to communicate with an electronic device, The purpose is to make it convenient to use.

Such a user interface includes a keyboard, a mouse, a microphone for voice recognition, a touch screen, and a motion recognition technology.

As an example of such a user interface, Korean National Publication No. 2014-0039569 (titled invention: a method of operating a user interface of a touch screen) discloses a method of operating a user interface of a touch screen When the user touches any part of the input touch panel 10 with one finger and touches the upper part again, the control unit 20 causes the display unit 30 to display a signal The user touches a portion of the input touch panel 10 with one finger, and then touches again the lower portion of the input touch panel 10 to move the touch point to the center of the screen to enlarge the screen. The controller 20 sends a signal to the display unit 30 so that the first touched portion moves to the center of the screen to reduce the screen. The present invention can easily control the setting of the touch screen menus of various terminals and the size of the screen with one or two fingers, thereby greatly improving the quality and reliability of the product. Therefore, various needs of users, So that a good image can be provided. "

However, such input on the touch screen is useful when the user is holding the touch screen with one hand or looking at the touch screen, but if not, for example, There is a limit in the case where the input is intended to be applied or to the electrical apparatus or electronic apparatus which is spaced apart.

On the other hand, as an example of another user interface, in Korea Publication No. 2014-0112316 (published on September 23, 2014, entitled " Smart Device Control Device and Method Using Motion Recognition, The present invention relates to a motion detection module for recognizing a motion and a shape of an object, a motion detection module for setting a reference part of the body part of the user, An input command converting unit for converting a motion input of the user into an input command and an input instruction executing unit for controlling the operation of the smart device in accordance with the input command, Wherein the input command conversion unit recognizes a movement form of the moving body in the user's body part, According to the present invention, in recognizing a user command through motion, the motion input area is divided and set, and the motion input area includes a body characteristic of a user and a user's input It is advantageous to provide a motion input interface with high accuracy by providing a user-oriented motion recognition interface in consideration of its position. "

However, the input interface based on motion or motion recognition is not easy to accurately classify / distinguish / classify the input, which limits the number of input types. In order to accurately recognize motion, it is required to develop a more precise sensor device. Therefore, there is a limit to provide more accurate and various kinds of input with current technology.

1. Korean National Publication No. 2014-0039569 (Published on 2014.04.02), How to Operate the User Interface of the Touch Screen 2. Korean National Publication No. 2014-0112316 (Publication date 2014.09.23.), Smart device control apparatus and method using motion recognition

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for calculating a total trace using a touch input set of a user wearing a ring user interface, And an object of the present invention is to provide a trace-based ring-based user interface input method, application, and computer-readable recording medium capable of inquiring a corresponding command and executing a corresponding user command.

In addition, in the case of an input interface based on conventional motion or motion recognition, it is difficult to precisely classify and classify the input, so that the number of input types is limited, and a more precise sensor device is developed for accurate motion recognition It is an object of the present invention to provide a trace-based ring user interface of a touch input capable of solving a required problem and providing more accurate and various kinds of input with existing technology alone.

In addition, even when an input signal is to be applied from a sofa or the like while watching a display device such as a TV screen, or when an input is provided to a spaced electric device or an electronic device, simply by operating a ring worn on the finger, To provide a trace-based ring user interface of a touch input.

According to another aspect of the present invention, there is provided a method for inputting a trace-based ring user interface of a touch input, the method comprising: receiving a touch input of a user in a ring worn by a user; A touch input set based trace calculating step of calculating a total trace of the touch input using the set of touch inputs received in the touch input receiving step; And a corresponding user command inquiry step of inquiring the user's command corresponding to the whole trace calculated in the touch input set based trace calculation step.

The corresponding user command is an instruction inputted to an electronic device or an electronic device linked with the ring user interface. The corresponding user command executing step executes the command in accordance with the corresponding command inquired in the corresponding user command inquiry step. .

The ring may further include a subsidiary portion connected to the ring to receive a touch input.

The user's touch input also includes a first circumferential touch input d11 for the ring, a second circumferential touch input d12 opposite the first circumferential direction, A first width direction touch input (d21) approaching the first width direction of the ring and stopping the touch input on the ring, a second width direction of the ring starting from the outside of the other side of the ring and being opposite to the first width direction A second width direction touch input (d22) in which the touch input is stopped on the ring in a direction approaching the first width direction, a third width direction touch input (d22) starting from the ring and moving in a second width direction of the ring, (d23), a fourth width direction touch input (d24) starting from above the ring and moving in the first width direction of the ring to the outside of the other side of the ring, starting from one side of the ring, room A fifth width direction touch input (d31) passing through the touch area on the ring and stopping at the outside of the other side of the ring, and a fifth touch direction input (d31) starting from the outside of the other side of the ring, And a sixth width direction touch input (d32) that passes through the region and stops at one side of the ring, at least one or more than one may be combined.

The user's touch input also includes a first circumferential touch input d11 for the ring, a second circumferential touch input d12 opposite the first circumferential direction, A first width direction touch input (d21) approaching the first width direction of the ring and stopping the touch input on the ring, a second width direction of the ring starting from the outside of the other side of the ring and being opposite to the first width direction A second width direction touch input (d22) in which the touch input is stopped on the ring in a direction approaching the first width direction, a third width direction touch input (d22) starting from the ring and moving in a second width direction of the ring, (d23), a fourth width direction touch input (d24) starting from above the ring and moving in the first width direction of the ring to the outside of the other side of the ring, starting from one side of the ring, room A fifth width direction touch input (d31) passing through the touch area on the ring and stopping at the outside of the other side of the ring, and a fifth touch direction input (d31) starting from the outside of the other side of the ring, And a sixth width direction touch input (d32) that passes through the region and stops at one side of the ring, and a second width direction touch input (d32) that includes a circumferential two finger spreading or omitting input, a ring width direction two finger spreading or omitting input At least one, or at least one, of the groups of touch inputs may be combined.

The trace calculation may be performed by calculating a movement direction of the plurality of touch inputs, a distance between adjacent touch inputs, and a rate of change of a distance between adjacent touch inputs based on the set of the plurality of touch inputs, Calculate the traces of the entire continuous line, including the starting and ending points.

Further comprising a trace-corresponding user command determination table preparation step of preparing a trace-corresponding user command determination table so as to be able to query the corresponding user command, wherein the corresponding user command inquiry includes: Based on the judgment table, the instruction of the user corresponding to the whole trace can be inquired.

The method may further include changing the trace-corresponding user command judgment table by the user, or resetting the trace-corresponding user command judgment table by releasing the corresponding setting.

The first circumferential touch input d11, the second circumferential touch input d12, the first width direction touch input d21, the second width direction touch input d22, Direction touch input d23, the fourth width direction touch input d24, the fifth width direction touch input d31, the sixth width direction touch input d32, and the circumferential two- When the time interval t between each touch input satisfies a predetermined threshold value condition for a multi-touch input including the two-finger spreading or non-touch input in the ring width direction, And if the time interval t between the respective touch inputs does not satisfy the preset threshold condition, it is preferable to recognize the time interval t as a different touch input set.

Meanwhile, an application in another aspect of the present invention is stored in the medium in order to execute each step of the input method of the trace-based ring user interface of the touch input described above in combination with the ring user interface.

On the other hand, a computer-readable recording medium according to another aspect of the present invention records a program for executing each step of the input method of the trace-based ring user interface of the touch input described above in combination with the ring user interface.

According to the input method, application, and computer-readable recording medium of the touch-based trace-based ring user interface according to the present invention,

First, according to the present invention, a total trace is calculated using a touch input set of a user wearing a ring user interface, a corresponding command of a corresponding user is inquired based on the calculated trace, and a corresponding user command is executed It is possible to provide an input method, application and computer-readable recording medium of a touch-based trace-based ring user interface.

Second, in the case of the input interface based on the conventional motion or motion recognition, it is difficult to precisely classify and classify the input, so that the number of input types is limited, and the development of a more accurate sensor device for accurate motion recognition It is possible to solve the required problems and to provide more accurate and various kinds of input by existing technology alone.

In other words, one finger input in the circumferential direction of the user, one finger input in the opposite direction of the circumference of the user, one finger input in the ring outside the user's ring, one finger input in the ring on the ring of the user, One finger input to the outside of the ring from the inside of the ring, one finger input to the outside of the ring on the ring of the user, one finger input into the ring inside the ring of the user, One or more inputs selected from the group consisting of two fingers input on ring ring, two finger fingers input on ring of user, two fingers input in vertical direction to user's ring, It is possible to provide a wide variety of inputs created with a simple ring interface, s of freedom. That is, by using a simple mechanism called a ring user interface, it becomes possible to solve the problems of the prior art.

Third, even when an input is provided to a remote or remote electric device or an electronic device, it is possible to provide various inputs by simply operating the ring worn on the finger, thereby maximizing user convenience.

Fourth, it is a technology that can be easily used in the case of people with disabilities as well as the general public.

FIG. 1 illustrates a first example of a ring to which a ring user interface input method according to a preferred embodiment of the present invention is applied,
2 is a diagram illustrating a second example of a ring to which a method of inputting a ring user interface according to a preferred embodiment of the present invention is applied;
FIG. 3 illustrates a third example of a ring to which a ring user interface input method according to a preferred embodiment of the present invention is applied,
FIG. 4 illustrates a fourth example of a ring to which a ring user interface input method according to a preferred embodiment of the present invention is applied;
FIG. 5 is a diagram illustrating a method of inputting a touch input that is different according to a moving direction of a finger of a user in a ring user interface input method according to a preferred embodiment of the present invention;
Figure 6 illustrates an example of a plurality of touch inputs for a first circumferential touch input (d11) for the ring in Figure 5;
Figure 7 illustrates an example of a plurality of touch inputs for a second circumferential touch input (d12), which is the opposite of the first circumferential direction to the ring in Figure 5;
FIG. 8 is a view illustrating an example of a plurality of touch inputs in the case of a first width direction touch input d21, which starts from one side of the ring in FIG. 5 and approaches the first width direction of the ring, ,
FIG. 9 is a diagram illustrating a case where a second width direction touch input d22, which starts from the outside of the ring on the other side of the ring and approaches the second width direction of the ring opposite to the first width direction, ≪ / RTI >< RTI ID =
10 illustrates an example of a plurality of touch inputs in the case of the third width direction touch input d23 starting from the ring and moving in the second width direction of the ring to one side of the ring,
11 is a view showing an example of a plurality of touch inputs in the case of the fourth width direction touch input d24 starting from the ring and moving in the first width direction of the ring to the outside of the ring,
FIG. 12 is a diagram illustrating a touch input according to another widthwise movement of a user's finger in a ring user interface input method according to a preferred embodiment of the present invention; FIG.
FIG. 13 is a view illustrating a fifth touch direction input d31, which starts from the outside of one side of the ring and stops outside the other side of the ring through the touch region on the ring in the first width direction of the ring in FIG. 12, Fig.
FIG. 14 is a diagram illustrating a case where a sixth touch direction input d32, which starts from the outside of the ring on the other side of the ring and stops at one side of the ring through the touch region on the ring in the second width direction of the ring, Fig.
FIG. 15 is a diagram illustrating a state in which a touch input is applied according to another movement of a user's finger in a ring user interface input method according to a preferred embodiment of the present invention; FIG.
FIG. 16 is a diagram illustrating an example of a plurality of touch inputs according to an example of FIG. 15;
FIG. 17 illustrates an example of a plurality of touch inputs according to another example of FIG. 15;
FIG. 18 is a diagram illustrating a state in which a touch input is applied according to another movement of a user's finger in a ring user interface input method according to a preferred embodiment of the present invention; FIG.
FIG. 19 illustrates an example of a plurality of touch inputs according to an example of FIG. 18;
FIG. 20 illustrates an example of a plurality of touch inputs according to another example of FIG. 18;
FIG. 21 is a diagram illustrating a state in which a touch input is applied when a user's finger is combined in a circumferential direction and a width direction in a ring user interface input method according to a preferred embodiment of the present invention;
22 is a diagram illustrating an example of a plurality of touch inputs in accordance with FIG.
23 is a flowchart showing an overall flow of an input method of a ring user interface according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

23, a touch input receiving step S100, a touch input set based trace calculating step S200, a corresponding user command inquiring step (step S100) S300), and a corresponding user command execution step (S400).

First, the touch input receiving step S100 is a step of receiving a touch input of a user in a ring worn by a user.

1 is a diagram illustrating a first example of a ring to which a ring user interface input method according to a preferred embodiment of the present invention is applied. As shown in Fig. 1, it is possible to receive a user's fingertip touch input to the ring 10 to be worn by a user by interposing it on any one of the fingers. In particular, it is a device that can obtain the coordinates of the touched position by sensing the touch input of the user. The input coordinates may be a specific pixel or a set of pixels in an area having a certain area.

It is possible to form a specific region of the ring using various existing existing technologies such as a capacitive type or a resistive type according to the operation method related to the touch input.

Further, when it is difficult to form or configure the touch input means on a specific region on the circumference of the ring, or as means for receiving the touch input of the user more efficiently, a subsidiary portion connected to the ring to receive the finger end touch input of the user . Such an example is shown in Figs. 2 to 4. Fig.

2 to 4 are views showing examples of rings to which a ring user interface input method according to a preferred embodiment of the present invention is applied. As shown in Figs. 2 to 4, auxiliary portions 20, 30, 40 May be formed in a shape of a polygon, a circle, an ellipse, etc., such as a square, a pentagon, etc., but it is not limited thereto and various changes and modifications may be made. In the case where the auxiliary portions 20, 30 and 40 are provided, since they have a relatively large area, it is easier to implement them in various ways.

2, when the touch input of the user starts from the left side area of the rectangular auxiliary part 20, the user interface (not shown) on the display of the electric device or the electronic device linked with the ring user interface May be displayed on the left side area of the screen of the display device.

Likewise, when the touch input of the user starts in the right portion, the upper portion, and the lower portion of the rectangular auxiliary portion 20 in the case of including the auxiliary portion 20 in Fig. 2, It is also possible to set the user interface on the display of the device or the electronic device to be displayed on the right side, upper side and lower side of the display device, respectively.

On the other hand, the user's touch input includes a first circumferential touch input d11 to the ring, a second circumferential touch input d12 to be opposite to the first circumferential direction, A first width direction touch input (d21) in which a touch input is stopped on a ring in a direction of a first width direction, and a second width direction of a ring which is opposite to a first width direction, A third width direction touch input d23 starting from above the ring and moving in a second width direction of the ring to the outside of one side of the ring, A fourth width direction touch input d24 which moves in the width direction and exits to the outside of the other side of the ring, a first width direction starting from the outside of the ring and passing through the touch region on the ring in the first width direction of the ring, Touch the fifth width direction (d31), and a sixth width direction touch input (d32) starting from the outside of the other side of the ring and passing through the touch area on the ring in the second width direction of the ring and stopping at one side of the ring, At least one, or at least one of a group consisting of a fingertip or an omnidirectional input, and a mulitre touch input including two fingers or an omnidirectional input in the ring width direction.

In the touch input set based trace calculation step S200, the total trace of the touch input is calculated using the set of the plurality of touch inputs received in the touch input receiving step.

Hereinafter, a specific example will be described with respect to each of the user touch input and the trace calculation.

FIG. 5 is a diagram illustrating how touch inputs d11, d12, d21, d22, d23, and d34, which are different from each other according to the moving direction of the user's finger, are applied in the ring user interface input method according to the preferred embodiment of the present invention Fig.

6 illustrates an example of a plurality of touch inputs in the case of the first circumferential touch input d11 for the ring in FIG. Wherein the first circumferential touch input d11 for the ring is a touch input in a direction starting from a specific point p0 and moving along the ring circumference by p1, p2, p3, p4, the interval between p0 and p1, the interval between p1 and p2, the interval between p2 and p3, and the interval between p3 and p4 gradually increase. Of course, when the touch input of the fingertip reaches a certain speed, the distance between the touch inputs may converge at a certain distance. However, when the interval between the touch inputs gradually increases, the touch input outside the ring, It may no longer exist. When such a touch input is input, it is calculated that the entire trace is made in the first circumferential direction from the lower side of the ring to the upper side. If the touch input of the finger tip stops at P4, the interval of the touch input before P4 touch input is gradually decreased, and the touch input is stopped at P4.

7 is a diagram illustrating an example of a plurality of touch inputs in the case of the second circumferential touch input d12 which is the opposite of the first circumferential direction to the ring in Fig. Wherein the second circumferential touch input d12 to the ring is a touch input in a direction starting from a particular point p0 and moving along the ring circumference by p1, p2, p3, p4, the interval between p0 and p1, the interval between p1 and p2, the interval between p2 and p3, and the interval between p3 and p4 gradually increase. Of course, when the touch input of the fingertip reaches a certain speed, the distance between the touch inputs may converge to a certain distance. However, when the distance between the touch inputs gradually increases, the touch input It may no longer exist. When such a touch input is received, it is calculated that the entire trace is made in the second circumferential direction from the upper side of the ring to the lower side. If the touch input of the finger tip stops at P4, the interval of the touch input before P4 touch input is gradually decreased, and the touch input is stopped at P4.

8 illustrates an example of a plurality of touch inputs in the case of the first width direction touch input d21 which starts from the outside of one side of the ring and approaches the first width direction of the ring and stops touch input on the ring, Fig. When starting from the outside of one side of the ring and approaching the first width direction of the ring, p0, p1 are not received by the touch input. 8, it is assumed that acceleration is already performed outside the ring. The interval between p0 and p1, which is not recognized as a touch input but which is virtually displayed, is the interval between touch inputs in the ring As shown in FIG. However, p2, p3, and p4 can be received by touch input. The interval between p2 and p2 and p3 and the intervals between p3 and p4 are gradually decreased. Finally, touch input is stopped on the ring. When the touch input is received, in the trace calculation step, it is determined that the touch input of the user is performed along the line connecting p0, p1, p2, p3, p4 even if p0, Calculable.

FIG. 9 is a diagram illustrating a second width direction touch input d22, which starts from the outside of the ring on the other side of the ring and approaches the second width direction of the ring opposite to the first width direction, Are examples of touch inputs. When starting from the outside of the other side of the ring and approaching the second width direction of the ring, p0 and p1 are not received as touch inputs. As shown in FIG. 9, assuming that acceleration is already performed outside the ring, the interval between p0 and p1, which is not recognized as a touch input but is virtually displayed, As shown in FIG. However, p2, p3, and p4 can be received by touch input. The interval between p2 and p2 and p3 and the intervals between p3 and p4 are gradually decreased. Finally, touch input is stopped on the ring. When the touch input is received, in the trace calculation step, it is determined that the touch input of the user is performed along the line connecting p0, p1, p2, p3, p4 even if p0, Calculable.

10 is a view showing an example of a plurality of touch inputs in the case of the third width direction touch input d23 starting from the ring and moving in the second width direction of the ring to one side of the ring . The touch inputs p0, p1 and p2 of the user are received, but p3 and p4 are not actually received by the touch input. If the operation stops at the outside of the ring by advancing to the outside of the ring, the interval between the touch inputs does not decrease, but rather the interval between the touch inputs . Thus, in the trace calculation step, it is possible to calculate, as a whole trace, that the touch input of the user has been performed along the line connecting p0, p1, p2, p3 and p4 even if p3 and p4 have no touch input.

11 is a view showing an example of a plurality of touch inputs in the case of the fourth width direction touch input d24 starting from the ring and moving in the first width direction of the ring to the outside of the other side of the ring in Fig. The touch inputs p0, p1 and p2 of the user are received, but p3 and p4 are not actually received by the touch input. If the operation stops at the outside of the ring by advancing to the outside of the ring, the interval between the touch inputs does not decrease, but rather the interval between the touch inputs . Thus, in the trace calculation step, it is possible to calculate, as a whole trace, that the touch input of the user has been performed along the line connecting p0, p1, p2, p3 and p4 even if p3 and p4 have no touch input.

FIG. 12 is a diagram illustrating a state in which a touch input of d31 and d32 is applied according to another widthwise movement of a user's finger in a ring user interface input method according to a preferred embodiment of the present invention.

13 shows a case in which, in the case of the fifth width direction touch input d31 which starts from the outside of one side of the ring in the first width direction of the ring and stops outside the other side of the ring through the touch region on the ring, Fig. 7 is a diagram showing an example of a touch input. Only the touch input on the ring is p0 and p1. If the touch input is started on the ring or the touch input is stopped on the ring, a pattern in which the interval of the touch input increases or decreases may occur. However, if the operation starts from one side of the ring and advances outside the other side of the ring , A touch input is received as shown in Fig. Through this, the entire operation of the user can be calculated as a whole trace.

14 shows a case in which, in the case of the sixth width direction touch input d32 which starts from the other side of the ring in the second width direction of the ring and passes through the touch area on the ring and stops at one side of the ring, Fig. 7 is a diagram showing an example of a touch input. Only the touch input on the ring is p0 and p1. If the touch input is started on the ring or the touch input is stopped on the ring, a pattern in which the interval of the touch input increases or decreases may occur. However, if the operation starts from the outside of the other side of the ring, , A touch input is received as shown in Fig. Through this, the entire operation of the user can be calculated as a whole trace.

FIG. 15 is a diagram illustrating a state in which the d41 and d42 touch inputs are applied according to another widthwise movement of a finger of a user in a method of inputting a ring user interface according to a preferred embodiment of the present invention.

Here, FIG. 16 illustrates an example of a plurality of touch inputs according to an example of FIG. The touch input on the ring is received by p0 and p1, and the touch input of p2, p3, p4 and p5 is received at a predetermined time interval t. Herein, when the predetermined time interval t is less than (or less than) a preset threshold value, the plurality of touch inputs are recognized as one touch input set, and when the predetermined time interval t is less than a predetermined threshold When the threshold is over (or above), all the plurality of touch inputs are recognized as different touch input sets. That is, if touch inputs of p2, p3, p4 and p5 are received with a predetermined time interval t longer than the threshold value after touch input to p0 and p1, P3, p4 and p5 are received with a constant time interval (t) less than the threshold value after touch input to p0 and p1, conversely, It is determined that the touch input before and after the time interval t totally has one touch chip power set.

In the case where the touch inputs on the ring are p0 and p1, when the touch input in the d31 direction shown in Fig. 13 and the touch inputs on the ring are p2, p3, p4 and p5, a combination of touch inputs in the d22 direction shown in Fig. 9 Can be recognized. 9 and 13, it is possible to calculate the entire operation of the user as a whole trace by calculating where the corresponding touch input starts and in which direction the touch input is moved through the interval between the touch inputs.

FIG. 17 is a diagram illustrating an example of a plurality of touch inputs according to another example of FIG. The touch input of p2, p3, p4 and p5 is received at a constant time interval (t) of less than (or equal to) a preset threshold value when the touch input on the ring is received by p0 and p1. When the touch input on the ring is p0 and p1, if the touch input in the direction d32 and the touch input on the ring are p2, p3, p4 and p5 shown in Fig. 14, Can be recognized. As described above with reference to FIGS. 8 and 14, the entire operation of the user can be calculated as a whole trace by calculating where the corresponding touch input starts and in which direction the touch input is moved through the interval between the touch inputs.

As described with reference to Figs. 16 and 17, it is possible to configure a more complex whole touch input by appropriately combining the basic units of various touch inputs described above.

18 is a diagram illustrating a state in which the d51 and d52 touch inputs are applied in accordance with another movement of the user's finger in the width direction in the ring user interface input method according to the preferred embodiment of the present invention.

Here, FIG. 19 is a diagram illustrating an example of a plurality of touch inputs according to an example of FIG. P0 and p1 receive the touch input on the ring, and the touch input of p2 and p3 is received at a predetermined time interval (t) of less than (or below) a preset threshold value. When the touch input on the ring is p0 and p1, it can be recognized as a combination of the touch input in the direction d31 shown in Fig. 13 and the touch input in the direction d32 shown in Fig. 13 and 14, it is possible to calculate the entire operation of the user as a whole trace by calculating where the corresponding touch input is started and moved in which direction through the interval between the touch inputs.

20 is a diagram illustrating an example of a plurality of touch inputs according to another example of FIG. P0 and p1 receive the touch input on the ring, and the touch input of p2 and p3 is received at a predetermined time interval (t) of less than (or below) a preset threshold value. When the touch input on the ring is p0 and p1, it can be recognized as a combination of the touch input in the d32 direction shown in Fig. 14 and the touch input in the d31 direction shown in Fig. 13 and 14, it is possible to calculate the entire operation of the user as a whole trace by calculating where the corresponding touch input is started and moved in which direction through the interval between the touch inputs.

FIG. 21 is a diagram illustrating a state in which a touch input is applied when a user's finger is combined in the circumferential direction and the width direction in a ring user interface input method according to a preferred embodiment of the present invention.

22 is a diagram showing an example of a plurality of touch inputs in accordance with FIG. After the touch input on the ring starts at p0, the interval of the touch input gradually increases, and the interval of the touch input gradually decreases. After that, the interval of the touch input gradually decreases and pause at p5 and a predetermined time interval t ), The touch input after p6 in which the interval of the touch input gradually increases is received. p8 and p9 do not receive the touch input. Through such a touch input set, the entire operation of the user can be calculated as a whole trace. That is, although p8 and p9 are not received as touch inputs, it can be calculated as a whole trace that the touch input of the user is made along the line connecting p0 to p7.

As described above, the total trace calculation can be performed using the movement direction of a plurality of touch inputs and the distance (interval) between touch inputs adjacent to each other based on a set of a plurality of touch inputs. However, It is also possible to calculate the traces of all continuous lines including the start point and the end point of the trace by calculating the rate of change of the distance between the touch inputs and the rate of change of the rate of change. It is also possible to calculate the trace by considering various factors such as the movement direction, the movement speed, the movement time, the movement distance, and the movement pattern of the touch input of the user together.

Further, in order to trace the entire trace, two-dimensional coordinates or three-dimensional coordinates corresponding to a plurality of touch inputs are used. In this case, when touch input of a specific region is input at a predetermined time among a plurality of touch inputs, and when a plurality of coordinates are inputted, a specific one of a plurality of coordinate sets such as coordinates in the innermost coordinate or coordinates having the strongest touch It is also possible to trace the entire trace by using an algorithm for selecting the coordinates of the coordinates.

On the other hand, after calculating the total trace, in the corresponding user command inquiry step (S300), the user's command corresponding to the entire trace calculated in the trace calculation step is inquired. Further, the method further comprises a trace-corresponding user command judgment table preparation step of preparing a trace-corresponding user command judgment table so that a corresponding user command can be inquired, and the corresponding user command inquiry includes a trace- The instruction of the user corresponding to the entire trace can be inquired.

Also, the method may further include changing the trace-corresponding user command judgment table to change, reset or cancel the corresponding setting by the user.

Further, the corresponding user command is an instruction input to the electric device or the electronic device linked with the ring user interface. In the corresponding user command execution step (S400), the corresponding user command And executes an instruction to the electronic device. Commands for electrical or electronic devices may indicate, for example, channel changes for a TV, volume changes, specific selections and releases, and the like.

Meanwhile, an application in another aspect of the present invention is stored in the medium in order to execute each step of the input method of the trace-based ring user interface of the touch input described above in combination with the ring user interface.

On the other hand, a computer-readable recording medium according to another aspect of the present invention records a program for executing each step of the input method of the trace-based ring user interface of the touch input described above in combination with the ring user interface. The program according to the present embodiment may be configured as an application dedicated to a PC-based program or a screen terminal (for example, a smart TV, an Internet TV, a public display, a kiosk, etc.).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various modifications and changes may be made without departing from the scope of the appended claims.

10 ... ring
100 ... area where touch input is performed
P0, P1, P2, P3, P4, P5 ... movement point according to the operation of touch input of the user
S100 ... touch input receiving step
S200 ... touch input set-based trace calculation step
S300 ... corresponding user command inquiry step
S400 ... corresponding user command execution step

Claims (11)

A ring circumferential touch input (d12) in a direction opposite to the first circumferential direction, a first circumferential touch input (d12), a second circumferential touch input A first width direction touch input (d21) approaching the first width direction of the ring and stopping the touch input on the ring, a second width direction touch input (d21) starting from the outside of the other side of the ring and being opposite to the first width direction A second width direction touch input (d22) approaching in the width direction and stopping the touch input on the ring, a third width direction touch (d22) starting from the ring and moving in the second width direction of the ring, An input d23, a fourth width direction touch input d24 starting from above the ring and moving in the first width direction of the ring to the outside of the other side of the ring, Width direction A fifth touch direction (d31) passing through the touch area on the ring and stopping at the outside of the other side of the ring, a touch area (d31) starting from the outside of the other side of the ring, And a sixth width direction touch input (d32) that stops at one side of the ring passing through the second width direction touch input (d32), and a multi-finger touch input A touch input receiving step of receiving the touch input of the user, wherein at least one or more of the touch input is a combination of touch inputs;
Calculating a total trace of the touch input using the plurality of sets of touch inputs received in the touch input receiving step, calculating a total trace of the plurality of touch inputs based on the set of the plurality of touch inputs, A touch input set based trace calculating step of calculating a distance between touch inputs adjacent to each other and a rate of change in the distance between touch inputs adjacent to each other to calculate a trace consisting of all continuous lines including the start point and the end point of the trace; And
A command corresponding to the entire trace calculated in the touch input set based trace calculation step, which is an instruction input to an electric device or an electronic device interlocked with the ring user interface, A corresponding user command inquiry step of inquiring with a basis; And
And a corresponding user command execution step of executing the command in accordance with the corresponding user command inquired in the corresponding user command inquiry step.
Input method of trace-based ring user interface of touch input.
delete The method according to claim 1,
Wherein the ring further comprises a subsidiary portion connected to the ring for receiving a touch input,
Input method of trace-based ring user interface of touch input.
delete delete delete delete The method according to claim 1,
Corresponding user command judgment table, wherein the trace-corresponding user command judgment table is changed, reset or canceled by the user.
Input method of trace-based ring user interface of touch input.
The method according to claim 1,
Wherein the first circumferential touch input d11, the second circumferential touch input d12, the first width direction touch input d21, the second width direction touch input d22, A second width direction touch input (d31), a sixth width direction touch input (d32), and a circumferential two-finger spacing or umber input For a multi-touch input that includes two ring-width direction fingers or a ring input,
If the time interval t between the respective touch inputs satisfies a preset threshold condition, the touch input is recognized as one touch input set as a whole, and the time interval t between the respective touch inputs is set to a predetermined threshold condition If they are not satisfied, they are recognized as a different touch input set,
Input method of trace-based ring user interface of touch input.
Combined with the ring user interface,
An application stored on a medium for executing each step of a method of inputting a trace-based ring user interface of a touch input according to any one of claims 1, 3, 8 to 9.
Combined with the ring user interface,
A program for executing each step of a method of inputting a trace-based ring user interface of a touch input according to any one of claims 1, 3,

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