KR20060032482A - Apparatus and method for two-dimensional user interface in the mobile communication terminal - Google Patents

Abstract

The present invention implements two-dimensional sensing and stroke functions in a mobile communication terminal so that a user command for selecting a specific function or accessing information provided in the terminal can be input on a two-dimensional user interface plane. A two-dimensional user interface device and method.

The present invention provides a more diverse and convenient two-dimensional user interface than a conventional user interface by implementing a two-dimensional sensing and stroke function that can detect a specific area touch of the terminal user and its touch position and direction in the mobile communication terminal. Through the two-dimensional user interface plane, two-dimensional stroke commands, which are user commands defined in the form of specific characters or symbols, can be input, thereby allowing the user to select functions or access information provided by the terminal. Not only can user commands be entered easily, but the corresponding function selection and information access can be simplified.

Mobile terminal, 2D sensing, stroke function, 2D user interface, function selection, information access

Description

Apparatus And Method For Two-Dimensional User Interface In The Mobile Communication Terminal}

1 is a block diagram showing a two-dimensional user interface device in a mobile communication terminal according to the present invention.

2 is a flow chart illustrating a user command detection and processing operation using a two-dimensional user interface device in a mobile communication terminal according to the present invention.

3 is a diagram illustrating the X-axis and Y-axis coordinate values of the two-dimensional user interface area used in the present invention, and a user stroke command for processing camera-related functions based on this.

4 is a diagram illustrating a two-dimensional stroke command through a two-dimensional user interface area in a mobile communication terminal according to the present invention.

Explanation of symbols on the main parts of the drawings

11: interface mode switching unit 12: two-dimensional sensing unit

13 AD conversion unit 14 control unit

15: application processing unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a user interface in a mobile communication terminal. In particular, a two-dimensional sensing and stroke function is implemented in a mobile communication terminal to provide a user command for selecting a specific function or accessing information provided by the terminal. The present invention relates to a two-dimensional user interface device and method in a mobile communication terminal for input on an interface plane.

In general, a mobile communication terminal such as a PCS phone, a cellular phone, a PDA, etc. requires some form of user interface to control its functions. The type of user interface uses a key button and a specific recognition technology. There is a way.

Here, the method of using the key button is basically a method of using a switch provided in the key button, which is a key value corresponding to a number, letter, or symbol for each key button after arranging a series of key buttons implemented as a switch method. This is a method of providing a user interface by matching a key with a key value for selecting a specific function or accessing information.

In addition, a method using a recognition technology includes a voice input sensor based on a user's voice recognition, a pen input method based on a handwriting recognition based on a specific pad and a pen, and a screen touch recognition through a screen display. There may be a touch screen input method based on the above.

However, the above-described user interface methods do not have great inconvenience for inputting numbers, letters, or symbols, but selecting specific functions or accessing information (for example, camera mode switching, speaker phone function during a call, lantern function, TV reception function, IrDA ( Infrared Data Association interface switching, transmit / receive call mode, camera image rotation, etc. have many limitations.

That is, when looking at the user interface method in the conventional mobile communication terminal, in the case of the key button input method, it is inconvenient to select a specific function only by performing a plurality of key button operations while checking a menu or a search list. In the input method using the recognition technology, in the case of the voice recognition input, the recognition rate improvement and the separation recognition technology of the command and the data are the key issues. In case of pen input method, there is a problem that a separate mechanism is required along with a recognition error problem, and in the case of touch screen input method, a fragile plastic film is used, so it is easily scratched, chopped, or torn. There was a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to implement a two-dimensional sensing and stroke function capable of detecting a specific area touch of a terminal user and its touch position and direction in a mobile communication terminal. The purpose is to provide a more diverse and convenient two-dimensional user interface.

Another object of the present invention is to provide a two-dimensional user interface in a mobile communication terminal, so that the function selection or information provided by the terminal as a two-dimensional stroke command defined in the shape of a specific character or symbol through the two-dimensional user interface plane It is to make it easy to input user commands for access, and to make it possible to simply handle the function selection and information access.

In order to solve the above object, a feature of the present invention is to detect an act of touching a two-dimensional user interface area on a mobile terminal by a terminal user, and to detect an X-axis and Y-axis sensing signal corresponding to the touched point. A two-dimensional sensing unit for generating; AD conversion unit converts the X-axis and Y-axis sensing signals generated by the two-dimensional sensing unit into digital X-axis and Y-axis sensing values, and then transfers the combination of the X-axis and Y-axis sensing values to the next stage. Wow; When the terminal mode is switched to the two-dimensional user interface mode, the user command is analyzed by analyzing the combination of the X-axis and Y-axis sensing values sequentially transmitted from the two-dimensional sensing unit through the AD converter using the two-dimensional sensing and stroke functions. After recognizing a two-dimensional stroke command is to provide a two-dimensional user interface device in a mobile communication terminal including a control unit for controlling the application processing unit in accordance with the two-dimensional stroke command to process the corresponding terminal function selection and information access. have.

In addition, the two-dimensional user interface device in the above-described mobile communication terminal, characterized in that it further comprises an interface mode switching unit for activating the two-dimensional sensing unit to enable the user command input through the two-dimensional user interface area, The interface mode switching unit is characterized in that it is implemented by a specific key button operation or a switch method.

Here, the two-dimensional user interface region is a region in which a two-dimensional sensing unit is formed below the interface region, and is a region in which a touch action of a terminal user is sensed by the two-dimensional sensing unit. Each point boundary is marked so that the terminal user can recognize each point having a series of coordinate values in the area for accurate input.

The control unit analyzes a combination of X and Y axis sensing values using a two-dimensional sensing and stroke function to detect a change in touch position and direction on the two-dimensional user interface plane, and then changes the touch position and direction. The information may be used to recognize a two-dimensional stroke command having a specific character or symbol shape defined for selecting a specific function or accessing information.

The two-dimensional sensing unit may be implemented using a sensor technology capable of two-dimensional sensing such as a gyroscope sensor, an inclination sensor, or an angular velocity sensor. The application processing unit may include an application module related to a camera mounted on a mobile communication terminal. Related application modules for processing functions and accessing information provided by the terminal such as TV reception related application module, emergency call related application module, game related application module, earthquake intensity measurement related application module and information access related application module. It is a block containing, characterized in that to handle the corresponding function selection and information access.

According to another aspect of the present invention, a process of activating a two-dimensional sensing unit to detect a user command input in a two-dimensional user interface area when a two-dimensional user interface mode change occurs in a mobile communication terminal; Generating an X-axis and a Y-axis sensing signal corresponding to the touch point in order when the two-dimensional sensing unit detects that an arbitrary point in the two-dimensional user interface area is sequentially touched by the terminal user; Converting the X-axis and Y-axis sensing signals into digital sensing values, and receiving coordinate values that are a combination of the X-axis and Y-axis sensing values, and performing analysis using two-dimensional sensing and stroke functions; and ; Analyzing a coordinate value that is a combination of the X and Y axis sensing values and recognizing a two-dimensional stroke command that becomes a user command input through the two-dimensional user interface plane; The present invention provides a two-dimensional user interface method in a mobile communication terminal including a process of controlling an application processing unit and processing a corresponding terminal function selection and information access according to the recognized two-dimensional stroke command.

Here, the step of recognizing the two-dimensional stroke command, the step of analyzing the coordinate value that is a combination of the X-axis and Y-axis sensing value using the stroke function to detect a change in the touch position and direction on the two-dimensional user interface plane and ; Recognizing a two-dimensional stroke command having a specific character or symbol shape defined for a specific function selection or information access that becomes a user command input by the terminal user using the detected touch position and direction change information. Characterized in that.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides a user interface capable of selecting a terminal function or accessing information by using a two-dimensional sensing and stroke function that can detect an action in which an arbitrary area of a mobile communication terminal is sequentially touched by a terminal user. To this end, the user interface device in the mobile communication terminal has a configuration in which the building blocks as shown in Figure 1 attached to each other.

That is, the two-dimensional user interface device in the mobile communication terminal according to the present invention, as shown in Figure 1, the interface mode switching unit 11, the two-dimensional sensing unit 12, AD (Analog to Digital) conversion The unit 13 and the control unit 14 are provided.

The interface mode switching unit 11 plays a role of activating the two-dimensional sensing unit 12 to input a user command through the two-dimensional user interface area on the terminal, which can be implemented by a specific key button manipulation or a switch method. have.

After the two-dimensional sensing unit 12 is activated by the interface mode switching unit 11, the two-dimensional sensing unit 12 detects an operation in which an arbitrary area (for example, a folder cross section, an LCD window or a key button unit) on the terminal is sequentially touched by the terminal user. Therefore, X- and Y-axis sensing signals corresponding thereto are generated in sequence.

The AD converter 13 converts the analog X-axis and Y-axis sensing signals generated by the two-dimensional sensing unit 12 into digital X-axis and Y-axis sensing values, and then detects the X-axis and Y-axis. The combination of values (that is, coordinate values) is transmitted to the controller 14 in order.

The controller 14 controls the application processing unit to perform a series of terminal control and management such as normal terminal function processing and information access, and the 2D user interface mode switching is reported from the interface mode switching unit 11. In this case, a combination of X and Y axis sensing values sequentially transmitted from the 2D sensing unit 12 through the AD converter 13 is analyzed using 2D sensing and stroke functions to touch on a 2D user interface plane. Detects a change in position and direction, recognizes a two-dimensional stroke command as a user command using the touch position and direction change information, and then controls the application processor 15 according to the two-dimensional stroke input command to correspond to the terminal function. It handles selection and access to information.

Here, the application processing unit 15 may be a terminal such as a camera related application module, a TV reception related application module, an emergency call related application module, a game related application module, an earthquake intensity measurement related module, an information access related application module, etc. mounted in the terminal. It includes related application modules for processing various functions and accessing information provided within, and handles function selection and information access.

The user command detection and processing operation using the 2D user interface device in the mobile communication terminal having such a configuration will be described with reference to FIG. 2 as follows.

First, in order to provide a two-dimensional user interface, a two-dimensional sensing unit 12 should be implemented in a mobile communication terminal. This means that an arbitrary area on the terminal, such as a folder cross section, an LCD window, or a key button unit, is selected by the terminal user. It is to detect whether it is touched, and may be implemented to generate an X-axis and Y-axis sensing signal corresponding to a point touched by the terminal user using a gyroscope sensor, or may be implemented using a tilt sensor or an angular velocity sensor. In addition, a sensor technology capable of two-dimensional sensing may also be used. That is, by configuring a sensor capable of two-dimensional sensing under the above-mentioned arbitrary region, the terminal user senses whether any point in the region is touched, and at this time, the X-axis and Y-axis sensing signals for the touched point Will be generated.

In addition, in order to perform the corresponding sensing operation, the above-described two-dimensional sensing unit 12 may activate the two-dimensional sensing unit 12, that is, an interface mode capable of activating a two-dimensional user interface of the mobile communication terminal. The switching unit 11 should be implemented, which can be implemented by a specific key button manipulation or switch method. That is, the 2D user interface mode switching request corresponding to the case where a specific key button for 2D user interface mode switching or the mode switching switch is ON is reported to the controller 14 and the 2D sensing unit Activate (12).

When the terminal user using the mobile communication terminal operates the interface mode switching unit 11 to switch the terminal mode to the two-dimensional user interface mode (step S21), the interface mode switching unit 11 corresponds to the corresponding two-dimensional. The user interface mode switching request is reported to the controller 14 and the two-dimensional sensing unit 12 is activated to detect a user command input by the terminal user, that is, a user command input for selecting a specific function or accessing information. (Step S22).

In addition, the 2D sensing unit 12 activated by the interface mode switching unit 11 detects whether a region designated for inputting a 2D user command, that is, a 2D user interface region, is touched by the terminal user ( In operation S23, the area where the 2D user command is input, that is, the 2D user interface area, may be a folder section, an LCD window, or a key button unit having the 2D sensing unit 12 formed at the bottom thereof.

On the other hand, the 2D sensing unit 12 detects whether the 2D user interface area is touched, and when an arbitrary point within the area is detected by the terminal user, the X-axis corresponding to the touch point in the British zero is detected. And generating a Y-axis sensing signal and transmitting the signal to the AD converter 13, where each analog type X-axis and Y-axis sensing signal corresponding to the point touched sequentially by the terminal user is generated, and in turn, AD. It transfers to the conversion part 13 side (step S24).

Then, the AD converter 13 converts the analog X-axis and Y-axis sensing signals transmitted from the two-dimensional sensing unit 12 into digital X-axis and Y-axis sensing values recognizable by the controller 14. After that (step S25), the combination of the X-axis and Y-axis sensing values (that is, the coordinates of the X-axis and the Y-axis) is sequentially transmitted to the control unit 14 (step S26).

In addition, the controller 14 that receives the X-axis and Y-axis sensing values that become a series of two-dimensional user interface information from the AD converter 13 receives the two-dimensional sensing and strokes of the X-axis and Y-axis sensing values sequentially transmitted. This function is used to analyze the sequential touch information in the two-dimensional user interface area transmitted by the combination of the X-axis and Y-axis sensing values by using the stroke function to analyze the change in touch position and direction on the two-dimensional plane. (Step S27), the two-dimensional user command input on the terminal plane by the terminal user using the detected touch position and direction change information, that is, a specific character or symbol defined for selecting a specific function or accessing information. A two-dimensional stroke command having a shape of U is recognized (step S28).

Subsequently, the controller 14 controls the application processor 15 according to a user command, which is a two-dimensional stroke command recognized above, to process a corresponding terminal function and access information, for example, a camera mode switching function according to a stroke command for entering a camera mode. Emergency call function of the camera image according to the stroke command for transmitting camera image information in case of emergency, camera image rotation function according to the stroke command for rotating the camera image displayed on the LCD screen, call according to the stroke command to return to the communication mode (Call) mode switching function, recording function according to stroke command for storing call history, speaker phone call function according to stroke command for using speaker phone during call, stroke command for using lantern mounted on terminal Lantern mode switching function, watching TV using the terminal TV reception mode switching function according to one stroke command, IrDA interface mode switching function according to stroke command for IrDA (Infrared Data Association) communication, and interface mode switching function for ending two-dimensional interface mode are processed (step S29). .

For example, a camera related function processing operation using a 2D user interface in a mobile communication terminal will be described below.

First, the two-dimensional sensing unit 12 has a key button unit below the key button unit, for example, as shown in FIG. 3, the key button unit having the buttons '1' to '9' (dashed line area in FIG. 3, In other words, when configured in the lower portion of the two-dimensional user interface region, the two-dimensional sensing unit 12 has a number '5' as the center point, that is, coordinates (X, Y) = ( 0,0), and the number '1' is (-1,1), the number '2' is (0,1), the number '3' is (1,1), and the number '4' is ( -1,0), the number '6' is (1,0), the number '7' is (-1, -1), the number '8' is (0, -1), the number '9' is (1, Each can be defined as -1). Here, each number of the key button part does not have a meaning itself but has a meaning as a touch point (position) with respect to the center point, and '0, 1, -1' used as X and Y axis sensing values is A value having a symbolic meaning for indicating a touch position and direction, which may be changed to another value.

When the user of the mobile communication terminal equipped with the two-dimensional sensing unit 12 operates the interface mode switching unit 11 to switch the user interface mode to the two-dimensional user interface mode, the interface mode switching unit 11 The two-dimensional sensing unit 12 transitions to an active state, and at the same time, the control unit 14 switches to the two-dimensional user interface mode to perform a corresponding control operation.

In this state, the terminal user touches the number '3-2-1-4-7-8-9' in that order among the key buttons '1' to '9' which become the two-dimensional user interface area (or Input and manipulation), the two-dimensional sensing unit 12 configured below the key button unit sequentially generates the X-axis and Y-axis sensing signals corresponding to the positions of the numbers touched in front of the AD converter unit 13. In this case, since the X-axis and Y-axis sensing signals transmitted from the two-dimensional sensing unit 12 are analog signals, the AD converter 13 may recognize digital values, that is, the X-axis and Each of the Y-axis sensing values is converted and transmitted to the control unit 14 in that order.

Then, the controller 14 analyzes the combination of the X-axis Y-axis sensing values transmitted from the two-dimensional sensing unit 12 through the AD converter 13, that is, the two-dimensional touch information by the terminal user using the stroke function. This detects a change in touch position and direction on the two-dimensional user interface plane.

That is, corresponding to the numbers '3-2-1-4-7-8-9' sequentially touched by the terminal user, '(1,1)-(0,1)-(-1,1)-' The combination of the X-axis and Y-axis sensing values in the order of (-1,0)-(-1, -1)-(0, -1)-(1, -1) 'is the two-dimensional touch information as the control unit 14 The controller 14 detects the touch position and the change in the direction of the arrow shown in FIG. 3B on the two-dimensional user interface plane by analyzing the two-dimensional touch information using the stroke function. Through this, it is recognized that the user command input on the two-dimensional user interface plane is a two-dimensional stroke command representing the letter 'C' indicating the camera mode switching command.

Subsequently, the controller 14 controls the camera related application module of the application processor 15 according to the camera mode switching command, which is a two-dimensional stroke command recognized above, to switch the terminal mode to the camera mode. It is possible to perform shooting, album search, image transmission, and the like.

In this case, the camera-related application module means a back-end chip and a camera module, and the back-end chip is embedded in the controller 14 (ie, MSM or baseband processor) according to the terminal solution. It may be a separate external chip. Looking at the operation of the camera-related application module, when the back-end chip receives a start command for driving the camera from the control unit 14, a power sequence and register setting value required for driving the camera with the camera module are shown. The camera module executes the power sequence and register setting values, and digitizes the image captured by the camera sensor, and transmits corresponding image data, that is, RGB (or YUV) values, to the backend chip. . Thereafter, the backend chip displays image data received from the camera module on the LCD screen, and the backend chip performs image rotation, enlargement, reduction, and video shooting functions.

Similarly, a number button of a position and a direction corresponding to a symbol '?' Representing a stroke command for transmitting camera image information in an emergency situation through a two-dimensional user interface area while the terminal user switches the terminal mode to the camera mode. When the user touches '4-1-2-3-6-9' in that order, the two-dimensional sensing unit 12 sequentially generates the X-axis and Y-axis sensing signals corresponding to the points where the touched numbers are located. By converting the digital values to the AD converter 13, the digital values are converted into digital values, that is, the X-axis and Y-axis sensing values, respectively, and transferred to the control unit 14 in that order.

Then, the control unit 14 is a combination of the X-axis Y-axis sensing values transmitted from the two-dimensional sensing unit 12 through the AD converter 13, that is, the number '4-1-2-3 touched by the terminal user. '(-1,0)-(-1,1)-(0,1)-(1,1)-(1,0)-(1,' -1) 'by using the stroke function to detect the change in the touch position and the direction of the arrow direction shown in (c) of Figure 3, through which the user command input on the two-dimensional user interface plane emergency camera image It is recognized that it is a two-dimensional stroke command representing the symbol '?', Which means a transmission command. The camera-related application module of the application processor 15 is controlled according to the emergency image transmission command of the camera image, which is the recognized two-dimensional stroke command. The camera will send an image of the emergency.

In addition, the terminal user may rotate the camera image through the two-dimensional user interface area while using the terminal mode to switch to the camera mode, for this purpose, the position corresponding to the letter 'U' indicating a stroke command for rotating the camera image When the number buttons '1-4-7-8-9-6-3' in the and directions are touched in that order, the two-dimensional sensing unit 12 corresponds to the X axis and Y corresponding to the point where each touched number is located. By sequentially generating the axis sensing signal to the AD converter 13, it is converted into digital values, that is, X-axis and Y-axis sensing values, respectively, and transmitted to the controller 14 in that order.

Then, the control unit 14 is a combination of the X-axis Y-axis sensing value transmitted from the two-dimensional sensing unit 12 through the AD converter 13, that is, the number '1-4-7-8 touched by the terminal user' '(-1,1)-(-1,0)-(-1, -1)-(0, -1)-(1,-), which is two-dimensional touch information corresponding to -9-6-3', respectively 1)-(1,0)-(1,1) 'is analyzed using the stroke function to detect the touch position and the change in direction of the arrow shown in (d) of FIG. Recognizing that the user command input on the interface plane is a two-dimensional stroke command representing the letter 'U' which means the camera image rotation command, the application processing unit 15 of the application processing unit 15 By controlling the camera related application module, the camera image currently displayed on the LCD screen is rotated by a specified angle.

As described above, in the present invention, by touching the numeric buttons of the position and direction corresponding to the shape of the character or symbol indicating the stroke command in order to select a specific function selection and information access defined through the two-dimensional user interface area, By inputting a series of two-dimensional stroke commands, the control unit 14 can control the associated application module through the application processing unit 15 to perform corresponding function processing and information access. For example, as illustrated in the accompanying drawings, FIG. 4.

That is, the call mode for returning to the communication mode by inputting a two-dimensional stroke command by touching the numerical buttons '4-5-6' of the position and direction corresponding to the symbol '→' in that order as shown in FIG. The switching function can be processed, and the two-dimensional number button '7-4-1-2-3-5-9' of the position and direction corresponding to the letter 'R' can be touched in that order as shown in (b). By inputting the stroke command, the recording function for storing the call history can be processed, and the number button of the position and direction corresponding to the letter 'S' as shown in (c) '3-2-1-4- 5-6- Touching 9-8-7 'in that order inputs a two-dimensional stroke command to process the speaker phone call function for speaker phone use during a call. Then, as shown in (d) of FIG. 4, the terminal is mounted on the terminal by inputting a two-dimensional stroke command by touching the numeric buttons '1-4-7-8-9' at positions and directions corresponding to the letter 'L' in that order. It becomes possible to process the lantern mode switching function for using the lantern, and as shown in (e), the number button '1-2-3-2-5-8' corresponding to the letter 'T' is displayed in the order. By inputting the two-dimensional stroke command by touching as it is, it is possible to process the TV reception mode switching function for watching TV using the terminal, and the number button '1-2' of the position and direction corresponding to the letter 'Z' as shown in (bar). By inputting a two-dimensional stroke command by touching -3-5-7-8-9 'in that order, IrDA interface mode switching function for IrDA (Infrared Data Association) communication can be processed. In addition, as shown in Fig. 4 (g), by touching the numeric buttons '6-5-4' of the position and direction corresponding to the symbol '←' in that order, a two-dimensional stroke command is input to terminate the two-dimensional interface mode. Interface mode switching function can be handled.

In addition, the embodiment according to the present invention is not limited to the above, and various alternatives, modifications and changes can be made within the scope apparent to those skilled in the art in connection with the present invention, for example , Characters or symbols representing two-dimensional stroke commands for accessing information and selecting specific functions input through the two-dimensional user interface area, that is, the two-dimensional user interface plane, are not limited to those illustrated in FIGS. It may be defined or changed to the desired characters or symbols according to the convenience of.

Furthermore, the two-dimensional user interface area, that is, the two-dimensional user interface plane that can input the two-dimensional stroke command according to the position where the two-dimensional sensing unit 12 is configured, may be changed to a folder cross section or an LCD window. In this case, as in the stroke command input through the touch of a button (input and manipulation) provided in the key button unit described in the above-described embodiment, the user interface area is virtually divided into equal parts (for example, nine equal parts), and the respective center points are referenced based on the center point. By touching the point, that is, by touching the points as shown in the figure so as to represent the shape of a character or a symbol corresponding to the two-dimensional stroke command for selecting a specific function and accessing information, the desired two-dimensional stroke command can be input. This allows for the selection of relevant functions and access to information.

At this time, when the two-dimensional sensing unit 12 is configured below the key button unit, the terminal user recognizes the touch point (position) accurately and inputs an input operation (for example, a button touch or manipulation) for the corresponding two-dimensional stroke command. Although it is possible to accurately detect the touch position, and if it is configured in other areas, i.e., the lower part of the folder section or the LCD window, it is difficult for the terminal user to accurately recognize the touch point on the 2D user interface plane. It would be desirable to set the two-dimensional user interface area as wide as possible. In addition, when the two-dimensional user interface area is narrowly set, the terminal user visually or tactilely recognizes each point having a series of coordinate values (combination of X and Y axis sensing values) within the area. It is desirable to mark the boundary.

In the above-described embodiment, the two-dimensional user interface is used to detect a change in touch position and direction for recognizing a shape of a character or a symbol indicating a two-dimensional stroke command by the terminal user in the two-dimensional user interface area. The case where the area is divided into nine parts is described as an example. However, even if the area is not divided into nine parts, the area can be divided into a number of points so as to detect a change in touch position and direction, and the center point is a position touched by the terminal user. Since it means the reference point of the X-axis and Y-axis coordinates to represent), it is not located at the center point in the interface area, but at any other point (e.g., in FIG. Point, '4', or any other numeric button). There will be.

As described above, the present invention implements a two-dimensional sensing and stroke function capable of detecting a specific area touch of a terminal user and its touch position and direction in a mobile communication terminal, thereby making it more versatile and convenient than a conventional user interface. The interface can be provided, and through the two-dimensional user interface plane, two-dimensional stroke commands, which are user commands defined in the form of specific characters or symbols, can be input, thereby selecting the functions provided by the terminal from the terminal user's point of view. In addition to easily inputting user commands for accessing information, the function selection and access to information can be simplified.

Claims (10)

A two-dimensional sensing unit which detects a touch of a two-dimensional user interface region on the mobile communication terminal by the terminal user and generates X- and Y-axis sensing signals corresponding to the touched point; AD conversion unit converts the X-axis and Y-axis sensing signals generated by the two-dimensional sensing unit into digital X-axis and Y-axis sensing values, and then transfers the combination of the X-axis and Y-axis sensing values to the next stage. Wow; When the terminal mode is switched to the two-dimensional user interface mode, the user command is analyzed by analyzing the combination of the X-axis and Y-axis sensing values sequentially transmitted from the two-dimensional sensing unit through the AD converter using the two-dimensional sensing and stroke functions. A two-dimensional user interface in a mobile communication terminal, comprising: a control unit for recognizing a two-dimensional stroke command, and controlling an application processing unit according to the two-dimensional stroke command to process corresponding terminal function selection and information access Device. The method of claim 1, And a interface mode switching unit for activating the two-dimensional sensing unit so that a user command can be input through the two-dimensional user interface area. The method of claim 2, The interface mode switching unit is a two-dimensional user interface device in a mobile communication terminal, characterized in that implemented by a specific key button operation or switch method. In claim 1 or 2 The two-dimensional user interface region is an area in which a two-dimensional sensing unit is formed below the interface region, and the two-dimensional user interface region is a region in which a touch action of the terminal user is sensed by the two-dimensional sensing unit. Interface device. The method of claim 4, wherein The two-dimensional user interface region is characterized in that each point boundary is marked so that the terminal user can recognize each point having a series of coordinate values in the region for accurate input of the two-dimensional stroke command. Two-dimensional user interface device in the terminal. The method of claim 1, The control unit analyzes the combination of the X-axis and Y-axis sensing values using a two-dimensional sensing and stroke function to detect a change in the touch position and direction on the two-dimensional user interface plane, and then the touch position and direction change information. And a two-dimensional stroke command having a specific character or symbol shape defined for selecting a specific function or accessing information. The method of claim 1, The two-dimensional sensing unit is a two-dimensional user interface device in a mobile communication terminal, characterized in that implemented using a sensor technology capable of two-dimensional sensing, such as a gyroscope sensor, tilt sensor or angular velocity sensor. The method of claim 1, The application processor may include a camera related application module mounted on a mobile communication terminal, a TV reception related application module, an emergency call related application module, a game related application module, an earthquake intensity measurement related module, and an information access related application module. 2. A two-dimensional user interface device in a mobile communication terminal, the block including a related application module for providing various function processing and information provided. Activating the 2D sensing unit to detect a user command input in the 2D user interface area when the 2D user interface mode switching occurs in the mobile communication terminal; Generating an X-axis and a Y-axis sensing signal corresponding to the touch point in order when the two-dimensional sensing unit detects that an arbitrary point in the two-dimensional user interface area is sequentially touched by the terminal user; Converting the X-axis and Y-axis sensing signals into digital sensing values, and receiving coordinate values that are a combination of the X-axis and Y-axis sensing values, and performing analysis using two-dimensional sensing and stroke functions; and ; Analyzing a coordinate value that is a combination of the X and Y axis sensing values and recognizing a two-dimensional stroke command that becomes a user command input through the two-dimensional user interface plane; And controlling the application processing unit according to the recognized two-dimensional stroke command to process a corresponding terminal function selection and access to information. The method of claim 9, The process of recognizing the two-dimensional stroke command may include analyzing a coordinate value, which is a combination of X and Y axis sensing values, using a stroke function to detect a change in touch position and direction on a two-dimensional user interface plane; Recognizing a two-dimensional stroke command having a specific character or symbol shape defined for a specific function selection or information access that becomes a user command input by the terminal user using the detected touch position and direction change information. 2D user interface method in a mobile communication terminal, characterized in that.

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