KR102512943B1 - Method for identifying user processing touch input on in-cell type touch screen and interactive flat panel display thereof - Google Patents

Abstract

According to various embodiments of the present invention, an interactive flat panel display includes an in-cell type touch screen panel and a method for processing a touch input on an interactive flat panel display comprises: a step (a) of obtaining a first touch input of a first object among touch inputs through a plurality of objects in contact with a touch screen panel; a step (b) of obtaining the shape of a hand contact area where the first object touches the touch screen panel from the first touch input to identify a user corresponding to the hand contact area; a step (c) of checking a second touch input in which the hand contact area has changed while the first touch input is maintained; and a step (d) of performing a designated operation in response to the changed shape of the hand contact area of the second touch input and the third touch input of a second object.

Description

Method for identifying users and processing touch inputs on in-cell touch screens and electronic boards

The present invention relates to a method for identifying a user and processing a touch input on an in-cell touch screen and an electronic blackboard thereof, and more particularly, to a touch acquired through a touch screen on an electronic blackboard including an in-cell touch screen. A method of identifying a user with an input and processing a function matched with a touch input, and an electronic blackboard.

Recently, electronic devices that input commands by combining hand gestures have appeared, and devices that can be manipulated using a touch screen without a separate input device are becoming common.

While using an electronic device, the user's finger or an object such as a pen crosses the touch screen or moves it in a specific direction to reflect the user's instructions on the small screen and to control the electronic device by making a specific selection is already familiar to the user. We provide user experience.

On the other hand, the touch screen is made of a display screen with a structure of glass and a conductive panel covering a flat screen, and in the case of a touch pad, reinforced plastics and aluminum films are used as materials for input and output. run

In this process, until recently, several command processes on the screen of the touch screen are not only directly manipulated using electronic devices equipped with touch screens with simple touch inputs, but also carry out commands with a combination of several touch inputs. It has come to reflect their work instructions to electronic devices.

However, most electronic devices with touch screens are small electronic devices such as smart phones, and touch input methods are also being developed to suit these small devices.

For example, in the case of a small electronic device including such a touch screen, it is held with one hand or both hands and controls the electronic device with respect to a touch input using one or two touch points, and the size of the touch screen is When large, it is difficult to control electronic devices in this way.

Therefore, in an electronic device with a large screen touch screen, a user located in front of the electronic device can easily perform touch input to use a specific function of the electronic device, or intuitively and simply set and process various control commands for the user's touch input. It is necessary to provide a method and a description of the device.

KR 10-2012-0107697

In the case of a device including a large display such as an electronic blackboard, an object of the present invention is to use a large display including a touch screen panel to identify a user by touch input and to provide device functions according to the touch input. .

An object of the present invention is to allow a user to intuitively and easily touch a large touch screen panel, and to set and provide various functions for such touch input.

The problems to be solved through various embodiments of the present invention are not limited to the mentioned problems, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

According to an embodiment of the present invention, in a state where the electronic board includes an in-cell type touch screen panel, (a) a first object among touch inputs through a plurality of objects contacting the touch screen panel obtaining a first touch input of; (b) acquiring a shape of a hand contact area where the first object contacts the touch screen panel from the first touch input, and identifying a user corresponding to the hand contact area; (c) checking a second touch input in which the hand contact area is changed in a state in which the first touch input is maintained; and (d) performing a designated operation in response to the changed shape of the hand contact region of the second touch input and the third touch input of the second object. there is.

In the step (b), the electronic board compares the shape of the hand contact area with the shape of hand contact areas set to identify a user stored in the database to determine an identical or similar hand contact area. The blackboard divides the obtained hand contact area and the set hand contact area into a palm area and a finger area, and compares the shape of the non-contact area in the palm area and the connection shape between the palm area and at least one finger area. One hand contact area among set hand contact areas may be determined.

In the step (b), the electronic board includes the pisiform, hypothenar, metacarpal, phalangeo metacarpal, and phalanx of the acquired hand contact area and the set hand contact area. Among the digital, digital interphalangeal, proximal interphalangeal, index, thumb, web, thenar, and palmar regions At least one specific region may be divided, and a hand contact region among the set hand contact regions may be determined by comparing the divided specific regions.

In the step (d), the changed hand contact area of the second touch input includes a case where the hand contact area of the first touch input is rotated, and the electronic board includes a hand contact area of the second touch input. shape, direction in which the hand contact area of the second touch input is rotated relative to the hand contact area of the first touch input, and angle level at which the hand contact area of the second touch input is rotated relative to the hand contact area of the first touch input , and a combination of at least some of the positions of the touch block where the touch input of the first object was performed, determining a function of the electronic blackboard preset in user setting information of the identified user, and the determined function as the By applying the third touch input, the designated operation may be performed.

The upper limb electronic blackboard may maintain the function of the electronic blackboard until the second touch input is released.

The touch block is at least one touch block among the touch screen panels divided into a plurality of touch blocks, and when the first touch input overlaps a boundary between at least two touch blocks, the electronic board An area of a touch area of the input hand included in each of the at least two touch blocks may be calculated, and it may be determined that the first touch input is input in a touch block having the largest area.

The third touch input of the second object is a touch input obtained simultaneously with or after the first touch input, and may include at least one touch or drag input.

According to another embodiment of the present invention, the touch screen panel of the in-cell (in-cell) method; and obtaining a first touch input of a first object among touch inputs through a plurality of objects in contact with the touch screen panel, and obtaining a first touch input of a hand contact area in which the first object is in contact with the touch screen panel from the first touch input. Obtain a shape, identify a user corresponding to the hand contact area, check a second touch input in which the hand contact area is changed while the first touch input is maintained, and hand of the changed second touch input It is possible to provide an electronic blackboard that processes touch input, including a processing unit to perform a specified operation in response to the shape of the contact area and the third touch input of the second object.

According to various embodiments of the present invention, in performing the function of the electronic board 100, the function of the device matched to the touch input is processed through a touch input using a specific object, such as a hand, and a pattern using the specific object, so that the user's Can improve work efficiency.

According to various embodiments of the present disclosure, the electronic blackboard 100 identifies a user based on the contact area of the user's hand acquired by the touch screen panel 210, and determines the location of the matched device according to the shape of the contact area. By processing the function, the security of the work can be effectively improved.

According to various embodiments of the present invention, even in a device having a shape display unit, such as the electronic blackboard 100, a user can easily select a desired device through a touch screen panel facing the user without having to connect a separate input means for inputting a control command. Functions can be easily controlled.

1 is a diagram showing the configuration of an electronic blackboard according to an embodiment of the present invention.
2 is a diagram schematically illustrating a display unit including a touch screen panel as an input/output unit according to an embodiment of the present invention.
3 illustrates the flow of an operation of processing a touch input on the electronic board according to an embodiment of the present invention.
4 illustrates an operation of a touch screen panel obtaining a multi-touch input in an electronic blackboard according to an embodiment of the present invention.
5 and 6 are diagrams schematically showing a hand contact area obtained by the electronic blackboard according to an embodiment of the present invention in response to a touch input using a user's hand.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, since various changes can be made to the embodiments, the scope of rights of the patent application is not limited or limited by these embodiments. It should be understood that all changes, equivalents or substitutes to the embodiments are included within the scope of rights.

Terms used in the examples are used for descriptive purposes only and should not be construed as limiting. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the embodiment belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

In addition, in the description with reference to the accompanying drawings, the same reference numerals are assigned to the same components regardless of reference numerals, and overlapping descriptions thereof will be omitted. In describing the embodiment, if it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the embodiment, the detailed description will be omitted.

In addition, in describing the components of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are only used to distinguish the component from other components, and the nature, sequence, or order of the corresponding component is not limited by the term. When an element is described as being “connected”, “coupled” or “connected” to another element, the element may be directly connected or connected to the other element, but there may be another element between the elements. It should be understood that may be "connected", "coupled" or "connected".

Components included in one embodiment and components having common functions will be described using the same names in other embodiments. Unless stated to the contrary, descriptions described in one embodiment may be applied to other embodiments, and detailed descriptions will be omitted to the extent of overlap.

'Data' processed in an electronic device can be expressed in terms of 'information'. Here, information may be used as a concept including data.

The present invention relates to a method of processing a touch input of an electronic blackboard and the electronic blackboard, and more particularly, to a method of processing a plurality of acquired touch inputs in a state including an in-cell type touch screen panel. and the electronic blackboard.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings, and the accompanying drawings serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is described in such drawings. should not be construed as limited to

1 is a diagram showing the configuration of an electronic blackboard according to an embodiment of the present invention.

Referring to FIG. 1 , the electronic board 100 may include a processing unit 110, a storage unit 120, a communication unit 130, and an input/output unit 140.

Here, the input unit of the input/output unit 140 may include a touch panel capable of performing touch input, and the output unit of the input/output unit 140 may include a display panel that outputs visual information.

According to various embodiments of the present disclosure, the input/output unit 140 may include a touch screen panel in which a touch panel and a display panel are combined. The touch screen panel may be configured as an in-cell type panel.

The electronic board 100 determines a control command for controlling the electronic board 100 according to a touch input obtained through a touch screen panel, and performs operations of at least some functions of the electronic board 100 according to the control command. can

The control command may be a command designated to perform a specific function of the electronic board 100 with respect to a touch input performed on the touch screen panel, for example, a touch input that contacts an object at a specific location of the touch screen panel.

Here, the touch input for touch (and/or release) using an object has been representatively described, but is not limited thereto and may include touch input including touch and drag. In addition, the range of touch input may include non-contact touch input in which an object is recognized without direct contact with the touch screen.

The processing unit 110 of the electronic board 100 may process a user's touch input through artificial intelligence (AI). In addition, the processing unit 110 of the electronic board 100 is based on the user's touch input recognized through artificial intelligence, the functions of the electronic board 100 and / or peripheral devices (eg, lights, beam projectors, speakers, and / Alternatively, Internet of Things (IoT) technology for controlling other electronic devices may be applied.

The processing unit 110 may process a touch input input to the touch screen panel and a control command based thereon through at least one program (app, application, tool, plug-in, etc., hereinafter referred to as a control command processing program). At this time, the control command processing program may be stored in the storage unit 120 of the electronic board 100 and/or the storage unit of an external device connected to the electronic board 100.

The processing unit 110 may share data processing with at least one device (eg, a user device) connected to the electronic board 100 through a control command processing program.

Hereinafter, in various embodiments, when the electronic board 100 performs an event according to a control command, it may be understood that events designated through at least one control command processing related program of the electronic board 100 are performed.

Here, the control command processing is described as being provided through the control command processing program installed in the electronic board 100, but is not limited thereto, and may be provided through other pre-installed programs or temporary installation programs.

According to an embodiment, control command processing may be performed through at least a part of a database provided free of charge or for a fee in an external device of the electronic board 100.

The operation of the electronic board 100 is performed based on data processing and device control of the processing unit 110, and the processing unit 110 can perform a designated function based on a control command confirmed from a touch input to the touch screen panel. there is.

In addition, in processing control commands based on touch inputs input through the touch screen panel, the processing unit 110 may process them according to the priority assigned based on the identified user.

For example, the processing unit 110 may check a multi-touch input through a touch screen panel. According to an embodiment, the processing unit 110 may identify a user based on a touch input acquired through a touch screen panel and/or process the touch input according to the identified user's setting information.

The processing unit 110 may perform identification of a user of a touch input input through a touch screen panel based on at least one artificial intelligence algorithm. At this time, the processing unit 110 may perform regression analysis using the learned algorithm for processing the touch input stored in the storage unit 120 .

The storage unit 120 may store various data processed by at least one component (eg, the processing unit 110 or the communication unit 130) of the electronic board 100. The data, for example, control command processing It may include a program (or software) for, data, various categories generated based on data, and related input data or output data.

The storage unit 120 includes artificial neural network algorithms for identifying and processing touch inputs, blockchain algorithms, deep learning algorithms, regression analysis algorithms, and artificial intelligence including at least some of mechanisms, operators, language models, and big data related thereto. Algorithms may be included.

For example, the storage unit 120 may include an algorithm for identifying a user based on a touch input input through a touch screen panel and/or an algorithm for performing a designated operation in relation thereto.

Also, the storage unit 120 may include at least one algorithm for processing a touch input through the touch screen panel, such as a touch pattern recognition algorithm and a touch user classification algorithm.

The storage unit 120 may include data for checking and processing specified controls and operations through signals received through respective devices included in the input/output unit 140 .

The operations described through the storage unit 120 are processed by the processing unit 110, and data for processing related operations, data in process, processed data, preset data, etc. are stored in the storage unit 120 as a database. can

Data stored in the storage unit 120 may be changed, corrected, deleted, and/or new data may be created by the processing unit 110 based on a manager input of the electronic board 100 or a user input of the user device.

The storage unit 120 may store device setting information of the electronic board 100 . The device setting information may be setting information for at least some of the functions of the electronic board 100 .

The storage unit 120 may store user information about at least one user. Each user information may store at least some of user identification information (eg, identification, ID) and password, and user-customized setting information. User-customized setting information is setting information for at least part of the functions of the electronic board 100, and may be set and stored according to user input.

The storage unit 120 may include volatile memory or non-volatile memory.

The communication unit 130 supports establishment of a wired communication channel between the electronic board 100 and at least one other electronic device (eg, a user device or server), establishment of a wireless communication channel, and communication through the established communication channel. can

The communication unit 130 may include one or more communication processors that are operated independently or subordinately to the processing unit 110 and support wireless communication. According to an embodiment, the communication unit 130 may be a wireless communication module (eg, a cellular communication module, a short-distance wireless communication module, or a global navigation satellite system (GNSS) communication module) or a wired communication module (eg, a local area network (LAN)) communication module or power line communication module).

The communication unit 130 is a local communication network and / or cellular network such as Bluetooth, Bluetooth Low Energy (BLE), WiFi, WiFi direct, infrared data association (IrDA), ZigBee, UWB, RF (Radio Frequency), the Internet, or a computer network (e.g., a telecommunications network such as a LAN or WAN) to communicate with an external electronic device.

Various types of communication modules constituting the communication unit 130 may be integrated as one component (eg, a single chip) or may be implemented as a plurality of separate components (eg, multiple chips).

The input/output unit 140 may further include a microphone for inputting audio. In addition, the input/output unit 140 may further include at least a portion of an input unit (not shown) for inputting data, such as a keyboard or a mouse, and an output unit (not shown) for outputting data such as a display unit (eg, a display), a speaker, or a driving unit. there is.

The microphone may convert an external sound signal into electrical voice data. The converted sound signal may have a form of a pulse code modulation (PCM) state or a compressed audio waveform. To this end, the microphone may include an A/D conversion unit that converts sound into digital. The converted audio data may be utilized in various ways depending on the function being performed by the processing unit 110 (eg, chart management service).

The touch screen panel may sense a touch input through a user's body part, such as a finger or palm, or a means for touch (eg, a stylus (pen)). In this case, the touch screen panel may have a multi-touch function for sensing two or more touches at the same time.

According to various embodiments of the present invention, the electronic blackboard 100 or the user device is at least part of the functions of a range of information and communication devices including mobile communication terminals, multimedia terminals, wired terminals, fixed terminals, and internet protocol (IP) terminals. can include

The electronic board 100 is a device for processing control commands, and may include at least some functions of a workstation or a large-capacity database, or may be configured to be connected through communication.

User devices connected to the electronic board 100 include a mobile phone, a personal computer (PC), a portable multimedia player (PMP), a mobile internet device (MID), a smartphone, a tablet PC, and a tablet PC. A tablet PC, a notebook, and the like can be exemplified.

According to various embodiments of the present disclosure, the user device may be described as a device that manages control command processing of the electronic board 100 .

Here, the server is one entity existing on the network and serves as a web server, database server, and application server. According to a preferred embodiment, the server may provide various contents to the electronic board 100 and/or the user device based on the processing of the electronic board 100 .

2 is a diagram schematically illustrating a display unit including a touch screen panel as an input/output unit according to an embodiment of the present invention.

Referring to FIG. 2 , the display unit 200 includes a touch screen panel 210, a data driver 220, a gate driver 230, and an integrated circuit 240 (hereinafter referred to as a touch integrated circuit) for controlling touch signals. It can be.

In the touch screen panel 210, a plurality of data lines DL are formed in a first direction (eg, a vertical direction or a horizontal direction), and a plurality of gate lines GL are formed in a second direction (eg, a horizontal direction or a vertical direction). direction) can be formed. At least one light emitting device defined as a pixel (p) may be disposed at each intersection of the plurality of data lines DL and the plurality of gate lines GL. Here, each pixel may be one of various color pixels such as a red (r) pixel, a green (g) pixel, and a blue (b) pixel.

In the pixel area of each pixel p, a source electrode or drain electrode is connected to the data line DL, a gate electrode is connected to the gate line GL, and either the drain electrode or the source electrode is connected to the pixel electrode. , pixel electrode).

In addition, on the touch screen panel 210, a plurality of electrodes (eg, S11 to S14, S21 to S24, and/or S31 to S34) grouped into a plurality of electrode groups may be formed spaced apart from each other. As described above, the touch screen panel 210 may also serve as a touch panel while serving as a display panel.

That is, the touch screen panel 210 can be expressed as an integrated panel in which a display panel and a touch panel are combined into one.

According to various embodiments of the present disclosure, the touch screen panel 210 may be an in-cell type display panel in which a touch panel is embedded in a display panel.

Here, the display unit 200 may be divided into a display driving mode in which the touch screen panel 210 operates as a display panel and a touch driving mode in which the touch screen panel 210 operates as a touch panel.

When the driving mode of the touch screen panel 210 is the display driving mode, the data driver 220 may supply data voltages Vdata or data signals for display to the plurality of data lines DL.

When the driving mode of the touch screen panel 210 is the display driving mode, the gate driving unit 230 sequentially transmits a gate signal or a scan signal for display through a plurality of gate lines GL. can supply

When the driving mode of the touch screen panel 210 is the touch driving mode, the touch integrated circuit 240 includes a plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) directly connected through touch signal lines. A touch driving signal may be applied in whole or in part of .

Here, the touch driving signal may be defined as a touch sensing signal, a touch sensing voltage, or a touch driving voltage (Vtd).

For example, in the touch integrated circuit 240, when the driving mode of the touch screen panel 210 is the touch driving mode, a plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34 are grouped. A touch driving signal may be applied to all or part of the plurality of electrode groups.

Meanwhile, the display unit 200 according to an exemplary embodiment may further include a timing controller (not shown) that controls driving timings of the data driver 220 and the gate driver 230 .

In addition, the display unit 200 according to an embodiment includes sensing data measured by the touch integrated circuit 240 through a plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34 serving as touch electrodes. A touch controller (not shown) may be further included to receive (eg, capacitance, change in capacitance, voltage, etc.) and detect touch presence and touch coordinates.

Meanwhile, the touch screen panel 210 of the display unit 200 according to an embodiment may be driven while repeating the display driving mode and the touch driving mode, and the timing of the display driving mode and the touch driving mode may be determined by a timing controller or a touch controller. It may be controlled by a control signal output from at least a part of In some cases, control may be performed by interlocking the timing controller and the touch controller.

Meanwhile, the display unit 200 according to an embodiment is a touch method, and changes in capacitance (capacitance) through a plurality of touch electrodes (eg, horizontal electrodes and vertical electrodes) formed on the touch screen panel 210. Based on this, a capacitance touch method that detects whether or not there is a touch and touch coordinates is adopted.

Such a capacitance touch method may be classified into, for example, a mutual-capacitance touch method and a self-capacitance touch method.

In the mutual capacitance touch method, which is a type of capacitance touch method, one of the horizontal electrodes and the vertical electrodes becomes the Tx electrode (or the driving electrode) to which the driving voltage is applied, and the other electrode receives the driving voltage. It becomes an Rx electrode (or sensing electrode) that senses and forms a capacitance with the Tx electrode, and based on the change in capacitance (mutual capacitance) between the Tx electrode and the Rx electrode according to the presence or absence of a touch object such as a finger or pen, touch presence and touch coordinates It is a touch method that detects the back.

In the self-capacitance touch method, which is another type of capacitance touch method, each touch electrode forms a capacitance (self-capacitance) with a touch object such as a finger or pen, and each touch electrode and It is a method of measuring capacitance values between touch objects and detecting presence or absence of touch and touch coordinates based on this. Unlike the mutual capacitance touch method, in this self-capacitance touch method, a driving voltage (touch drive signal) may be applied and simultaneously sensed through each touch electrode. Therefore, in the self-capacitance touch method, the Tx electrode and the Rx electrode can be configured without distinction.

The display unit 200 according to an embodiment may employ one of the two capacitance touch methods (mutual capacitance touch method and self-capacitance touch method) described above.

However, in this specification, for convenience of description, the embodiment will be described on the assumption that the self-capacitance touch method is employed.

The aforementioned data driver 220 may include at least one data driver IC (source driver IC), and the data driver IC is a bonding pad of the touch screen panel 210. It may be connected to, or may be directly formed on the touch screen panel 210, or may be integrated and formed on the touch screen panel 210 in some cases.

The gate driver 230 described above may be located on only one side of the touch screen panel 210 as shown in FIG. 2 depending on the driving method, but is divided into two and located on both sides of the touch screen panel 210 (not shown). o) can be done.

In addition, the gate driver 230 may include at least one gate driver IC, and the gate driver IC may be connected to a bonding pad of the touch screen panel 210 or a gate in GIP (Gate In IC). Panel) type and may be directly formed on the touch screen panel 210, or may be integrated and formed on the touch screen panel 210 in some cases.

As shown in FIG. 2 , the above-described touch integrated circuit 240 is a separate component from the data driver 220 and the gate driver 230 and may be outside the data driver 220 and the gate driver 230. may be However, depending on the implementation method, it may be implemented as an internal configuration of another separate driver IC (eg, display driver IC) that may include at least one of the data driver 220 and the gate driver 230, or It may be implemented as an internal configuration of the driving unit 220 or the gate driving unit 230 .

Therefore, in the touch driving mode, the touch integrated circuit 240 applying a touch driving signal to all or some of the plurality of electrodes serving as touch electrodes in the touch driving mode is a separate driver including the touch integrated circuit 240. It can also be seen that the IC applies a touch driving signal to all or part of a plurality of electrodes serving as touch electrodes. In addition, the data driving unit 220 or the gate driving unit 230 including the touch integrated circuit 240 may apply a touch driving signal to all or part of a plurality of electrodes serving as touch electrodes.

However, it is not limited to the implementation of the above-described touch integrated circuit 240, and as long as the performance function described in this specification is the same or similar, the integrated circuit 340 may be any other component itself or an internal or external component. It could be.

In addition, although the touch integrated circuit 240 is illustrated as one in FIG. 2 , two or more may be implemented.

Meanwhile, in order for the touch integrated circuit 240 to apply a touch driving signal to all or some of the plurality of electrodes (eg, S11 to S14, S21 to S24, and/or S31 to S34), the plurality of electrodes ( A separate signal line configuration connected to each of S11 to S14, S21 to S24, and/or S31 to S34 may be required.

At least one signal line connected to each of the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34 and transmitting a touch driving signal or a common voltage is provided in a first direction (eg, a vertical direction) or a second direction. It may be formed on the touch screen panel 210 in a direction (eg, a horizontal direction).

When two or more signal lines are connected to each of the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34, resistance can be reduced.

On the other hand, the direction in which at least one signal line connected to each of the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34 is formed is the plurality of electrodes S11 to S14, S21 to S24, and/or Or S31 to S34) are grouped in the first direction (eg, vertical direction) in which data lines are formed and sensed, or grouped and sensed in the second direction (eg, horizontal direction) in which gate lines are formed. It can vary.

According to an embodiment, when sensing is performed by grouping the plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) in a first direction (eg, a vertical direction) in which a data line is formed, the plurality of electrodes are sensed. At least one signal line connected to each of (S11 to S14, S21 to S24, and/or S31 to S34) may be formed in a first direction (eg, a vertical direction) in which a data line is formed.

According to another embodiment, when sensing is performed by grouping the plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) in a second direction (eg, horizontal direction) in which a gate line is formed, the plurality of electrodes are sensed. At least one signal line connected to each of (S11 to S14, S21 to S24, and/or S31 to S34) may be formed in a second direction (eg, a horizontal direction) in which a data line is formed.

As described above, the plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) referred to in this specification are, as described above, when the driving mode is the touch driving mode, the touch driving signal is applied to all or part of the touch It serves as an electrode, and when the driving mode is a display driving mode, it may serve as a common electrode to which a common voltage (Vcom) opposing a pixel electrode formed on the panel is applied.

The display unit 200 according to an embodiment is a method of displaying a screen by arranging liquid crystal molecules horizontally and rotating them in place, and is an IPS (In-Plane Switching) method having advantages such as high resolution, low power consumption, and a wide viewing angle. It may be a liquid crystal display of More specifically, it may be configured to include at least one of AH-IPS (Advanced High Performance-IPS) type liquid crystal display devices.

At this time, in the display driving mode, a horizontal electric field is formed between the pixel electrodes and the common electrodes S11 to S14, S21 to S24, and/or S31 to S34, and / or S31 to S34) may be formed on the same substrate.

According to another embodiment, the display unit 200 may be configured as an organic light emitting display in which an organic emission layer is formed between a pixel electrode and a common electrode. In this case, the pixel electrode and the common electrode may be formed on the same substrate.

According to an embodiment, in the touch driving mode, the capacitance generated in the display unit 200 is defined as a capacitance component generated between an electrode and a touch object, a capacitance component generated between an electrode and a data line, and a capacitance component generated between a data line and a gate line. It can be divided into the generated capacitance component.

For example, a plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) serving as touch electrodes in touch driving mode and serving as common electrodes forming pixel electrodes and liquid crystal capacitors in display driving mode. In the touch driving mode, a touch object such as a finger or a pen may form self-capacitance Cself in order to detect the presence or absence of a touch and touch coordinates.

Meanwhile, the plurality of electrodes serving as the common electrode may form parasitic capacitances Cpara1 and Cpara2 with the gate line and the data line. At this time, the parasitic capacitance is very small compared to the self capacitance and can be ignored.

As described above, the plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) formed on the touch screen panel 210 serve as both a display panel and a touch panel for the touch screen panel 210. It is a configuration for

That is, the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34 may serve as a common electrode (Vcom electrode) in the display driving mode and may serve as a touch electrode in the touch driving mode. .

More specifically, when the touch screen panel 210 serves as a display panel, that is, when the driving mode of the touch screen panel 210 is a display driving mode, the plurality of electrodes S11 to S14 and S21 to S24 , and/or S31 to S34 may be a common electrode (hereinafter referred to as a Vcom electrode) facing a pixel electrode (not shown) by applying a common voltage (Vcom).

And, when the touch screen panel 210 serves as a touch panel, that is, when the driving mode of the touch screen panel 210 is a touch driving mode, a plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34) may be touch electrodes to which a touch driving voltage is applied, a touch object (eg, a finger, a pen, etc.) and a capacitor are formed, and a capacitance is measured from the thus formed capacitor.

According to the foregoing, to the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34, the common voltage Vcom is applied in the display driving mode, and the touch driving signal is applied in the touch driving mode. may be authorized.

Therefore, in order to transfer a common voltage or a touch driving signal to the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34, the plurality of electrodes S11 to S14, S21 to S24, and/or S31 ~ S34) may be connected to signal lines (not shown).

Accordingly, in the touch driving mode, the touch driving signal Vtd generated in the touch integrated circuit 240 through the signal lines is applied to all of the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34. Alternatively, the common voltage Vcom supplied from a common voltage supply unit (not shown) through signal lines in the display driving mode is applied to the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34. can be authorized.

As described above, it has been described that at least one light emitting element defined as a pixel (p) may be disposed at each intersection of the plurality of data lines DL and the plurality of gate lines GL.

In addition, a region formed based on each of the plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) serving as a common electrode and a touch electrode may be divided into blocks (hereinafter, unit touch electrode blocks). . Two or more pixels p may be defined in the unit touch electrode block. That is, one electrode among the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34 corresponds to two or more pixels P.

For example, in one unit touch electrode block formed based on each of a plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) serving as a common electrode and a touch electrode, 24*3 data lines DL and 24 gate lines GL are disposed so that 24*3*24 pixels P may be disposed.

According to the foregoing, although one electrode is described as configuring one unit touch electrode block, the present invention is not limited thereto, and one unit touch electrode block may be configured by including two or more electrodes.

Meanwhile, each of the plurality of electrodes S11 to S14, S21 to S24, and/or S31 to S34 serving as a common electrode and a touch electrode may have a square block-shaped pattern, as shown in FIG. 2 . However, in some cases, it may be a pattern including a comb-like portion.

Various embodiments of the present invention can be applied even when each of the plurality of electrodes (S11 to S14, S21 to S24, and/or S31 to S34) serving as a common electrode and a touch electrode has a pattern including a comb-shaped portion. .

Referring to FIG. 2 , the plurality of electrodes serving as both the touch electrode and the common electrode referred to in this specification are arranged in a matrix of 3 rows and 4 columns, and 12 of them are illustrated. However, this is only an example for convenience of description, and may be formed in various matrix shapes and numbers in consideration of the size of the display unit 200 and the touch screen panel 210, touch system design standards, and the like.

3 illustrates the flow of an operation of processing a touch input on the electronic board according to an embodiment of the present invention.

As described above, the electronic blackboard 100 may include the in-cell type touch screen panel 210 . The electronic blackboard 100 may determine touch coordinates based on a touch input obtained through the touch screen panel 210 .

In this case, the electronic blackboard 100 may detect a change in capacitance as the touch object contacts the touch screen panel or is located within a specified distance, and may determine an area of coordinates where the change in capacitance continues as a touch area.

The electronic blackboard 100 may determine at least one of the coordinates of the location where the change in capacitance is the largest in the touch area and the coordinates of the center point of the touch area as the touch coordinates. That is, the touch coordinates may be determined as one coordinate, but may be composed of an area including two or more coordinates.

In order to determine touch coordinates, the touch screen panel 210 may be in a state in which coordinates are set. According to an embodiment, coordinates of the touch screen panel 210 may be set in units of at least one pixel.

In addition, the electronic blackboard 100 may identify a plurality of touch coordinates identified through the touch screen panel 210 and have a multi-touch function based thereon.

In step 301 (a), the electronic board 100 may obtain a first touch input of a first object among touch inputs through a plurality of objects contacting the touch screen panel.

Here, the first object may be the user's hand in a first direction (eg, left). According to an embodiment, as shown in FIG. 4 , the electronic board 100 may check a user input of contacting the user's first object 411 (eg, left hand) with the touch screen panel 210. there is. At this time, the electronic board 100 may obtain a first touch input corresponding to the contact of the first object 411 contacting the touch screen panel 210 .

In step 303(b), the electronic board 100 sets the hand contact area where the first object 411 is in contact with the touch screen panel from the first touch input as the first hand contact area. A shape of may be obtained, and a user corresponding to the first hand contact area may be identified.

The electronic blackboard 100 may identify a user based on the acquired hand-shaped first touch input. To this end, the electronic board 100 may obtain the shape of the first hand contact area 511 from the first touch input.

More specifically, the electronic blackboard 100 obtains a first touch input corresponding to the area where the first object 411 is in contact with the touch screen panel 210, and derives from the obtained first touch input. As illustrated in FIG. 5 , a first hand contact area 511 having a hand shape may be obtained.

Here, referring to FIG. 5 , the first hand contact area 511 is the first hand contact area obtained by the electronic board 100 in a state in which the user's left palm and all fingers are in contact with the touch screen panel 210. (511).

The electronic board 100 may compare the shape of the first hand contact area 511 with the shape of the hand contact area for each user stored in the database.

More specifically, the electronic blackboard 100 compares the shape of the first hand contact area 511 with the shape of each of the hand contact areas set for each user to identify the user, and compares the same or similar hand contact. areas can be determined.

In this case, the electronic board 100 may compare the overall shape of the first hand contact area 511 with the overall shape of each of the hand contact areas. In addition, the electronic board 100 determines the shapes of the finger regions and the palm region in the first hand contact region 511 for each of the users. shape can be compared.

More specifically, the electronic board 100 may divide the shape of the first hand contact area into a palm area 513 and finger areas 521 , 522 , 523 , 524 , and 525 . Also, the electronic board 100 may divide the shapes of contact areas of users' hands stored in the database into a palm area and a finger area.

In the case of finger areas, the electronic board 100 includes each finger from the first hand contact area, for example, the first finger area 521 (eg, thumb), and the second finger area 522 (eg, index finger). ), the third finger region 523 (eg, middle finger), the fourth finger region 524 (eg, ring finger), and the fifth finger region 525 (eg, small finger). .

The electronic board 100 may compare contact areas including at least some of the shapes and sizes of the finger areas divided in the first hand contact area with the hand contact areas of each user stored in the database.

In addition, the electronic board 100 stores a contact area including at least a part of the shape of the palm area 513 in the first hand contact area 511 and the shape of the non-contact area 515 in the palm area 513 in the database. It can be compared with the hand contact area of each stored user.

In addition, in the electronic board 100, in the first hand contact area 511, the connection shape, size, and/or arrangement of the palm area 513 and at least one finger area, and the palm area 513 and at least one finger area The contact area including at least a part of the ratio with the finger area may be compared with the contact area of each user's hand stored in the database.

In addition, in the electronic board 100, in the contact area obtained through the touch screen panel 210, the hand-shaped pisiform, hypothenar, metacarpal, phalangeo metacarpal, Digital, digital interphalangeal, proximal interphalangeal, index, thumb, web, thenar, palmar regions Among them, at least some specific regions can be identified.

At this time, the electronic board 100 determines the ratio of the overall shape of the hand contact area, the shape of the finger areas, and/or the shape of the palm area in distinguishing (or determining the location) the above-described specific areas in the hand contact area. can be distinguished based on

As described above, the electronic board 100 can distinguish at least a specific region from the first hand contact region 511, and the shape of each of the divided specific regions corresponds to the corresponding hand contact region of each user stored in the database. It can be compared with the shape of a specific area to be

The electronic board 100 may determine the same or similar one hand contact area as the user's hand contact area matching the first hand contact area as a result of the comparison. The electronic board 100 may identify a user corresponding to the shape of the first hand contact area 511 as a user of the determined hand contact area.

Here, the shape may include at least a part of the size, arrangement, shape, curvature, and shape of the contact area and/or the non-contact area. That is, the shape of the hand contact area can be explained as meaning at least a part of the size, arrangement, shape, curvature, and shape of the entire hand contact area.

In addition, the shape of the hand contact area may be described as meaning some configuration of the size, arrangement, shape, curvature of lines, and shape of the palm area and finger areas constituting the hand contact area.

As described above, in the electronic board 100, as shown in FIG. 5, a hand contact area including a palm area and five finger areas is described as a hand contact area for identifying a user.

However, in the electronic board 100, according to the hand contact area stored in the user setting information to identify the user, the hand contact area consisting only of the palm area corresponding thereto, or the hand including the palm area and at least one finger area. A user may be identified by a contact area.

In step 305(c), the electronic board 100 may check a second touch input in which the hand contact area is changed while the first touch input is maintained.

According to an embodiment, the electronic board 100 may acquire a hand contact area in which the contact area is changed by moving a user's hand in a state in which the first touch input is maintained.

Referring to FIGS. 5 and 6 , the electronic board 100 obtains the first hand contact area 511 through step 303(b), and then does not release the touch of the first object and part of the contact. A second hand contact region 611 corresponding to a state in which the contact region is maintained and changed may be obtained.

More specifically, the electronic board 100 corresponds to a state in which at least a part of the contact area in which the first object contacts the touch screen panel 210 is changed in the first touch input, as shown in FIG. 6. Likewise, a second touch input may be obtained, and the second hand contact area 611 may be obtained from the obtained second touch input.

Here, the second hand contact area 611 of FIG. 6 is a hand contact obtained by the electronic board 100 in a state in which the user changes the first touch input detection 522 to the touch screen panel 210 as non-contact. can be an area.

The electronic board 100 may check the change in the contact state based on the hand contact areas stored in the user setting information of the identified user. For example, the electronic blackboard 100 displays hand contact areas of various shapes acquired with respect to the user's hand (eg, palm and fingers) contacting the touch screen panel 210 in various states according to the user input. It may be a state stored in the user setting information of the corresponding user.

More specifically, as described above, the first hand contact area (FIG. 5) in which the user's palm and all fingers are in contact with the touch screen panel 210, and the user's index finger 522 with the touch screen panel 210 ), as well as the second hand contact area (FIG. 6) in which the rest of the fingers and the palm are in contact, as well as touch input and hand contact areas corresponding to the user's hand state in contact with the touch screen panel 210 in various states. This may be a state stored in user setting information of the corresponding user.

As an additional example of the hand contact areas stored in the user setting information, the touch screen panel 210 may be in a state in which the rest of the fingers except for the user's middle finger are in contact with the palm. In addition, the touch screen panel 210 may be in a state in which a hand contact area in a state in which the user's fingers and the palm contact each other except the ring finger is stored. In addition, the touch screen panel 210 may be in a state in which a hand contact area in a state in which the user's fingers and the palm contact each other except for the user's hand is stored.

However, the electronic blackboard 100 is not limited thereto, and various hand contact areas, such as a hand contact area in which two or more fingers are not in contact according to a user's touch input, may be stored in the storage unit 120 .

As described above, the hand contact area obtained by non-contacting at least one finger may have a difference not only in the finger area but also in the palm area.

Referring to FIG. 4 , in a state in which all five fingers of the user are in contact with the touch screen panel 210, the electronic board 100 forms a closed figure within the palm area 513 from the obtained hand contact area 511. A non-contact area 515 formed as can be confirmed.

On the other hand, in a state in which the fingers other than the index finger 522 are in contact with the touch screen panel 210, the electronic board 100 is formed as an open figure in the palm area 613 from the obtained hand contact area 611. A non-contact area 615 can be identified.

Therefore, as described above with reference to FIG. 3, the electronic board 100 determines the hand contact area matching the first hand contact area and/or the second hand contact area. Matching accuracy can be improved by considering both the shape and the shape of the palm area.

The electronic board 100, when checking a hand contact area that matches the hand contact area (eg, temporary hand contact area) changed after the first touch input among the hand contact areas stored in the user setting information, controls the corresponding touch input. 2 touch inputs may be obtained, and a second hand contact area may be obtained from the second touch input.

The electronic board 100 may compare the shape of the palm area and the shape of the finger areas in comparing the temporary hand contact area changed after the first touch input and the hand contact areas stored in the user setting information.

According to various embodiments, changing the contact area may include rotating the hand contact area.

For example, the electronic board 100 may obtain a touch input for rotating the first object clockwise or counterclockwise while the user maintains the first touch input. Alternatively, the electronic board 100 may obtain a touch input for rotating the first object clockwise or counterclockwise after the user changes the first touch input to the second touch input.

Here, in the user setting information of the electronic board 100, a function of the electronic board 100 corresponding to a user input for rotating a hand-shaped touch input may be in a preset state.

For example, in the user setting information of the electronic board 100, different functions may be set according to the rotation direction and/or angle of the hand-shaped touch input.

More specifically, the electronic blackboard 100 may divide the rotation angle of the hand-shaped touch input into a plurality of angle levels, such as 15 degrees (°) and 30 degrees (°). Accordingly, the electronic blackboard 100 may be in a state in which other functions are set for the rotation direction of the hand shape and/or each angular level in user setting information through user input.

In the electronic board 100, the touch input using the first object moves the first object clockwise (or counterclockwise) while maintaining the touch input preset in the user setting information, for example, the first touch input. , a touch input for rotating the first object clockwise by a second angle level while maintaining the first touch input, a touch input for rotating the first object clockwise by a second angle level, and then changing the first touch input to the second touch input A touch input for rotating the first object clockwise (or counterclockwise) by a first angle level, or changing the first touch input to a second touch input and then rotating the first object clockwise (or counterclockwise) When matching with a touch input that rotates by the second angle level, a second hand contact area in a matched state may be obtained.

That is, when the electronic board 100 identifies a hand contact area that matches the temporary hand contact area changed after rotation of the first object among the hand contact areas stored in the user setting information, the corresponding touch input is regarded as the second touch input. and obtain a second hand contact area from the second touch input.

According to the foregoing, the second touch input changed from the first touch input has been described, but the second touch input may be the same as the first touch input. In this case, the shape of the second hand contact area acquired by the electronic board 100 may be the same as the shape of the first hand contact area.

In step 307(d), the electronic board 100 may perform a designated operation in response to the changed shape of the hand contact region of the second touch input and the third touch input of the second object 413 . Here, the third touch input may be a touch input acquired simultaneously with or after the first touch input using the first object.

In order to perform step 307(d), first, the electronic board 100 may obtain the preset function of the electronic board 100 from user setting information based on the shape of the second hand contact region of the second touch input. .

In this case, when the shape of the second hand contact area is rotated compared to the shape of the first hand contact area, the matching function of the electronic blackboard 100 can be acquired by considering both the rotation direction and the angle level.

More specifically, the electronic board 100 may compare the shape of the second hand contact area with hand contact areas pre-stored in user setting information identified through step 303(b). The electronic blackboard 100,

The electronic blackboard 100 may check a hand contact area identical to or similar to the shape of the second hand contact area, and confirm a preset first function of the electronic board 100 corresponding to the checked hand contact area.

At this time, when it is confirmed that the first object has been rotated through the shape of the second hand contact area, the electronic board 100 is set in correspondence with the shape, rotation direction and angle level of the second contact area. ) can confirm the second function of.

To this end, in the user setting information of each user of the electronic board 100, different functions of the electronic board 100 are set in correspondence with at least a part of the combination of the shape, rotation direction, and/or angle level of the second hand contact area. may be in a state

Here, the rotation direction and/or angular level of the second touch input (or second hand contact area) is the direction in which the second hand contact area of the second touch input is rotated relative to the first hand contact area of the first touch input and /or may be a rotated angular level.

That is, the electronic blackboard 100 is matched by considering not only the shape of the second hand contact area, but also the rotation direction and/or the rotated angular level of the first object relative to the first hand contact area. ) function can be determined.

The electronic blackboard 100 may apply the confirmed function of the electronic blackboard 100 to the third touch input obtained through the second object 413 .

For example, when the function of the electronic board 100 identified for the second hand contact area is a function of calling (or executing) a program, the electronic board 100 touches the second object through a third touch input. A program assigned to an object selected on the screen panel 210 (or related to the object) may be called.

For another example, if the function of the electronic board 100 confirmed for the second hand contact area is a function of drawing a line, the electronic board 100 touch-sprints the line according to the third touch input of the second object. It can be displayed on the panel 210. Here, the third touch may include a touch input of dragging the second object.

That is, the electronic board 100 determines the function to be performed by the electronic board 100 according to the touch input of the first object based on the shape of the user's hand, and the touch input of the first object corresponds to the touch input of the second object. You can apply the function determined through input.

The electronic board 100 may end the embodiment of FIG. 3 when step 307(d) is performed.

According to the embodiment of FIG. 3 , the user can control the functions of the electronic board 100 according to the user input while identifying (or authenticating) the user performing the touch input by touching the touch screen 210 panel with both hands. there is.

According to various embodiments, the function of the electronic board 100 determined based on the second touch input of the first object and the third touch input of the second object may be maintained until the touch input of the first object is released. there is.

More specifically, when the touch input of the first object is changed, for example, in a state where the function of the electronic board 100 is set based on the shape of the hand contact area matched with the shape of the second hand contact area. Even if the shape of the second hand contact area is changed (or damaged, out of the same/similar range) by moving the first object by the user, the electronic board 100 can maintain the previously determined function of the electronic board 100. .

4 illustrates an operation of a touch screen panel obtaining a multi-touch input in an electronic blackboard according to an embodiment of the present invention.

The electronic blackboard 100 may obtain a touch input in which an object contacts the touch screen panel 210, and obtain a contact area where the object is in contact from the touch input as shown in FIGS. 5 and 6.

According to various embodiments, the touch screen panel 210 may be divided into a plurality of touch blocks B11, B12, B13, B21, B22, and B23 to provide a multi-touch function.

A touch block configured in the touch screen panel 210 may be arbitrarily determined by a user through settings of the electronic blackboard 100 . According to an embodiment, touch blocks may be determined based on unit touch electrode blocks. For example, each unit touch electrode block may be configured as a touch block.

However, the touch block is not limited thereto, and may include two or more unit touch electrode blocks. According to an embodiment, touch blocks (B11, B12, B13, B21, B22, B23) of 2 rows and 3 columns constituted in the touch screen panel 210 of FIG. 4, as well as 3 rows and 3 columns, 3 rows and 4 columns, etc. You will be able to set various arrangements of touch blocks.

At this time, the electronic board 100 may display the boundary of the touch block on the touch screen panel 210 based on the user's selection.

Based on this, the electronic board 100 further considers the touch block to which the touch input of the first object for user authentication has been performed, and changes the first hand contact area and/or the electronic board corresponding to the second hand contact area. The function of the blackboard 100 can be determined.

To this end, in the user setting information of each user of the electronic board 100, a combination of the shape, rotation direction, angular level of the second hand contact area, and/or the position of the touch block where the touch input of the first object is performed. Other functions of the electronic board 100 may be set to correspond to at least some of them.

At this time, the electronic board 100 may confirm that the first hand contact area overlaps the boundary of the touch block, for example, the boundary of the B12 touch block and the B22 touch block. The electronic board 100 may calculate the area of the first hand contact area included in each touch block, and determine that the first touch input is input for the touch block having the largest area.

5 and 6 are diagrams schematically showing a hand contact area obtained by the electronic blackboard according to an embodiment of the present invention in response to a touch input using a user's hand.

The electronic blackboard 100 may obtain a touch input for contacting an object to the touch screen panel 210 and obtain a contact area where the object is in contact from the touch input. The electronic blackboard 100 may display the contact area of the object as an image.

At this time, when the object in contact with the touch screen 210 is the user's hand, the hand contact area obtained by the touch input may be displayed as an image, as shown in FIGS. 5 and 6 described above, and the image of the hand contact area may be stored. It can be stored in unit 120.

Here, the images of the hand contact area stored in the storage unit 120, when the hand contact area is confirmed through the touch screen panel 210, identify the user and/or the electronic board corresponding to the acquired hand contact area. (100) can be used as an image of the hand touch area to compare to determine the function.

According to the embodiment of the present invention described above, at least some components of the electronic blackboard 100 can be applied to various display devices such as electronic lecture tables, TVs, smart tables, and conference controllers.

According to various embodiments of the present invention, in performing the function of the electronic board 100, the function of the device matched to the touch input is processed through a touch input using a specific object, such as a hand, and a pattern using the specific object, so that the user's Can improve work efficiency.

According to various embodiments of the present disclosure, the electronic blackboard 100 identifies a user based on the contact area of the user's hand acquired by the touch screen panel 210, and determines the location of the matched device according to the shape of the contact area. By processing the function, the security of the work can be effectively improved.

According to various embodiments of the present invention, even in a device having a shape display unit, such as the electronic blackboard 100, a user can easily select a desired device through a touch screen panel facing the user without having to connect a separate input means for inputting a control command. Functions can be easily controlled.

According to the detailed description of the present invention, the functions of various embodiments described as being performed by the electronic board 100 are operations processed through the processing unit 110 of the electronic board 100, and the electronic board 100 and/or the electronic board It can be organically connected with the components of the device connected to (100).

As described above, although the embodiments have been described with limited drawings, those skilled in the art can apply various technical modifications and variations based on the above.

For example, the described techniques may be performed in an order different from the method described, and/or the components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved.

Therefore, it should be said that other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

100: electronic board
110: processing unit
120: storage unit
130: communication department
140: input/output unit
200: display unit
210: touch screen panel

Claims (8)

In the touch input processing method of the electronic board,
The electronic board includes an in-cell touch screen panel,
(a) acquiring a first touch input of a first object among touch inputs through a plurality of objects contacting the touch screen panel;
(b) acquiring a shape of a hand contact area where the first object contacts the touch screen panel from the first touch input, and identifying a user corresponding to the hand contact area;
(c) checking a second touch input in which the hand contact area is changed in a state in which the first touch input is maintained; and
(d) determining a function of the electronic board preset in the user setting information of the identified user in response to the changed shape of the hand contact area of the second touch input for the identified user, and assigning the determined function to the ( Including; c) performing a specified operation by applying it to the third touch input of the second object acquired after step;
In the step (b), the electronic blackboard compares the shape of the hand contact area of the first touch input with the shape of hand contact areas set to identify a user stored in the database to obtain the same or similar first hand contact. determine the area
In the step (d), the electronic blackboard determines the shape of the hand contact area of the second touch input in the user identification information, with respect to the area where the identified user's hand contacts the touch screen panel in various states. Comparing the acquired shapes of the plurality of hand contact areas to determine one identical or similar second hand contact area;
The electronic blackboard divides the hand contact area of the first touch input and the hand contact area set to identify the user into a palm area and a finger area,
In the electronic board, when comparing the shapes of the hand contact area in each of step (b) and step (d), the shape of the entire hand contact area, the shape of the palm area, the shape of the non-contact area in the palm area, and the finger determining the first hand contact area and the second hand contact area by comparing a shape of a finger area for each of the palm areas and a connection shape of the palm area and a finger area for each of the fingers;
The shape comparison compares the shape, size, and arrangement of each of the areas of the electronic blackboard, and the shape comparison of the non-contact area in the palm area, in addition to comparing the shape, size, and arrangement, closes Compare whether it is formed as a figure or an open figure,
Even if the shape of the hand contact area of the second touch input is deformed after the step (d), the electronic blackboard responds to a touch input for obtaining the determined function through the second object until the touch is released from the first object. A touch input processing method of an electronic board that maintains the execution of the specified operation to be applied.
delete According to claim 1,
In the step (b), the electronic board includes the pisiform, hypothenar, metacarpal, phalangeo metacarpal, and phalanx of the acquired hand contact area and the set hand contact area. Among the digital, digital interphalangeal, proximal interphalangeal, index, thumb, web, thenar, and palmar regions A touch input processing method of an electronic blackboard, wherein at least one specific region is divided, and a hand contact region of one of the set hand contact regions is determined by comparing the divided specific regions.
According to claim 1,
In the step (d), the changed hand contact area of the second touch input includes a case where the hand contact area of the first touch input is rotated;
The electronic blackboard has a shape of the hand contact area of the second touch input, a direction in which the hand contact area of the second touch input is rotated relative to the hand contact area of the first touch input, and a comparison of the hand contact area of the first touch input. In response to a combination of at least a part of the angular level at which the hand contact region of the second touch input is rotated and the position of the touch block where the touch input of the first object is performed, a predetermined value is set in the user setting information of the identified user. A touch input processing method of the electronic board, which determines the function of the electronic board.
According to claim 4,
The upper limb electronic board maintains the function of the electronic board until the second touch input is released, the touch input processing method of the electronic board.
According to claim 4,
The touch block is at least one touch block among the touch screen panels divided into a plurality of touch blocks,
When the first touch input overlaps the boundary of at least two touch blocks, the electronic board calculates an area where the hand contact area of the first touch input is included in each of the at least two touch blocks, and the largest area. A touch input processing method of an electronic blackboard, determining that the first touch input is input in a touch block having .
According to claim 1,
The third touch input of the second object is a touch input obtained simultaneously with or after the first touch input, and includes at least one touch or drag input.
In the electronic board processing touch input,
an in-cell type touch screen panel; and
A first touch input of a first object is acquired from among touch inputs through a plurality of objects in contact with the touch screen panel, and a shape of a hand contact area in which the first object is in contact with the touch screen panel is obtained from the first touch input. Obtaining a user corresponding to the hand contact area, identifying a second touch input in which the hand contact area is changed while the first touch input is maintained, and the changed second touch input for the identified user. In response to the shape of the hand contact region of the 2-touch input, the function of the electronic board preset in the user setting information of the identified user is determined, and the determined function is of a second object obtained after confirming the second touch input. A processing unit that processes to perform a designated operation by applying it to the third touch input; includes,
The processing unit compares a shape of a hand contact area of the first touch input with a shape of hand contact areas set to identify a user stored in a database to determine an identical or similar first hand contact area;
The processing unit may determine a plurality of hand contact areas acquired with respect to areas in which the identified user's hand, stored in the user identification information, contacts the touch screen panel in various states. determining the same or similar one second hand contact area by comparing the shape;
The processing unit divides the hand contact area of the first touch input and the hand contact area set to identify the user into a palm area and a finger area,
When the processing unit compares the shapes of the hand contact area, the shape of the entire hand contact area, the shape of the palm area, the shape of the non-contact area in the palm area, the shape of the finger area for each of the fingers, and the palm area determining the first hand contact area and the second hand contact area by comparing connection shapes of finger areas for each of the fingers;
In the shape comparison, the processing unit compares the shape, size, and arrangement of each of the areas, and the shape comparison of the non-contact area in the palm area is a closed figure in addition to comparing the shape, size, and arrangement. Compare whether it is formed as an open figure or not,
The processing unit acquires the determined function through the second object until the touch is released from the first object even if the shape of the hand contact region of the second touch input is deformed after confirming the second touch input. An electronic blackboard that processes touch input and maintains the execution of the specified operation applied to the electronic board.

Images