JP2010198597A - Operation control method of electronic equipment including touchscreen - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a control method of electronic equipment capable of quickly and conveniently providing a desired operation when a user inputs a contact input signal via a touchscreen. <P>SOLUTION: The operation control method of the electronic equipment including the touchscreen, which is a method to control the operations of the electronic equipment including the touchscreen with the contact input signal input by the user, includes: a first step to collect feature data of an input stroke consisting of at least one-time contact input signal input by contact of the touchscreen while receiving the input stroke; a second step to determine the control operations executed by the electronic equipment; and a third step to execute the determined control operations. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an operation control method for an electronic device including a touch screen, and more specifically, based on feature data of an input stroke input by a user in controlling an electronic device including a touch screen that functions as an input unit. The present invention relates to a method for allowing a user to easily and quickly perform a desired control operation.

  With the development of related technology, for example, in various electronic devices such as mobile communication terminals, PDAs and computers, conventional input means such as a keypad, keyboard or mouse are omitted, and output means such as an LCD have a touch sensing function. Touch screens that are provided with sensors and that also operate as input means are widely used. For example, in the case of a conventional mobile communication terminal, means such as a keypad are used. However, in view of the fact that the size of the terminal must be relatively small, if the keypad occupies space, the output means As space becomes smaller, the trend to adopt touch screens so that keypads can be omitted and most of the devices can also function as output means is increasing day by day. In this case, since the size of the output means is relatively large, for example, when watching a moving image or watching TV, there is an advantage that various services can be conveniently used through a wide screen.

  However, although an electronic device having such a touch screen has the above-described advantages, there are some inconveniences at the time of input compared to a conventional keypad. For example, in the case of a mobile communication terminal, when making a call, a virtual keypad screen must be output on the touch screen, and the number on the output keypad screen must be accurately selected. Compared to the pad method, there is a drawback that accuracy and convenience for the user are somewhat inferior. In consideration of such limitations, there is a demand for a method that can use the touch screen more efficiently as an input means.

  Therefore, the present invention has been made in view of the above-described limitations, and its object is to perform a desired operation when a user inputs a contact input signal to an electronic device including a touch screen via the touch screen. It is an object of the present invention to provide a method for controlling an electronic device that can provide the information quickly and conveniently.

  Another object of the present invention is to collect feature data of a user's input stroke in controlling an electronic device including a touch screen, and determine a desired control operation using the feature data. It is an object of the present invention to provide a method for enabling a user to quickly perform a desired control operation simply by touching.

  In order to achieve the above object, the present invention provides a method for controlling the operation of an electronic device including a touch screen by a touch input signal input from a user, and at least one touch input signal input by touch of the touch screen. A first step of collecting input stroke feature data while receiving an input stroke comprising: a second step of determining a control action to be performed by an electronic device based on the collected feature data; and An operation control method for an electronic device including a touch screen is provided.

  Here, the first step may be performed only in the case of a screen state of a touch screen designated in advance.

  The first step may be performed only when an input stroke is received with respect to a predetermined screen area of the touch screen.

  Further, the feature data in the first stage includes interval information that is time interval information between each touch input signal, and duration information that is time information when each touch input signal touches the touch screen. Any one of these or a combination thereof may be used.

  The feature data in the first stage may include pressure information when each contact input signal contacts the touch screen.

  The second step may be configured to determine a control operation to be performed by the electronic device based on the collected feature data and position information with respect to a point where the input stroke touches the touch screen.

  In the second step, the template feature database stored in advance and the collected feature data are compared, and the template feature database stored in advance has the same characteristics as the collected feature data. A step 2-1 for searching for template feature data; and a step 2-2 for determining a control operation set in accordance with the searched template feature data as a control operation to be performed by an electronic device. It may be.

  ADVANTAGE OF THE INVENTION According to this invention, when a user inputs a contact input signal to an electronic device provided with a touch screen via a touch screen, the control method of the electronic device which can provide a desired operation | movement quickly and conveniently is provided. be able to.

  According to the present invention, in controlling an electronic device including a touch screen, the user collects feature data of the input stroke of the user and determines a desired control operation using the feature data, so that the user can control the touch screen. It is possible to provide a method that allows a user to quickly perform a desired control operation simply by touching.

3 is a flowchart illustrating an embodiment of a method for controlling an operation of an electronic device including a touch screen according to the present invention by a touch input signal input from a user. It is a figure which shows an example of a structure of feature data. It is a figure which shows an example of a structure of feature data. It is a figure which shows an example of a structure of a template feature database. FIG. 6 is an exemplary diagram for illustrating the case where an embodiment of the method according to the present invention is applied to a mobile communication terminal. FIG. 6 is an exemplary diagram for illustrating the case where an embodiment of the method according to the present invention is applied to a mobile communication terminal. FIG. 6 is an exemplary diagram for illustrating the case where an embodiment of the method according to the present invention is applied to a mobile communication terminal.

  Exemplary embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

  FIG. 1 is a flowchart illustrating an embodiment of a method for controlling an operation of an electronic device according to a touch input signal input from a user in an electronic device including a touch screen according to the present invention.

  First, an electronic device including a touch screen (hereinafter referred to as an electronic device) receives an input stroke composed of at least one contact input signal input from a user via touch of the touch screen, and features of the input stroke Data is collected (S100). Here, the touch screen is an additional device such as a sensor having a touch sensing function in an output means such as an LCD, and the user selects a specific part on the LCD screen with a finger or a touch pen. In this case, it means both input and output means for performing the operation corresponding to the selected position. Such a touch screen is widely used in the prior art, and since the configuration of the touch screen itself is not directly related to the present invention, detailed description thereof is omitted. An electronic device is a device that receives a command input from a user via an input device such as a mobile communication terminal (mobile phone), a PDA, a notebook computer, or a tablet computer and performs the input command. The electronic device according to the present invention means a device that includes the touch screen as described above, receives a contact input signal from a user via the touch screen, and performs an operation corresponding to the input signal. Such electronic devices are also widely used in the prior art, and the specific configuration thereof is not directly related to the present invention, and thus detailed description thereof is omitted.

  On the other hand, in the step (S100), the contact input signal means a contact operation such as a user pushing or hitting the touch screen with a finger or a touch pen, and the input stroke is at least input for a certain time. It means a set of contact input signals of one time. For example, when the user touches the touch screen with “Ton-Ton-Ton” three times continuously for a certain time, the touch input signal means three “Ton”, “Ton” and “Ton” signals respectively, and the input stroke is constant Each contact input signal input in time can be defined as “ton-ton-ton”.

  In the step (S100), the input stroke feature data is collected while receiving the input stroke for a certain time as described above. The feature data is defined as data describing the character of the input stroke. can do. Any feature data can be used as long as it can explain the features of the input stroke. For example, interval information which is time interval information between each contact input signal and each contact input signal can be used. Any one of the duration information, which is the time information when the touches the touch screen, or a combination thereof can be used.

  For example, when the user inputs “tontontontonton” four times within a certain time as shown in FIG. 2, the feature data of the input stroke “tontontonton” can be displayed as shown in FIG. 3. That is, duration information can be configured as (180, 190, 185, 176), and interval information can be configured as (200, 210, 190). Of course, both duration information and interval information may be configured as feature information, and only one of these may be used as feature data.

  If the touch screen has a pressure sensor function, pressure information when each contact input signal is input may be collected and used as feature data.

  Meanwhile, the step (S100) may be performed only in the case of the screen state of the touch screen designated in advance. Usually, when there is no input for a certain period of time, the touch screen of the electronic device is in an off (OFF) state or a standby (HOLD) state in order to save power and prevent malfunction due to unintended contact by the user. In some cases, the touch screen may not operate even if contact occurs. By using this, for example, the step (S100) may be performed when the touch screen is in an off state, or the step (S100) may be performed when the touch screen is in a standby state. Of course, the step (S100) may be performed even when the touch screen is activated. What is important is that whether or not to perform the step (S100) is set by an electronic device according to the screen state of the touch screen, and the step (S100) is performed only in the set state. It is.

  Meanwhile, the step (S100) may be performed only when an input stroke is received with respect to a predetermined screen area of the touch screen. For example, regardless of the screen state of the touch screen, when the user inputs an input stroke in a predetermined area (for example, four corner areas), the current screen state of the touch screen is not limited. The step (S100) may be performed. Of course, as described above, the step (S100) may be performed in consideration of both the screen state of the touch screen and the screen area.

  Next, when the input stroke is received and the feature data is collected through the step (S100) as described above, the electronic device determines a control operation to be performed by the electronic device based on the collected feature data. (S110).

  This is because, for example, the template feature database stored in advance is compared with the collected feature data, and the same as the feature data collected in step (S100) from the template feature database stored in advance. It can be performed in the process of searching for certain template feature data and determining a control operation set in accordance with the searched template feature data as a control operation performed by the electronic device. The template feature database includes at least one template feature data, and each template feature data is composed of feature data and a predetermined control operation corresponding to the feature data.

  At this time, the template feature database can be configured as shown in FIG. Referring to FIG. 4, the template feature database includes template feature data 1, template feature data 2,..., Each template feature data includes duration information and interval information, and control operations (Kumada) performed in accordance with these. It can be seen that a telephone call to Junpei and an SMS transmission to Junko Yamada) are set.

  By comparing each template feature data of the template feature database and the collected feature data, a control operation corresponding to the input stroke is determined. However, in this case, it may actually be difficult to search for template feature data that exactly matches the collected feature data, so use a method that searches for template feature data with the same identity that falls within a certain range. It is preferable to do. For example, when the feature data of the user's input stroke is input as shown in FIG. 2, the duration information is (180, 190, 185, 176) and the interval information is (200, 210, 190). In most cases, there will be no template feature data that exactly matches. Therefore, it is preferable to determine an upper limit line and a lower limit line with respect to each template feature data on the basis of a certain range, and grasp whether there is feature data that belongs to the range, that is, has the same identity. For example, when the error range of each information of the template feature data is set to ± 20, the feature data collected as shown in FIG. 2 belongs to the range of the template feature data 1 in the template feature database of FIG. Therefore, the control operation corresponding to the input stroke of the user input can be determined as “calling to Junpei Kumada”. In this way, template feature data having the same identity can be searched with a certain range of error, for example, template feature data having the same identity using a method such as mapping feature data by a certain function. You can also search for.

  On the other hand, the step (S110) is configured to determine a control operation to be performed by the electronic device in consideration of not only the collected feature data but also positional information on a point where the input stroke touches the touch screen. You can also. For example, assuming that the touch screen is divided into four, even if the input stroke feature data input by the user is the same, whether the position where the input stroke was performed is the first quadrant, You may comprise so that different control operation | movement may be performed according to whether it is a quadrant. When configured in this way, a plurality of control operations can be set for the same input stroke according to the position where the input stroke is performed. There is an advantage of not having to. Of course, in such a case, the template database must be configured to include location information.

  As described above, when the control operation is determined through the step (S110), the electronic device performs the determined control operation (S120). In this case, before performing the step (S120), data that can explain the determined control operation is displayed on the touch screen, and the user can select whether to perform the control operation. Can be configured to be displayed on a touch screen. For example, as shown in FIG. 4, when the control operation is “call to Junpei Kumada”, the name and phone number “Kunada Junpei” are displayed on the screen, and the user selects whether to make a call or not. You may comprise so that the said control action may be performed only in the case.

  5 to 7 are exemplary diagrams for illustrating one embodiment of the method according to the present invention described with reference to FIGS. 1 to 4, and the electronic device according to the present invention is applied to a mobile communication terminal. Indicates the case.

  5 and 6 are plan views of the mobile communication terminal 10 including the touch screen 20. FIG. 5 illustrates a case where the screen state of the touch screen 20 of the mobile communication terminal 10 is in an off state, and FIG. A case where the screen state of the touch screen 20 of the mobile communication terminal 10 is in a standby state is shown. Normally, mobile communication terminals that are currently widely provided do not generate any response even if they touch the touch screen in the off state as shown in FIG. 5 and in the standby state as shown in FIG. Is set. However, in the standby state as shown in FIG. 6, if a menu button is provided on a part of the touch screen and a menu is selected, the screen is switched to the menu screen of the mobile communication terminal so as to wait for user input. There is a case. On the other hand, in the standby state as shown in FIG. 6, a message “Please press the HOLD button to release the standby state” is displayed on the touch screen, and the function buttons such as the HOLD button specified in advance are displayed. In some cases, the screen can be switched to the initial screen when pressed.

  For example, when it is set to perform the step (S100) of FIG. 1 in the standby state as shown in FIG. 6, the user touches the screen of the standby state in the standby state as shown in FIG. Is input three times. Here, “ton” means a case where a slight time interval is left after touching the touch screen once. At this time, the user's contact input signal is three times in total, and the input stroke can be expressed as “ton-ton-ton-ton”. The feature data at this time will be in a form similar to the template feature data 2 of FIG. That is, the second contact is performed at a slight time interval after the first contact, and the third contact is performed at a time interval slightly shorter than the time interval between the first and second times. It is assumed that the feature data in this case is collected as duration information (170, 190, 185) and interval information (310, 190), and the error range is set to a range of ± 20. 4 can be determined as the template feature data 2 in FIG. 4 and the control operation corresponding to the template feature data 2 is “SMS transmission to Junko Yamada”. The determined control action is performed. Of course, in the case of SMS transmission, since a message to be transmitted is required, it is possible to switch to the SMS message input screen and automatically determine the recipient of the input screen as Junko Yamada. Also in this case, as described above, data explaining the control operation, for example, “Do you want to send SMS to Junko Yamada?” Is displayed on the touch screen and selected as “Confirm”, “Cancel”, etc. As described above, the interface may be provided so that the control operation to be performed by the user is confirmed again.

Claims (7)

In a method for controlling an operation of an electronic device including a touch screen by a touch input signal input from a user,
A first step of collecting input stroke feature data while receiving an input stroke comprising at least one touch input signal input by touch screen contact;
A second step of determining a control action to be performed by the electronic device based on the collected feature data;
An operation control method for an electronic device having a touch screen, comprising: a third step of performing the determined control operation.   The method of claim 1, wherein the first step is performed only when the screen state of the touch screen specified in advance is reached.   The operation control of an electronic device with a touch screen according to claim 1, wherein the first step is performed only when an input stroke is received for a predetermined screen area of the touch screen. Method.   The feature data in the first stage is either one of interval information that is time interval information between each touch input signal and duration information that is time information when each touch input signal contacts the touch screen, or these information The operation control method for an electronic device including the touch screen according to claim 1, wherein the operation control method is an combination.   The method of claim 1, wherein the feature data in the first stage includes pressure information when each contact input signal touches the touch screen.   2. The control operation according to claim 1, wherein the second step determines a control operation to be performed by an electronic device based on the collected feature data and position information on a point where the input stroke touches the touch screen. An operation control method for an electronic device including a touch screen. In the second step, the template feature database stored in advance is compared with the collected feature data, and the template feature database stored in advance is identical to the collected feature data. Step 2-1 for searching for template feature data;
2. The method according to claim 1, further comprising: a step 2-2 for determining a control operation set in accordance with the retrieved template feature data as a control operation to be performed by an electronic device. An operation control method for an electronic device including a touch screen.

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