JP5848970B2 - Apparatus, method, and program - Google Patents

Description

  The present application relates to an apparatus, a method, and a program. In particular, the present application relates to a device having a touch screen, a method for controlling the device, and a program for controlling the device.

  Touch screen devices comprising a touch screen are known. Touch screen devices include, for example, smartphones and tablets. The touch screen device detects a finger, pen, or stylus pen gesture via the touch screen. The touch screen device operates according to the detected gesture. An example of the operation according to the detected gesture is described in Patent Document 1, for example.

  The basic operation of the touch screen device is realized by an OS (Operating System) installed in the device. The OS installed in the touch screen device is, for example, Android (registered trademark), BlackBerry (registered trademark) OS, iOS, Symbian (registered trademark) OS, or Windows (registered trademark) Phone.

International Publication No. 2008/086302

  Many touch screen devices shift to a locked state when a period of time during which they are not operated by a user continues for a certain period of time. In the locked state, the touch screen device does not accept user operations except for specific operations. The specific operation is, for example, a lock release operation for releasing the lock state.

  Touch screen devices frequently transition to a locked state. Therefore, the frequency with which the user performs the unlocking operation is high. For these reasons, there is a need for an apparatus, method, and program that can improve the operability of the unlocking operation.

  An apparatus according to one aspect includes a touch screen display that detects at least an area of a contact range due to contact with a lock screen, and displays the lock screen on the touch screen display in a locked state, and is detected by the touch screen display. A controller that releases the locked state based on a change in area.

  A method according to one aspect is a method for controlling an apparatus including a touch screen display, the step of displaying the lock screen on the touch screen display in a locked state, and an area of a contact range due to contact with the lock screen. Detecting by the touch screen display and releasing the locked state based on the change in the area.

  A program according to one aspect includes a step of displaying the lock screen on the touch screen display in a locked state on an apparatus including a touch screen display, and detecting an area of a contact range due to contact with the lock screen by the touch screen display. And a step of releasing the locked state based on the change in the area.

FIG. 1 is a perspective view of the smartphone according to the embodiment. FIG. 2 is a front view of the smartphone. FIG. 3 is a rear view of the smartphone. FIG. 4 is a diagram illustrating an example of the home screen. FIG. 5 is a block diagram illustrating a configuration of the smartphone. FIG. 6 is a diagram illustrating an example of releasing the locked state. FIG. 7 is a diagram illustrating an example of the unlocking operation. FIG. 8 is a diagram illustrating an example of contact detected when a lock release operation is performed. FIG. 9 is a diagram illustrating another example of the unlocking operation. FIG. 10 is a diagram illustrating another example of contact detected when the unlocking operation is performed. FIG. 11 is a diagram illustrating another example of the unlocking operation. FIG. 12 is a diagram illustrating another example of contact detected when the unlocking operation is performed. FIG. 13 is a flowchart illustrating a processing procedure of the lock state release processing.

  Embodiments will be described in detail with reference to the drawings. Below, a smart phone is demonstrated as an example of an apparatus provided with a touch screen.

(Embodiment)
The overall configuration of the smartphone 1 according to this embodiment will be described with reference to FIGS. 1 to 3. As shown in FIGS. 1 to 3, the smartphone 1 has a housing 20. The housing 20 includes a front face 1A, a back face 1B, and side faces 1C1 to 1C4. The front face 1 </ b> A is the front of the housing 20. The back face 1 </ b> B is the back surface of the housing 20. The side faces 1C1 to 1C4 are side surfaces that connect the front face 1A and the back face 1B. Hereinafter, the side faces 1C1 to 1C4 may be collectively referred to as the side face 1C without specifying which face.

  The smartphone 1 includes a touch screen display 2, buttons 3A to 3C, an illuminance sensor 4, a proximity sensor 5, a receiver 7, a microphone 8, and a camera 12 on the front face 1A. The smartphone 1 has a speaker 11 and a camera 13 on the back face 1B. The smartphone 1 has buttons 3D to 3F and a connector 14 on the side face 1C. Hereinafter, the buttons 3A to 3F may be collectively referred to as the button 3 without specifying which button.

  The touch screen display 2 includes a display 2A and a touch screen 2B. The display 2A is a device such as a liquid crystal display (Liquid Crystal Display), an organic EL panel display (Organic Electro-Luminescence Panel Display), or an inorganic EL panel display (Inorganic Electro-Luminescence Panel Display). The display 2A displays characters, images, symbols, graphics, and the like.

  The touch screen 2B detects contact of a finger, a pen, a stylus pen, or the like with respect to the touch screen 2B. The touch screen 2B can detect a position where a plurality of fingers, a pen, a stylus pen, or the like is in contact with the touch screen 2B.

  The detection method of the touch screen 2B may be any method such as a capacitance method, a resistive film method, a surface acoustic wave method (or an ultrasonic method), an infrared method, an electromagnetic induction method, and a load detection method. In the following description, in order to simplify the description, it is assumed that the user uses the finger to touch the touch screen 2B in order to operate the smartphone 1.

  The smartphone 1 determines the type of gesture based on at least one of the contact detected by the touch screen 2B, the position at which the contact is detected, the interval at which the contact is detected, and the number of times the contact is detected. The gesture is an operation performed on the touch screen 2B. The gesture discriminated by the smartphone 1 includes touch, long touch, release, swipe, tap, double tap, long tap, drag, flick, pinch in, pinch out, and the like.

  “Touch” is a gesture in which a finger touches the touch screen 2B. The smartphone 1 determines a gesture in which a finger contacts the touch screen 2B as a touch. “Long touch” is a gesture in which a finger touches the touch screen 2B for a longer period of time. The smartphone 1 determines a gesture in which a finger contacts the touch screen 2B for longer than a certain time as a long touch.

  “Release” is a gesture in which a finger leaves the touch screen 2B. The smartphone 1 determines that a gesture in which a finger leaves the touch screen 2B is a release. “Swipe” is a gesture in which a finger moves while touching the touch screen 2B. The smartphone 1 determines a gesture that moves while the finger is in contact with the touch screen 2B as a swipe.

  A “tap” is a gesture for releasing following a touch. The smartphone 1 determines a gesture for releasing following a touch as a tap. The “double tap” is a gesture in which a gesture for releasing following a touch is continued twice. The smartphone 1 determines a gesture in which a gesture for releasing following a touch is continued twice as a double tap.

  “Long tap” is a gesture for releasing following a long touch. The smartphone 1 determines a gesture for releasing following a long touch as a long tap. “Drag” is a gesture for performing a swipe starting from an area where a movable object is displayed. The smartphone 1 determines, as a drag, a gesture for performing a swipe starting from an area where a movable object is displayed.

  “Flick” is a gesture that is released while a finger moves in one direction following a touch. The smartphone 1 determines, as a flick, a gesture that is released while the finger moves in one direction following the touch. Flick is "upper flick" where the finger moves upward on the screen, "lower flick" where the finger moves downward on the screen, "right flick" where the finger moves rightward on the screen, finger is left on the screen Including “left flick” moving in the direction. The movement of a finger in a flick is often quicker than the movement of a finger in a swipe.

  “Pinch-in” is a gesture of swiping in a direction in which a plurality of fingers approach. The smartphone 1 determines, as a pinch-in, a gesture that swipes in a direction in which a plurality of fingers approach. “Pinch out” is a gesture of swiping in a direction in which a plurality of fingers move away. The smartphone 1 determines a gesture of swiping in a direction in which a plurality of fingers move away as a pinch out.

  The smartphone 1 operates according to these gestures that are determined via the touch screen 2B. Therefore, an operability that is intuitive and easy to use for the user is realized. The operation performed by the smartphone 1 according to the determined gesture differs depending on the screen displayed on the display 2A. Hereinafter, in order to simplify the description, “the touch screen 2B detects a gesture and the smartphone 1 determines that the type of the detected gesture is X”, “the smartphone 1 detects X”, or “The controller detects X” may be described.

  An example of a screen displayed on the display 2A will be described with reference to FIG. FIG. 4 shows an example of the home screen. The home screen may be called a desktop or a standby screen. The home screen is displayed on the display 2A. The home screen is a screen that allows the user to select which application to execute from among the applications installed in the smartphone 1. The smartphone 1 executes the application selected on the home screen in the foreground. The screen of the application executed in the foreground is displayed on the display 2A.

  The smartphone 1 can place an icon on the home screen. A plurality of icons 50 are arranged on the home screen 40 shown in FIG. Each icon 50 is associated with an application installed in the smartphone 1 in advance. When the smartphone 1 detects a gesture for the icon 50, the smartphone 1 executes an application associated with the icon 50 from which the gesture is detected. For example, the smartphone 1 executes the mail application when a tap on the icon 50 associated with the mail application is detected.

  The icon 50 includes an image and a character string. The icon 50 may include a symbol or a graphic instead of the image. The icon 50 may not include either an image or a character string. The icons 50 are arranged based on the arrangement pattern. A wallpaper 41 is displayed behind the icon 50. The wallpaper is sometimes called a photo screen or a back screen. The smartphone 1 can use any image as the wallpaper 41. The smartphone 1 may be configured so that the user can select an image to be displayed as the wallpaper 41.

  The smartphone 1 can include a plurality of home screens. For example, the smartphone 1 determines the number of home screens according to the setting by the user. The smartphone 1 displays the selected one on the display 2A even if there are a plurality of home screens.

  The smartphone 1 displays one or more locators on the home screen. The number of locators matches the number of home screens. The locator indicates which home screen is currently displayed. The locator corresponding to the currently displayed home screen is displayed in a manner different from other locators.

  In the example shown in FIG. 4, four locators 51 are displayed. This indicates that the number of home screens 40 is four. Further, in the example shown in FIG. 4, the second symbol from the left is displayed in a manner different from other symbols. This indicates that the second home screen from the left is currently displayed on the display 2A.

  When the smartphone 1 detects a gesture while displaying the home screen, the smartphone 1 switches the home screen displayed on the display 2A. For example, when detecting a right flick, the smartphone 1 switches the home screen displayed on the display 2A to the left home screen. For example, when the smartphone 1 detects a left flick, the smartphone 1 switches the home screen displayed on the display 2A to the right home screen.

  A region 42 is provided at the upper end of the display 2A. In the area 42, a remaining amount mark 43 indicating the remaining amount of the rechargeable battery and a radio wave level mark 44 indicating the electric field strength of the communication radio wave are displayed. The smartphone 1 may display the time, weather, running application, communication system type, telephone status, device mode, event occurring in the device, and the like in the area 42. As described above, the area 42 is used for various notifications to the user. The area 42 may be provided on a screen other than the home screen 40. The position where the region 42 is provided is not limited to the upper end of the display 2A.

  The home screen 40 shown in FIG. 4 is an example, and the forms of various elements, the arrangement of various elements, the number of home screens 40, how to perform various operations on the home screen 40, and the like are as described above. Not necessarily.

  FIG. 5 is a block diagram illustrating the configuration of the smartphone 1. The smartphone 1 includes a touch screen display 2, a button 3, an illuminance sensor 4, a proximity sensor 5, a communication unit 6, a receiver 7, a microphone 8, a storage 9, a controller 10, a speaker 11, and a camera. 12 and 13, a connector 14, an acceleration sensor 15, an orientation sensor 16, and a gyroscope 17.

  As described above, the touch screen display 2 includes the display 2A and the touch screen 2B. The display 2A displays characters, images, symbols, graphics, or the like. The touch screen 2B detects a gesture.

  The button 3 is operated by the user. The button 3 includes buttons 3A to 3F. The controller 10 detects an operation on the button 3 by cooperating with the button 3. The operations on the button 3 are, for example, click, double click, triple click, push, and multi-push.

  The buttons 3A to 3C are, for example, a home button, a back button, or a menu button. The button 3D is, for example, a power on / off button of the smartphone 1. The button 3D may also serve as a sleep / sleep release button. The buttons 3E and 3F are volume buttons, for example.

  The illuminance sensor 4 detects illuminance. Illuminance indicates light intensity, brightness, or luminance. The illuminance sensor 4 is used for adjusting the luminance of the display 2A, for example. The proximity sensor 5 detects the presence of a nearby object without contact. The proximity sensor 5 detects that the touch screen display 2 is brought close to the face, for example. The illuminance sensor 4 and the proximity sensor 5 may be configured as one sensor.

  The communication unit 6 communicates wirelessly. The communication method performed by the communication unit 6 is a wireless communication standard. Examples of wireless communication standards include cellular phone communication standards such as 2G, 3G, and 4G. As a cellular phone communication standard, for example, LTE (Long Term Evolution), W-CDMA (Wideband Code Multiple Access), CDMA2000, PDC (Personal Digital Cellular, GSM (registered trademark) mmloS) (Personal Handy-phone System). Examples of wireless communication standards include WiMAX (Worldwide Interoperability for Microwave Access), IEEE802.11, Bluetooth (registered trademark), IrDA (Infrared Data Association), NFC (NearFunel, etc.). The communication unit 6 may support one or more of the communication standards described above.

  The receiver 7 and the speaker 11 output the audio signal transmitted from the controller 10 as audio. The receiver 7 is used, for example, to output the other party's voice during a call. The speaker 11 is used for outputting a ring tone and music, for example. One of the receiver 7 and the speaker 11 may also function as the other. The microphone 8 converts the voice of the user or the like into a voice signal and transmits it to the controller 10.

  The storage 9 stores programs and data. The storage 9 is also used as a work area for temporarily storing the processing result of the controller 10. The storage 9 may include any non-transitory storage device such as a semiconductor storage device and a magnetic storage device. The storage 9 may include a plurality of types of storage devices. The storage 9 may include a combination of a portable storage medium such as a memory card, an optical disk, or a magneto-optical disk and a storage medium reader. The storage 9 may include a storage device used as a temporary storage area such as a RAM (Random Access Memory).

  The programs stored in the storage 9 include an application executed in the foreground or the background and a control program that supports the operation of the application. For example, the application displays a screen on the display 2 </ b> A, and causes the controller 10 to execute a process according to a gesture detected by the touch screen 2 </ b> B. The control program is, for example, an OS. The application and the control program may be installed in the storage 9 via wireless communication by the communication unit 6 or a non-transitory storage medium.

  The storage 9 stores, for example, a control program 9A, a mail application 9B, a browser application 9C, and setting data 9Z. The mail application 9B provides an electronic mail function. The e-mail function enables, for example, creation, transmission, reception, and display of an e-mail. The browser application 9C provides a WEB browsing function. The WEB browsing function enables, for example, display of a WEB page and editing of a bookmark. The setting data 9Z includes information related to various settings related to the operation of the smartphone 1.

  The control program 9A provides functions related to various controls for operating the smartphone 1. The control program 9A realizes a call by controlling the communication unit 6, the receiver 7, the microphone 8, and the like, for example. The function provided by the control program 9A includes a function of releasing the lock state according to a gesture detected via the touch screen 2B. The function provided by the control program 9A may be used in combination with a function provided by another program such as the mail application 9B.

  The controller 10 is an arithmetic circuit. The arithmetic circuit is, for example, a CPU (Central Processing Unit), an SoC (System-on-a-chip), an MCU (Micro Control Unit), or an FPGA (Field-Programmable Gate Array). The controller 10 controls various operations of the smartphone 1 to realize various functions.

  Specifically, the controller 10 executes instructions included in the program stored in the storage 9 while referring to the data stored in the storage 9 as necessary. And the controller 10 controls a function part according to data and a command, and implement | achieves various functions by it. The controller 10 may change the control according to the detection result of the detection unit. The functional unit includes the display 2A, the communication unit 6, the microphone 8, and the speaker 11, but is not limited thereto. The detection unit includes, but is not limited to, the touch screen 2B, the button 3, the illuminance sensor 4, the proximity sensor 5, the receiver 7, the camera 12, the camera 13, the acceleration sensor 15, the azimuth sensor 16, and the gyroscope 17.

  For example, the controller 10 executes the control program 9A to release the lock state according to the gesture detected via the touch screen 2B.

  The camera 12 is an in-camera that captures an object facing the front face 1A. The camera 13 is an out camera that captures an object facing the back face 1B.

  The connector 14 is a terminal to which another device is connected. The connector 14 may be a general-purpose terminal such as USB (Universal Serial Bus), HDMI (registered trademark) (High-Definition Multimedia Interface), Light Peak (Thunderbolt (registered trademark)), and an earphone microphone connector. . The connector 14 may be a dedicated terminal such as a dock connector. Devices connected to the connector 14 are, for example, an external storage, a speaker, and a communication device.

  The acceleration sensor 15 detects the direction and magnitude of acceleration acting on the smartphone 1. The direction sensor 16 detects the direction of geomagnetism. The gyroscope 17 detects the angle and angular velocity of the smartphone 1. The detection results of the acceleration sensor 15, the azimuth sensor 16, and the gyroscope 17 are used in combination in order to detect changes in the position and orientation of the smartphone 1.

  In FIG. 5, some or all of the programs and data stored in the storage 9 may be downloaded from other devices by wireless communication using the communication unit 6. In FIG. 5, some or all of the programs and data stored in the storage 9 may be stored in a non-transitory storage medium that can be read by the reading device included in the storage 9. 5 may be stored in a non-transitory storage medium that can be read by a reading device connected to the connector 14. The non-transitory storage medium is, for example, an optical disc such as a CD (registered trademark), a DVD (registered trademark), or a Blu-ray (registered trademark), a magneto-optical disk, or a memory card.

  The configuration of the smartphone 1 illustrated in FIG. 5 is an example, and may be appropriately changed within a range that does not impair the gist of the present application. For example, the number and type of buttons 3 are not limited to the example of FIG. The smartphone 1 may include buttons such as a numeric keypad layout or a QWERTY layout as buttons for operations related to the screen instead of the buttons 3A to 3C. The smartphone 1 may include only one button or may not include a button for operations related to the screen. In the example illustrated in FIG. 5, the smartphone 1 includes two cameras, but the smartphone 1 may include only one camera or may not include a camera. In the example illustrated in FIG. 5, the smartphone 1 includes three types of sensors in order to detect the position and orientation, but the smartphone 1 may not include some of these sensors. Alternatively, the smartphone 1 may include another type of sensor for detecting at least one of a position and a posture.

  An example of the operation of the smartphone 1 based on the function provided by the control program 9A will be described with reference to FIG. FIG. 6 is a diagram illustrating an example of releasing the locked state. The “locked state” refers to a state in which the smartphone 1 does not accept an operation except for a specific operation. The smartphone 1 shifts to the locked state when, for example, a time during which no operation is detected continues for a certain period of time or when an operation instructing the shift to the locked state is detected.

  In the locked state, the smartphone 1 normally stops the operation of the touch screen display 2 in order to suppress power consumption and prevent malfunction. That is, the smartphone 1 does not display anything on the display 2A and does not cause the touch screen 2B to detect a gesture.

  When the user wants to release the locked state for a call or the like, the user performs the following operation. First, the user performs an operation for displaying the lock screen 60 on the display 2A. The lock screen 60 is a screen that accepts an unlock operation for releasing the lock state. The operation for displaying the lock screen 60 is, for example, an operation of pressing one of the buttons 3.

  When the smartphone 1 detects an operation for displaying the lock screen 60, the smartphone 1 validates the touch screen display 2 and displays the lock screen 60 as shown in step S11 of FIG. 6 on the display 2A. The lock screen 60 includes an operation area 61. The operation area 61 is an area for detecting a lock release operation. The smartphone 1 releases the locked state when the unlocking operation is detected by the touch screen 2B. The unlocking operation is, for example, an operation of gradually increasing the area of the range where the finger contacts the touch screen display 2.

  After releasing the lock state, the smartphone 1 enters a state where it accepts operations for executing various processes. For example, as illustrated in step S <b> 12 of FIG. 6, the smartphone 1 displays the home screen 40 on the display 2 </ b> A and executes an application corresponding to the tapped icon 50. The smartphone 1 may cause the display 2 </ b> A to display a screen that was displayed before the transition to the locked state after releasing the locked state.

  Next, the unlocking operation will be described with reference to FIGS. FIG. 7 is a diagram illustrating an example of the unlocking operation. FIG. 8 is a diagram illustrating an example of contact detected when a lock release operation is performed. 7 and 8 show an example in which an operation in which the area of the range in which the finger contacts the touch screen display 2 gradually increases is detected as the unlocking operation. In FIG. 7, the smartphone 1 is schematically illustrated as a cross-sectional view.

  As shown in step S <b> 21 of FIG. 7, after the lock screen 60 is displayed, the user brings the finger F <b> 1 closer to the operation area 61 in order to release the lock state. When the user brings the finger F1 closer to the operation area 61, the tip of the finger F1 comes into contact with the touch screen display 2 in the operation area 61 as shown in step S22. When the user brings the finger F1 closer to the operation area 61, the area where the finger F1 comes into contact with the touch screen display 2 increases as shown in step S23.

  Subsequently, when the user changes the angle of the finger F1 so that the portion closer to the base of the finger F1 is in contact with the touch screen display 2, the area where the finger F1 is in contact with the touch screen display 2 as shown in step S24. Increases further. In step S24, the finger F1 is closer to the surface of the touch screen display 2 than the finger F1 at the time of step S23.

  Subsequently, when the user further changes the angle of the finger F1 so that a portion closer to the base of the finger F1 comes into contact with the touch screen display 2, the finger F1 comes into contact with the touch screen display 2 as shown in step S25. The area further increases. In step S25, the finger F1 is closer to the surface of the touch screen display 2 than the finger F1 at the time of step S24.

  When such an operation is performed, as shown in FIG. 8, the area of the range in which contact is detected by the touch screen 2B changes. Specifically, in the stage of step S21 shown in FIG. 7, no contact is detected as shown in step S31. When the tip of the finger F1 comes into contact with the touch screen display 2 in the operation area 61 as in step S22 shown in FIG. 7, contact is detected in the range R1 in the operation area 61 as shown in step S32. The area of the range R1 at this stage is small.

  Thereafter, as the finger F1 further approaches the operation area 61, the area of the range R1 in which contact is detected gradually increases, and when the finger F1 reaches the position of step S23, the range R1 becomes the size shown in step S33. Become. From step S32 to step S33, the position of the center P1 of the range R1 is substantially constant.

  Thereafter, when the user touches the touch screen display 2 at a portion closer to the base of the finger F1 as in step S24 and step S25 shown in FIG. 7, the range in which contact is detected as shown in step S34 and step S35. The area of R1 gradually increases. From step S33 to step S35, the position of the center P1 of the range R1 gradually moves toward the base of the finger F1.

  The smartphone 1 releases the locked state when the area of the range R1 in which contact is detected in the operation region 61 changes as shown in FIG. Specifically, the smartphone 1 stores, in the setting data, conditions relating to changes in the area of the range R1, such as the area of the range R1 at each stage and the area of the maximum range R1, as a release pattern. And the smart phone 1 collates the detection result of the touch screen 2B, and a cancellation | release pattern, and cancels | releases a locked state, when a precision is higher than a threshold value.

  In this way, by using the condition relating to the change in the area of the range in which contact is detected as the release pattern, the user can perform the operation of the smartphone 1 with a small operation amount without performing an operation of largely moving a finger like a swipe. The locked state can be released. Furthermore, since the change in the area of the range R1 in which contact is detected as shown in FIG. 8 is difficult to detect by accident, it is possible to prevent the lock screen from being released accidentally.

  In addition to the area of the range R1 in which contact is detected, the smartphone 1 may store a condition related to a time such as the time required for the range R1 to become maximum after the contact is detected as a release pattern. With such a configuration, the smartphone 1 can reduce the possibility that the locked state is released due to an erroneous operation or malfunction as compared with a case where only the area of the range R1 in which contact is detected is included as the release pattern.

  The smartphone 1 may set a release pattern based on an operation previously performed by the user. Specifically, the smartphone 1 displays the lock screen 60 or a similar screen on the display 2 </ b> A according to the user's instruction, and performs an operation for gradually increasing the area in contact with the touch screen display 2 in the operation area 61. Ask the user to do it. And the smart phone 1 sets a cancellation | release pattern based on the detection result of the touch screen 2B. Thus, by setting the release pattern based on the operation performed by the user, the reproducibility of the unlock operation is increased, and the possibility that the unlock operation is correctly detected increases.

  The condition included in the release pattern is not limited to the condition related to the change in the area of the range in which contact is detected. For example, the release pattern may further include a condition related to the movement of the center P1 of the range R1 in which contact is detected. When the operation shown in FIG. 7 is performed, the center P1 of the range R1 is substantially constant until step S33, as shown in FIG. Then, as the user brings a portion closer to the base of the finger F1 into contact with the touch screen display 2, the center P1 approaches one of the end portions of the operation area 61 as shown in Step S34 and Step S35. By including such a condition relating to the movement of the center P1 in the release pattern in association with the condition relating to the change in the area of the range R1, a two-step operation as shown in FIG. It can be distinguished from the operation of pressing to 2.

  The release pattern may include a condition related to a change in the shape of the range R1 where contact is detected instead of or in addition to the condition related to the change in the area of the range R1 where contact is detected. For example, when the operation shown in FIG. 7 is performed, as shown in FIG. 8, the shape of the range R1 is substantially constant until step S33. Then, as the user brings the portion closer to the base of the finger F1 into contact with the touch screen display 2, the shape of the range R1 becomes longer from the tip of the finger F1 to the base as shown in Step S34 and Step S35.

  For example, the smartphone 1 includes the shape at each stage of the range R1 illustrated in FIG. 8 in the release pattern as a condition related to a change in the shape of the range in which contact is detected. In this case, the smartphone 1 releases the locked state when the shapes included in the release pattern are detected in an appropriate order in the operation area 61. Alternatively, the smartphone 1 associates each shape of the range R1 illustrated in FIG. 8 with the time required for the range R1 to be the shape, and cancels the pattern as a condition regarding the change in the shape of the range in which contact is detected. Include in In this case, the smartphone 1 releases the locked state when the shapes included in the release pattern are detected in an appropriate order and at an appropriate timing in the operation area 61.

  Even when the release pattern includes only a condition related to a change in the shape of the range in which contact is detected, the user can lock the smartphone 1 with a small amount of operation without performing an operation of largely moving a finger such as swipe. Can be released. Furthermore, since the change in the shape of the range R1 in which contact is detected as shown in FIG. 8 is difficult to be detected by accident, it is possible to prevent the lock screen from being erroneously released. When the release pattern includes both a condition relating to a change in the area of the range in which contact is detected and a condition relating to a change in the shape of the range in which contact is detected, the possibility that the locked state is released due to an erroneous operation or malfunction is further reduced. Become.

  The unlocking operation is not limited to an operation in which the area of the range in which the finger contacts the touch screen display 2 gradually increases. Another example of the unlocking operation will be described below.

  FIG. 9 is a diagram illustrating another example of the unlocking operation. FIG. 10 is a diagram illustrating another example of contact detected when the unlocking operation is performed. 9 and 10 show an example in which an operation in which the area of the range in which the finger contacts the touch screen display 2 gradually decreases is detected as the unlocking operation. In FIG. 9, the smartphone 1 is schematically illustrated as a cross-sectional view.

  As shown in step S41 of FIG. 9, after the lock screen 60 is displayed, the user operates the finger F1 to release the lock state with the finger F1 being nearly parallel to the surface of the touch screen display 2. Approach the region 61. When the user brings the finger F1 closer to the operation area 61, the belly portion of the finger F1 comes into contact with the touch screen display 2 in the operation area 61 as shown in step S42. When the user brings the finger F1 closer to the operation area 61, the area where the finger F1 contacts the touch screen display 2 increases as shown in step S43.

  Subsequently, when the user changes the angle of the finger F1 so that the portion close to the base of the finger F1 is separated from the touch screen display 2, the area where the finger F1 contacts the touch screen display 2 is increased as shown in step S44. Decrease. In step S24, the finger F1 is closer to the surface of the touch screen display 2 than the finger F1 at the time of step S43.

  Subsequently, when the user further changes the angle of the finger F1 so that the portion near the base of the finger F1 is separated from the touch screen display 2, the area where the finger F1 contacts the touch screen display 2 as shown in step S45. Is further reduced. In step S45, the finger F1 is closer to the surface of the touch screen display 2 than the finger F1 at the time of step S44.

  When such an operation is performed, as shown in FIG. 10, the area and shape of the range in which contact is detected by the touch screen 2 </ b> B change. Specifically, in step S41 shown in FIG. 9, no contact is detected as shown in step S51. When the belly portion of the finger F1 comes into contact with the touch screen display 2 in the operation area 61 as in step S42 shown in FIG. 9, contact is detected in a range R1 in the operation area 61 as shown in step S52. The area of the range R1 at this stage is small.

  Thereafter, as the finger F1 further approaches the operation region 61, the area of the range R1 in which contact is detected gradually increases, and when the finger F1 reaches the position of step S43, the area of the range R1 is as shown in step S53. To the maximum. From step S52 to step S53, the position of the center P1 of the range R1 is substantially constant. In step S53, the range R1 has a shape that is long from the tip of the finger F1 to the base.

  Thereafter, when the user removes the portion close to the base of the finger F1 from the touch screen display 2 as in steps S44 and S45 shown in FIG. 9, the range R1 in which contact is detected as shown in steps S54 and S55 The area of becomes gradually smaller. From step S53 to step S55, the position of the center P1 of the range R1 gradually moves toward the tip of the finger F1. Further, from step S53 to step S55, the shape of the range R1 gradually changes from a shape that is long in the direction from the tip of the finger F1 to the base, and a shape that is long or circular in a direction perpendicular to the direction from the tip of the finger F1 to the base. To do.

  As described above, the smartphone 1 may store a condition relating to a change in at least one of the area and the shape of the range R1 when the area of the range R1 once increases and then gradually decreases as a release pattern. The smartphone 1 may further include a condition regarding the position and time of the center P1 in the release pattern.

  FIG. 11 is a diagram illustrating another example of the unlocking operation. FIG. 12 is a diagram illustrating another example of contact detected when the unlocking operation is performed. FIGS. 11 and 12 show an example in which an operation in which a finger touching the touch screen display 2 rotates in the operation area 61 is detected as the unlocking operation.

  As shown in step S61 of FIG. 11, after the lock screen 60 is displayed, the user brings the finger F1 into contact with the touch screen display 2 in the operation area 61 in order to release the lock state. Subsequently, as shown in step S62 and step S63, the user rotates the finger F1 in parallel with the surface of the touch screen display 2 while maintaining contact with the touch screen display 2. In the example shown in FIG. 11, the finger F1 is rotated about 45 degrees counterclockwise.

  When such an operation is performed, as shown in FIG. 12, the area and shape of the range in which contact is detected by the touch screen 2B change. Specifically, as in steps S71 to S73 shown in FIG. 12, the area of the range R1 in which contact is detected in the operation region 61 is gradually increased until the finger F1 is sufficiently in contact with the touch screen display 2. To do. During this time, the position of the center P1 of the range R1 is substantially constant. In step S73 in which the finger F1 is completely in contact with the touch screen display 2, the range R1 has a shape that is long from the tip of the finger F1 to the base.

  Thereafter, when the user rotates the finger F1 as in step S62 and step S63 shown in FIG. 11, the shape of the range R1 is changed to another shape in accordance with the rotation of the finger F1 as shown in steps S73 to S75. It changes to a long shape in the direction. During this time, the area of the range R1 and the position of the center P1 of the range R1 are substantially constant.

  As described above, the smartphone 1 cancels the condition regarding the change of the area and / or the shape of the range R1 when the shape of the range R1 gradually changes in accordance with the rotation of the finger F1 after the area of the range R1 has once increased. It may be stored as a pattern. The smartphone 1 may include a condition regarding the direction in which the shape of the range R1 changes, that is, the direction in which the direction in which the range R1 is long changes, in the release pattern. For example, the smartphone 1 detects that the range R1 is detected as a long shape in the first direction, and then the range R1 changes to a long shape in the second direction rotated 45 degrees counterclockwise from the first direction. You may memorize | store as a cancellation | release pattern.

  With reference to FIG. 13, an example of a control processing procedure based on the function provided by the control program 9A will be described. FIG. 13 shows a processing procedure of the lock state release processing. The processing procedure shown in FIG. 13 is realized by the controller 10 executing the control program 9A. The processing procedure shown in FIG. 13 is executed when the lock screen 60 is displayed on the display 2A.

  The controller 10 displays the lock screen 60 on the display 2A as step S101. Subsequently, in step S102, the controller 10 acquires a detection result of the operation on the operation area 61 from the touch screen 2B. In step S103, the controller 10 compares at least one of the area and shape of the range R1 in which contact is detected in the operation region 61 with the release pattern. The controller 10 may further compare at least one of the change of the position of the center P1 of the range R1 and the time required for the change of the range R1 with the release pattern.

  When the precision calculated based on the comparison is higher than the threshold (Yes in step S104), the controller 10 releases the locked state as step S105. Then, the controller 10 ends the lock state release process.

  When the precision calculated based on the comparison is not higher than the threshold (No at Step S104), the controller 10 determines whether an instruction to delete the lock screen 60 has been issued as Step S106. The lock screen deletion instruction is, for example, when the user performs an operation such as pressing one of the buttons 3 or when the operation is not detected while the lock screen 60 is displayed for a longer period of time. Issued to. When an instruction to delete the lock screen 60 is issued (step S106, Yes), the controller 10 deletes the lock screen 60 and stops the operation of the touch screen display 2 as step S107. Then, the controller 10 ends the lock state release process.

  When an instruction to delete the lock screen 60 has not been issued (No at Step S106), the controller 10 re-executes Step S102 and the subsequent steps.

  Embodiment which this application discloses can be changed in the range which does not change the summary of invention. Furthermore, the embodiment disclosed in the present application and its modifications can be combined as appropriate. For example, the above embodiment may be modified as follows.

  For example, each program shown in FIG. 5 may be divided into a plurality of modules. Alternatively, each program shown in FIG. 5 may be combined with another program.

  In the above embodiment, an example in which the locked state is released based on an operation with one finger has been described, but the smartphone 1 may release the locked state based on an operation with a plurality of fingers. That is, the smartphone 1 may release the lock state based on a change in at least one of the area and shape of the range in which each of the plurality of fingers contacts the touch screen display 2.

  In the above embodiment, an example in which the unlocking operation is detected in the operation area 61 has been described. However, the smartphone 1 may be configured to detect the unlocking operation in any area on the lock screen 60.

  The smartphone 1 may store a pattern obtained by combining the plurality of release patterns described above as a release pattern. For example, the smartphone 1 gradually increases the area in which the finger contacts the touch screen display 2, the operation of rotating the finger while being in contact with the touch screen display 2, and the finger touching the touch screen display 2. A condition relating to a change in at least one of the area and the shape of the range R1 detected when the operation of gradually reducing the area of the range to be performed may be stored as a release pattern. The smartphone 1 repeatedly performs an operation for gradually increasing the area of the area in which the finger contacts the touch screen display 2 and an operation for gradually decreasing the area of the area in which the finger contacts the touch screen display 2 a predetermined number of times. The condition relating to the change in at least one of the area and shape of the range R1 detected at the time may be stored as a release pattern.

  In the above embodiment, a smartphone has been described as an example of a device including a touch screen, but the device according to the appended claims is not limited to a smartphone. The device according to the appended claims may be a portable electronic device other than a smartphone. Examples of the portable electronic device include a mobile phone, a tablet, a portable personal computer, a digital camera, a media player, an electronic book reader, a navigator, and a game machine. Alternatively, the device according to the appended claims may be a stationary electronic device. The stationary electronic devices are, for example, a desktop personal computer and a television receiver.

  The characterizing embodiments have been described in order to fully and clearly disclose the technology according to the appended claims. However, the appended claims should not be limited to the above-described embodiments, but all modifications and alternatives that can be created by those skilled in the art within the scope of the basic matters shown in this specification. Should be configured to embody such a configuration.

DESCRIPTION OF SYMBOLS 1 Smart phone 2 Touch screen display 2A Display 2B Touch screen 3 Button 4 Illuminance sensor 5 Proximity sensor 6 Communication unit 7 Receiver 8 Microphone 9 Storage 9A Control program 9B Mail application 9C Browser application 9Z Setting data 10 Controller 11 Speaker 12, 13 Camera 14 Connector 15 Acceleration sensor
16 Direction sensor 17 Gyroscope 20 Housing

Claims (6)

A touch screen display that detects at least an area of a contact range by contact with the lock screen; and
A controller that displays the lock screen on the touch screen display in a locked state and releases the locked state based on contact detected by the touch screen display ;
The controller includes a change in the size of the area and a movement of the center of the contact range when the size of the area changes as conditions for releasing the locked state . The touch screen display further detects the shape of the contact area;
The apparatus according to claim 1, wherein the controller further releases the locked state based on the change in the shape. The touch screen display further detects a rotation direction of the contact range;
The apparatus according to claim 1, wherein the controller further releases the lock state based on the rotation direction. A touch screen display that detects at least the shape of the contact area by contact with the lock screen; and
A controller that displays the lock screen on the touch screen display in a locked state and releases the locked state based on contact detected by the touch screen display ;
The controller includes a change of the shape and a movement of the center of the contact range when the shape changes as a condition for releasing the locked state . A method for controlling a device comprising a touch screen display, comprising:
And displaying the lock screen on the touch screen display Te locked odor,
Detecting a change in the size of the area of the contact range due to contact with the lock screen by the touch screen display;
Method comprising the steps of releasing the locked state on the basis of the movement of the center of the contact area when the magnitude of the change in size and the area of the area is changed. For devices with touch screen displays,
And displaying the lock screen on the touch screen display Te locked odor,
Detecting a change in the size of the area of the contact range due to contact with the lock screen by the touch screen display;
Program for executing a step of releasing the locked state on the basis of the movement of the center of the contact area when the magnitude of the change in size and the area of the area is changed.

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