WO2014010458A1 - 操作処理装置および操作処理方法、並びにプログラム - Google Patents
操作処理装置および操作処理方法、並びにプログラム Download PDFInfo
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- WO2014010458A1 WO2014010458A1 PCT/JP2013/068081 JP2013068081W WO2014010458A1 WO 2014010458 A1 WO2014010458 A1 WO 2014010458A1 JP 2013068081 W JP2013068081 W JP 2013068081W WO 2014010458 A1 WO2014010458 A1 WO 2014010458A1
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Definitions
- the present disclosure relates to an information processing device, an information processing method, and a program, and particularly relates to an information processing device, an information processing method, and a program that can provide a user interface that is easier to use.
- a device having a display unit such as a liquid crystal panel and an input unit such as a touch sensor has been widespread, such as a notebook personal computer.
- a notebook personal computer is configured such that the relative angle between the display unit and the input unit is in a range from 0 ° to 180 ° (a range from 30 ° to 180 ° such as 120 ° in actual use).
- the user interface can be operated without a sense of incongruity by adopting a user interface in which the input direction to the input unit is the same as the output direction in which the display changes on the display unit It can be performed.
- the applicant of the present application has proposed a foldable electronic device having a hinge portion that can make the relative angle between the display portion and the input portion 180 ° or more (see, for example, Patent Document 1). ).
- the present disclosure has been made in view of such a situation, and is intended to provide a user interface that is easier to use.
- An operation processing device acquires an input direction acquisition that acquires information indicating an input direction according to the direction generated in response to an operation that instructs a direction performed on an input unit to which an operation is input
- An output direction indicating unit that indicates a direction in which an image of the display unit is changed in response to an operation on the input unit, a display unit that displays an image, the input unit, and the display
- a determining unit that determines an orientation of the output direction with respect to the input direction according to a relative positional relationship with the unit.
- An operation processing method or program acquires information indicating an input direction according to the direction generated in response to an operation instructing a direction performed on an input unit to which an operation is input,
- the display unit that displays the image is instructed in an output direction that is a direction to change the image of the display unit in response to an operation on the input unit, and the relative positional relationship between the input unit and the display unit , Determining an orientation of the output direction with respect to the input direction.
- a display that displays an image obtained by acquiring information indicating an input direction according to the direction that is generated in response to an operation that instructs a direction performed on an input unit to which the operation is input
- An output direction that is a direction in which the display of the image on the display unit is changed in response to an operation on the input unit is instructed to the unit. Then, the direction of the output direction with respect to the input direction is determined according to the relative positional relationship between the input unit and the display unit.
- a user interface that is easier to use can be provided.
- FIG. 18 is a block diagram illustrating a configuration example of an embodiment of a computer to which the present technology is applied.
- FIG. 1 is a perspective view showing a configuration example of a first embodiment of an information processing apparatus to which the present technology is applied.
- the touch operation terminal 11 includes a first housing 12, a second housing 13, a hinge unit 14, an input unit 15, and a display unit 16.
- the input unit 15 is disposed on one side surface of the first housing 12, and the display unit 16 is disposed on one side surface of the second housing 13.
- the first casing 12 and the second casing 13 are connected to each other via a hinge section 14 so that the input section 15 and the display section 16 face each other in a closed state.
- the positional relationship can be relatively changed around 14.
- the relative angle ⁇ formed between the surface of the input unit 15 of the first housing 12 and the surface of the display unit 16 of the second housing 13 is 0 around the hinge unit 14. It is comprised so that it can change in the range from (degree) to 360 degrees. That is, the hinge unit 14 has a first range in a range from an angle (0 °) at which the input unit 15 and the display unit 16 face each other to an angle (360 °) at which the input unit 15 and the display unit 16 face each other.
- the housing 12 and the second housing 13 are connected so as to be openable and closable.
- the touch operation terminal 11 has the surface of the input unit 15 of the first housing 12 and the surface of the display unit 16 of the second housing 13 as shown by the relative angle ⁇ ′ in FIG. It is configured to be able to open at 180 ° or more.
- the input unit 15 detects the movement of the user's finger using, for example, a change in pressure applied by the user's finger to the surface or a change in static electricity caused by the contact (or proximity) of the user's finger to the surface. .
- a swipe operation for example, when the user performs an operation (hereinafter referred to as a swipe operation as appropriate) to move in any direction while touching the surface of the input unit 15 with a finger, the input unit 15 moves the user's finger. And the operation information indicating the input direction according to the direction in which the finger moves is acquired.
- the display unit 16 includes, for example, a liquid crystal panel, an organic EL (Electro Luminescence) panel, and the like, and is an image in which display content is configured by a picture, a photograph, a figure, a character, a GUI (Graphical User Interface), or the like. Display the display screen. Then, the display unit 16 scrolls and displays the display screen or moves a pointer or cursor displayed on the display screen along the output direction corresponding to the user's swipe operation on the input unit 15. To change the display on the display screen.
- the touch operation terminal 11 is configured as described above, and the user uses the touch operation terminal 11 by adjusting the first casing 12 and the second casing 13 to have a desired relative angle ⁇ . Can do.
- the touch operation terminal 11 performs an operation process in response to the swipe operation based on the operation information acquired by the input unit 15, and the display screen of the display unit 16.
- the display of is controlled. For example, when the user performs a swipe operation to move a finger in the horizontal direction, the touch operation terminal 11 performs an operation process so that the display screen of the display unit 16 scrolls in the horizontal direction.
- the touch operation terminal 11 performs a process of switching the output direction with respect to the input direction according to the relative angle ⁇ between the first casing 12 and the second casing 13.
- the direction along the hinge part 14 is a horizontal direction.
- the direction orthogonal to the horizontal direction and orthogonal to the normal line direction ⁇ of the input unit 15, and on the surface of the display unit 16, orthogonal to the horizontal direction and of the display unit 16 The direction perpendicular to the normal direction ⁇ is taken as the vertical direction. That is, as shown in FIG. 2, the vertical direction is a straight line when the relative angle ⁇ is 180 °, and is bent according to the relative angle ⁇ when the relative angle ⁇ is other than 180 °.
- a predetermined range of the relative angle ⁇ is set for performing the process with the output direction with respect to the input direction as the same direction for the swipe operation in the vertical direction.
- the touch operation terminal 11 can switch the output direction relative to the input direction depending on whether or not the relative angle ⁇ is within a predetermined range. That is, the touch operation terminal 11 sets the output direction with respect to the input direction to the same direction when the relative angle ⁇ is within the predetermined range, and sets the output direction with respect to the input direction to the reverse direction when the relative angle ⁇ is not within the predetermined range.
- the predetermined range is set in advance, for example, by evaluating at the development stage whether the user can perform a swipe operation without a sense of incongruity.
- the touch operation terminal 11 is set to 0 ° to 180 ° as a predetermined range. Accordingly, when the relative angle ⁇ is in the range of 0 ° or more and 180 ° or less (0 ° ⁇ ⁇ ⁇ 180 °), the touch operation terminal 11 outputs the output direction relative to the input direction with respect to the vertical swipe operation. The operation process is performed so that is in the same direction. On the other hand, when the relative angle ⁇ is in the range of greater than 180 ° and less than or equal to 360 ° (180 ° ⁇ ⁇ 360 °), the touch operation terminal 11 outputs the output direction relative to the input direction with respect to the vertical swipe operation. The operation process is performed so that is in the reverse direction.
- the input direction and the output direction are not switched regardless of the change in the relative angle ⁇ with respect to the horizontal direction (that is, if the input direction is the right direction, the output direction is always the right direction).
- the operation process is performed as follows. Further, the swipe operation in the vertical direction includes not only the finger movement that completely coincides with the vertical direction but also the finger movement in the oblique direction including the vertical component.
- FIG. 3A shows the touch operation terminal 11 having a relative angle ⁇ of 90 °
- FIG. 3B shows the touch operation terminal 11 having a relative angle ⁇ of 180 °
- Yes. 3C shows the touch operation terminal 11 having a relative angle ⁇ of 270 °
- FIG. 3D shows the touch operation terminal 11 having a relative angle ⁇ of 360 °. Has been.
- the touch operation terminal 11 when the relative angle ⁇ between the input unit 15 and the display unit 16 is 270 °, the touch operation terminal 11 causes the output direction OUT to be opposite to the input direction IN.
- the operation process is performed.
- FIG. 3D when the relative angle ⁇ between the input unit 15 and the display unit 16 is 360 °, that is, when the display unit 16 is arranged on the back side of the input unit 15, the touch operation terminal 11 is operated so that the output direction OUT is opposite to the input direction IN (here, as described with reference to FIG. 2, the reverse direction in the coordinate system in which the vertical direction is bent according to the relative angle ⁇ ). Process.
- the touch operation terminal 11 performs an operation process of switching the output direction with respect to the input direction between the same direction and the reverse direction depending on whether or not the relative angle ⁇ is in the range from 0 ° to 180 °.
- FIG. 4 is a block diagram illustrating a functional configuration example of the operation processing unit of the touch operation terminal 11.
- the operation processing unit 21 includes an input direction acquisition unit 22, a relative angle detection unit 23, an output direction determination unit 24, and a display instruction unit 25.
- the operation processing unit 21 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), a nonvolatile memory (for example, EEPROM) built in the touch operation terminal 11. (Electronically Erasable and Programmable Read Only Memory)) and the like, and the function of each unit is realized by the CPU reading and executing the program stored in the ROM or nonvolatile memory into the RAM.
- the input direction acquisition unit 22 is connected to the input unit 15.
- operation information is supplied from the input unit 15, and based on the operation information, the input direction by the user's swipe operation is acquired. .
- the relative angle detection unit 23 is connected to an angle sensor (not shown) attached to the hinge unit 14 and detects the relative angle ⁇ between the first casing 12 and the second casing 13. .
- the output direction determination unit 24 determines the direction of the output direction with respect to the input direction (same direction or reverse direction) based on the relative angle ⁇ detected by the relative angle detection unit 23. To do. That is, the output direction determination unit 24 performs a process of switching the direction of the output direction with respect to the input direction according to whether or not the relative angle ⁇ is within a predetermined range. For example, as described above, when the relative angle ⁇ is within a predetermined range (for example, 0 ° ⁇ ⁇ ⁇ 180 °), the output direction determination unit 24 sets the output direction to the same direction as the input direction. decide. On the other hand, when the relative angle ⁇ is not within the predetermined range, the output direction determination unit 24 determines that the output direction is opposite to the input direction.
- a predetermined range for example, 0 ° ⁇ ⁇ 180 °
- the display instruction unit 25 is connected to the display unit 16 and is a control signal that instructs display of the display screen so that the display on the display screen of the display unit 16 changes in the output direction determined by the output direction determination unit 24. Is supplied to the display unit 16. Accordingly, in the display unit 16, for example, the direction in which the display screen scrolls is the same as the input direction, depending on whether or not the relative angle ⁇ is within a predetermined range (for example, 0 ° ⁇ ⁇ ⁇ 180 °). Switch to either of the opposite directions.
- the operation processing unit 21 is configured as described above, and the output direction with respect to the input direction acquired by the input direction acquisition unit 22 is determined according to the relative angle ⁇ detected by the relative angle detection unit 23, and the output direction A display instruction is given to the display unit 16 so as to be.
- FIG. 5 is a flowchart for explaining the operation process executed by the operation processing unit 21.
- the input unit 15 stands by in a state where a touch operation by the user can be detected, and the process is started when it is detected that a swipe operation has been performed by the user.
- the input unit 15 supplies the operation information acquired in response to the swipe operation by the user to the input direction acquisition unit 22, and the input direction acquisition unit 22 acquires the input direction from the operation information and determines the output direction.
- the unit 24 To the unit 24.
- step S ⁇ b> 12 the relative angle detection unit 23 is based on a signal output from an angle sensor (not shown) attached to the hinge unit 14, and the first casing 12 and the second casing 13. Is detected and supplied to the output direction determination unit 24.
- step S13 the output direction determination unit 24 determines whether or not the relative angle ⁇ detected by the relative angle detection unit 23 in step S12 is within a predetermined range.
- step S13 If it is determined in step S13 that the relative angle ⁇ is within the predetermined range, the process proceeds to step S14, and the output direction determination unit 24 outputs the input direction acquired by the input direction acquisition unit 22 in step S11. The direction is determined to be the same direction, and the display instruction unit 25 is notified.
- step S13 determines that the relative angle ⁇ is not within the predetermined range. If it is determined in step S13 that the relative angle ⁇ is not within the predetermined range, the process proceeds to step S15.
- step S15 the output direction determination unit 24 determines that the output direction is opposite to the input direction acquired by the input direction acquisition unit 22 in step S11, and notifies the display instruction unit 25 of it.
- step S14 or S15 the process proceeds to step S16, and the display instruction unit 25 changes the display screen so that the display on the display screen of the display unit 16 changes in the output direction determined by the output direction determination unit 24.
- a control signal for instructing display is supplied to the display unit 16. Then, after the process of step S16, the operation process ends.
- the touch operation terminal 11 determines the direction of the output direction with respect to the input direction according to the relative angle ⁇ , and switches the output direction, so that a user interface that does not feel uncomfortable when operated by the user is easier to use. Can be provided.
- touch operation terminal 11 may display an icon or indicator on the display unit 16 so as to present to the user that the direction of the output direction with respect to the input direction has been switched. Further, the mechanism of the hinge unit 14 may cause the user to sense that the direction of the output direction is switched with respect to the input direction.
- the touch operation terminal 11 can apply the same operation process to a zoom operation by detecting a plurality of touches.
- the relative angle ⁇ between the input unit 15 and the display unit 16 may be changed by a mechanical structure other than the hinge unit 14.
- the operation processing may be performed by detecting the twist of the input unit 15 and the display unit 16.
- a rotation direction can be applied to the input direction and the output direction.
- the touch operation terminal 11 turns the output direction to the right when the relative angle ⁇ is within a predetermined range, and turns the output direction to the left when the relative angle ⁇ is not within the predetermined range. It can be a rotation.
- the touch operation terminal 11 inputs a rotation direction by detecting touches at a plurality of points, detects a touch at one point, and rotates by detecting rotation of a finger touching the one point. You can enter the direction.
- the angle of the predetermined range for switching the output direction with respect to the input direction is not limited to 180 °, and is set to an appropriate angle depending on the application program executed on the touch operation terminal 11 and the structure of the touch operation terminal 11. coming out. Furthermore, the angle within the predetermined range may be different between the operation of opening and closing the input unit 15 and the display unit 16.
- the touch operation terminal 11 can adopt a configuration in which the input unit 15 and the display unit 16 are independent in addition to the configuration in which the input unit 15 and the display unit 16 are connected via the hinge unit 14.
- the input unit 15 and the display unit 16 can each be provided with an acceleration sensor or the like to detect their relative postures and switch the output direction with respect to the input direction.
- the input unit 15 is not limited to a device having a touch sensor, and for example, various input devices such as buttons, dials, and wheels, that is, an input device that can indicate a direction is adopted. be able to.
- the display unit 16 displays the swipe operation input amount on the input unit 15 according to the magnitude of the relative angle ⁇ (that is, the amount of movement of the finger while the user is touching).
- the amount of change that changes the display on the screen can be adjusted. For example, when the relative angle ⁇ is large, the touch operation terminal 11 increases the scrolling speed of the display screen with respect to the input amount of the swipe operation, and when the relative angle ⁇ is small, the touch screen 11 scrolls the display screen with respect to the input amount of the swipe operation.
- the operation process is performed so as to reduce the noise.
- the touch operation terminal 11 can perform an operation process so as to adjust the speed at which the cursor moves on the display screen with respect to the input amount of the swipe operation according to the magnitude of the relative angle ⁇ .
- the touch operation terminal 11 can adjust the scrolling speed of the display screen or the moving speed of the cursor displayed on the display screen according to the positional relationship between the user and the display unit 16.
- FIG. 6A shows a state where the user faces the display unit 16 facing the front
- FIG. 6B shows a state where the user leans and faces the display unit 16. The state is shown.
- the touch operation terminal 11 includes, for example, an imaging device (not shown), and can detect the relative angle between the user's eyes E and the display unit 16 from an image captured by the imaging device.
- an imaging device not shown
- the relative angle between the user's eyes E and the display unit 16 is detected as 90 °, and the touch operation is performed.
- the terminal 11 scrolls the display screen of the display unit 16 at a predetermined scroll speed V in the output direction described above.
- the touch operation terminal 11 can scroll the display screen of the display unit 16 at the scroll speed V ′ adjusted according to the angle ⁇ with respect to the scroll speed V.
- the touch operation terminal 11 can adjust the scroll speed of the display screen of the display unit 16 with respect to the input amount of the swipe operation on the input unit 15 according to the angle ⁇ , thereby providing a user interface that is easier to operate. Can be provided.
- the touch operation terminal 11 may adjust the moving speed of the cursor displayed on the display unit 16 with respect to the input amount of the swipe operation on the input unit 15 according to the angle ⁇ .
- the touch operation terminal 11 is not limited to the configuration having the hinge portion 14 as shown in FIG.
- the touch operation terminal 11 has a configuration that can be flexibly bent at an arbitrary position and can change the relative angle ⁇ between the input unit 15 and the display unit 16 at an arbitrary position. Can be adopted.
- FIG. 7 is a perspective view showing a configuration example of the second embodiment of the touch operation terminal to which the present technology is applied.
- 7A shows the front side of the touch operation terminal 51
- FIG. 7B shows the back side of the touch operation terminal 51.
- the touch operation terminal 51 is generally composed of a soft and flexible thin main body 52, a display unit 53 is arranged on the front side of the main unit 52, and an input unit 54 is arranged on the back side of the main unit 52. Has been configured. That is, the display unit 53 and the input unit 54 are arranged so as to face opposite sides.
- the input direction and the output direction are reversed as in the state where the relative angle ⁇ shown in D of FIG. 3 is 360 °.
- the display unit 53 is a flexible display, and similarly to the display unit 16 of FIG. 1, the display screen is controlled in the output direction in which the direction with respect to the input direction is switched according to the relative angle ⁇ .
- the input unit 54 is a flexible touch panel, and acquires operation information indicating an input direction in response to a user's swipe operation, like the input unit 15 of FIG.
- the touch operation terminal 51 incorporates an operation processing unit 21 (FIG. 2) mounted on a flexible substrate in the main body 52.
- the touch operation terminal 51 can be flexibly bent at an arbitrary position so that a part of the input unit 54 faces in the direction (front side) toward the display unit 53. That is, when the touch operation terminal 51 is bent, the relative angle between the display unit 53 and the input unit 54 is changed, and the relative angle can be detected by the relative angle detection unit 23 of the operation processing unit 21.
- the relative angle detection unit 23 detects that the relative angle is such that a part of the input unit 54 faces in the direction in which the display unit 53 faces, a part of the input unit 54 is detected. An image is displayed on (a part facing the front side of the page in FIG. 8).
- a part of the input unit 54 can input a swipe operation by the user.
- the output direction with respect to the input direction is switched between a swipe operation for a part of the input unit 54 facing the front side and a swipe operation for a part of the input unit 54 facing the back side. That is, according to the relative angle detected by the relative angle detection unit 23, the operation process is performed on the part of the input unit 54 that is determined to face the front side so that the input direction and the output direction are the same direction. .
- the touch operation terminal 51 by bending the touch operation terminal 51 in this way, a part of the input unit 54 faces the front side, so that the area of the back part of the touch operation terminal 51, that is, the area of the input unit 54 facing the back side is Narrow.
- the touch operation terminal 51 is bent in the opposite direction to that of FIG. 8, that is, when a part of the display unit 53 faces in the direction (back side) toward the input unit 54.
- the user interface displayed when the display unit 53 and the input unit 54 are bent can be changed.
- the touch operation terminal 51 operates the display screen displayed on the display unit 53 on a part of the input unit 54 facing the front side by bending the display unit 53 and the input unit 54.
- the menu screen 55 used for performing the operation can be displayed.
- the menu screen 55 displays one or more GUIs (Graphical User Interface).
- the touch operation terminal 51 detects that the terminal is bent, the menu screen 55 is displayed. Furthermore, the touch operation terminal 51 can detect a position to be bent, change the size of the menu screen 55 according to the position, and change the number of GUIs displayed on the menu screen 55. That is, if a part of the input unit 54 facing the front side is increased by bending the touch operation terminal 51, the menu screen 55 is displayed in a large size, and many GUIs are displayed on the menu screen 55.
- the touch operation terminal 51 in addition to switching the output direction with respect to the input direction according to the angle at which the display unit 53 and the input unit 54 are bent, the output amount (for example, scroll speed) with respect to the input amount may be adjusted. Furthermore, the touch operation terminal 51 can be folded into three or four in addition to the two folded as shown in FIGS. 8 and 9, and the operation process may be different depending on each folding method. .
- a semi-transparent member can be used as the display unit 53 and the input unit 54, and the display unit 53 can be visually recognized through the input unit 54 by bending. Good.
- the processes described with reference to the flowcharts described above do not necessarily have to be processed in chronological order in the order described in the flowcharts, but are performed in parallel or individually (for example, parallel processes or objects). Processing).
- the program may be processed by one CPU, or may be distributedly processed by a plurality of CPUs.
- the above-described series of processing can be executed by hardware or can be executed by software.
- a program constituting the software executes various functions by installing a computer incorporated in dedicated hardware or various programs.
- the program is installed in a general-purpose computer capable of recording from a program recording medium on which the program is recorded.
- FIG. 10 is a block diagram showing an example of the hardware configuration of a computer that executes the above-described series of processing by a program.
- a CPU 102 In the computer 101, a CPU 102, a ROM 103, a RAM 104, and an EEPROM 105 are connected to each other via a bus 106. Also, an input / output interface 107 is connected to the bus 106, and external devices such as the input unit 15 and the display unit 16 of FIG. 1 are connected to the input / output interface 107.
- the CPU 102 loads a program stored in, for example, the ROM 103 or the EEPROM 105 to the RAM 104 via the bus 106 and executes the program, thereby performing the above-described series of processing.
- the program executed by the computer is stored in advance in the ROM 103 or the EEPROM 105, and is provided via, for example, a recording medium (not shown) or various communication networks, and can be installed in the EEPROM 105.
- this technique can also take the following structures.
- An input direction acquisition unit that acquires information indicating an input direction according to the direction generated in response to an operation for instructing a direction performed on an input unit to which an operation is input;
- An output direction instruction unit for instructing an output direction that is a direction in which an image of the display unit is changed in response to an operation on the input unit with respect to a display unit that displays an image;
- An operation processing apparatus comprising: a determining unit that determines an orientation of the output direction with respect to the input direction according to a relative positional relationship between the input unit and the display unit.
- connection part for connecting the input part and the display part to be openable and closable;
- the operation processing apparatus wherein the determination unit determines a direction of the output direction with respect to the input direction according to a relative angle between the input unit and the display unit with the connection unit as a center.
- the connection unit connects the input unit and the display unit so that the input unit and the display unit can be opened and closed in a range from an angle at which the input unit and the display unit face each other to an angle at which the input unit and the display unit face opposite sides.
- the operation processing apparatus according to (1) or (2) above.
- the output amount along the output direction with respect to the input amount along the input direction is adjusted.
- any one of (1) to (3) The operation processing device described. (5)
- the output amount along the output direction with respect to the input amount along the input direction is adjusted according to the relative positional relationship between the user who inputs to the input unit and the display unit.
- (1) to (4) The operation processing apparatus according to any of the above.
- the input unit and the display unit are configured to have flexibility that can be flexibly bent at an arbitrary position, and are arranged to face opposite sides. Any one of (1) to (5) The operation processing device according to 1. (7) When the input unit and the display unit are bent so that a part of the input unit faces in the direction of the display unit, the input unit and the display unit are part of the input unit facing the same direction as the display unit.
- the operation processing apparatus according to any one of (1) to (6), wherein an image is displayed.
- An image serving as an interface for performing an operation on the image displayed on the display unit is displayed on a part of the input unit facing the same direction as the display unit.
- (1) to (7) The operation processing device according to any one of the above. (9) Depending on the position where the input unit and the display unit are bent, the content of the interface of the operation screen, which is an image displayed on a part of the input unit, changes to any one of (1) to (8) above The operation processing device described.
- 11 touch operation terminal 12 first housing, 13 second housing, 14 hinge unit, 15 input unit, 16 display unit, 21 operation processing unit, 22 input direction acquisition unit, 23 relative angle detection unit, 24 output Direction determination unit, 25 display instruction unit, 51 touch operation terminal, 52 main body, 53 display unit, 54 input unit
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Abstract
Description
(1)
操作が入力される入力部に対して行われる方向を指示する操作に応じて生成される前記方向に従った入力方向を示す情報を取得する入力方向取得部と、
画像を表示する表示部に対して、前記入力部に対する操作に応答して前記表示部の画像を変化させる方向である出力方向を指示する出力方向指示部と、
前記入力部と前記表示部との相対的な位置関係に従って、前記入力方向に対する前記出力方向の向きを決定する決定部と
を備える操作処理装置。
(2)
前記入力部および前記表示部を開閉可能に接続する接続部をさらに備え、
前記決定部は、前記接続部を中心とした前記入力部および前記表示部の相対的な角度に従って、前記入力方向に対する前記出力方向の向きを決定する
上記(1)に記載の操作処理装置。
(3)
前記接続部は、前記入力部および前記表示部が互いに向かい合う角度から、前記入力部および前記表示部が互いに反対側を向く角度までの範囲で、前記入力部および前記表示部を開閉可能に接続する
上記(1)または(2)に記載の操作処理装置。
(4)
前記入力部と前記表示部との相対的な位置関係に従って、前記入力方向に沿った入力量に対する前記出力方向に沿った出力量が調整される
上記(1)から(3)までのいずれかに記載の操作処理装置。
(5)
前記入力部に対する入力を行うユーザと前記表示部との相対的な位置関係に従って、前記入力方向に沿った入力量に対する前記出力方向に沿った出力量が調整される
上記(1)から(4)までのいずれかに記載の操作処理装置。
(6)
前記入力部および前記表示部は、任意の箇所で柔軟に折り曲げることが可能なフレキシブル性を備えて構成され、互いに反対側を向くように配置される
上記(1)から(5)までのいずれかに記載の操作処理装置。
(7)
前記入力部および前記表示部が折り曲げられることによって、前記表示部の向く方向に前記入力部の一部が向く状態である場合には、前記表示部と同方向を向く前記入力部の一部に画像が表示される
上記(1)から(6)までのいずれかに記載の操作処理装置。
(8)
前記表示部と同方向を向く前記入力部の一部には、前記表示部に表示されている画像に対する操作を行う際のインタフェースとなる画像が表示される
上記(1)から(7)までのいずれかに記載の操作処理装置。
(9)
前記入力部および前記表示部が折り曲げられる位置に応じて、前記入力部の一部に表示される画像である操作画面のインタフェースの内容が変化する
上記(1)から(8)までのいずれかに記載の操作処理装置。
Claims (11)
- 操作が入力される入力部に対して行われる方向を指示する操作に応じて生成される前記方向に従った入力方向を示す情報を取得する入力方向取得部と、
画像を表示する表示部に対して、前記入力部に対する操作に応答して前記表示部の画像を変化させる方向である出力方向を指示する出力方向指示部と、
前記入力部と前記表示部との相対的な位置関係に従って、前記入力方向に対する前記出力方向の向きを決定する決定部と
を備える操作処理装置。 - 前記入力部および前記表示部を開閉可能に接続する接続部をさらに備え、
前記決定部は、前記接続部を中心とした前記入力部および前記表示部の相対的な角度に従って、前記入力方向に対する前記出力方向の向きを決定する
請求項1に記載の操作処理装置。 - 前記接続部は、前記入力部および前記表示部が互いに向かい合う角度から、前記入力部および前記表示部が互いに反対側を向く角度までの範囲で、前記入力部および前記表示部を開閉可能に接続する
請求項2に記載の操作処理装置。 - 前記入力部と前記表示部との相対的な位置関係に従って、前記入力方向に沿った入力量に対する前記出力方向に沿った出力量が調整される
請求項1に記載の操作処理装置。 - 前記入力部に対する入力を行うユーザと前記表示部との相対的な位置関係に従って、前記入力方向に沿った入力量に対する前記出力方向に沿った出力量が調整される
請求項1に記載の操作処理装置。 - 前記入力部および前記表示部は、任意の箇所で柔軟に折り曲げることが可能なフレキシブル性を備えて構成され、互いに反対側を向くように配置される
請求項1に記載の操作処理装置。 - 前記入力部および前記表示部が折り曲げられることによって、前記表示部の向く方向に前記入力部の一部が向く状態である場合には、前記表示部と同方向を向く前記入力部の一部に画像が表示される
請求項6に記載の操作処理装置。 - 前記表示部と同方向を向く前記入力部の一部には、前記表示部に表示されている画像に対する操作を行う際のインタフェースとなる画像が表示される
請求項7に記載の操作処理装置。 - 前記入力部および前記表示部が折り曲げられる位置に応じて、前記入力部の一部に表示される画像である操作画面のインタフェースの内容が変化する
請求項8に記載の操作処理装置。 - 操作が入力される入力部に対して行われる方向を指示する操作に応じて生成される前記方向に従った入力方向を示す情報を取得し、
画像を表示する表示部に対して、前記入力部に対する操作に応答して前記表示部の画像を変化させる方向である出力方向を指示し、
前記入力部と前記表示部との相対的な位置関係に従って、前記入力方向に対する前記出力方向の向きを決定する
ステップを含む操作処理方法。 - 操作が入力される入力部に対して行われる方向を指示する操作に応じて生成される前記方向に従った入力方向を示す情報を取得し、
画像を表示する表示部に対して、前記入力部に対する操作に応答して前記表示部の画像を変化させる方向である出力方向を指示し、
前記入力部と前記表示部との相対的な位置関係に従って、前記入力方向に対する前記出力方向の向きを決定する
ステップを含む操作処理をコンピュータに実行させるプログラム。
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US17/093,819 US11487368B2 (en) | 2012-07-10 | 2020-11-10 | Operation processing device and operation processing method for controlling display unit based on change in output direction of display unit |
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US20180129318A1 (en) | 2018-05-10 |
US10248234B2 (en) | 2019-04-02 |
US20150277600A1 (en) | 2015-10-01 |
JPWO2014010458A1 (ja) | 2016-06-23 |
US9891729B2 (en) | 2018-02-13 |
US20190196616A1 (en) | 2019-06-27 |
US20210055812A1 (en) | 2021-02-25 |
US11487368B2 (en) | 2022-11-01 |
US10860121B2 (en) | 2020-12-08 |
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