JP2012008987A - Electronic apparatus - Google Patents

Abstract

To provide an electronic device capable of inputting a necessary operation with a simple operation and a short operation.
A displacement detection unit that includes a display unit and a contact surface and detects a change in an object in contact with the contact surface, and a displacement per unit time of the object based on the displacement detected by the displacement detection unit A first detection unit for detecting the amount, a second detection unit for integrating the displacement amounts detected by the first detection unit and detecting the integrated value, and a first operation when the displacement amount exceeds a displacement threshold value A signal generation unit that generates a second operation signal when the displacement amount is equal to or less than a displacement amount threshold value and the displacement amount integration value exceeds the integration value threshold value. And a control unit that performs different operations on the first operation signal and the second operation signal input from the input device operation and controls an image to be displayed on the display unit.
[Selection] Figure 6

Description

  The present invention relates to an electronic device having an input unit.

  Electronic devices, for example, portable electronic devices such as mobile phones, PDAs, portable navigation devices, and portable game machines, and fixed electronic devices such as personal computers (PCs) are provided with an operation unit for inputting operations. Examples of the operation unit include a keyboard, a touch panel, and a mouse.

  In addition, as a pointing device for mainly operating a cursor, a pointer, an icon, etc., a mouse, a lever, a direction key for inputting up / down / left / right directions as described in Patent Document 1, and Patent Document 2 are described. There is a pointing device that detects a change in contact (movement of a ridge of a finger) on the contact surface (surface).

JP 2009-295155 A JP 2006-268852 A

  Here, using an optical sensor as described in Patent Document 2, an operation unit that detects a change in contact with the contact surface and operates a cursor, a pointer, an icon, and the like is configured as an operation unit. There is an advantage that can be further downsized.

  Here, when using a pointing device to move the cursor to a list with multiple items displayed, to move the cursor on a file with a large text or image displayed on the screen display area, etc. In order to move the cursor and pointer for a long distance, it is necessary to input an operation in the same direction many times. Therefore, in an apparatus that detects an operation based on a change in contact with the contact surface, the contact with the contact surface must be continuously changed. For example, the user must keep moving the finger to move the cursor position. For this reason, the operation becomes complicated, and it takes time until a desired screen is displayed.

  The present invention has been made in view of the above, and an object of the present invention is to provide an electronic device that can input a necessary operation with a simple operation and a short operation.

  In order to solve the above-described problems and achieve the object, the present invention includes a casing, a display unit that is exposed on the surface of the casing, and a detection surface that is exposed on the surface of the casing. A displacement detector for detecting the displacement of the object in contact with the detection surface, a first detector for detecting an instantaneous value of the displacement detected by the displacement detector, and a displacement detected by the displacement detector A second detection unit that detects an integrated value of the control unit, an instantaneous value, a signal generation unit that generates an operation signal based on the integrated value, and a control unit that controls the operation of each unit, and the control unit Is configured to determine an operation to be executed by each unit based on an operation signal input from the signal generation unit.

  In order to solve the above-described problems and achieve the object, the present invention includes a casing, a display unit that is exposed on the surface of the casing, and a detection surface that is exposed on the surface of the casing. A displacement detector for detecting the displacement of the object in contact with the detection surface, a first detector for detecting an instantaneous value of the displacement detected by the displacement detector, and a displacement detected by the displacement detector A second detection unit that detects an integrated value of the first detection signal, and when the instantaneous value exceeds a displacement threshold value, generates a first operation signal, the instantaneous value is equal to or less than a displacement threshold value, and When the integrated value exceeds the integrated threshold value, the signal generator that generates the second operation signal, and the first operation signal input from the signal generator and the second operation signal are different operations. And a control unit that controls an image to be displayed on the display unit. To.

  Here, it is preferable that when the second detection unit outputs either the first operation signal or the second operation signal, the second detection unit determines that the object has moved and initializes the integrated value.

  In addition, the displacement detection unit continuously acquires images of the contact surface, processes the images, detects displacements of feature points of the target object, and detects the detected displacements of the feature points of the target object. It is preferable to detect it as a displacement.

  Moreover, it is preferable that the said displacement detection part acquires the light of the invisible area | region to the said contact surface, acquires the light reflected on the said contact surface, and acquires the image of the said contact surface.

  It is preferable that the detection of the instantaneous value by the first detection unit and the calculation of the integrated value by the second detection unit are processed in parallel.

  In addition, the control unit arranges a plurality of items that can be selected by the cursor on the column based on a display rule on the display unit, and displays a screen in which one of the items is designated by the cursor. When the first operation signal is inputted, a predetermined number of lists for displaying items to be displayed on the display unit are switched based on the display rule. When the second operation signal is inputted, the cursor designates the list. Preferably, the item is switched to an adjacent item.

  Moreover, it has a moving direction detection part which detects the moving direction of the said object based on the change of the target object detected by the said displacement detection part, The said control part is the moving direction detected by the said moving direction detection part. It is preferable to execute the operation based on the above.

  Further, it is preferable that the signal generation unit sets the displacement threshold value with a plurality of displacement amounts, and switches an operation signal to be generated according to the detected instantaneous value.

  The object is preferably the tip of a finger or a rod-like object.

  The electronic device according to the present invention has an effect that a necessary operation can be input with a simple operation and a short operation.

FIG. 1 is a front view showing an appearance of a mobile phone terminal. FIG. 2 is a diagram illustrating a virtual keyboard displayed on the touch panel. FIG. 3 is a cross-sectional view illustrating a schematic configuration of the input device. FIG. 4 is a surface view showing a schematic configuration of the input device. FIG. 5 is an explanatory diagram for explaining an example of the input operation. FIG. 6 is a block diagram showing a schematic configuration of functions of the mobile phone terminal. FIG. 7 is an explanatory diagram for explaining the operation of the input device. FIG. 8 is an explanatory diagram for explaining the operation of the input device. FIG. 9 is an explanatory diagram for explaining the operation of the input device. FIG. 10 is an explanatory diagram for explaining the operation of the input device. FIG. 11 is a flowchart showing an example of the operation of the mobile phone terminal. FIG. 12A is an explanatory diagram for explaining the operation of the mobile phone terminal. FIG. 12-2 is an explanatory diagram for explaining the operation of the mobile phone terminal. FIG. 12C is an explanatory diagram for explaining the operation of the mobile phone terminal. FIG. 13 is a front view showing the appearance of another embodiment of the mobile phone terminal. FIG. 14 is a side view of the mobile phone terminal shown in FIG.

  Hereinafter, the present invention will be described in detail with reference to the drawings. The present invention is not limited to the following description. In addition, constituent elements in the following description include those that can be easily assumed by those skilled in the art, those that are substantially the same, and those in a so-called equivalent range. In the following, a mobile phone terminal will be described as an example of an electronic device. However, the application target of the present invention is not limited to a mobile phone terminal, and various devices including an input unit, such as a PHS (Personal Handyphone System), The present invention can also be applied to PDAs, portable navigation devices, personal computers, game machines, and the like.

  FIG. 1 is a front view showing an appearance of a mobile phone terminal 1 which is an embodiment of the character input device of the present invention, and the mobile phone terminal 1 has a thin plate-like casing 12. In the mobile phone terminal 1, a touch panel 2, an input unit 3 including a button 20, a button 22, and an input device 24, a receiver 7, and a microphone 8 are arranged on the surface of the housing 12. The touch panel 2 is disposed on the surface having the widest area of the plate-shaped housing 12. Moreover, the input part 3 is also arrange | positioned at one edge part of the longitudinal direction of the surface in which the touch panel 2 of the housing 12 is arrange | positioned. The input unit 3 is arranged in the order of the button 20, the input device 24, and the button 22 from one side to the other side in the short direction. Moreover, the receiver 7 is arrange | positioned at the other edge part of the longitudinal direction of the surface where the touch panel 2 of the housing | casing 12 is arrange | positioned, ie, the edge part on the opposite side to the edge part in which the input part 3 is arrange | positioned. . Moreover, the receiver 7 is arrange | positioned at the edge part of the longitudinal direction of the surface in which the touch panel 2 of the housing 12 is arrange | positioned, ie, the edge part in which the input part 3 is arrange | positioned.

  The touch panel 2 displays characters, figures, images, and the like, and is performed on the touch panel 2 using a finger, a stylus, a pen (a tip of a pen, a tip of a rod-like member) or the like (hereinafter simply referred to as “finger”). Detect various actions. Here, FIG. 2 is a diagram illustrating a virtual keyboard displayed on the touch panel. For example, the cellular phone terminal 1 displays a virtual keyboard 4 on the touch panel 2 as shown in FIG. 2 in order to accept input of characters from the user. The mobile phone terminal 1 detects various operations input to the touch panel 2 with a finger while displaying the virtual keyboard 4 on the touch panel 2, and detects which key of the virtual keyboard 4 is pressed or touched. The character input can be performed by using the key that has been detected as being pressed or touched as the input key. Moreover, the touch panel 2 detects the input of various operations based on the displayed image and various operations performed on the touch panel 2 with a finger regardless of the input of characters, and based on the input operations. Various controls.

  When the buttons 20 and 22 are pressed, the input unit 3 activates a function corresponding to the pressed button. The input unit 3 also detects an operation input to the input device 24 as an operation, and performs various controls based on the input operation. Hereinafter, the configuration of the input device 24 will be described with reference to FIGS. 3 to 5. Here, FIG. 3 is a cross-sectional view showing a schematic configuration of the input device, FIG. 4 is a front view showing the schematic configuration of the input device, and FIG. 5 is an explanatory diagram for explaining an example of an input operation. It is.

  The input device 24 includes a light source 30, an optical unit 32, a sensor 34, a processing unit 36, and a contact surface 38, and the movement of the finger F that contacts the contact surface 38 exposed on the surface of the housing 12. By detecting and analyzing, an operation input by the finger F is detected. In this embodiment, the movement of the finger F is used. However, any object that touches the contact surface 38 and can detect a change in the contact, that is, a movement, can be used as an object for inputting an operation. Can do. As the object, a finger, a stylus, a pen, or the like can be used as in the touch panel 2 described above. The contact surface 38 is formed of a material whose light reflection characteristics change when an object such as a finger F contacts the surface. The contact surface 38 has a circular exposed surface. In addition, the touch panel 2 is arrange | positioned in the vicinity of the input device 24, and the touch panel 2 is comprised by the display part 2B and the touch sensor 2A superimposed on the display part 2B.

  The light source 30 is a light source that outputs light. As the light source, an LED (Light Emitting Diode), a laser diode, or the like can be used. As the light source, it is preferable to use a light source that outputs light having a constant wavelength, particularly a wavelength in an invisible region. By using light with a wavelength in the invisible region, even if light is emitted from the contact surface 38 to the outside, it can be prevented from being recognized, and the user can be prevented from feeling dazzling. In addition, since the optical unit can be simplified, it is preferable to use a light source that emits light with high directivity.

  The optical unit 32 is a mechanism that constitutes a light path that guides the light output from the light source 30 to the sensor 34 after reaching the contact surface 38, and includes a mirror 32a and an optical system 32b. The mirror 32 a reflects the light output from the light source 30 and deflects it toward the contact surface 38. The optical system 32 b is composed of an optical member that collects and refracts light, and deflects the light reflected by the contact surface 38 toward the sensor 34.

  The sensor 34 is a light detection element that detects light reflected by the contact surface 38. The sensor 34 has a flat detection surface, and acquires an image of the contact surface 38 by detecting the distribution of the intensity of light incident on each position on the flat surface. The sensor 34 sends the detected result (image) to the processing unit 36. The processing unit 36 is an input processing unit (DSP, Digital Signal Processor), and detects the movement of the finger F based on the detection result of the sensor 34. The processing unit 36 will be described later.

  The input device 24 is configured as described above, and the light output from the light source 30 is guided by the optical unit 32 so as to be reflected by the contact surface 38 and then incident on the sensor 34. Thereafter, the input device 24 sends information on the distribution of the light incident on the sensor 34 to the processing unit 36, and the processing unit 36 analyzes the detection result to thereby detect the finger F (target object) in contact with the contact surface 38. ) Shape is detected. As described above, the input device 24 repeats detection of the shape of the finger F in contact with the contact surface 38 every predetermined time, thereby changing the shape of the finger F in contact with the contact surface 38, that is, the finger The movement of F and the movement of the finger F are detected. The input device 24 detects the image of the finger F, thereby detecting the unevenness (such as a fingerprint) of the finger F, detects a feature point from the fingerprint, and detects the movement of the feature point, thereby detecting the finger. Movement can be detected. Further, FIG. 3 shows a state in which only one portion of the contact surface 38 is detected, but an image of the entire area of the contact surface 38 can be acquired (detected) by arranging a plurality of similar units. it can.

  Here, in the input device 24, as shown in FIG. 4, the area of the contact surface 38 is divided into a first area 40, a second area 42, a third area 44, and a fourth area 46. Has been. Here, the first region 40 is a region between 315 ° and 45 ° when the point closest to the touch panel 2 is 0 ° with the center of the contact surface 38 as the center. Similarly, the second region 42 is a region between 135 ° and 225 °. The third region 42 is a region between 225 ° and 315 °. The fourth region 42 is a region between 45 ° and 135 °.

  For example, when the input device 24 displays an image with the longitudinal direction in the vertical direction on the touch panel 2, the finger F (an arbitrary feature point of the finger F) has moved from the first region 40 to the second region 42. If this is detected, it is determined that an instruction to move the operation target such as the cursor downward is input. In addition, as illustrated in FIG. 5, when the finger F moves in the X direction and the input device 24 detects that the finger F has moved from the third area 44 to the fourth area 46, the operation target is moved to the right direction. It is determined that an instruction to move has been input. In this way, the input device 24 divides the area, and by detecting which area the finger has moved from which area to which of the four directions (up, down, left, and right) is input. Can be determined. That is, the input device 24 can be suitably used as a direction key.

  Next, the relationship between the function of the mobile phone terminal 1 and the control unit will be described. FIG. 6 is a block diagram showing a schematic configuration of functions of the mobile phone terminal 1 shown in FIG. As shown in FIG. 6, the mobile phone terminal 1 includes a touch panel 2, an input unit 3, a power supply unit 5, a communication unit 6, a receiver 7, a microphone 8, a storage unit 9, a main control unit 10, A RAM (Random Access Memory) 11 is included.

  As described above, the touch panel 2 includes the display unit 2B and the touch sensor 2A superimposed on the display unit 2B. The touch sensor 2A detects various operations performed on the touch panel 2 using a finger together with the position on the touch panel 2 where the operation is performed. The operations detected by the touch sensor 2 </ b> A include an operation of bringing a finger into contact with the surface of the touch panel 2, an operation of moving a finger while keeping the surface in contact with the surface of the touch panel 2, and an operation of moving the finger away from the surface of the touch panel 2. It is. The touch sensor 2A may employ any detection method such as a pressure-sensitive method or an electrostatic method. The display unit 2B includes, for example, a liquid crystal display (LCD), an organic EL (Organic Electro-Luminescence) panel, and the like, and displays characters, figures, images, and the like.

  The input unit 3 includes the buttons 20 and 22 and the input device 24 as described above. The buttons 20 and 22 receive a user operation through physical input (pressing), and transmit a signal corresponding to the received operation to the main control unit 10. The input device 24 will be described later.

  The power supply unit 5 supplies power obtained from a storage battery or an external power supply to each functional unit of the mobile phone terminal 1 including the main control unit 10. The communication unit 6 establishes a radio signal line by a CDMA system or the like with a base station via a channel assigned by the base station, and performs telephone communication and information communication with the base station. The receiver 7 outputs the other party's voice, ringtone, and the like in telephone communication. The microphone 8 converts the voice of the user or the like into an electrical signal.

  The storage unit 9 is, for example, a nonvolatile memory or a magnetic storage device, and stores programs and data used for processing in the main control unit 10. Specifically, the storage unit 9 performs a control operation based on an input operation input to the mail program 9A for mail transmission / reception or browsing, a browser program 9B for browsing a WEB page, or the input device 24, Processing including an input processing program 9C for determining processing, virtual keyboard data 9D including definitions relating to a virtual keyboard displayed on the touch panel 2 when characters are input, and a condition in which an input operation detected in the input processing is associated with a control operation The condition table 9E is stored. The storage unit 9 also stores other programs and data such as an operating system program that realizes basic functions of the mobile phone terminal 1 and address book data in which names, telephone numbers, mail addresses, etc. are registered. The The storage unit 9 also stores a program for determining a control operation and processing based on an input operation input to the touch panel 2. The control operations and processes include various operations and processes executed by the mobile electronic device 1. For example, a cursor, a pointer movement, a screen display switching, a character input process, various application activation processes, and an end process are included. is there.

  The main control unit 10 is, for example, a CPU (Central Processing Unit), and comprehensively controls the operation of the mobile phone terminal 1. Specifically, the main control unit 10 executes the program stored in the storage unit 9 while referring to the data stored in the storage unit 9 as necessary, so that the touch panel 2, the input unit 3, Various processes are executed by controlling the communication unit 6 and the like. The main control unit 10 expands the program stored in the storage unit 9 and the data acquired / generated / processed by executing the process to the RAM 11 that provides a temporary storage area as necessary. The program executed by the main control unit 10 and the data to be referred to may be downloaded from the server device by wireless communication by the communication unit 6.

  Next, the input device 24 will be described with reference to FIGS. As illustrated in FIG. 6, the input device 24 includes a displacement detection unit 50, a first detection unit 52, a second detection unit 54, a direction detection unit 56, and a signal generation unit 58. In addition, a part of the displacement detection unit 50, the first detection unit 52, the second detection unit 54, the direction detection unit 56, and the signal generation unit 58 are functional units that execute arithmetic processing, and the processing unit It is executed by the processing unit constituting 36. The functions of a part of the displacement detector 50, the first detector 52, the second detector 54, the direction detector 56, and the signal generator 58 are executed by one application software and program. However, it may be executed by a separate application software or program for each function. Further, in the present embodiment, the processing unit 36 and the main control unit 10 are provided separately, but both functions may be executed by one CPU. Further, some functions of the processing unit 36 may be executed by the main control unit 10.

  The displacement detection unit 50 includes the light source 30, the optical unit 32, the sensor 34, a part of the function of the processing unit 36, and the contact surface 38. The displacement detection unit 50 detects the displacement (movement) of the object by acquiring and analyzing the image of the contact surface 38 by the above-described processing. Here, FIG. 7 is an explanatory diagram for explaining the operation of the input device. As shown in FIG. 7, the displacement detection unit 50 performs detection every predetermined time (20 ms) (acquires polling data), and detects that there is a change in the image on the contact surface or some kind of contact. The process for detecting the displacement is started.

  The first detection unit 52 detects a displacement amount (instantaneous value) per unit time from the information on the image detected by the displacement detection unit 50 or the information on the displacement of the object. The first detection unit 52 detects the displacement amount per unit time, and detects the detected displacement amount as an instantaneous value. The unit time can be variously set. That is, the unit time may be a set fixed time. For example, the set time elapses even when the detection is performed by the displacement detection unit 50. It may be done every time. The first detection unit 52 sends the detected instantaneous value to the signal generation unit 58.

  The second detection unit 54 integrates the instantaneous values detected by the first detection unit 52 and calculates an integrated value of the displacement amount. That is, the second detection unit 54 calculates the total amount of displacement after starting the integration. In this embodiment, the instantaneous value detected by the first detection unit 52 is used. However, the instantaneous value is calculated by a separate process from the first detection unit 52 and the displacement amount is integrated. Good. That is, the second detection unit 54 only needs to be able to detect the integrated value of the displacement detected by the displacement detection unit 50, and the detection method is not limited. The second detection unit 54 sends the integrated value of the detected displacement amount to the signal generation unit 58. Further, when the instruction for initializing the integrated value is input from the signal generating unit 58 or the like, the second detecting unit 54 initializes the integrated value, that is, sets the value to 0, and uses the instantaneous value detected after the initialization to perform the displacement again. Start accumulating quantities.

  The movement direction detection unit 56 detects the direction of displacement detected by the displacement detection unit 50, and detects the direction in which the object has moved. That is, the movement direction detection unit 56 detects whether the object has moved from the first area 40 to the fourth area 46 or from the first area 40 to the fourth area 46, and the detected movement direction. Is sent to the signal generator 58.

  The signal generation unit 58 generates an operation signal based on information sent from the first detection unit 52, the second detection unit 54, and the direction detection unit 56, and outputs the generated operation signal to the main control unit 10. Send to. First, in the signal generation unit 58, threshold values are set for the instantaneous value and the integrated value of the displacement amount, respectively. Specifically, for the instantaneous value, a displacement threshold value (displacement threshold value, speed detection level), which is a displacement threshold value, is set. In this case, an integrated value threshold value (integrated threshold value, key detection level) that is a threshold value of the integrated value of the displacement amount is set. When the displacement amount is used as a reference, the displacement amount threshold value is set to be larger than the integrated value threshold value. The signal generation unit 58 compares the instantaneous value sent from the first detection unit 52 with the threshold value, compares the integrated displacement value sent from the second detection unit 54 with the threshold value, and compares the result. Based on the above, an operation signal is generated. In the present embodiment, the signal generation unit 58 generates a first operation signal when the instantaneous value sent from the first detection unit 52 exceeds the displacement threshold value, and is sent from the second detection unit 54. If the integrated value of the displacement amount exceeds the threshold value of the integrated value, a second operation signal is generated. In addition, the signal generation unit 58 has the same detection timing, the instantaneous value sent from the first detection unit 52 exceeds the displacement threshold value, and the integrated displacement value sent from the second detection unit 54 is integrated. When the value threshold is exceeded, a first operation signal is generated. Further, the signal generator 58 generates a first operation signal or a second operation signal, and outputs the generated operation signal to the main controller 10, and then outputs an integrated value initialization instruction to the second detector 54. Accordingly, the second detection unit 54 initializes the integrated value every time the first operation signal or the second operation signal is transmitted to the main control unit 10.

  In addition, the signal generation unit 58 generates an operation signal indicating the movement direction based on the information on the movement direction sent from the movement direction detection unit 56 and sends the operation signal to the main control unit 10. Note that the signal generation unit 58 may generate the operation signal indicating the moving direction when generating the first operation signal or the second operation signal, but the generation of the first operation signal and the second operation signal is not limited. Regardless, an operation signal indicating the moving direction may be generated.

  The input device 24 is configured as described above, and detects an input by the user as both an instantaneous value and an integrated value of a variable, and generates different operation signals based on the detection result. That is, the input device 24 executes the instantaneous value control and the integrated value control in parallel.

  Next, an input device detection operation will be described with reference to FIGS. Here, FIG. 8 to FIG. 10 are explanatory diagrams for explaining the operation of the input device, respectively. FIG. 8 is a graph showing the relationship between the detected instantaneous value and integrated value and time. In FIG. 8, the vertical axis is the displacement (instantaneous value) or integrated value, and the horizontal axis is time. FIG. 8 shows a state in which a displacement in an arbitrary straight direction, for example, a vertical direction and a horizontal direction is detected. FIGS. 9 and 10 are graphs showing the relationship between the instantaneous value and the integrated value and time when the input device 24 detects an operation once. 9 and 10, the vertical axis represents the displacement (Delta X) [count], and the horizontal axis represents time [ms]. The displacement amount unit count is a displacement amount detection unit (for example, the number of moved pixels) in the input device.

  The input device 24 can calculate the displacement amount in each unit time as shown in FIG. 8 by detecting the instantaneous value by the first detection unit 52 based on the value detected by the displacement detection unit 50. . Based on the value detected by the displacement detector 50, the integrated value of the displacement amount is calculated by the second detector 54 as shown in FIG. 8 by detecting the integrated value of the displacement amount. it can. Further, by detecting the movement direction based on the detection result of the movement direction detection unit 56, it is possible to determine whether the displacement is a positive displacement amount or a negative displacement amount (a direction opposite to the positive direction). Can be detected. The signal generator 58 performs instantaneous value control based on the detected instantaneous value and integrated value control based on the integrated value in parallel. In the example illustrated in FIG. 8, “INTE_THRESH” is set as the threshold value of the integrated value, and “SPEED_THRESH_MIDDLE” is greater than “SPEED_THRESH_MIDDLE” as the threshold value of the displacement amount. "Is set.

  The signal generator 58 generates the second operation signal when the instantaneous value does not exceed the threshold value and the integrated value exceeds the threshold value, that is, when the singular point 60 and the singular point 62 are reached. Further, when the signal generation unit 58 detects a displacement amount exceeding the threshold value as an instantaneous value, that is, when an instantaneous value that becomes the singular points 64 and 66 is detected, the signal generation unit 58 generates a first operation signal. Further, when the signal generation unit 58 detects the singular points 60, 62, 64, 66 and generates the operation signal, the integrated value is initialized to zero.

  By performing the control as described above, for example, as shown in FIG. 9, the signal generation unit 58 causes the integrated value to exceed the threshold value 72, that is, the Key detection level (the integrated value threshold value). At the same time, if the instantaneous value exceeds the threshold 74, that is, the speed detection level (displacement amount threshold), it is determined in FIG. 9 that the finger is moved at a speed faster than a constant speed when the time is 20 ms. The first operation signal is generated.

  Further, for example, as shown in FIG. 10, when the integrated value exceeds the threshold value 72 before the instantaneous value exceeds the threshold value 74 as shown in FIG. Then, it is determined that the finger is moved at a certain speed or less and a certain distance or more, and a second operation signal is generated.

  Next, an operation when the cellular phone terminal 1 accepts an operation on the input device will be described. FIG. 11 is a flowchart showing an example of the operation of the mobile phone terminal. 12A to 12C are explanatory diagrams for explaining the operation of the mobile phone terminal. 11 to 12-3 are examples of operations of the portable electronic terminal 1 and the input device 24 when a plurality of items are displayed on the list on the display unit 2B of the touch panel 2. In this example, the image of the item displayed on the display unit 2B is larger than the display area of the display unit 2B. That is, this is an example of displaying a list having a number of items that cannot be displayed at a time on the display unit 2B. Each operation of the cellular phone terminal 1 shown in FIGS. 11 to 12-3 is processed by transmitting and receiving information in both the processing unit 36 and the main control unit 10 of the input device 24.

  First, the cellular phone terminal 1 detects an instantaneous value by the first detection unit 52 of the input device 24 as step S11. When the mobile phone terminal 1 detects the instantaneous value in step S11, in step S12, the signal generation unit 58 determines whether the detected instantaneous value exceeds a threshold value (threshold value of the displacement amount). It is determined whether threshold value <instantaneous value.

  If the mobile phone terminal 1 determines that the instantaneous value exceeds the threshold value in step S12 (Yes in step S12), that is, the displacement threshold value <the instantaneous value, in step S14, the signal generation unit 58 The first operation signal is generated, and the first operation signal is output to the main control unit 10. Thereafter, the mobile phone terminal 1 causes the main control unit 10 to scroll the screen as step S16. Here, when receiving the first operation signal, the main control unit 10 extracts and determines an operation corresponding to the first operation signal from the condition table, and performs the determined operation. In this example, when a plurality of items (objects) are displayed on the screen, the operation of scrolling the display for one screen (items for a certain number) is associated with the first operation signal. Thus, when receiving the first operation signal, the main control unit 10 scrolls the screen by one screen. The direction in which the screen is scrolled is a direction corresponding to the displacement direction of the object. When the cellular phone terminal 1 ends the process of step S16, the process proceeds to step S24.

  Further, when the mobile phone terminal 1 determines in step S12 that the instantaneous value does not exceed the threshold value (No in step S12), that is, whether the displacement threshold value ≧ the instantaneous value, step S17 is performed. The integrated value is detected by the 2 detector 54. Note that the processing in step S17 may be performed simultaneously with step S11. When the cellular phone terminal 1 detects the integrated value in step S17, in step S18, the signal generation unit 58 determines whether the detected integrated value exceeds a threshold value (threshold value of the integrated value). It is determined whether threshold value <integrated value. If the mobile phone terminal 1 determines in step S18 that the integrated value does not exceed the threshold value (No in step S18), that is, if the integrated value threshold value ≧ integrated value, the process proceeds to step S11. Repeat the above process. That is, the mobile phone terminal 1 (input device 24) repeats the processes of step S11, step S12, step S17, and step S18 until either the instantaneous value or the integrated value exceeds the threshold value.

  If the mobile phone terminal 1 determines that the integrated value exceeds the threshold value in step S18 (Yes in step S18), that is, the integrated value threshold value <the integrated value, the signal generation unit 58 performs step S20. The second operation signal is generated, and the second operation signal is output to the main control unit 10. Thereafter, in step S22, the mobile phone terminal 1 causes the main control unit 10 to move one cursor. Here, when receiving the second operation signal, the main control unit 10 extracts and determines an operation corresponding to the second operation signal from the condition table, and performs the determined operation. In this example, when a plurality of items are displayed on the list on the screen, the operation of moving the cursor designating the item to the next item is associated with the second operation signal. Thus, when receiving the second operation signal, the main control unit 10 moves the cursor displayed on the screen by one item. The direction in which the cursor is moved is a direction corresponding to the displacement direction of the object. When the cellular phone terminal 1 ends the process of step S16, the process proceeds to step S24.

  After performing the process of step S16 or step S22, the cellular phone terminal 1 initializes the integrated value calculated by the second detection unit 54 as step S24, sets it to 0, and then ends the process. Note that the cellular phone terminal 1 repeats the above process while the state in which the image is displayed is continued, that is, while the application is being executed.

  The cellular phone terminal 1 can perform the following control by operating the input device 24 by the process shown in FIG. First, as shown in FIG. 12A, in the mobile phone terminal 1, a plurality of items 86 are displayed (arranged) on a list in an area 82 of a screen 80. In the area 82, an indication index is displayed on a bar 84. 89 is displayed. Here, as the item 86, five items 86 of “C menu”, “D menu”, “E menu”, “F menu”, and “G menu” are displayed, and the item 86 of “D menu” is displayed. The cursor 88 is designated. In addition, the bar 84 and the instruction index 89 indicate which area is displayed on the screen 80 in the entire image created by the application. That is, the bar 84 and the instruction index 89 are associated with the positional relationship between the entire image and the image displayed on the screen 80.

  When the mobile phone terminal 1 detects the second operation signal whose movement direction is the downward direction in the state of the screen shown in FIG. 12A, the cursor 88a is an item 88 of “E menu” as shown in FIG. So that the cursor 88a is moved.

  In addition, when the mobile phone terminal 1 detects the first operation signal whose movement direction is the downward direction in the state of the screen shown in FIG. 12A, as shown in FIG. 12C, the item 86a displayed in the display area 82 is displayed. Are switched to five items 86a of "H menu", "I menu", "J menu", "K menu", and "L menu". Here, the item 86a is an item arranged under the item 86 of the “G menu” in the positional relationship of the entire image. That is, the mobile phone terminal 1 moves the items to be displayed in the area 82 by one screen, and replaces all the items to be displayed. Further, the position of the display index 89a is also moved downward due to the change of the items to be displayed. Further, the cursor 88b is in a state in which the item 88 of “H menu” is designated.

  As described above, the mobile phone terminal 1 detects the displacement detected as the operation input to the input device 24 by both the instantaneous value and the integrated value, and performs the operation to be executed based on the detected value. By switching, the user can input a different operation only by changing the input operation, that is, the speed at which the finger slides. As a result, the number of operations that can be input by the input device 24 can be increased.

  In addition, as in this embodiment, if an input with a high input speed (finger movement speed, object movement speed) is input, a process that can be realized by executing the process executed with an input with a low input speed multiple times is executed. By doing so, the user can perform an intuitive operation. Further, since it is not necessary to input the operation a plurality of times, the operation can be performed in a short time, and the operation is not time-consuming.

  Further, the cellular phone terminal 1 sets the relationship between the displacement threshold value and the integrated value threshold value so that the threshold variation amount <the integrated value threshold value. The possibility that two operation signals are output can be reduced. Thereby, the operation intended by the user can be easily performed.

  In addition, the mobile phone terminal 1 sets a displacement threshold value by a plurality of values, for example, is set in two stages as shown in FIG. 8, and a different operation signal is set for each displacement amount threshold value. May be output to execute different operations. As described above, by setting the threshold value of the displacement amount with a plurality of values and executing different processes, it is possible to input more types of operations with the input device.

  Moreover, it is preferable that the input device 24 processes the 1st detection part 52 and the 2nd detection part 54 in parallel like this embodiment. Thereby, processing time can be shortened.

  In the above embodiment, the case of the screen scroll operation and the cursor movement operation has been described as an example. However, the present invention is not limited to this, and can be associated with various operations using an input device. Here, as an operation to be input with the input device, there are various operations that can be input with a so-called pointing device such as a mouse, a joystick, or a trackball, and examples include movement of the cursor, movement of the pointer, scrolling of the screen, and the like. For example, when the first operation signal is input, the cursor can be moved to the end of the screen, and when the second operation signal is input, the cursor can be moved to the middle of the screen.

  Here, in the said embodiment, although it was set as the structure which has a touch panel as a mobile telephone terminal, this invention is not limited to this. 13 is a front view showing a schematic configuration of another embodiment of the mobile phone terminal according to the embodiment, and FIG. 14 is a side view of the mobile phone terminal shown in FIG. A cellular phone terminal 100 shown in FIGS. 1 and 2 is a cellular phone having a wireless communication function. In the mobile phone terminal 100, the housing 101C is composed of a plurality of housings. Specifically, the housing 101C is configured to be openable and closable by a first housing 101CA and a second housing 101CB. That is, the mobile phone terminal 100 has a foldable casing. Note that the housing of the mobile phone terminal 100 is not limited to such a structure. For example, the housing of the mobile phone terminal 100 may be a sliding housing that allows one housing and the other housing to slide from each other in a state where both housings are overlapped, It may be a rotary type in which one casing is rotated around an axis along the overlapping direction, or both casings are connected via a biaxial hinge.

  The first housing 101CA and the second housing 101CB are connected by a hinge mechanism 108 that is a connecting portion. By connecting the first casing 101CA and the second casing 101CB with the hinge mechanism 108, the first casing 101CA and the second casing 101CB are in the direction indicated by the arrow R in FIG. Can be rotated relative to each other. The first casing 101CA and the second casing 101CB can move around the hinge mechanism 108 from the position indicated by the solid line in FIG. 14 to the position indicated by the dotted line in FIG. it can.

  The first housing 101CA is provided with a display 102 shown in FIG. 1 as a display unit. The display 102 displays a standby image when the mobile phone terminal 1 is waiting for reception, or displays a menu image used to assist the operation of the mobile phone terminal 100. In addition, the first housing 101CA is provided with a receiver 106 that is an output unit that outputs voice when the mobile phone terminal 100 is in a call.

  The second casing 101CB is provided with a plurality of operation keys 113A for inputting a telephone number of the other party and characters when creating a mail, and the input device 113B is provided on the hinge 108 side of the operation keys 113A. Is provided. The operation keys 113A and the input device 113B constitute the operation unit 113 of the mobile phone terminal 100. In addition, the second casing 101CB is provided with a microphone 115 that is a voice acquisition unit that receives voice during a call of the mobile phone terminal 100. The operation unit 113 is provided on the operation surface 101PC of the second housing 101CB shown in FIG. The surface opposite to the operation surface 101PC is the back surface 101PB of the mobile phone terminal 100.

  An antenna is provided inside the second housing 101CB. The antenna is a transmission / reception antenna used for wireless communication, and is used for transmission / reception of radio waves (electromagnetic waves) related to calls, electronic mails, and the like between the mobile phone terminal 100 and a base station. The second casing 101CB is provided with a microphone 115. The microphone 115 is disposed on the operation surface 100PC side of the mobile phone terminal 100 shown in FIG.

  Even when the operation key 113A is provided like the mobile phone terminal 100, the above-described various operations can be input by providing the input device 113B. That is, the input device 113B can be used as a direction and a determination key for easily executing selection and determination of a menu displayed on the display 102, scrolling of the screen, and the like.

  Moreover, in the said embodiment, although control was performed based on whether an instantaneous value and an integrated value exceed the integrated value set with respect to each value, this invention is not limited to this. The mobile phone terminal (electronic device) may determine the input operation based on both the instantaneous power detected by the input device and the integrated value, and can determine the operation based on various criteria. In the above embodiment, the operation signal is generated by the input device. However, the input device may detect only the instantaneous value and the integrated value and generate the operation signal by the main control unit.

  The input unit (input device and its control) described above can be used for various electronic devices as described above, but is preferably used for portable electronic devices, particularly mobile phone terminals as described above. Even when the area of the input unit that can be arranged is small, such as a mobile electronic device, particularly a mobile phone terminal, various inputs can be performed with one input device. For this reason, the effect of this invention can be acquired more suitably.

  As described above, the electronic device according to the present invention is effective for input of operations, and is particularly suitable when it is necessary to move the cursor and the pointer.

DESCRIPTION OF SYMBOLS 1 Cellular phone terminal 2 Touch panel 2A Touch sensor 2B Display part 3 Input part 4 Virtual keyboard 5 Power supply part 6 Communication part 7 Receiver 8 Microphone 9 Memory | storage part 9A Mail program 9B Browser program 9C Input processing program 9D Virtual keyboard data 9E Processing condition table 10 Main control unit 11 RAM
12 Housing 20, 22 Button 24 Input device 30 Light source (LED element)
32 Optical unit 32a Mirror 32b Optical system 34 Sensor 36 Processing unit 38 Contact surface 40 First region 42 Second region 44 Third region 46 Fourth region 50 Displacement detection unit 52 First detection unit 54 Second detection unit 56 Movement direction detection Section 58 Signal generation section 60, 62, 64, 66 Singular point 80 Screen 82 Area 84 Bar 86, 86a Item (offject)
88, 88a, 88b Cursor 89 Indicator indicator

Claims (10)

The body,
A display unit exposed on the surface of the housing;
A displacement detection unit comprising a detection surface exposed on the surface of the housing, and detecting a displacement of an object in contact with the detection surface;
A first detector that detects an instantaneous value of displacement detected by the displacement detector;
A second detector for detecting an integrated value of displacement detected by the displacement detector;
A signal generator that generates an operation signal based on the instantaneous value and the integrated value;
A control unit for controlling the operation of each unit,
The said control part determines the operation | movement performed in each said part based on the operation signal input from the said signal generation part, The electronic device characterized by the above-mentioned. The body,
A display unit exposed on the surface of the housing;
A displacement detection unit comprising a detection surface exposed on the surface of the housing, and detecting a displacement of an object in contact with the detection surface;
A first detector that detects an instantaneous value of displacement detected by the displacement detector;
A second detector for detecting an integrated value of displacement detected by the displacement detector;
When the instantaneous value exceeds the displacement threshold value, a first operation signal is generated, the instantaneous value is equal to or less than the displacement threshold value, and the integrated value exceeds the integrated threshold value Includes a signal generation unit that generates a second operation signal;
A control unit that performs different operations on the first operation signal and the second operation signal input from the signal generation unit and controls an image to be displayed on the display unit. machine.   The second detection unit, when outputting either the first operation signal or the second operation signal, determines that the object has moved, and initializes the integrated value. 2. The electronic device according to 2.   The displacement detection unit continuously acquires images of the contact surface, processes the images, detects displacements of feature points of the object, and detects the detected displacements of the feature points as displacements of the object. The electronic device according to claim 2, wherein the electronic device is detected.   5. The electron according to claim 4, wherein the displacement detection unit irradiates the contact surface with light in an invisible region, acquires light reflected by the contact surface, and acquires an image of the contact surface. machine.   6. The electronic apparatus according to claim 2, wherein detection of an instantaneous value by the first detection unit and calculation of an integrated value by the second detection unit are processed in parallel. The control unit arranges a plurality of items selectable with a cursor on the display unit on a column based on a display rule, and displays a screen in which one of the items is designated by the cursor. When a first operation signal is input, a list for displaying items to be displayed on the display unit based on the display rule is switched for a certain number of times.
The electronic apparatus according to claim 2, wherein when the second operation signal is input, the item designated by the cursor is switched to an adjacent item. Based on the change of the object detected by the displacement detector, further includes a moving direction detector that detects the moving direction of the object,
The electronic device according to claim 2, wherein the control unit performs the operation based on a movement direction detected by the movement direction detection unit.   The said signal generation part has set the said displacement threshold value with several displacement amount, and switches the operation signal to produce | generate according to the detected instantaneous value, The any one of Claim 2 to 8 characterized by the above-mentioned. The electronic device as described in the paragraph.   The electronic device according to claim 1, wherein the object is a tip of a finger or a rod-like object.

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