WO2014125910A1 - 情報処理装置、情報処理方法、及び情報処理プログラム - Google Patents
情報処理装置、情報処理方法、及び情報処理プログラム Download PDFInfo
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- WO2014125910A1 WO2014125910A1 PCT/JP2014/051635 JP2014051635W WO2014125910A1 WO 2014125910 A1 WO2014125910 A1 WO 2014125910A1 JP 2014051635 W JP2014051635 W JP 2014051635W WO 2014125910 A1 WO2014125910 A1 WO 2014125910A1
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- information processing
- state
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1633—Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
- G06F1/1684—Constructional details or arrangements related to integrated I/O peripherals not covered by groups G06F1/1635 - G06F1/1675
- G06F1/1694—Constructional details or arrangements related to integrated I/O peripherals not covered by groups G06F1/1635 - G06F1/1675 the I/O peripheral being a single or a set of motion sensors for pointer control or gesture input obtained by sensing movements of the portable computer
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/017—Gesture based interaction, e.g. based on a set of recognized hand gestures
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/033—Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor
- G06F3/0346—Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/16—Sound input; Sound output
- G06F3/165—Management of the audio stream, e.g. setting of volume, audio stream path
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72403—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
- H04M1/72409—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
- H04M1/72412—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories using two-way short-range wireless interfaces
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72448—User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
- H04M1/72454—User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions according to context-related or environment-related conditions
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72484—User interfaces specially adapted for cordless or mobile telephones wherein functions are triggered by incoming communication events
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2200/00—Indexing scheme relating to G06F1/04 - G06F1/32
- G06F2200/16—Indexing scheme relating to G06F1/16 - G06F1/18
- G06F2200/163—Indexing scheme relating to constructional details of the computer
- G06F2200/1636—Sensing arrangement for detection of a tap gesture on the housing
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2200/00—Indexing scheme relating to G06F1/04 - G06F1/32
- G06F2200/16—Indexing scheme relating to G06F1/16 - G06F1/18
- G06F2200/163—Indexing scheme relating to constructional details of the computer
- G06F2200/1638—Computer housing designed to operate in both desktop and tower orientation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M2250/00—Details of telephonic subscriber devices
- H04M2250/12—Details of telephonic subscriber devices including a sensor for measuring a physical value, e.g. temperature or motion
Definitions
- the present invention relates to an information processing apparatus, an information processing method, and an information processing program.
- Small information processing devices such as mobile phones, smartphones, or music players have been developed. Conventionally, these information processing apparatuses are operated using a keyboard, a touch panel, or the like provided in the apparatus main body.
- the operation method using the keyboard and touch panel provided in the device body may be inconvenient for the user. For example, when operating a mobile phone in a pocket, it is necessary to take out the mobile phone from the pocket. Furthermore, for example, an operation of taking out a mobile phone from a pocket and operating it in a place with a lot of traffic may be dangerous.
- Patent Documents 1 and 2 are prior art documents disclosing such technology. Any of the devices described in the following prior art documents executes a predetermined process when the device is hit by a user.
- the music player described in Patent Document 1 executes a predetermined process when a headphone is hit. Specifically, when the user taps the headphones, the music player determines three types: 1) the state of the music player, 2) the area where the headphones have been hit, and 3) the number of times the headphones have been hit. And this music player determines the process to perform based on these three discrimination
- the portable electronic device described in Patent Document 2 displays information using a display unit provided on a surface tapped by a user.
- the present inventor has studied a method for providing a variety of operation methods in an information processing apparatus that executes predetermined processing when vibration is applied by a user. Specifically, the present inventor considers a method for determining a predetermined process to be executed by further considering the state of the information processing apparatus in an information processing apparatus that executes the predetermined process when vibration is applied by the user. did. None of the devices described in the above-mentioned patent documents considers the state of the device when determining a predetermined process to be executed.
- An object of the present invention is to provide a technique that enables intuitive and various operations of an information processing apparatus.
- the information processing apparatus has a plurality of surfaces and executes an application.
- the information processing apparatus is a surface to which vibration is applied from the plurality of surfaces based on vibration detection means for detecting vibration applied to the information processing apparatus and vibration detected by the vibration detection means.
- Operation surface detection means for detecting an operation surface
- apparatus state detection means for detecting the state of the information processing apparatus
- application state detection means for detecting the state of the application, state of the application, state of the information processing apparatus
- a process determining means for determining a predetermined process to be executed from among a plurality of predetermined processes based on the operation surface.
- the information processing program provided by the present invention controls a computer having a plurality of surfaces and executing an application.
- the information processing program causes the computer to realize the functions of the respective functional components included in the information processing apparatus provided by the present invention.
- the information processing method provided by the present invention is executed by a computer having a plurality of surfaces and executing an application.
- the information processing method includes a vibration detection step for detecting vibration applied to the computer, and an operation surface that is a surface to which vibration is applied from the plurality of surfaces based on the vibration detected by the vibration detection step.
- An operation surface detection step for detecting the state of the computer an apparatus state detection step for detecting the state of the computer, an application state detection step for detecting the state of the application, the state of the application, the state of the computer, and the operation surface.
- a process determining step for determining a predetermined process to be executed is included.
- FIG. 1 is a block diagram illustrating an information processing apparatus according to a first embodiment. It is a figure which illustrates the surface which an information processor has. It is a figure which illustrates the attitude
- 3 is a flowchart illustrating a flow of processing performed by the information processing apparatus according to the first embodiment.
- FIG. 3 is a diagram illustrating an operation method of the information processing apparatus according to the first embodiment.
- FIG. 10 is a diagram illustrating an operation method of the information processing apparatus according to the second embodiment.
- FIG. 10 is a diagram illustrating an operation method of the information processing apparatus according to the third embodiment.
- FIG. 6 is a block diagram illustrating an information processing apparatus according to a second embodiment.
- FIG. 10 is a flowchart illustrating a flow of processing performed by the information processing apparatus according to the second embodiment.
- FIG. 10 is a block diagram illustrating an information processing apparatus according to a third embodiment. It is a figure which illustrates the some partial area
- region. 10 is a flowchart illustrating a flow of processing performed by the information processing apparatus according to the third embodiment.
- FIG. 1 is a block diagram illustrating an information processing apparatus 2000 according to the first embodiment.
- the information processing apparatus 2000 has a plurality of surfaces.
- FIG. 2 is a diagram illustrating an example of the surface of the information processing apparatus 2000.
- the information processing apparatus 2000 has six surfaces 2201 to 2206.
- the information processing apparatus 2000 executes various applications.
- the application executed by the information processing apparatus 2000 is, for example, an application that performs a voice call (hereinafter referred to as a call application), an application that performs playback or recording of music (hereinafter, a music application), or the like.
- the information processing apparatus 2000 determines a predetermined process to be executed from among a plurality of predetermined processes based on the following three indicators.
- the first index is a surface to which vibration is applied among the surfaces of the information processing apparatus 2000.
- a surface to which vibration is applied is referred to as an operation surface.
- the second index is the state of the information processing apparatus 2000.
- the third index is the state of the application.
- the information processing apparatus 2000 includes a vibration detection unit 2020.
- the vibration detection unit 2020 detects vibration applied to the information processing apparatus 2000.
- the vibration detection unit 2020 detects vibration using, for example, a vibration sensor or an acceleration sensor.
- the information processing apparatus 2000 includes an operation surface detection unit 2040.
- the operation surface detection unit 2040 detects the operation surface based on the vibration detected by the vibration detection unit 2020. For example, when the vibration detection unit 2020 detects vibration using a three-axis acceleration sensor, the operation surface detection unit 2040 detects a surface to which vibration is applied from the ratio of acceleration measured for each of the three axes.
- the information processing apparatus 2000 includes an apparatus state detection unit 2060.
- Device state detection unit 2060 detects the state of information processing device 2000.
- the state of the information processing apparatus 2000 is, for example, the attitude of the information processing apparatus 2000.
- the posture of the information processing device 2000 is represented by, for example, a direction in which each surface of the information processing device 2000 faces.
- the attitude of the information processing apparatus 2000 will be described with reference to FIGS.
- the information processing apparatus 2000 in FIG. 2 has a posture in which the surface 2201 faces the + Z direction and the surface 2202 faces the ⁇ Z direction.
- the information processing apparatus 2000 in FIG. 2 has a posture in which the surface 2203 faces the + X direction and the surface 2204 faces the ⁇ X direction.
- the information processing apparatus 2000 in FIG. 2 has a posture in which the surface 2205 faces the + Y direction and the surface 2206 faces the ⁇ Y direction.
- the information processing apparatus 2000 in FIG. 3 has a posture in which the surface 2201 faces the ⁇ X direction and the surface 2202 faces the + X direction. Further, the information processing apparatus 2000 in FIG. 3 is in a posture in which the surface 2203 faces the + Z direction and the surface 2204 faces the ⁇ Z direction. Further, the information processing apparatus 2000 in FIG. 3 has a posture in which the surface 2205 faces the + Y direction and the surface 2206 faces the ⁇ Y direction.
- the information processing apparatus 2000 can detect which direction the vibration is applied to from the operation surface and the attitude of the information processing apparatus 2000. For example, it is assumed that the posture of the information processing apparatus 2000 is the posture shown in FIG. Then, it is assumed that vibration is applied to the surface 2201. In this case, the information processing apparatus 2000 uses the operation surface detection unit 2040 to detect that the surface 2201 is an operation surface. In addition, the information processing apparatus 2000 detects that the attitude of the information processing apparatus 2000 is the attitude illustrated in FIG. As a result, the information processing apparatus 2000 detects that the surface to which vibration is applied is a surface facing the + Z direction.
- the device state detection unit 2060 detects the posture of the information processing device 2000 using, for example, an acceleration sensor.
- the vibration detection unit 2020 uses the same sensor
- the vibration detection unit 2020 and the apparatus state detection unit 2060 may share the same sensor, or may use different sensors.
- the state of the information processing apparatus 2000 is the location of the information processing apparatus 2000.
- the device state detection unit 2060 detects whether or not the location of the information processing device 2000 is a location where the information processing device 2000 is exposed to light having a predetermined intensity or more.
- the information processing apparatus 2000 When the location of the information processing apparatus 2000 is a place where light having a predetermined intensity or more strikes the information processing apparatus 2000, for example, the information processing apparatus 2000 is held by a user's hand or placed on a desk. I'm going. On the other hand, when the location of the information processing apparatus 2000 is a place where the information processing apparatus 2000 is not exposed to light of a predetermined intensity or more, for example, the information processing apparatus 2000 is located inside the pocket of the user's clothes. Yes.
- the device state detection unit 2060 detects the location of the information processing device 2000 using an optical sensor, for example.
- the device state detection unit 2060 determines whether or not the intensity of light detected by the optical sensor is equal to or greater than a predetermined intensity.
- the device state detection unit 2060 may detect the location of the information processing device 2000 based on the temperature of the information processing device 2000. For example, when the temperature of the information processing device 2000 is close to a human body temperature, the location of the information processing device 2000 is known to be around the person (such as in a breast pocket). As described above, the apparatus state detection unit 2060 determines whether or not the information processing apparatus 2000 is located around the user based on the temperature of the information processing apparatus 2000.
- the device state detection unit 2060 detects the temperature of the information processing device 2000 using, for example, a temperature sensor.
- the apparatus state detection unit 2060 may detect whether or not the location of the information processing apparatus 2000 is around the person by detecting a person's pulse, heart sound, or the like.
- the device state detection unit 2060 detects a human pulse, heart sound, and the like using, for example, a vibration sensor or an acceleration sensor.
- the apparatus state detection unit 2060 may share the sensor with the vibration detection unit 2020, or may use a sensor different from the sensor used by the vibration detection unit 2020.
- the device state detection unit 2060 may detect a combination of the posture of the information processing device 2000 and the location of the information processing device 2000 as the state of the information processing device 2000. Further, for example, the apparatus state detection unit 2060 detects a combination of “whether or not the position is exposed to light of a predetermined intensity or more” and “whether or not the person is around” as the location of the information processing apparatus 2000. May be.
- the information processing apparatus 2000 includes an application state detection unit 2080.
- the application state detection unit 2080 detects the state of the application.
- the application status detected by the application status detection unit 2080 is various. For example, when the information processing apparatus 2000 is executing a music application, the application state detection unit 2080 detects a state in which music is being played back or a state in which music is stopped as the state of the application. In addition, for example, when the information processing apparatus 2000 is executing a voice call application, the application state detection unit 2080 detects an incoming call state or a call state as the application state.
- the information processing apparatus 2000 includes a processing determination unit 2100.
- the process determination unit 2100 is based on the operation surface detected by the operation surface detection unit 2040, the state of the information processing device 2000 detected by the device state detection unit 2060, and the application state detected by the application state detection unit 2080.
- the predetermined process to be executed is determined.
- the information processing apparatus 2000 determines a predetermined process to be executed in consideration of the state of the information processing apparatus 2000 in addition to the application state and the operation surface. Therefore, according to the information processing apparatus 2000 of the first embodiment, more various operation methods are provided as compared to the case of determining the process to be executed without considering the state of the information processing apparatus 2000.
- FIG. 4 is a block diagram illustrating a hardware configuration of the information processing apparatus 2000.
- the information processing apparatus 2000 includes a bus 1020, a processor 1040, a memory 1060, and a storage 1080.
- the hardware configuration of the information processing apparatus 2000 is not limited to the configuration illustrated in FIG.
- the bus 1020 is a transmission path for the processor 1040, the memory 1060, and the storage 1080 to transmit / receive information to / from each other.
- the processor 1040 is an arithmetic processing device such as a CPU (Central Processing Unit) and a GPU (Graphics Processing Unit).
- the memory 1060 is a memory such as a RAM (Random Access Memory) or a ROM (Read Only Memory).
- the storage 1080 is a storage device such as a hard disk, a USB (Universal Serial Bus) memory, or an SSD (Solid State Drive).
- the storage 1080 may be a memory such as a RAM or a ROM.
- the vibration detection module 1220 is a program for causing the information processing apparatus 2000 to have the function of the vibration detection unit 2020.
- the processor 1040 implements the function of the vibration detection unit 2020 by executing the vibration detection module 1220.
- the operation surface detection module 1240 is a program for causing the information processing apparatus 2000 to have the function of the operation surface detection unit 2040.
- the processor 1040 implements the function of the operation surface detection unit 2040 by executing the operation surface detection module 1240.
- the device state detection module 1260 is a program for causing the information processing device 2000 to have the function of the device state detection unit 2060.
- the processor 1040 implements the function of the device state detection unit 2060 by executing the device state detection module 1260.
- the application state detection module 1280 is a program for causing the information processing apparatus 2000 to have the function of the application state detection unit 2080.
- the processor 1040 implements the function of the application state detection unit 2080 by executing the application state detection module 1280.
- the process determination module 1300 is a program for causing the information processing apparatus 2000 to have the function of the process determination unit 2100.
- the processor 1040 implements the function of the process determination unit 2100 by executing the process determination module 1300.
- the vibration detection module 1220, the operation surface detection module 1240, the device state detection module 1260, the application state detection module 1280, and the process determination module 1300 are stored in the storage 1080, for example. Then, each of the modules is read out to the memory 1060, for example, by the processor 1040. Here, each module described above may be stored in the memory 1060.
- FIG. 5 is a flowchart illustrating the flow of processing performed by the information processing apparatus 2000 according to the first embodiment.
- the vibration detection unit 2020 detects vibration applied to the information processing apparatus 2000.
- the operation surface detection unit 2040 detects the operation surface based on the vibration detected by the vibration detection unit 2020.
- device state detection unit 2060 detects the state of information processing device 2000.
- the application state detection unit 2080 detects the state of the application.
- the process determining unit 2100 determines a predetermined process to be executed based on the state of the information processing apparatus 2000, the state of the application, and the operation surface.
- the predetermined process includes a process for starting the operation of the application, a process for ending the operation of the application, a process for stopping the operation of the application, or a process of restarting the operation of the application.
- the predetermined process is a process of changing content to be processed by the application.
- the process of changing the content to be processed is a process of changing the music content to be played.
- the predetermined process includes a process of changing the processing position of the content being processed by the application.
- the process of changing the processing position of the content processed by the application is a process of changing the playback position of the music content (such as cue, fast forward, or rewind).
- the predetermined process includes a process for increasing the volume of the output voice, a process for decreasing the volume of the output voice, a process for increasing the volume of the acquired voice, or a process for decreasing the volume of the acquired voice.
- the predetermined process includes a process for enabling audio output, a process for invalidating audio output, a process for enabling audio acquisition, or a process for invalidating audio acquisition.
- the predetermined process includes a process for changing the voice call state from the incoming state to the call state, a process for changing the voice call state from the call state to the call end state, and changing the voice call state from the call state to the hold state. Processing to include. Further, for example, the predetermined process includes a process of stopping the output of the ringing tone while keeping the voice call state as the incoming call state.
- Example 1 A specific operation method of the information processing apparatus 2000 will be described as a first embodiment.
- the information processing apparatus 2000 according to the first embodiment executes a music application. Further, the apparatus state detection unit 2060 according to the first embodiment detects the orientation of each surface as the state of the information processing apparatus 2000.
- FIG. 6 is a diagram illustrating an operation method provided by the information processing apparatus 2000 according to the first embodiment.
- the user can play music by hitting the surface in the + X direction while the music is stopped. Further, the user can change the music to be reproduced to the next music piece by hitting the surface in the + Y direction during music reproduction. Furthermore, the user can stop the music by hitting the surface in the + X direction during music playback.
- Example 2 Furthermore, another example of the operation method of the information processing apparatus 2000 is shown as a second embodiment.
- the information processing apparatus 2000 according to the second embodiment executes a voice call application. Further, the apparatus state detection unit 2060 according to the second embodiment detects the orientation of each surface as the state of the information processing apparatus 2000.
- FIG. 7 is a diagram illustrating an operation method provided by the information processing apparatus 2000 according to the second embodiment.
- the user can respond to an incoming call by hitting the surface in the + X direction during the incoming call.
- the user can reject the incoming call by hitting the surface in the -X direction during the incoming call.
- the user can increase the volume by hitting the surface in the + Y direction during a call.
- the user can answer another incoming call by hitting the surface in the + Z direction during a call.
- Example 3 Furthermore, another example of the operation method of the information processing apparatus 2000 is shown as a third embodiment.
- the information processing apparatus 2000 according to the third embodiment executes a voice call application.
- the apparatus state detection unit 2060 according to the third embodiment detects the location of the information processing apparatus 2000 as the state of the information processing apparatus 2000. Specifically, apparatus state detection unit 2060 detects a combination of “whether it is a position where strong light strikes” and “whether it is around a person” as the location of information processing apparatus 2000.
- FIG. 8 is a diagram illustrating functions provided by the information processing apparatus 2000 according to the third embodiment.
- FIG. 8 shows a case where the operation surface detected by the operation surface detection unit 2040 is the surface 2003 in FIG. 2 as an example.
- the user receives an incoming call when the location of the information processing device 2000 is “a position where strong light is applied and is around the person”, the user receives the call in the normal call mode by tapping the surface 2003. Can respond to.
- the position that “the strong light hits and is around the person” is, for example, in the user's hand.
- the user when the user receives an incoming call when the location of the information processing apparatus 2000 is a position where “the strong light strikes and is not around the person”, the user can tap the surface 2003 to obtain a hands-free call mode. You can answer incoming calls.
- the position of “strong light hits and is not around the person” is, for example, on a desk.
- the user when the user receives an incoming call when the location of the information processing apparatus 2000 is “a position where no strong light strikes and is around the person”, the user can tap hands 2003 to Can answer incoming calls in call mode.
- the position of “not exposed to strong light and around the person” is, for example, in the pocket of the user's clothes.
- the user when the user receives an incoming call when the location of the information processing device 2000 is “a position where no strong light strikes and is not around the person”, the user can perform an answering machine function by tapping the surface 2003. Can be executed.
- the position of “not receiving strong light and not being around a person” is, for example, in a user's bag.
- the information processing apparatus 2000 can perform manner mode switching, camera mode switching, and the like by hitting each surface.
- the information processing apparatus 2000 determines a predetermined process to be executed in consideration of the state of the information processing apparatus 2000 in addition to the application state and the operation surface. Therefore, according to the information processing apparatus 2000 of the first embodiment, more various operation methods are provided as compared with the case where the process to be executed is determined without considering the state of the apparatus.
- the information processing apparatus 2000 a more intuitive operation is provided by considering the state of the information processing apparatus 2000. For example, when the information processing apparatus 2000 considers the attitude of the information processing apparatus 2000, the information processing apparatus 2000 determines a process to be executed based on “from which direction vibration is applied”. Therefore, the user can cause the information processing apparatus 2000 to execute the same process if the information processing apparatus 2000 is vibrated from the same direction, regardless of the posture of the information processing apparatus 2000 being held. Thereby, the user can use the information processing apparatus 2000 more intuitively.
- the user wants the information processing apparatus 2000 to perform different processing depending on the location of the information processing apparatus 2000. For example, when the user removes the information processing apparatus 2000 in the pocket from the pocket, the user considers that the information processing apparatus 2000 is taken out because the information processing apparatus 2000 wants to perform processing different from that in the pocket. It is done. Therefore, for example, the user can operate the information processing apparatus 2000 more intuitively by changing a predetermined process executed by the information processing apparatus 2000 according to the location of the information processing apparatus 2000.
- a specific situation in which the information processing apparatus 2000 is used is when listening to music using the information processing apparatus 2000 attached to the arm using an arm band during running. In general, it is considered troublesome to see the screen while running. Also, if you look aside while running, you will not be able to grasp other passers-by, bicycles, and automated persons. Therefore, it is considered dangerous to operate the device while looking at the display or keyboard.
- a music application is executed using the information processing apparatus 2000 of the first embodiment, for example, as shown in FIG. 6, intuitive and diverse operations are possible. As a result, the running user can operate the music application without bothering and looking aside.
- a user working in a warehouse may respond to an incoming voice call to the information processing apparatus 2000 in the chest pocket.
- FIG. 9 is a block diagram illustrating an information processing apparatus 2000 according to the second embodiment.
- the information processing apparatus 2000 determines a predetermined process to be executed in consideration of the number of times vibration is applied to the information processing apparatus 2000.
- the information processing apparatus 2000 includes a vibration number detection unit 2120.
- the vibration number detection unit 2120 detects the number of vibrations applied to the information processing apparatus 2000 (hereinafter referred to as vibration number) based on the vibration detected by the vibration detection unit 2020.
- the vibration number detection unit 2120 sets the number of vibrations detected by the vibration detection unit 2020 within a predetermined time as the vibration number. In addition, for example, the vibration number detection unit 2120 sets the number of vibrations continuously applied to the same surface among the surfaces of the information processing apparatus 2000 as the vibration number. For example, it is assumed that the information processing apparatus 2000 has surfaces 2201 to 2206 as shown in FIG. Then, it is assumed that vibration is applied to the information processing apparatus 2000 in the order of the surface 2201, the surface 2201, and the surface 2202. In this case, the vibration number detection unit 2120 detects that the number of vibrations applied to the surface 2201 is two. Subsequently, it is assumed that vibration is applied to the surface 2203. In this case, the vibration number detection unit 2120 detects that the number of vibrations applied to the surface 2202 is one.
- the process determining unit 2100 determines a predetermined process to be executed from among a plurality of predetermined processes based on the state of the information processing apparatus 2000, the application state, the operation surface, and the number of vibrations applied to the operation surface.
- FIG. 10 is a flowchart illustrating the flow of processing executed by the information processing apparatus 2000 according to the second embodiment.
- the processing of steps S102 to S108 is the same as the processing shown in the flowchart of FIG.
- step S202 the vibration number detection unit 2120 detects the number of vibrations applied to the operation surface.
- step S204 the process determining unit 2100 determines a predetermined process to be executed based on the state of the information processing apparatus 2000, the state of the application, the operation surface, and the number of vibrations applied to the operation surface.
- the information processing apparatus 2000 of the second embodiment in addition to the state of the information processing device 2000, the state of the application, and the operation surface, the number of vibrations applied to the operation surface is further considered, and a plurality of predetermined processes are performed. From this, a predetermined process to be executed is determined. Therefore, the information processing apparatus 2000 according to the second embodiment provides more various operation methods than the information processing apparatus 2000 according to the first embodiment.
- FIG. 11 is a block diagram illustrating an information processing apparatus 2000 according to the third embodiment.
- Each surface of the information processing apparatus 2000 according to the third embodiment has a plurality of partial areas.
- the information processing apparatus 2000 includes an operation area detection unit 2140.
- the operation area detection unit 2140 detects which partial area of the plurality of partial areas included in the operation surface detected by the operation surface detection unit 2040 is subjected to vibration.
- a partial area to which vibration is applied among a plurality of partial areas of the operation surface is referred to as an operation area.
- FIG. 12 is a diagram illustrating a plurality of partial areas included in the information processing apparatus 2000 according to the third embodiment.
- the surface 2203 has partial regions 2221 to 2223.
- the operation region detection unit 2140 detects which partial region of the partial regions 2221 to 2223 has been vibrated.
- the operation region detection unit 2140 detects the operation region based on the direction of vibration detected by the vibration detection unit 2020, for example.
- FIG. 13 is a diagram illustrating the difference in the vibration direction due to the difference in the operation area.
- FIG. 13A shows a case where the partial region 2223 is hit.
- the vibration detection unit 2020 detects vibration in a direction away from the partial region 2223.
- FIG. 13B shows a case where the partial region 2221 is hit.
- the vibration detection unit 2020 detects vibration in a direction away from the partial region 2221.
- the operation region detection unit 2140 can detect the operation region based on the operation surface detected by the operation surface detection unit 2040 and the vibration direction detected by the vibration detection unit 2020.
- FIG. 14 is a flowchart illustrating the flow of processing executed by the information processing apparatus 2000 according to the third embodiment.
- the processing of steps S102 to S108 is the same as the processing shown in the flowchart of FIG.
- step S302 the operation area detection unit 2140 detects an operation area.
- step S304 the process determining unit 2100 determines a predetermined process to be executed based on the state of the information processing apparatus, the state of the application, the operation surface, and the operation area.
- the information processing apparatus 2000 includes a plurality of predetermined processes in consideration of the operation area in addition to the state of the information processing apparatus 2000, the application state, and the operation surface. A predetermined process to be executed is determined. Therefore, the information processing apparatus 2000 according to the third embodiment provides more various operation methods than the information processing apparatus 2000 according to the first embodiment.
- the information processing device 2000 that determines the processing to be executed based on the state of the information processing device 2000, the state of the application, the operation surface, the operation area, and the number of vibrations is obtained. .
- An information processing apparatus having a plurality of surfaces and executing an application, Vibration detecting means for detecting vibration applied to the information processing apparatus; Based on the vibration detected by the vibration detection means, an operation surface detection means for detecting an operation surface that is a surface to which vibration is applied from among the plurality of surfaces; Device state detection means for detecting the state of the information processing device; Application state detection means for detecting the state of the application; Process determining means for determining a predetermined process to be executed from among a plurality of predetermined processes based on the state of the application, the state of the information processing apparatus, and the operation surface; An information processing apparatus. 2.
- the state of the information processing device detected by the device state detection means is the posture of the information processing device or the location of the information processing device.
- the information processing apparatus described. 3. Based on the vibration detected by the vibration detection means, further comprising a vibration number detection means for detecting the number of vibrations, which is the number of times vibration is applied to the information processing apparatus, The process determining means determines the predetermined process by further using the number of vibrations. Or 2.
- the surface of the information processing apparatus has a plurality of partial areas,
- the information processing apparatus includes an operation region detection unit that detects an operation region that is a partial region to which vibration is applied, from a plurality of partial regions that the operation surface detected by the operation surface detection unit has.
- the process determining means determines the predetermined process by further using the operation area.
- the predetermined process includes a process of starting the operation of the application, a process of ending the operation of the application, a process of stopping the operation of the application, or a process of restarting the operation of the application.
- the predetermined process includes a process of changing the content to be processed by the application, or a process of changing the processing position of the content processed by the application.
- the information processing apparatus according to any one of the above. 7).
- the predetermined process is a process for increasing the volume of the output voice, a process for decreasing the volume of the output voice, a process for increasing the volume of the acquired voice, a process for decreasing the volume of the acquired voice, and a voice output enabled. Including a process of invalidating voice output, a process of validating voice acquisition, or a process of invalidating voice acquisition.
- the predetermined process includes a process of changing a voice call state from an incoming call state to a call state, a process of changing a voice call state from a call state to a call end state, and a process of changing a voice call state from a call state to a hold state.
- An information processing program for controlling a computer having a plurality of surfaces and executing an application In the computer, A vibration detection function for detecting vibration applied to the computer; Based on the vibration detected by the vibration detection function, an operation surface detection function for detecting an operation surface that is a surface to which vibration is applied from the plurality of surfaces; An apparatus state detection function for detecting the state of the computer; An application state detection function for detecting the state of the application; A process determining function for determining a predetermined process to be executed from a plurality of predetermined processes based on the state of the application, the state of the computer, and the operation surface; An information processing program that has 10.
- the state of the computer detected by the device state detection function is the posture of the computer or the location of the computer.
- the information processing program described. 11 Based on the vibration detected by the vibration detection function, the computer further has a vibration number detection function for detecting the number of vibrations that is the number of times vibration is applied to the computer, The process determination function determines the predetermined process by further using the number of vibrations. Or 10.
- Information processing program described in 1. 12 The surface of the computer has a plurality of partial areas, The information processing program has an operation area detection function for detecting an operation area, which is a partial area to which vibration is applied, from a plurality of partial areas that the operation surface detected by the operation surface detection function has on the computer. Hold The process determining function determines the predetermined process by further using the operation area. To 11.
- the information processing program as described in any one. 13 The predetermined process includes a process of starting the operation of the application, a process of ending the operation of the application, a process of stopping the operation of the application, or a process of restarting the operation of the application. To 12.
- the information processing program as described in any one. 14 The predetermined process includes a process of changing the content to be processed by the application, or a process of changing the processing position of the content being processed by the application. Thru 13.
- the predetermined process is a process for increasing the volume of the output voice, a process for decreasing the volume of the output voice, a process for increasing the volume of the acquired voice, a process for decreasing the volume of the acquired voice, and a voice output enabled. 8.
- the predetermined process includes a process of changing a voice call state from an incoming call state to a call state, a process of changing a voice call state from a call state to a call end state, and a process of changing a voice call state from a call state to a hold state. Or a process of stopping the output of the ring tone while keeping the voice call state in the incoming state.
- the information processing program as described in any one. 17.
- An information processing method executed by a computer having a plurality of surfaces and executing an application A vibration detection step for detecting vibration applied to the computer; Based on the vibration detected by the vibration detection step, an operation surface detection step for detecting an operation surface that is a surface to which vibration is applied from among the plurality of surfaces; An apparatus state detecting step for detecting the state of the computer; An application state detecting step for detecting the state of the application; A process determining step for determining a predetermined process to be executed from among a plurality of predetermined processes based on the state of the application, the state of the computer, and the operation surface; An information processing method comprising: 18. 16.
- the state of the computer detected by the device state detection step is an attitude of the computer or a location of the computer. The information processing method described.
- the process determining step determines the predetermined process by further using the number of vibrations. Or 18.
- the surface of the computer has a plurality of partial areas, The information processing method is as follows: An operation region detection step of detecting an operation region that is a partial region to which vibration is applied from among a plurality of partial regions that the operation surface detected by the operation surface detection step has; 16.
- the process determining step further determines the predetermined process using the operation area. Thru 19.
- the information processing method as described in any one. 21.
- the predetermined process includes a process of starting the operation of the application, a process of ending the operation of the application, a process of stopping the operation of the application, or a process of restarting the operation of the application.
- the predetermined process includes a process of changing a content to be processed by the application, or a process of changing a processing position of content processed by the application.
- the predetermined process is a process for increasing the volume of the output voice, a process for decreasing the volume of the output voice, a process for increasing the volume of the acquired voice, a process for decreasing the volume of the acquired voice, and enabling the voice output.
- the predetermined process includes a process of changing a voice call state from an incoming call state to a call state, a process of changing a voice call state from a call state to a call end state, and a process of changing a voice call state from a call state to a hold state. Or a process of stopping the output of the ringtone while keeping the voice call in the incoming state.
- Thru 23 The information processing method as described in any one.
Abstract
Description
図1は、実施形態1に係る情報処理装置2000を示すブロック図である。
情報処理装置2000は、振動検出部2020を有する。振動検出部2020は、情報処理装置2000に加えられた振動を検出する。振動検出部2020は、例えば振動センサや加速度センサを用いて、振動を検出する。
情報処理装置2000は、操作面検出部2040を有する。操作面検出部2040は、振動検出部2020が検出した振動に基づいて、操作面を検出する。例えば操作面検出部2040は、振動検出部2020が3軸加速度センサを用いて振動を検出する場合、3軸それぞれについて測定された加速度の比率から、振動が加えられた面を検出する。
情報処理装置2000は、装置状態検出部2060を有する。装置状態検出部2060は、情報処理装置2000の状態を検出する。情報処理装置2000の状態は、例えば情報処理装置2000の姿勢である。情報処理装置2000の姿勢は、例えば、情報処理装置2000が有する各面が向いている方向によって表される。
情報処理装置2000は、アプリケーション状態検出部2080を有する。アプリケーション状態検出部2080は、アプリケーションの状態を検出する。
情報処理装置2000は、処理決定部2100を有する。処理決定部2100は、操作面検出部2040によって検出された操作面、装置状態検出部2060によって検出された情報処理装置2000の状態、及びアプリケーション状態検出部2080によって検出されたアプリケーションの状態に基づいて、実行する所定処理を決定する。
図4は、情報処理装置2000のハードウエア構成を例示するブロック図である。図4において、情報処理装置2000は、バス1020、プロセッサ1040、メモリ1060、及びストレージ1080を有する。ただし、情報処理装置2000のハードウエア構成は、図4に示す構成に限定されない。
図5は、実施形態1に係る情報処理装置2000が行う処理の流れを例示するフローチャートである。ステップS102において、振動検出部2020は、情報処理装置2000に加えられた振動を検出する。ステップS104において、操作面検出部2040は、振動検出部2020が検出した振動に基づいて、操作面を検出する。ステップS106において、装置状態検出部2060は、情報処理装置2000の状態を検出する。ステップS108において、アプリケーション状態検出部2080は、アプリケーションの状態を検出する。ステップS110において、処理決定部2100は、情報処理装置2000の状態、アプリケーションの状態、及び操作面に基づいて、実行する所定処理を決定する。
以下、実施形態1の情報処理装置2000について、より詳細に説明する。
情報処理装置2000が実行する所定処理は様々である。例えば所定処理は、アプリケーションの動作を開始する処理、アプリケーションの動作を終了する処理、アプリケーションの動作を停止する処理、又はアプリケーションの動作を再開する処理を含む。
情報処理装置2000の具体的な操作方法を、実施例1として示す。実施例1の情報処理装置2000は、音楽アプリケーションを実行する。また、実施例1の装置状態検出部2060は、情報処理装置2000の状態として、各面の向きを検出する。
さらに、情報処理装置2000の操作方法の別の例を、実施例2として示す。実施例2の情報処理装置2000は、音声通話アプリケーションを実行する。また、実施例2の装置状態検出部2060は、情報処理装置2000の状態として、各面の向きを検出する。
さらに、情報処理装置2000の操作方法の別の例を、実施例3として示す。実施例3の情報処理装置2000は、音声通話アプリケーションを実行する。また、実施例3の装置状態検出部2060は、情報処理装置2000の状態として、情報処理装置2000の所在位置を検出する。具体的には、装置状態検出部2060は、情報処理装置2000の所在位置として、「強い光が当たる位置か否か」と、「人の身の回りにあるか否か」との組み合わせを検出する。
その他にも例えば、実施形態1の情報処理装置2000は、各面を叩くことで、マナーモードの切り替えや、カメラのモード切り替えなどを行うことができる。
以上の構成により、実施形態1の情報処理装置2000は、アプリケーションの状態及び操作面に加え、情報処理装置2000の状態を考慮して、実行する所定処理を決定する。したがって、実施形態1の情報処理装置2000によれば、装置の状態を考慮せずに実行する処理を決定する場合と比較し、より多彩な操作方法が提供される。
図9は、実施形態2に係る情報処理装置2000を示すブロック図である。
情報処理装置2000は、振動回数検出部2120を有する。振動回数検出部2120は、振動検出部2020が検出した振動に基づいて、情報処理装置2000に加えられた振動の回数(以下、振動回数)を検出する。
処理決定部2100は、情報処理装置2000の状態、アプリケーションの状態、操作面、及び操作面に加えられた振動の回数に基づいて、複数の所定処理の中から、実行する所定処理を決定する。
図10は、実施形態2に係る情報処理装置2000が実行する処理の流れを例示するフローチャートである。図10において、ステップS102~S108の処理は、図5のフローチャートに示す処理と同様である。
実施形態2の情報処理装置2000によれば、情報処理装置2000の状態、アプリケーションの状態、及び操作面に加え、操作面に加えられた振動の回数をさらに考慮して、複数の所定処理の中から、実行する所定処理が決定される。したがって、実施形態2の情報処理装置2000によれば、実施形態1の情報処理装置2000と比較し、より多彩な操作方法が提供される。
図11は、実施形態3に係る情報処理装置2000を示すブロック図である。
情報処理装置2000は、操作領域検出部2140を有する。操作領域検出部2140は、操作面検出部2040によって検出された操作面が有する複数の部分領域のうち、どの部分領域に対して振動が加えられたのかを検出する。以下、操作面が有する複数の部分領域のうち、振動が加えられた部分領域を、操作領域と表記する。
図14は、実施形態3に係る情報処理装置2000が実行する処理の流れを例示するフローチャートである。図14において、ステップS102~S108の処理は、図5のフローチャートに示す処理と同様である。
実施形態3の情報処理装置2000によれば、情報処理装置2000の状態、アプリケーションの状態、及び操作面に加え、操作領域をさらに考慮して、複数の所定処理の中から、情報処理装置2000が実行する所定処理が決定される。したがって、実施形態3の情報処理装置2000によれば、実施形態1の情報処理装置2000と比較し、より多彩な操作方法が提供される。
1. 複数の面を有し、かつアプリケーションを実行する情報処理装置であって、
当該情報処理装置に加えられた振動を検出する振動検出手段と、
振動検出手段が検出した振動に基づいて、前記複数の面の中から、振動が加えられた面である操作面を検出する操作面検出手段と、
当該情報処理装置の状態を検出する装置状態検出手段と、
前記アプリケーションの状態を検出するアプリケーション状態検出手段と、
前記アプリケーションの状態、当該情報処理装置の状態、及び前記操作面に基づいて、複数の所定処理の中から、実行する所定処理を決定する処理決定手段と、
を有する情報処理装置。
2. 前記装置状態検出手段が検出する当該情報処理装置の状態は、当該情報処理装置の姿勢、又は当該情報処理装置の所在位置であることを特徴とする1.記載の情報処理装置。
3. 前記振動検出手段が検出した振動に基づいて、当該情報処理装置に対して振動が加えられた回数である振動回数を検出する振動回数検出手段をさらに有し、
前記処理決定手段は、前記振動回数をさらに用いて、前記所定処理を決定する1.又は2.に記載の情報処理装置。
4. 当該情報処理装置が有する面は、複数の部分領域を有し、
当該情報処理装置は、前記操作面検出手段によって検出された操作面が有する複数の部分領域の中から、振動が加えられた部分領域である操作領域を検出する操作領域検出手段を有し、
前記処理決定手段は、前記操作領域をさらに用いて、前記所定処理を決定する1.乃至3.いずれか一つに記載の情報処理装置。
5. 前記所定処理は、前記アプリケーションの動作を開始する処理、前記アプリケーションの動作を終了する処理、前記アプリケーションの動作を停止する処理、又は前記アプリケーションの動作を再開する処理を含む1.乃至4.いずれか一つに記載の情報処理装置。
6. 前記所定処理は、前記アプリケーションが処理対象とするコンテンツを変更する処理、又は前記アプリケーションが処理しているコンテンツの処理位置を変更する処理を含む1.乃至5.いずれか一つに記載の情報処理装置。
7. 前記所定処理は、出力する音声の音量を増加させる処理、出力する音声の音量を減少させる処理、取得する音声の音量を増加させる処理、取得する音声の音量を減少させる処理、音声出力を有効にする処理、音声出力を無効にする処理、音声取得を有効にする処理、又は音声取得を無効にする処理を含む1.乃至6.いずれか一つに記載の情報処理装置。
8. 前記所定処理は、音声通話の状態を着信状態から通話状態に変更する処理、音声通話の状態を通話状態から終話状態に変更する処理、音声通話の状態を通話状態から保留状態に変更する処理、又は音声通話の状態を着信状態にしたまま、着信音の出力を停止する処理を含む1.乃至7.いずれか一つに記載の情報処理装置。
9. 複数の面を有し、かつアプリケーションを実行するコンピュータを、制御する情報処理プログラムであって、
前記コンピュータに、
前記コンピュータに加えられた振動を検出する振動検出機能と、
前記振動検出機能が検出した振動に基づいて、前記複数の面の中から、振動が加えられた面である操作面を検出する操作面検出機能と、
前記コンピュータの状態を検出する装置状態検出機能と、
前記アプリケーションの状態を検出するアプリケーション状態検出機能と、
前記アプリケーションの状態、前記コンピュータの状態、及び前記操作面に基づいて、複数の所定処理の中から、実行する所定処理を決定する処理決定機能と、
を持たせる情報処理プログラム。
10. 前記装置状態検出機能が検出する前記コンピュータの状態は、前記コンピュータの姿勢、又は前記コンピュータの所在位置であることを特徴とする9.記載の情報処理プログラム。
11. 前記コンピュータに、前記振動検出機能が検出した振動に基づいて、前記コンピュータに対して振動が加えられた回数である振動回数を検出する振動回数検出機能をさらに持たせ、
前記処理決定機能は、前記振動回数をさらに用いて、前記所定処理を決定する9.又は10.に記載の情報処理プログラム。
12. 前記コンピュータが有する面は、複数の部分領域を有し、
当該情報処理プログラムは、前記コンピュータに、前記操作面検出機能によって検出された操作面が持たせる複数の部分領域の中から、振動が加えられた部分領域である操作領域を検出する操作領域検出機能を持たせ、
前記処理決定機能は、前記操作領域をさらに用いて、前記所定処理を決定する9.乃至11.いずれか一つに記載の情報処理プログラム。
13. 前記所定処理は、前記アプリケーションの動作を開始する処理、前記アプリケーションの動作を終了する処理、前記アプリケーションの動作を停止する処理、又は前記アプリケーションの動作を再開する処理を含む9.乃至12.いずれか一つに記載の情報処理プログラム。
14. 前記所定処理は、前記アプリケーションが処理対象とするコンテンツを変更する処理、又は前記アプリケーションが処理しているコンテンツの処理位置を変更する処理を含む9.乃至13.いずれか一つに記載の情報処理プログラム。
15. 前記所定処理は、出力する音声の音量を増加させる処理、出力する音声の音量を減少させる処理、取得する音声の音量を増加させる処理、取得する音声の音量を減少させる処理、音声出力を有効にする処理、音声出力を無効にする処理、音声取得を有効にする処理、又は音声取得を無効にする処理を含む9.乃至14.いずれか一つに記載の情報処理プログラム。
16. 前記所定処理は、音声通話の状態を着信状態から通話状態に変更する処理、音声通話の状態を通話状態から終話状態に変更する処理、音声通話の状態を通話状態から保留状態に変更する処理、又は音声通話の状態を着信状態にしたまま、着信音の出力を停止する処理を含む9.乃至15.いずれか一つに記載の情報処理プログラム。
17. 複数の面を有し、かつアプリケーションを実行するコンピュータによって、実行される情報処理方法であって、
前記コンピュータに加えられた振動を検出する振動検出ステップと、
前記振動検出ステップが検出した振動に基づいて、前記複数の面の中から、振動が加えられた面である操作面を検出する操作面検出ステップと、
前記コンピュータの状態を検出する装置状態検出ステップと、
前記アプリケーションの状態を検出するアプリケーション状態検出ステップと、
前記アプリケーションの状態、前記コンピュータの状態、及び前記操作面に基づいて、複数の所定処理の中から、実行する所定処理を決定する処理決定ステップと、
を有する情報処理方法。
18. 前記装置状態検出ステップが検出する前記コンピュータの状態は、前記コンピュータの姿勢、又は前記コンピュータの所在位置であることを特徴とする17.記載の情報処理方法。
19. 前記振動検出ステップが検出した振動に基づいて、前記コンピュータに対して振動が加えられた回数である振動回数を検出する振動回数検出ステップをさらに有し、
前記処理決定ステップは、前記振動回数をさらに用いて、前記所定処理を決定する17.又は18.に記載の情報処理方法。
20. 前記コンピュータが有する面は、複数の部分領域を有し、
当該情報処理方法は、
前記操作面検出ステップによって検出された操作面が持たせる複数の部分領域の中から、振動が加えられた部分領域である操作領域を検出する操作領域検出ステップを有し、
前記処理決定ステップは、前記操作領域をさらに用いて、前記所定処理を決定する17.乃至19.いずれか一つに記載の情報処理方法。
21. 前記所定処理は、前記アプリケーションの動作を開始する処理、前記アプリケーションの動作を終了する処理、前記アプリケーションの動作を停止する処理、又は前記アプリケーションの動作を再開する処理を含む17.乃至20.いずれか一つに記載の情報処理方法。
22. 前記所定処理は、前記アプリケーションが処理対象とするコンテンツを変更する処理、又は前記アプリケーションが処理しているコンテンツの処理位置を変更する処理を含む17.乃至21.いずれか一つに記載の情報処理方法。
23. 前記所定処理は、出力する音声の音量を増加させる処理、出力する音声の音量を減少させる処理、取得する音声の音量を増加させる処理、取得する音声の音量を減少させる処理、音声出力を有効にする処理、音声出力を無効にする処理、音声取得を有効にする処理、又は音声取得を無効にする処理を含む17.乃至22.いずれか一つに記載の情報処理方法。
24. 前記所定処理は、音声通話の状態を着信状態から通話状態に変更する処理、音声通話の状態を通話状態から終話状態に変更する処理、音声通話の状態を通話状態から保留状態に変更する処理、又は音声通話の状態を着信状態にしたまま、着信音の出力を停止する処理を含む17.乃至23.いずれか一つに記載の情報処理方法。
Claims (10)
- 複数の面を有し、かつアプリケーションを実行する情報処理装置であって、
当該情報処理装置に加えられた振動を検出する振動検出手段と、
前記振動検出手段が検出した振動に基づいて、前記複数の面の中から、振動が加えられた面である操作面を検出する操作面検出手段と、
当該情報処理装置の状態を検出する装置状態検出手段と、
前記アプリケーションの状態を検出するアプリケーション状態検出手段と、
前記アプリケーションの状態、当該情報処理装置の状態、及び前記操作面に基づいて、複数の所定処理の中から、実行する所定処理を決定する処理決定手段と、
を有する情報処理装置。 - 前記装置状態検出手段が検出する当該情報処理装置の状態は、当該情報処理装置の姿勢、又は当該情報処理装置の所在位置であることを特徴とする請求項1記載の情報処理装置。
- 前記振動検出手段が検出した振動に基づいて、当該情報処理装置に対して振動が加えられた回数である振動回数を検出する振動回数検出手段をさらに有し、
前記処理決定手段は、前記振動回数をさらに用いて、前記所定処理を決定する請求項1又は2に記載の情報処理装置。 - 当該情報処理装置が有する面は、複数の部分領域を有し、
当該情報処理装置は、前記操作面検出手段によって検出された操作面が有する複数の部分領域の中から、振動が加えられた部分領域である操作領域を検出する操作領域検出手段を有し、
前記処理決定手段は、前記操作領域をさらに用いて、前記所定処理を決定する請求項1乃至3いずれか一項に記載の情報処理装置。 - 前記所定処理は、前記アプリケーションの動作を開始する処理、前記アプリケーションの動作を終了する処理、前記アプリケーションの動作を停止する処理、又は前記アプリケーションの動作を再開する処理を含む請求項1乃至4いずれか一項に記載の情報処理装置。
- 前記所定処理は、前記アプリケーションが処理対象とするコンテンツを変更する処理、又は前記アプリケーションが処理しているコンテンツの処理位置を変更する処理を含む請求項1乃至5いずれか一項に記載の情報処理装置。
- 前記所定処理は、出力する音声の音量を増加させる処理、出力する音声の音量を減少させる処理、取得する音声の音量を増加させる処理、取得する音声の音量を減少させる処理、音声出力を有効にする処理、音声出力を無効にする処理、音声取得を有効にする処理、又は音声取得を無効にする処理を含む請求項1乃至6いずれか一項に記載の情報処理装置。
- 前記所定処理は、音声通話の状態を着信状態から通話状態に変更する処理、音声通話の状態を通話状態から終話状態に変更する処理、音声通話の状態を通話状態から保留状態に変更する処理、又は音声通話の状態を着信状態にしたまま、着信音の出力を停止する処理を含む請求項1乃至7いずれか一項に記載の情報処理装置。
- 複数の面を有し、かつアプリケーションを実行するコンピュータを制御する情報処理プログラムであって、
前記コンピュータに、
前記コンピュータに加えられた振動を検出する振動検出機能と、
前記振動検出機能が検出した振動に基づいて、前記複数の面の中から、振動が加えられた面である操作面を検出する操作面検出機能と、
前記コンピュータの状態を検出する装置状態検出機能と、
前記アプリケーションの状態を検出するアプリケーション状態検出機能と、
前記アプリケーションの状態、前記コンピュータの状態、及び前記操作面に基づいて、複数の所定処理の中から、実行する所定処理を決定する処理決定機能と、
を持たせる情報処理プログラム。 - 複数の面を有し、かつアプリケーションを実行するコンピュータによって、実行される情報処理方法であって、
前記コンピュータに加えられた振動を検出する振動検出ステップと、
前記振動検出ステップが検出した振動に基づいて、前記複数の面の中から、振動が加えられた面である操作面を検出する操作面検出ステップと、
前記コンピュータの状態を検出する装置状態検出ステップと、
前記アプリケーションの状態を検出するアプリケーション状態検出ステップと、
前記アプリケーションの状態、前記コンピュータの状態、及び前記操作面に基づいて、複数の所定処理の中から、実行する所定処理を決定する処理決定ステップと、
を有する情報処理方法。
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CN201480008694.1A CN105009029B (zh) | 2013-02-13 | 2014-01-27 | 信息处理装置、信息处理方法以及信息处理程序 |
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