WO2021190509A1 - 基于运动的呼叫处理方法、装置及电子设备 - Google Patents
基于运动的呼叫处理方法、装置及电子设备 Download PDFInfo
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- WO2021190509A1 WO2021190509A1 PCT/CN2021/082432 CN2021082432W WO2021190509A1 WO 2021190509 A1 WO2021190509 A1 WO 2021190509A1 CN 2021082432 W CN2021082432 W CN 2021082432W WO 2021190509 A1 WO2021190509 A1 WO 2021190509A1
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/64—Automatic arrangements for answering calls; Automatic arrangements for recording messages for absent subscribers; Arrangements for recording conversations
- H04M1/642—Automatic arrangements for answering calls; Automatic arrangements for recording messages for absent subscribers; Arrangements for recording conversations storing speech in digital form
- H04M1/645—Automatic arrangements for answering calls; Automatic arrangements for recording messages for absent subscribers; Arrangements for recording conversations storing speech in digital form with speech synthesis
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/64—Automatic arrangements for answering calls; Automatic arrangements for recording messages for absent subscribers; Arrangements for recording conversations
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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
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- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72469—User interfaces specially adapted for cordless or mobile telephones for operating the device by selecting functions from two or more displayed items, e.g. menus or icons
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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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- 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
- H04M1/724094—Interfacing with a device worn on the user's body to provide access to telephonic functionalities, e.g. accepting a call, reading or composing a message
- H04M1/724095—Worn on the wrist, hand or arm
Definitions
- the present invention relates to the field of communication technology, and in particular to a motion-based call processing method, device, electronic equipment, and computer-readable storage medium.
- the present invention provides a motion-based call processing method, device, device, and computer-readable storage medium, which can intelligently process calls according to the user's motion state, and improve the efficiency of interaction between the device and the user.
- Some embodiments of the application provide a motion-based call processing method.
- the following describes the application from multiple aspects, and the implementations and beneficial effects of the following multiple aspects can be referred to each other.
- this application provides a motion-based call processing method, executed by an electronic device, including: acquiring user motion data detected by at least one sensor.
- the electronic device may include a mobile phone, a smart communication watch, and a smart communication bracelet.
- Chips, etc. exercise data is used to characterize the user’s current state of exercise, for example, the user’s arm or body swings regularly during running or swimming, and the speed and angle of the swing can be used to identify the user’s running state Or swimming status, etc., where the motion data can be detected by one or more combination sensors of an acceleration sensor, a gyroscope, a gravity sensor, or a positioning system.
- the system where the electronic device is located receives a call, it determines and executes the processing action corresponding to the current call according to the determined current motion state of the user.
- the call may include a device call, a voice call, a video call, etc., correspondingly
- the action can be to reject the call, send a message to the calling party's number, or answer the call. It can also wait for the call to end automatically according to the customer's setting.
- the electronic device can detect the user's motion data, and when the electronic device receives a call, determine the user's motion state through the motion data, and then intelligently process the caller's call according to the user's motion state, thereby improving the equipment The efficiency of interacting with users.
- the electronic device determines whether the user starts to exercise according to the exercise data, and when it is determined that the user starts to exercise, the call intelligent processing mode is turned on. For example, the swing speed and angle of the arm when the user is running will be different from the swing speed and angle of the arm when the user is not running.
- the device can automatically turn on the call intelligent processing mode, so that the user can determine the processing action corresponding to the current call according to the user's current exercise state when exercising, which can prevent the user from manually turning on the call intelligent processing mode and improve the user experience.
- the electronic device determines the action corresponding to the current call according to the user's current motion state, which specifically includes: the electronic device according to the user's motion state Make sure that the user is in the first state or the second state, where the first state indicates that the user is willing to answer the call, and the second state indicates that the user is not willing to answer the call.
- the exercise state can include the continuity and pause of the user's movement. The continuity and pause can further determine whether the user wants to connect to the phone, or does not want to connect.
- the user's continuous movement usually means that the user does not pay attention to the call, which can indicate that the user does not want to answer, and the user's continuous movement law suddenly changes, such as the arm that is swinging regularly and suddenly starts to slow down after receiving the call.
- the speed, or the speed is 0, can be judged as a pause at this time, which can indicate that the customer may have watched the caller, and may answer the call, or reject the call.
- the call is automatically answered; when it is judged that the user is in the second exercise state (when there is no willingness to answer the call), the reply content preset by the calling user is automatically returned.
- the received call is processed intelligently by judging the subjective wishes of the customer, which further improves the user experience.
- the user can preset and save the reply content of different callers according to the actual situation.
- groups can be grouped according to family members, friends or colleagues
- the electronic device can identify the group to which the caller's number belongs, and reply to the corresponding set message.
- the reply content of each contact can also be edited, so that the caller can receive targeted reply content, which improves the user experience.
- the electronic device determines that the user is in the first state according to the user's exercise state, that is, is willing to answer the call, which specifically includes determining whether the user's exercise state is in line with the expected state based on the user's exercise data.
- Set the required pause, where the pause that meets the preset requirements can be that the user stops exercising, or the user’s exercise speed is reduced to the set requirement, for example, the user is running at an average speed of 4 meters per second, and the When the call is made, the user stops running and the speed is 0.
- This situation is considered to be a pause, or the user's running speed decreases to 2 m/s within a certain period of time, and it can also be considered to be a pause at this time.
- the pause time of the user's exercise reaches the preset time, and when the pause time reaches the preset time, it is judged that the user is willing to answer the call, for example, when the preset The time is 5 seconds, and the user pause time reaches 5 seconds, it is determined that the user has the willingness to answer the call, and the call is automatically answered, which can further improve the judgment of the user's willingness to answer the call.
- the caller can be returned by sending a message, so that the caller can know the user’s situation in time. Bring a good experience for both the user and the caller.
- judging whether the user's exercise state meets the preset required pause according to the user's exercise data including the electronic device judging whether the exercise data is greater than or equal to the preset threshold, when the user's exercise data If it is greater than or equal to the preset threshold, it is determined that the user's exercise state is pause.
- judging that the user is in the second state, that is, the user does not intend to answer the call further includes: judging whether the user's exercise state is continuous according to the user's exercise data Exercise, wherein whether it is a continuous exercise that meets the preset requirements can determine whether the exercise data is less than a preset threshold, and when the user's exercise data is less than the preset threshold, it is determined that the user's exercise is a continuous exercise.
- the user When it is judged that the user's exercise status is continuous exercise, the user is determined to be in the second state, that is, there is no willingness to answer the call, and then the preset reply content can be sent to the caller's number by way of information, so as to avoid directly rejecting the call or not answering the call.
- the caller brings anxiety or unhappiness.
- the present application provides an electronic device.
- the electronic device may include a mobile phone, a smart communication watch, a smart communication bracelet, a chip, etc., specifically including: at least one sensor.
- the sensor may include a gravity sensor, a gyroscope, an accelerometer, or One or more combinations in the positioning system.
- the sensor is used to obtain the user’s exercise data, and the exercise data is used to characterize the user’s current exercise state. For example, the user’s arm or body regularly swings during running or swimming.
- the movement data such as the speed and angle of its swing can identify that the user is in a running state or a swimming state; the processor, when the system where the electronic device is located receives a call, the processor determines and executes the corresponding call to the current call according to the user's current motion state Processing actions.
- the call may include a device call, a voice call, a video call, etc.
- the corresponding action may be to reject the call, send a message to the calling party's number, or answer the call. It can also wait for the call to end automatically according to the customer's setting.
- the electronic device can detect the user's motion data, and when the electronic device receives a call, determine the user's motion state through the motion data, and then intelligently process the caller's call according to the user's motion state, thereby improving the equipment The efficiency of interacting with users.
- the electronic device determines whether the user has started exercising based on the exercise data, and when it is determined that the user has started exercising, the call intelligent processing mode is activated. For example, the swing speed and angle of the arm when the user is running will be different from the swing speed and angle of the arm when the user is not running.
- the device can automatically turn on the call intelligent processing mode, so that the user can determine the processing action corresponding to the current call according to the user's current exercise state when exercising, which can prevent the user from manually turning on the call intelligent processing mode and improve the user experience.
- the processor is specifically configured to: the processor determines whether the user is in the first state or the second state according to the user's motion state, where the first state indicates that the user is willing to answer the call , The second state indicates that the user has no willingness to answer the call.
- the processor determines whether the user is in the first state or the second state according to the user's motion state, where the first state indicates that the user is willing to answer the call , The second state indicates that the user has no willingness to answer the call.
- the processor determines whether the user is in the first state or the second state according to the user's motion state, where the first state indicates that the user is willing to answer the call , The second state indicates that the user has no willingness to answer the call.
- the call is automatically answered; when it is judged that the user is in the second state, that is, there is no willingness to answer the call, Automatically reply to the pre-set reply content of the caller.
- groups can be grouped according to family members, friends or colleagues, the electronic device can identify the group to which the
- the processor is specifically configured to: determine whether the user's exercise state is a pause that meets a preset requirement according to the user's motion data, where the pause that meets the preset requirement may be a user stop Exercise, or the user’s exercise speed is reduced to the set requirement, for example, the user is running at an average speed of 4 meters per second.
- the user stops running and the speed is 0. This situation is considered to be a pause.
- the user's running speed is reduced to 2 meters per second within a certain period of time, and it can also be considered as a pause at this time.
- the pause time of the user's exercise reaches the preset time, and when the pause time reaches the preset time, it is judged that the user is in the first state, that is, the user is willing to answer the call
- the preset time is 5 seconds and the user's pause time reaches 5 seconds
- the processor is further specifically configured to: when the pause time of the user's motion does not reach the preset time, determine that the user is in the second state, that is, there is no willingness to answer the call. For example, when the preset time is 5 seconds and the user enters the exercise state after a pause of 4 seconds, it is judged that the user is in the second state, that is, there is no willingness to answer the call. At this time, the call can be returned by sending a message In order to enable the caller to know the user’s situation in time, it will bring a good experience for both the user and the caller.
- the processor judging whether the user's exercise state meets the preset required pause according to the user's exercise data includes: judging whether the exercise data is greater than or equal to a preset threshold, when the user's exercise data If it is greater than or equal to the preset threshold, it is determined that the user's exercise state is paused.
- the processor is further configured to: determine whether the user's exercise state is a continuous exercise that meets the preset requirements according to the user's exercise data, and when it is determined that the user's exercise state is continuous exercise, then It is determined that the user is in the second state, that is, there is no willingness to answer the call.
- the processor judging whether the user's exercise state is continuous exercise includes: judging whether the user's exercise data is less than a preset threshold according to the exercise data, and when the user's exercise data is less than the preset threshold , It is judged that the user's movement is a continuous movement.
- the present application provides an electronic device including one or more memories, one or more processors coupled with the memories, and one or more programs, wherein the one or more programs are stored in The memory is characterized in that the electronic device is used to execute the method disclosed in the first aspect of the above-mentioned embodiment.
- the present application provides a computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program, and when the computer program is run by a processor, the processor executes the information disclosed in the first aspect of the above-mentioned embodiments. method.
- the present application discloses a computer program product containing instructions, which when run on a computer, causes the computer to execute the method disclosed in the first aspect of the above-mentioned embodiments.
- this application discloses a device including a processor, a memory, and a communication module.
- the processor, the memory, and the communication module communicate with each other through an internal link path to transfer control and/or data signals, so that the device executes the method disclosed in the first aspect of the above-mentioned embodiments.
- FIG. 1 is a schematic structural diagram of a system provided by an embodiment of this application.
- Figure 2 is a flowchart of a call processing method in motion according to an embodiment of the application
- Fig. 3a is a schematic diagram of an interface for starting a call intelligent processing mode according to an embodiment of the application
- Figure 3b is a schematic diagram of a call interface provided by an embodiment of the application.
- Figure 3c is a schematic diagram of an interface for rejecting a call provided by an embodiment of the application.
- Figure 4 is an interactive flowchart of a call processing method in motion according to an embodiment of the application
- FIG. 5 is a schematic diagram of an internal structure of an electronic device according to an embodiment of the application and a flowchart of a call processing method of each component;
- Fig. 6 is a flow chart of feedback to a call based on the user's motion state according to an embodiment of the application
- FIG. 7 is a schematic structural diagram of an electronic device according to an embodiment of the application.
- FIG. 8 is a schematic structural diagram of an electronic device according to an embodiment of the application.
- FIG. 9 is a schematic structural diagram of a chip according to an embodiment of the application.
- FIG. 10 is a block diagram of a device according to some embodiments of the application.
- FIG. 11 is a block diagram of a system on chip (SoC) according to some embodiments of the application.
- SoC system on chip
- module can refer to or include an application specific integrated circuit (ASIC), an electronic circuit, a processor (shared, dedicated, or group) that executes one or more software or firmware programs. Group) and/or memory, combinational logic circuit, and/or other suitable hardware components that provide the described functions, or may be part of these hardware components.
- ASIC application specific integrated circuit
- processor shared, dedicated, or group
- memory shared, dedicated, or group
- combinational logic circuit and/or other suitable hardware components that provide the described functions, or may be part of these hardware components.
- the processor may be a microprocessor, a digital signal processor, a microcontroller, etc., and/or any combination thereof.
- the processor may be a single-core processor, a multi-core processor, etc., and/or any combination thereof.
- Fig. 1 is a schematic structural diagram of a system provided by an embodiment of the application.
- the system may include at least two electronic devices.
- three electronic devices are included as an example.
- the wearable device 12 the called party
- the calling party the calling party
- the three electronic devices can communicate with the network device 14 through a wireless connection interface. That is to say, the mobile terminal 11 can be used as the called party. It communicates with the calling party through the network device 14, and the wearable device 12 can also be used as the called party to communicate with the calling party through the network device 14.
- this application is applicable to the structural schematic diagram of the system shown in FIG. 1, but is not limited to this.
- the electronic device in this application refers to a device that can provide users with voice and/or data connectivity.
- the electronic device can communicate via at least one core network or wireless access network.
- the electronic device may be an electronic device, such as a mobile phone, a smart communication watch, a smart communication bracelet, and other communication devices that are convenient to carry or wear, and are not limited herein.
- the network equipment involved in this application can be a base station (Base Transceiver Station, BTS) in Global System for Mobile Communication (GSM) or Code Division Multiple Access (CDMA), or it can be a broadband code
- BTS Base Transceiver Station
- GSM Global System for Mobile Communication
- CDMA Code Division Multiple Access
- NodeB.NB Wideband Code Division Multiple Access
- WCDMA Wideband Code Division Multiple Access
- AP Access Point
- WLAN wireless local area network
- the electronic equipment in this application may be a mobile phone, and the system where the electronic device is located may be the mobile phone; or the electronic device is a chip, and the system where the electronic device is located is a mobile terminal where the chip is located, which is not considered here. limited.
- a motion-based call processing method is disclosed.
- Fig. 2 shows a flow chart of a motion-based call processing method. The following describes the call processing method with the electronic device worn on the user as the execution subject. As shown in Fig. 2, the call processing method includes:
- the electronic device obtains the user's motion data detected by at least one sensor, and the motion data is used to characterize the user's current motion state.
- the sensor can be one or more combinations of acceleration sensors, gyroscopes, gravity sensors, or positioning systems.
- the aforementioned sensors can obtain movement data that characterizes the user's current movement state. For example, when the user is running, the electronic device can The sensor detects the user's (running) speed, arm swing speed, arm swing angle and other motion data. And further judge the user's exercise status based on the exercise data.
- the electronic device monitors the data in real time and saves the exercise data. When the user stops running or slows down, the electronic device can determine whether the user is stopped running according to the changes before and after the exercise data. , Maintain the original speed or slow down the movement state.
- Step S220 When the system where the electronic device is located receives a call, the electronic device determines and executes a processing action corresponding to the current call according to the determined current motion state of the user. Wherein, the corresponding processing action may include directly rejecting the call and sending the corresponding reply content to the calling number, or answering the call, etc. For example, after the electronic device receives a call, the user’s current exercise state is to keep running at a constant speed.
- the user can reject the call and send a short message to the caller "I’m running, I’ll call you back later."
- the current call can be automatically processed according to the user's current motion state, which does not affect the user's motion, but also prevents the user from directly rejecting or not answering the call, making the caller feel unpleasant or anxious. Therefore, the intelligence of the terminal can be improved, and the user experience can be improved.
- the calls in this application may include ordinary telephone calls, voice or video communication calls, etc., which are not limited herein.
- sports in this application may include running sports, swimming sports, mountaineering sports, rock climbing, ball games, aerobics, etc., which are not limited herein.
- the electronic device uses a sensor to determine whether the user has started to exercise, and when it is determined that the user has started to exercise, the call intelligent processing mode is turned on. For example, when the user starts running, the sensor of the electronic device detects the user's running motion data and determines that the user has started running. At this time, the electronic device can automatically turn on the call intelligent processing mode, and determine and execute the current call based on the user's exercise status. Call the corresponding processing action. It can prevent the user from manually opening each time, and improve the efficiency of human-computer interaction.
- Fig. 3a is a schematic diagram of an interface for starting the call intelligent processing mode provided by an embodiment of the application.
- the interface 31 when the electronic device starts the call intelligent processing mode.
- the user can preset the exercise mode before exercising.
- the electronic device It detects that the user's motion data, such as speed, acceleration, angular velocity, altitude, etc., meet the preset conditions, and enters the preset sports mode, such as running, swimming, mountain climbing, rock climbing and other sports modes.
- the running speed of a person during running is usually more than 3 times the walking speed during normal walking, while the usual walking speed of a person is 1.75m/s-2m/s, which is 1.75m/s
- the electronic device detects that the user's motion data is moving at a speed of 5.25m/s, which reaches 3 times the speed of normal walking, it is determined that the user has started the preset mode of running exercise.
- the electronic device The call intelligent processing mode will be turned on, and the call intelligent processing mode icon 32 will appear in the display bar of the interface 31 of the electronic device. The user can know whether the call intelligent processing mode is turned on by watching the icon 32.
- the electronic device determines that the user After stopping exercise such as running, for example, when the user's running speed drops from an average of 5.25m/s to less than 2m/s, it can be determined that the user has stopped running, the call intelligent processing mode is automatically closed, and the interface 31 of the electronic device The icon 32 will disappear.
- FIG 3b is a schematic diagram of a call interface provided by an embodiment of the application.
- the electronic device receives a call.
- the call interface 33 is displayed.
- the call interface 33 can display the avatar of the caller, or the number of the caller, etc., and display the call.
- the called party and the caller can talk directly.
- the call smart processing mode is still on, and the user can still see the icon 32 called smart processing mode.
- the electronic device can continue to monitor the user's exercise data, and when it is determined that the user stops the current exercise (running)
- the call intelligent processing mode is automatically closed, the icon 32 on the interface 33 of the electronic device will disappear.
- the electronic device can also be connected to a playback device such as a Bluetooth headset of the called party to facilitate the user's call.
- Fig. 3c is a schematic diagram of an interface for rejecting a call provided by an embodiment of the application.
- the electronic device receives the call, and when the electronic device automatically rejects the call according to the user’s current motion state After that, the rejected call interface 34 is displayed.
- the missed call icon 35 will be displayed on the interface 34 to remind the called party that there is a missed call. When there are multiple missed calls, it will be displayed on the upper right of the missed call icon 35. It is marked with corresponding Arabic numerals.
- the electronic device obtains the calling party's number and sends the called party's preset reply content to the calling party's number, and displays the message sending icon 36 on the call rejection interface 34. The user can click on the icon 36 to view the sending Content.
- the expression form of the icon in this application is only an exemplary description, and other expression forms are possible, which are not limited here.
- FIG. 4 shows a schematic diagram of the internal structure of the electronic device and a flowchart of the call processing method of each component.
- the electronic device includes a microprocessor 410, a communication module 420, and four sensors.
- the microprocessor 410 communicates with the gyroscope 430, the acceleration sensor 440, and the gyroscope through the four interfaces 3, 4, 5, and 6 respectively.
- the four sensors of the gravity sensor 450 and the positioning system 460 are connected.
- the microprocessor 410 determines that the user starts to exercise based on the motion data detected by the sensors, the microprocessor 410 activates the call intelligent processing mode through the interface 2 and connects with the communication module 420 through the interface 8. , Retrieve the calling party number and group in the address book through the interface 1 to determine the user's preset reply content for the calling party, and send the corresponding reply content to the calling party through the communication module 420 or answer the call. For example, when the microprocessor 410 determines that the user is willing to answer a call, it can call interfaces 7 and 9 to transmit the determination that the user wants to answer the call to the communication module 420, and the communication module 420 triggers the answer key through the interface 11 to automatically answer the call. call. When the microprocessor 410 determines that the user has no intention to answer the call, it can obtain the reply content through the interface 10 and send the corresponding reply content to the calling party number, so that the calling party can know the user's situation in time.
- the microprocessor 410 needs to make two judgments to determine that the user is willing to answer the call. As shown in FIG. 4, the microprocessor 410 can determine whether the user's movement is continuous or pause based on the movement data detected by the sensor. When judging that the user’s motion is paused, further, the microprocessor 410 can determine through the interface 7 whether the user pause time meets the conditions that the user wants to answer the call, for example, set the pause time to 5 seconds, and when the user pause time reaches 5 seconds, Then the microprocessor 410 determines that the user is willing to answer the call, and completes the automatic answering action through the interface 9 and the interface 11 and the communication module 420.
- the microprocessor 410 judges that the user has no intention to answer the call, which can be determined by judging that the user's movement is continuous for the first time, or after judging that the user pauses for the first time, after the second judging that the pause time of the user does not reach the prescribed time It is judged at 5 seconds.
- the specific parameter values of the application such as the pause time threshold of 5 seconds, are only exemplary descriptions and are not limited here.
- the sensors mentioned in this application are not limited to the four mentioned in this application. This type of sensor is only an exemplary description here, and is not intended as a limitation to this application.
- Figure 5 shows an interactive flow chart of the call processing method in motion.
- the method includes the electronic device of the called party and the electronic device of the calling party, as shown in Figure 5.
- the above step S220 includes the following steps:
- Step 510 The calling party initiates a call to the called party. For example, initiating a phone call, a voice call, or a video call, etc.
- the called party electronic device executes the above step S220, including steps S520 to S530, specifically:
- Step 520 The called party receives the call from the calling party.
- Step 530 After receiving the call, the called party judges whether the user is in the first state or the second state according to the user's motion state, that is, whether the user is willing to answer the call, and feeds back to the calling party according to the judgment result.
- Step 540 The calling party receives feedback from the called party.
- the feedback to the caller based on the judgment result in this application may include the following two situations:
- the call is automatically answered to realize the communication connection between the calling party and the called party.
- the electronic device can be turned on or connected to a headset worn by the user, so that the user can communicate with the calling user.
- the reply content preset by the caller is automatically returned.
- the preset reply content can be a short message edited by the user before exercising.
- the user can preset and save the reply content of different callers according to the actual situation.
- the group can be grouped according to family, friends, or colleagues.
- the electronic device can identify the group to which the caller’s number belongs, and reply to the corresponding set message.
- the daughter’s call can be set to "daughter, I'm swimming, come to XX to find me", in the group of colleagues and friends, you can set "I am inconvenient now, I will call you later" and so on.
- the preset reply content can also be the smart reply content of the electronic device.
- the electronic device can intelligently reply to different content according to whether the user pauses or not. For example, if the user does not pause, the owner thinks that the owner did not hear or does not want to be disturbed, and then responds "please leave a message or call again later". If the user pauses, but the duration has not reached the preset time, for example, 5 seconds, the reply will be: "The owner is swimming and cannot answer the call. He will reply you later. This will enable the caller to know the user's status in time and prevent the caller from not knowing The situation of the called party is anxious, and the user experience is improved.
- the first state in this application is used to indicate that the user is willing to answer the call
- the second state indicates that the user is not willing to answer the call.
- the willingness to answer the call and the unwillingness to answer the call are used respectively. To describe, that is to say, the willingness to answer the call is the first state of the user in this application, and the unwillingness to answer the call is the second state of the user.
- the user In this application, it is judged whether the user has the willingness to answer the call.
- the user’s regular reaction affects the user’s exercise data as the basis for the judgment.
- the user can ignore the call and maintain the running state.
- the call will not affect the user's exercise data.
- the movement data of the user's limb movements detected by the sensor such as the angle of arm swing, the acceleration of gravity of the electronic device, the acceleration of the running direction, etc., are used to indicate the speed of the user's overall or limb movement.
- the physical parameters (as an example of motion data) will not change much.
- the user needs to further determine whether to answer the call by observing the caller on the electronic device, the user usually moves the electronic device close to the face and observes, which will affect the user's running speed, or the movement of holding the electronic device close to the face It will affect the swing amplitude of the arm, such as the sudden raising of the arm swing, the larger the swing angle, etc.
- the electronic device can measure the acceleration due to gravity through the gravity sensor, and calculate the electronic device With respect to the inclination angle of the horizontal plane, the acceleration sensor measures the speed change in the arm swing direction, and the gyroscope can measure the arm swing direction and arm swing angle, and the electronic device can determine the user's movement based on the movement data state.
- the motion data of the user during other actions such as running or swimming will also be detected by the corresponding sensors, so that the electronic device can understand the user’s motion state based on the motion data to determine whether the user is willing to answer.
- the user quickly returns to the original running state after observation it can indicate that the user has no intention to answer. If the user does not return to the original running state for a period of time after observation, it can indicate that the user wants to answer the call.
- the above-mentioned exercise data in which the user quickly returns to the original running state after observation, and the user does not return to the original running state for a period of time after observation can be detected and recorded by the sensor of the electronic device.
- the electronic device judges whether the user has the willingness to answer according to the changes in the exercise data. Based on the above judgment, the user’s exercise data can be continuously monitored before and after the call is received by the electronic device to determine whether the user is willing to answer, and then the user’s subjective willingness can be judged to assist the user in handling the received call and improve the user Experience.
- the mobile terminal can determine that the user has not stood up and may be injured. At this time, it automatically initiates a call or sends corresponding information to the user’s preset emergency contact, so that the user can get better protect.
- the parameters in this application are only exemplary descriptions, and are not intended to limit the application here.
- step 530 of the present application will be described in detail below with reference to the accompanying drawings.
- Fig. 6 shows a flow chart of feedback on a call based on the user’s motion state.
- the electronic device determines whether the user has the willingness to answer the call, which specifically includes:
- Step S600 Determine whether the user's exercise state is a continuous exercise according to the user's exercise data.
- the electronic device determines that the user's exercise state is a continuous exercise, it can directly determine that the user has no intention to answer the phone.
- the electronic device may perform step 640, that is, send preset reply content to the caller, that is, the content edited by the user before exercise, or the smart reply content of the electronic device.
- step 640 that is, send preset reply content to the caller, that is, the content edited by the user before exercise, or the smart reply content of the electronic device.
- the electronic device determines that the user's motion is discontinuous, that is, the user's motion state is paused, at this time, the electronic device executes step 610 to further determine whether the user is willing to answer the call.
- step S600 in step S530 in detail in conjunction with specific embodiments.
- the microprocessor 410 compares the motion data with a preset threshold, where the preset threshold may be critical motion data between motion continuity and pause. When the motion data is less than the preset threshold, Then the microprocessor 410 determines that the user is a continuous exercise. When the user's exercise data is greater than or equal to the preset threshold, the microprocessor 410 determines that the user's exercise is discontinuous, that is, a pause.
- the exercise data includes the movement data received by the electronic device.
- the user's movement acceleration from the time of the call to a certain moment such as the angle and direction of the arm swing monitored by the gyroscope, the gravity acceleration of the electronic device detected by the gravity sensor, the acceleration in the direction of the user's movement monitored by the acceleration sensor, and the user detected by the positioning system
- the moving distance of the mobile phone etc.
- the angle of the user's arm swinging to the left and right is less than 30 degrees.
- the acceleration sensor and gyroscope monitor that the user always keeps the acceleration in the direction of movement of 0m/s 2 , that is, the user is moving at a constant speed, indicating that the user's movement is continuous.
- the microprocessor 410 It is judged that the user has no intention to answer the call.
- the electronic device can reject the call, and send the preset reply content to the caller number, so as not to directly reject the call or cause anxiety or unhappiness to the caller.
- the preset threshold value in this application may also be set to different parameters according to different exercise states of the user. This application is only an exemplary description and is not intended to limit the application.
- the microprocessor 410 determines that the user's motion is discontinuous, that is, a pause. At this time, the microprocessor 410 executes In step S610, the microprocessor 410 can determine whether the user's exercise state is a pause that meets a preset requirement according to the user's exercise data.
- the electronic device can detect the angle and direction of the arm swing through the gravity acceleration detected by the gravity sensor 450 or the gyroscope, and the acceleration sensor 440 detects that the arm swings
- the acceleration change in the swing direction yields an accurate judgment.
- the gravity sensor 450 can detect that the gravity acceleration of the electronic device at this time is 0m/s 2 , the sudden lifting action will make the gravity acceleration increase rapidly, such as Change from 0m/s 2 to 5m/s 2 .
- the microprocessor 410 can determine that the user's motion state at this time is a pause.
- the pause that meets the preset requirements can also be that the user is completely still, and the speed in the motion direction is 0 m/s.
- the motion data can be obtained by one or more combinations of gyroscopes, acceleration sensors, gravity sensors, and positioning system sensors.
- the above motion states and corresponding threshold parameters are only exemplary descriptions and are not limited herein.
- the communication watch is worn on the user’s wrist.
- the gyroscope, gravity sensor, and acceleration sensor will record the regular swing angle, swing direction and swing speed.
- the sensor will recognize and record it.
- the watch can compare the angle of the arm swinging to the left and right of the user’s torso with that of the watch in advance.
- the swing angle of the user's arm relative to the torso should normally be less than 30 degrees. After the bell, if the arm swings up An angle greater than 30 degrees indicates that the user is raising his arm to watch the interface of the smart communication watch, and then it is judged that the user meets the required pause.
- This application judges the user's willingness to answer the call based on the user's physical movement, which can bring a good experience to the user.
- the determination may be multiple motion data detected by multiple sensors to determine the user's motion state, so as to improve the accuracy of the determination.
- the example here is only an exemplary description, and is not a limitation of the present application.
- step S620 is executed, that is, it is determined whether the pause time of the user's motion meets the preset time of the willingness to answer
- the preset time set in the electronic device in advance is 5 seconds.
- the microprocessor 410 determines that the user is willing to answer the call. At this time, the microprocessor 410 can call the interface 11 through the communication module 420 and trigger the answer button to automatically answer the call. This call can further improve the judgment of the user's willingness to answer the call.
- the microprocessor 410 determines that the pause time of the user's motion has not reached the preset time of 5 seconds, it is determined that the user has no intention to answer the call. After suddenly changing from 0m/s 2 to 5m/s 2 , the user's arm stays still for 4 seconds, the acceleration of gravity suddenly increases and reaches 6m/s 2 , that is, the user's pause time is 4 seconds, and the pause time is 4 seconds.
- the microprocessor 410 determines that the user has no intention to answer the call, and sends a short message to the caller.
- the content of the short message may be the reply content edited by the user according to different contacts.
- the microprocessor 410 retrieves the calling party number and grouping in the address book through the interface 1 to determine the user's preset reply content for the calling party, and obtains the reply content through the interface 10 and sends the corresponding reply to the calling party number. Reply content so that the caller can know the user's situation in time and bring a good experience for both parties.
- the call processing method during exercise can automatically determine the user’s exercise status and determine the user’s intention to handle the call during exercise. According to the user’s processing intention, the user can assist the user to answer the call or send the reply content, which can be effective To avoid anxiety when the caller does not receive the feedback in time, and to deal with the subjective response or rejection of the called party, feedback can be given in time, which improves the experience of both parties.
- Fig. 7 shows a schematic diagram of the structure of the electronic device. As shown in Figure 7, the electronic device includes:
- the detection module 710 obtains the user's motion data.
- the motion data is used to characterize the user's current motion state.
- the detection module may include one or more combinations of a gravity sensor, a gyroscope, an accelerometer, or a positioning system.
- the processing module 720 when the processing module receives a call, the electronic device determines according to the user's current motion state and executes a corresponding processing action to the current call through the communication module 730, wherein the corresponding processing action may include directly rejecting the call Then send the corresponding reply content to the calling number, or answer the call, etc.
- the processing module 720 determines whether the user starts to exercise through a sensor, and when it is determined that the user starts to exercise, the call intelligent processing mode is turned on, so that the electronic device can automatically process the received call.
- the processing module determines the action corresponding to the current call according to the user's current motion state, and further includes: the processing module determines whether the user is willing to answer the call according to the user's motion state , When it is judged that the user is in the first state, that is, if there is a willingness to answer the call, the call is automatically answered; when it is judged that the user is in the second state, that is, there is no willingness to answer the call, the caller user’s pre-set reply content is automatically returned, where Reply content users can be divided into groups according to the relationship between contacts and themselves.
- the daughter's call can be set to "daughter, I am swimming, come to XX to find me", and in the group of colleagues and friends, you can set " It’s not convenient for me now. I will call you later" and so on, and make the corresponding settings.
- the electronic device further includes a storage module, and the storage module saves the replies of different callers preset by the user.
- the processing module 720 is specifically configured to: determine whether the user's exercise state is a pause that meets the preset requirements according to the user's exercise data, and when it is determined that the user's exercise state meets the preset requirements of the pause, further It is judged whether the pause time of the user's exercise reaches the preset time, and when the pause time reaches the preset time, it is judged that the user is in the first state, that is, the user is willing to answer the call.
- the processing module 720 is specifically configured to: when the pause time of the user's exercise does not reach the preset time, determine that the user is in the second state, that is, there is no willingness to answer the call.
- the processing module 720 is specifically configured to determine whether the motion data is greater than or equal to a preset threshold, and when the user's motion data is greater than or equal to the preset threshold, determine that the user's motion state is paused.
- the processing module 720 is specifically configured to determine whether the user's exercise state is a continuous exercise that meets preset requirements according to the user's exercise data, and when it is determined that the user's exercise state is continuous exercise, then it is determined that the user is in the first The second state, that is, there is no willingness to answer the call.
- the processing module 720 is specifically configured to: determine whether the motion data is less than a preset threshold, and when the user's motion data is less than the preset threshold, then determine that the user's motion is a continuous motion.
- the electronic device of the embodiment of the present application can automatically determine the user’s exercise status and determine the user’s intention to handle the call during exercise. According to the user’s processing intention, the user can assist the user to answer the call or send the reply content, which can effectively prevent the caller from not having When the feedback is received in time, anxiety is generated, and the two methods of subjective response or rejection of the called party can be handled in a timely manner, which improves the experience of both parties.
- the electronic device includes a processor 801, a memory 802, and a sensor 803.
- the sensor 803 is used to obtain the user's motion data, and the motion data is used to characterize the user's current
- the sensor can include one or more combinations of gravity sensor, gyroscope, accelerometer or positioning system.
- Computer program instructions are stored in the memory 802.
- the processor 801 executes the following steps: When a call is received, determine and execute corresponding to the current call according to the user's current motion state. Processing actions. Wherein, the corresponding processing action may include directly rejecting the call and sending the corresponding reply content to the calling number, or answering the call, etc. For the specific steps to be executed, refer to the above-mentioned embodiment, which will not be repeated here.
- the present application also provides a chip, which is used in the apparatus and electronic equipment of the above-mentioned embodiment.
- the chip includes a processor 901 and a memory 902.
- the memory may include One or more computer-readable media, where instructions can be stored in the computer-readable storage media, specifically, temporary and permanent copies of the instructions are stored.
- the processor 901 is configured to execute instructions stored in the memory 902.
- the instructions may include: when the CPU executes the instructions, the chip executes the motion-based call processing method according to the above-mentioned embodiment. For details, please refer to Figures 2 to 2 of the above-mentioned embodiment The method described in 6 will not be repeated here.
- the device 1200 may include one or more processors 1201 coupled to the controller hub 1203.
- the controller hub 1203 is connected via a multi-branch bus such as a Front Side Bus (FSB), a point-to-point interface such as Quick Path Interconnect (QPI), or a similar connection 1206 communicates with the processor 1201.
- the processor 1201 executes instructions that control general types of data processing operations.
- the controller hub 1203 includes, but is not limited to, a graphics memory controller hub (Graphics Memory Controller Hub, GMCH) (not shown) and an input/output hub (Input Output Hub, IOH) (which may On a separate chip) (not shown), where the GMCH includes a memory and a graphics controller and is coupled to the IOH.
- GMCH Graphics Memory Controller Hub
- IOH input/output hub
- the device 1200 may also include a coprocessor 1202 and a memory 1204 coupled to the controller hub 1203.
- a coprocessor 1202 and a memory 1204 coupled to the controller hub 1203.
- one or both of the memory and the GMCH may be integrated in the processor (as described in this application), and the memory 1204 and the coprocessor 1202 are directly coupled to the processor 1201 and the controller hub 1203.
- the controller hub 1203 and IOH are in a single chip.
- the memory 1204 may be, for example, a dynamic random access memory (Dynamic Random Access Memory, DRAM), a phase change memory (Phase Change Memory, PCM), or a combination of the two.
- DRAM Dynamic Random Access Memory
- PCM Phase Change Memory
- the coprocessor 1202 is a dedicated processor, such as, for example, a high-throughput MIC processor (Many Integerated Core, MIC), a network or communication processor, a compression engine, a graphics processor, a general graphics processor (General Purpose Computing on GPU, GPGPU), or embedded processor, etc.
- MIC Manufacturing Integerated Core
- GPGPU General Purpose Computing on GPU
- embedded processor etc.
- the optional properties of the coprocessor 1202 are shown in dashed lines in FIG. 10.
- the memory 1204 may include one or more tangible, non-transitory computer-readable media for storing data and/or instructions.
- the memory 1204 may include any suitable non-volatile memory such as flash memory and/or any suitable non-volatile storage device, such as one or more hard disk drives (Hard-Disk Drive, HDD(s)), one or Multiple Compact Disc (CD) drives, and/or one or more Digital Versatile Disc (DVD) drives.
- any suitable non-volatile memory such as flash memory and/or any suitable non-volatile storage device, such as one or more hard disk drives (Hard-Disk Drive, HDD(s)), one or Multiple Compact Disc (CD) drives, and/or one or more Digital Versatile Disc (DVD) drives.
- HDD hard disk drives
- CD Compact Disc
- DVD Digital Versatile Disc
- the device 1200 may further include a network interface (Network Interface Controller, NIC) 1206.
- the network interface 1206 may include a transceiver, which is used to provide a radio interface for the device 1200 to communicate with any other suitable devices (such as a front-end module, an antenna, etc.).
- the network interface 1206 may be integrated with other components of the device 1200.
- the network interface 1206 can realize the function of the communication unit in the above-mentioned embodiment.
- the device 1200 may further include an input/output (Input/Output, I/O) device 1205.
- I/O 1205 may include: a user interface, which is designed to enable users to interact with the device 1200; the design of the peripheral component interface enables peripheral components to also interact with the device 1200; and/or a sensor is designed to determine the environment related to the device 1200 Conditions and/or location information.
- FIG. 10 is only exemplary. That is, although FIG. 10 shows that the device 1200 includes multiple devices such as the processor 1201, the controller hub 1203, and the memory 1204, in actual applications, the devices that use the methods of the present application may only include the devices of the device 1200. Some of the devices in, for example, may only include the processor 1201 and the NIC 1206. The properties of optional devices in Fig. 10 are shown by dashed lines.
- the memory 1204 which is a computer-readable storage medium, stores instructions that when executed on a computer causes the system 1200 to execute the method according to the above-mentioned embodiment.
- the memory 1204 which is a computer-readable storage medium, stores instructions that when executed on a computer causes the system 1200 to execute the method according to the above-mentioned embodiment.
- the method of the above-mentioned embodiment I won't repeat them here.
- the SoC1300 includes: an interconnection unit 1350, which is coupled to an application processor 1310; a system agent unit 1380; a bus controller unit 1390; an integrated memory controller unit 1340; a group or one or more coprocessors 1320, which may include integrated graphics logic, image processors, audio processors, and video processors; a static random access memory (SRAM) unit 1330; and a direct memory access (DMA) unit 1360.
- the coprocessor 1320 includes a dedicated processor, such as, for example, a network or communication processor, a compression engine, a GPGPU, a high-throughput MIC processor, or an embedded processor.
- the static random access memory (SRAM) unit 1330 may include one or more computer-readable media for storing data and/or instructions.
- the computer-readable storage medium may store instructions, specifically, temporary and permanent copies of the instructions.
- the instruction may include: when executed by at least one unit in the processor, the Soc1300 executes the motion-based call processing method according to the foregoing embodiment. For details, please refer to the method of the foregoing embodiment, which will not be repeated here.
- the various embodiments of the mechanism disclosed in this application may be implemented in hardware, software, firmware, or a combination of these implementation methods.
- the embodiments of the present application can be implemented as a computer program or program code executed on a programmable system.
- the programmable system includes at least one processor and a storage system (including volatile and non-volatile memory and/or storage elements) , At least one input device and at least one output device.
- Program codes can be applied to input instructions to perform the functions described in this application and generate output information.
- the output information can be applied to one or more output devices in a known manner.
- the processing system includes any processor having a processor such as, for example, a Digital Signal Processor (DSP), a microcontroller, an Application Specific Integrated Circuit (ASIC), or a microprocessor. system.
- DSP Digital Signal Processor
- ASIC Application Specific Integrated Circuit
- the program code can be implemented in a high-level programming language or an object-oriented programming language to communicate with the processing system.
- assembly language or machine language can also be used to implement the program code.
- the mechanism described in this application is not limited to the scope of any particular programming language. In either case, the language can be a compiled language or an interpreted language.
- the disclosed embodiments may be implemented in hardware, firmware, software, or any combination thereof.
- the disclosed embodiments can also be implemented as instructions carried by or stored on one or more transient or non-transitory machine-readable (eg, computer-readable) storage media, which can be executed by one or more processors Read and execute.
- the instructions can be distributed through a network or through other computer-readable media. Therefore, a machine-readable medium may include any mechanism for storing or transmitting information in a form readable by a machine (for example, a computer), including, but not limited to, floppy disks, optical disks, optical disks, and compact disc read-only memory (Compact Disc Read Only Memory).
- a machine-readable medium includes any type of machine-readable medium suitable for storing or transmitting electronic instructions or information in a form readable by a machine (for example, a computer).
- the computer-readable storage medium stores a computer program, and when the computer program runs on an electronic device, the electronic device executes the methods described in the foregoing method embodiments.
- the computer program runs on an electronic device
- the electronic device executes the methods described in the foregoing method embodiments.
- a computer program product containing instructions, when the computer program product runs on an electronic device, causes the electronic device to execute the methods described in the foregoing method embodiments.
- each unit/module mentioned in each device embodiment of this application is a logical unit/module.
- a logical unit/module can be a physical unit/module or a physical unit/ A part of the module can also be realized by a combination of multiple physical units/modules.
- the physical realization of these logical units/modules is not the most important.
- the combination of the functions implemented by these logical units/modules is the solution to this application.
- the above-mentioned device embodiments of this application do not introduce units/modules that are not closely related to solving the technical problems proposed by this application. This does not mean that the above-mentioned device embodiments do not exist. Other units/modules.
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Abstract
本申请提供一种基于运动的呼叫处理方法、装置及电子设备,能够根据用户的运动状态对呼叫进行智能化处理,提升了设备和用户交互的效率。其中,基于运动的呼叫处理方法可以应用于电子装置中,该方法包括:获取来自至少一个传感器检测到的用户的运动数据;确定所述电子装置的用户的运动状态,所述运动数据用于表征用户当前的运动状态;当所述电子装置所在的系统接收到呼叫时,根据所述确定的用户当前的运动状态确定对当前呼叫对应的处理动作并执行。
Description
本申请要求于2020年03月27日提交中国专利局、申请号为202010230620.X、申请名称为“基于运动的呼叫处理方法、装置及电子设备”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
本发明涉及通信技术领域,尤其涉及基于运动的呼叫处理方法、装置、电子设备及计算机可读存储介质。
随着科技的进步,人们对电子通信设备越来越依赖,例如,越来越多的人通过佩戴智能通信手表进行运动和健康的监测。人们在携带电子设备运动时,因为专注于运动本身,对于呼叫往往容易忽略。另外,即使运动时感知到了有呼叫,用户出于主观意愿想接听或拒绝接听等考虑,需要手动处理,进而影响了用户运动的连续性。而且,在人们认为主动拒绝呼叫,对呼叫方是一种不礼貌的行为时,只能一直等待,直到呼叫方放弃呼叫。这样对于呼叫方来说,如果收不到被呼叫人员的任何反馈,也会产生焦虑。以上种种情况都会给用户带来诸多不便。
发明内容
有鉴于此,本发明提供一种基于运动的呼叫处理方法、装置、设备及计算机可读存储介质,能够根据用户的运动状态对呼叫进行智能化处理,提升了设备和用户交互的效率。
本申请的一些实施方式提供了一种基于运动的呼叫处理方法。以下从多个方面介绍本申请,以下多个方面的实施方式和有益效果可互相参考。
第一方面,本申请提供一种基于运动的呼叫处理方法,由电子装置执行,包括:获取来自至少一个传感器检测到的用户的运动数据,电子装置可以包括手机、智能通信手表、智能通信手环、芯片等,运动数据用于表征用户当前的运动状态,例如,用户在跑步或游泳的运动中,手臂或身体有规律的摆动,通过其摆动的速度和角度等运动数据可以识别用户处于跑步状态或者游泳状态等,其中,运动数据可以通过加速度传感器、陀螺仪、重力传感器或定位系统中的一种或多种组合传感器检测得到。当电子装置所在的系统接收到呼叫时,根据所述确定的用户当前的运动状态确定对当前呼叫对应的处理动作并执行,其中,呼叫可以包括设备的呼叫、语音呼叫和视频呼叫等,对应的动作可以是拒接该呼叫,向呼叫方的号码发送消息,或者接听呼叫。也可以是依据客户的设定等待呼叫自动结束等。
根据本申请的实施方式,电子装置可以通过检测用户的运动数据,在电子装置收到呼叫时,通过运动数据确定用户的运动状态,进而根据用户的运动状态智能处理呼叫方的呼叫,提升了设备和用户交互的效率。
在上述第一方面的一种可能的实现中,电子装置根据运动数据确定用户是否开始运动, 当判断用户开始运动时,开启呼叫智能处理模式。例如,用户跑步时手臂的摆动速度和摆动角度与非跑步时的手臂的摆动速度和摆动角度会有不同,当传感器感知到用户的手臂摆动速度和角度表明用户进入跑步状态时,此时,电子装置可以自动开启呼叫智能处理模式,以便用户在运动时,能够根据用户当前的运动状态确定当前呼叫对应的处理动作,可以避免用户手动开启该呼叫智能处理模式,提升用户的体验。
在上述第一方面的一种可能的实现中,当电子装置所在的系统接收到呼叫时,电子装置根据用户当前的运动状态确定对当前呼叫对应的动作,具体包括:电子装置根据用户的运动状态确定用户处于第一状态或第二状态,其中,第一状态表明用户有接听呼叫的意愿,第二状态表明用户无接听呼叫的意愿,运动状态可以包括用户运动的连续性和停顿,通过用户运动的连续性和停顿可以进一步判断用户是想接通电话,或者不想接通。也就是说,用户连续性运动通常是用户并没有理会该呼叫,可以表明用户并没有意愿接听,用户连续性的运动规律突然变化,如正在有规律摆动的手臂突然在收到呼叫后开始放慢速度,或速度为0,此时可以判断为停顿,可以表明客户可能观看了该呼叫方,并有可能接听该呼叫,或者拒绝该呼叫。当判断用户处于第一状态(有接听呼叫的意愿时),自动接听该呼叫;当判断用户处于第二运动状态(无接听呼叫的意愿时),自动回复呼叫方用户预先设定的回复内容。进而通过判断客户的主观意愿而智能处理接收的呼叫,进一步提高用户体验。
在上述第一方面的一种可能的实现中,用户可以根据实际情况预先设置并保存不同呼叫方的回复内容。例如,可以根据家人、朋友或同事进行分组,在电子装置可以识别呼叫方号码归属的组别,并回复相对应的设置的消息。也可以对每一个联系人的回复内容进行编辑,以使得呼叫方可以收到针对性的回复内容,提高了用户的体验。
在上述第一方面的一种可能的实现中,电子装置根据用户的运动状态确定用户处于第一状态,即有接听呼叫的意愿,具体包括根据用户的运动数据判断用户的运动状态是否为符合预设要求的停顿,其中,符合预设要求的停顿可以是用户停止运动,或用户的运动速度降低到设定要求等,例如,用户正在以平均为4米/秒的速度跑步运动,在收到呼叫时,用户停止跑步,速度为0,该情况认为是停顿,或是用户跑步的速度在某一段时间内降低至2米/秒,此时也可以认为是停顿。当判断用户的运动状态符合预设要求的停顿时,进一步判断用户的运动的停顿时间是否达到预设时间,当停顿时间达到预设时间,则判断用户有接听呼叫的意愿,例如,当预设时间为5秒,用户停顿时间达到5秒,则确定用户有接听呼叫的意愿,并自动接听该呼叫,可以进一步提高对用户有无接听呼叫的意愿的判断。
在上述第一方面的一种可能的实现中,当用户的运动的停顿时间未达到预设时间,则判断用户处于第二状态,即用户无接听呼叫的意愿,例如,当预设时间为5秒,用户在停顿时间为4秒后,又进入运动状态,则确定用户无接听呼叫的意愿,此时,可以通过发送信息的方式回复呼叫方,以使呼叫方可以及时得知用户的情况,为用户和呼叫方双方带来良好的体验。
在上述第一方面的另一种可能的实现中,根据用户的运动数据判断用户的运动状态是否符合预设要求的停顿,包括电子装置判断运动数据是否大于等于预设阈值,当用户的运动数据大于等于预设阈值,则确定用户的运动状态为停顿。
在上述第一方面的另一种可能的实现中,判断用户处于第二状态,即用户无接听呼叫的意愿,还包括:根据用户的运动数据判断用户的运动状态是否为符合预设要求的连续运 动,其中,是否为符合预设要求的连续运动可以判断运动数据是否小于预设阈值,当用户的运动数据小于预设阈值,则判断用户的运动为连续运动。当判断用户的运动状态为连续运动,则确定用户处于第二状态,即无接听呼叫的意愿,进而可以通过信息的方式向呼叫方号码发送预先设置的回复内容,以免直接拒接或不接听给呼叫方带来焦虑或不愉快。
第二方面,本申请提供一种电子装置,电子装置可以包括、手机、智能通信手表、智能通信手环、芯片等,具体包括:至少一个传感器,传感器可以包括重力传感器、陀螺仪、加速度计或定位系统中的一种或多种组合,传感器用于获取用户的运动数据,运动数据用于表征用户当前的运动状态,例如,用户在跑步或游泳的运动中,手臂或身体有规律的摆动,通过其摆动的速度和角度等运动数据可以识别用户处于跑步状态或者游泳状态等;处理器,当电子装置所在的系统接收到呼叫时,处理器根据用户当前的运动状态确定并执行对当前呼叫对应的处理动作。其中,呼叫可以包括设备的呼叫、语音呼叫和视频呼叫等,对应的动作可以是拒接该呼叫,向呼叫方的号码发送消息,或者接听呼叫。也可以是依据客户的设定等待呼叫自动结束等。
根据本申请的实施方式,电子装置可以通过检测用户的运动数据,在电子装置收到呼叫时,通过运动数据确定用户的运动状态,进而根据用户的运动状态智能处理呼叫方的呼叫,提升了设备和用户交互的效率。
在上述第二方面的一种可能的实现中,电子装置通过运动数据确定用户是否开始运动,当判断用户开始运动时,开启呼叫智能处理模式。例如,用户跑步时手臂的摆动速度和摆动角度与非跑步时的手臂的摆动速度和摆动角度会有不同,当传感器感知到用户的手臂摆动速度和角度表明用户进入跑步状态时,此时,电子装置可以自动开启呼叫智能处理模式,以便用户在运动时,能够根据用户当前的运动状态确定当前呼叫对应的处理动作,可以避免用户手动开启该呼叫智能处理模式,提升用户的体验。
在上述第二方面的一种可能的实现中,处理器具体用于:处理器根据用户的运动状态判断用户是否处于第一状态或第二状态,其中,第一状态表明用户有接听呼叫的意愿,第二状态表明,用户无接听呼叫的意愿,当判断用户处于第一状态,即有接听呼叫的意愿时,自动接听该呼叫;当判断用户处于第二状态,即无接听呼叫的意愿时,自动回复呼叫方预先设定的回复内容。例如,可以根据家人、朋友或同事进行分组,在电子装置可以识别呼叫方号码归属的组别,并回复相对应的设置的消息。也可以对每一个联系人的回复内容进行编辑,以使得呼叫方可以收到针对性的回复内容,提高了用户的体验。
在上述第二方面的一种可能的实现中,处理器具体用于:根据用户的运动数据判断用户的运动状态是否为符合预设要求的停顿,其中,符合预设要求的停顿可以是用户停止运动,或用户的运动速度降低到设定要求等,例如,用户正在以平均为4米/秒的速度跑步运动,在收到呼叫时,用户停止跑步,速度为0,该情况认为是停顿,或是用户跑步的速度在某一段时间内降低至2米/秒,此时也可以认为是停顿。当判断用户的运动状态符合预设要求的停顿时,进一步判断用户的运动的停顿时间是否达到预设时间,当停顿时间达到预设时间,则判断用户处于第一状态,即有接听呼叫的意愿,例如,当预设时间为5秒,用户停顿时间达到5秒,则判断用户处于第一状态,即有接听呼叫的意愿,并自动接听该呼叫,可以进一步提高对用户有无接听呼叫的意愿的判断。
在上述第二方面的一种可能的实现中,处理器具体进一步用于:当用户的运动的停顿 时间未达到预设时间,则判断用户处于第二状态,即无接听呼叫的意愿。例如,当预设时间为5秒,用户在停顿时间为4秒后,又进入运动状态,则判断用户处于第二状态,即无接听呼叫的意愿,此时,可以通过发送信息的方式回复呼叫方,以使呼叫方可以及时得知用户的情况,为用户和呼叫方双方带来良好的体验。
在上述第二方面的一种可能的实现中,处理器根据用户的运动数据判断用户的运动状态是否符合预设要求的停顿,包括:判断运动数据是否大于等于预设阈值,当用户的运动数据大于等于预设阈值,则判断用户的运动状态为停顿。
在上述第二方面的一种可能的实现中,处理器还用于:根据用户的运动数据判断用户的运动状态是否为符合预设要求的连续运动,当判断用户的运动状态为连续运动,则判断用户处于第二状态,即无接听呼叫的意愿。
在上述第二方面的一种可能的实现中,处理器判断用户的运动状态是否为连续运动,包括:根据运动数据判断用户的运动数据是否小于预设阈值,当用户的运动数据小于预设阈值,则判断用户的运动为连续运动。
第三方面,本申请提供一种电子设备,包含一个或多个存储器,与所述存储器耦合的一个或多个处理器,以及一个或多个程序,其中所述一个或多个程序被存储在所述存储器中,其特征在于,所述电子设备用于执行上述实施例中第一方面公开的方法。
第四方面,本申请提供一种计算机可读存储介质,其特征在于,计算机可读存储介质存储有计算机程序,计算机程序被处理器运行时,使得处理器执行上述实施例中第一方面公开的方法。
第五方面,本申请的公开了一种包含指令的计算机程序产品,当其在计算机上运行时,使得计算机执行上述实施例中第一方面公开的方法。
第六方面,本申请的公开了一种设备,包括处理器、存储器和通信模块。处理器、存储器和通信模块之间通过内部链接通路互相通信,传递控制和/或数据信号,使得该设备执行上述实施例中第一方面公开的方法。
图1为本申请一个实施例提供的系统的结构示意图;
图2为本申请一个实施例的动中的呼叫处理方法的流程图;
图3a为本申请一个实施例的开启呼叫智能处理模式的界面示意图;
图3b为本申请一实施例提供的通话界面示意图;
图3c为本申请一实施例提供的拒接呼叫的界面示意图;
图4为本申请一个实施例的运动中的呼叫处理方法的交互流程图;
图5为本申请一个实施例的电子装置的内部结构图示意图及各部件的呼叫处理方法的流程图;
图6为本申请一个实施例的基于用户的运动状态对呼叫进行反馈的流程图;
图7为本申请一个实施例的电子装置的结构示意图;
图8为本申请一个实施例的电子设备的结构示意图;
图9为本申请一个实施例的芯片的结构示意图;
图10为本申请一些实施例的一种设备的框图;
图11为本申请一些实施例的一种片上系统(SoC)的框图。
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述。
可以理解的是,如本文所使用的,术语“模块””可以指代或者包括专用集成电路(ASIC)、电子电路、执行一个或多个软件或固件程序的处理器(共享、专用、或群组)和/或存储器、组合逻辑电路、和/或提供所描述的功能的其他适当硬件组件,或者可以作为这些硬件组件的一部分。
可以理解的是,在本申请各实施例中,处理器可以是微处理器、数字信号处理器、微控制器等,和/或其任何组合。根据另一个方面,处理器可以是单核处理器,多核处理器等,和/或其任何组合。
图1为本申请一个实施例提供的系统的结构示意图,该系统中可以包括至少两个电子装置,图1中以包括三个电子装置为例,分别为呼叫方的移动终端11(被叫方)、穿戴设备12(被叫方)和呼叫方的电子装置13(呼叫方),三个电子装置可以通过无线连接接口与网络设备14进行通信,也就是说,移动终端11作为被叫方可以与呼叫方通过网络设备14进行通信连接,穿戴设备12也可以作为被叫方与呼叫方通过网络设备14进行通信连接。需要说明的是,本申请适用于图1所示的系统的结构示意图,但不限于此。
本申请中的电子装置是指可以向用户提供语音和/或数据连通性的设备,该电子装置可以经至少一个核心网或无线接入网进行通信。该电子装置可以是电子装置,例如手机、智能通信手表、智能通信手环等便于携带或穿戴的通信设备,在此不作限定。
本申请中涉及的网络设备可以是全球移动通讯(Global System for Mobile Communication,GSM)或码分多址(Code Division Multiple Access,CDMA)中的基站(Base Transceiver Station,BTS),也可以是宽带码分多址(Wideband Code Division Multiple Access,WCDMA)中的基站(NodeB.NB),还可以是WLAN中的接入点(Access Point,AP)或者中继站等,在此并不作为限定。
本申请中的电子设备可以为手机,所述电子装置所在的系统可以为所述手机;或者所述电子装置为芯片,所述电子装置所在系统为所述芯片所在移动终端,在此并不作为限定。
下面将结合附图对本申请的实施例作进一步地详细描述。
根据本申请的一些实施例公开了一种基于运动的呼叫处理方法。图2示出了基于运动的呼叫处理方法的流程图,下面以佩戴在用户身上的电子装置为执行主体对呼叫处理方法进行说明,如图2所示,该呼叫处理方法包括:
步骤S210,电子装置获取来自至少一个传感器检测到的用户的运动数据,运动数据用于表征用户当前的运动状态。其中,传感器可以是加速度传感器、陀螺仪、重力传感器或定位系统中的一种或多种组合,通过上述传感器可以获得表征用户当前运动状态的运动数据,例如,用户正在跑步时,电子装置可以根据传感器检测到用户的(跑步的)速度、手臂摆动速度、手臂摆动角度等运动数据。并进一步根据这些运动数据判断出用户的运动状态,电子装置实时监测这些数据并保存这些运动数据,当用户停止跑步或减慢速度时,电子装置根据运动数据前后变化可以判断出用户是处于停止跑步、保持原有速度或减慢速度 等运动状态。
步骤S220,当电子装置所在的系统接收到呼叫时,电子装置根据用根据所述确定的用户当前的运动状态确定对当前呼叫对应的处理动作并执行。其中,对应的处理动作可以包括直接拒接该呼叫后向该呼叫号码发送对应的回复内容,或接听该呼叫等。例如,电子装置接收到呼叫后,用户当前的运动状态是一直保持匀速跑步,此时可以拒接该呼叫,并通过发送短消息的方式回复呼叫方“我正在跑步,稍后给您回电”,可以根据用户当前运动状态自动处理当前呼叫,既不影响用户的运动,又可以避免用户直接拒接或不接听该呼叫,使呼叫方感到不愉快或产生焦虑等。因此能提升终端的智能性,提升用户的体验。此外,本申请中的呼叫可以包括普通电话的呼叫,语音或视频通信的呼叫等,在此并不作为限定。
需要说明的是,本申请中的运动可以包括跑步运动、游泳运动和登山运动、攀岩、球类、跳操等,在此并不作为限定。
根据本申请的一个实施例,电子装置通过传感器确定用户是否开始运动,当判断用户开始运动时,开启呼叫智能处理模式。例如,用户开始跑步时,电子装置的传感器检测到用户的跑步的运动数据,并判断出用户开始跑步,此时电子装置可以自动开启呼叫智能处理模式,并根据用户的运动状态确定并执行与当前呼叫对应的处理动作。可以避免用户每次手动开启,提高人机交互的效率。
图3a为本申请一实施例提供的开启呼叫智能处理模式的界面示意图,如图3a所示,电子装置开启呼叫智能处理模式时的界面31,用户在运动前可以预设运动模式,当电子装置检测用户的运动数据,如速度、加速度,角速度,高度等满足预设条件,进入预设运动模式,例如跑步、游泳、登山、攀岩等运动模式。以跑步运动为例进行说明,人在跑步时的跑动速度通常是正常行走时的走动速度的3倍以上,而通常人走动的速度在1.75m/s-2m/s,将1.75m/s作为计算标准,当电子装置检测到用户的运动数据为以5.25m/s的速度前进时,达到正常行走时3倍的速度,则判断用户开始了跑步运动的预设模式,此时,电子装置的呼叫智能处理模式将被开启,并在电子装置的界面31的显示栏中出现呼叫智能处理模式的图标32,用户可以通过观看图标32得知呼叫智能处理模式是否被开启,当电子装置确定用户停止运动如跑步后,如,用户的跑动速度由平均的5.25m/s降到2m/s以下时,则可以确定用户停止跑步运动,呼叫智能处理模式被自动关闭,电子装置的界面31上的图标32将消失。
图3b为本申请一实施例提供的通话界面示意图,如图3b所示,在呼叫智能处理模式开启后,电子装置接收到呼叫,当电子装置根据用户当前的运动状态,通过呼叫智能处理模式自动接听该呼叫后,显示通话界面33,该通话界面33可以显示呼叫方的头像,也可以显示呼叫方的号码等,并显示通话中,此时被叫方与呼叫方可以直接通话。接通电话后,呼叫智能处理模式依然为开启状态,用户依然可以看到叫智能处理模式的图标32,此时,电子装置可以对用户的运动数据继续监测,当确定用户停止当前运动(跑步)时,呼叫智能处理模式被自动关闭,电子装置的界面33上的图标32将消失。此外,该电子装置也可以与被叫方的蓝牙耳机等播放设备连接,以便于用户通话。
图3c为本申请一实施例提供的拒接呼叫的界面示意图,如图3c所示,在呼叫智能处理模式开启后,电子装置接收到呼叫,当电子装置根据用户当前的运动状态自动拒接呼叫 后,显示拒接呼叫界面34,该界面34上会显示未接听呼叫图标35,以提醒被叫方有未接呼叫,当有多个未接呼叫时,会在未接听呼叫图标35的右上方标有相应的阿拉伯数字。同时,电子装置获取呼叫方的号码并向呼叫方号码发送被叫方预先设定的回复内容,并在拒接呼叫界面34上显示发送消息的图标36,用户可以点开该图标36,查看发送的内容。本申请中的图标的表现形式仅是示例性的说明,可以有其他表现形式,在此并不作为限定。
下面以电子装置为例对本申请的运动呼叫处理方法进行详细描述,图4示出了电子装置的内部结构图示意图及各部件的呼叫处理方法的流程图。如图4所示,电子装置包括微处理器410和通信模块420以及四个传感器,微处理器410分别通过四个接口3、接口4、接口5和接口6与陀螺仪430、加速度传感器440和重力传感器450以及定位系统460四个传感器连接,微处理器410通过传感器检测的运动数据判断出用户开始运动时,微处理器410通过接口2启动呼叫智能处理模式,通过接口8与通讯模块420连接,通过接口1调取通讯录中呼叫方号码及分组,以确定用户针对该呼叫方预先设定的回复内容,并通过通信模块420向呼叫方号码发送对应的回复内容或接听电话。例如,当微处理器410判断用户有接听呼叫的意愿时,可以调用接口7和接口9将判断用户想要接听电话的意愿传输给通信模块420,通信模块420通过接口11触发接听键自动接听该呼叫。当微处理器410判断用户无接听呼叫的意愿时,可以通过接口10获取该回复内容并向呼叫方号码发送对应的回复内容,以使呼叫方可以及时得知用户的情况。
本申请中,微处理器410判断用户有接听呼叫的意愿需要经过两次判断,如图4所示,微处理器410可以通过传感器检测的运动数据判断用户的运动是连续的或者是停顿,当判断用户的运动是停顿时,进一步地,微处理器410可以通过接口7来判断用户停顿时间是否满足用户想接听电话的条件,例如设定停顿时间为5秒,当用户停顿时间达到5秒,则微处理器410判断用户有接听电话的意愿,并通过接口9和接口11及通信模块420完成自动接听的动作。微处理器410判断用户无接听呼叫的意愿,可以通过第一次判断用户的运动是连续的来确定,或者在第一次判断用户停顿后,在经过第二次判断用户停顿时间没有达到规定的5秒时判断得到。需要说明的是,本申请的具体参数数值如停顿时间的阈值5秒仅是示例性的说明,在此并不作为限定,此外,本申请提到的传感器不仅仅限于本申请中提到的四种传感器,这里仅是示例性的说明,并不作为对本申请的限定。
下面结合附图对本申请的呼叫处理方法进一步详细的描述,图5示出了运动中的呼叫处理方法的交互流程图,该方法包括被叫方的电子装置和呼叫方的电子装置,如图5所示,上述步骤S220包括如下步骤:
步骤510,呼叫方向被叫方发起呼叫。例如,发起电话的呼叫、语音的呼叫或视频的呼叫等。被叫方电子装置执行上述步骤S220,包括步骤S520至步骤S530,具体为:
步骤520,被叫方接收到呼叫方的呼叫。
步骤530,被叫方接收到该呼叫后,根据用户的运动状态判断用户是否处于第一状态或第二状态,即是否有接听呼叫的意愿,并根据判断的结果向呼叫方反馈。
步骤540,呼叫方接收被叫方的反馈。
本申请中的根据判断的结果向呼叫方反馈可以包括以下两种情况:
当判断用户有接听呼叫的意愿时,自动接听该呼叫,以实现呼叫方与被呼叫方的通信 连接。此外在判断用户有接听呼叫的意愿时,电子装置可以开启外放,或与用户佩戴的耳机连接,便于用户与呼叫方用户沟通。
当判断用户无接听呼叫的意愿时,自动回复呼叫方预先设定的回复内容。其中预先设定的回复内容,可以是用户在运动前编辑的短消息,用户可以根据实际情况预先设置并保存不同呼叫方的回复内容。例如,可以根据家人、朋友或同事进行分组,在电子装置可以识别呼叫方号码归属的组别,并回复相对应的设置的消息,例如,家人组别中,女儿的呼叫可以设置为“女儿,我正在游泳,来XX地方找我”,同事和朋友组别中可以设置“我现在不方便,稍后给您电话”等。也可以对每一个联系人的回复内容进行编辑,以使得呼叫方可以收到针对性的回复内容。此外,预先设定的回复内容还可以是电子装置的智能回复内容,例如,用户正处于游泳的运动中,电子装置回复“主人正在游泳,无法接听电话,请留言或稍后再拨”。更进一步地,电子装置可以是根据用户是否停顿智能回复不同内容,例如,若用户没有停顿,则认为主人没有听到或不愿被打扰,则回复“请留言或稍后再拨”。若用户停顿,但持续时间未到预设时长,例如5秒,则回复:“主人正在游泳,无法接听电话,稍晚回复您。从而能够使呼叫方及时了解用户的状态,避免呼叫方不了解被叫方的情况而焦虑,提高用户的体验。
需要说明的是,本申请中的第一状态用于表明用户有接听呼叫的意愿,第二状态表明用户无接听呼叫的意愿,下面实施例中分别使用有接听呼叫的意愿和无接听呼叫的意愿进行描述,也就是说,有接听呼叫的意愿即为本申请中的用户的第一状态,无接听呼叫的意愿即为用户的第二状态。
本申请中判断用户是否有接听呼叫的意愿,通过用户在接收到呼叫时,用户的常规反应对用户的运动数据的影响作为判断依据,例如,正在跑步的用户,其身上佩戴的电子装置突然收到呼叫,通常情况下,用户根本不想接听任何人发来的呼叫时,用户可以忽略该呼叫而保持跑步的运动状态,该呼叫并不会影响到用户的运动数据。换句话说,响应于该呼叫,通过传感器检测到的用户肢体部位运动的运动数据,如手臂摆动的角度、电子装置的重力加速度、运行方向的加速度等用于表明用户整体或肢体部位运动快慢的物理参数(作为运动数据的示例)不会发生很大的变化。若用户需要通过观察电子装置上的呼叫方进一步判断是否要接听时,用户通常会有将电子装置靠近面部并观察的动作,此时会影响到用户跑步的速度,或手持电子装置靠近面部的动作会影响到手臂的摆动幅度,如手臂摆动突然抬高、摆动角度变大等,出现了这样的运动状态的变化之后,电子装置可以通过重力传感器测量出由于重力引起的加速度,并计算出电子装置相对于水平面的倾斜角度,通过加速度传感器测出手臂摆动方向上的速度的变化,通过陀螺仪可以测出手臂摆动的方向和手臂摆动的角度,进而电子装置可根据这些运动数据判断出用户的运动状态。可以理解的是,当用户在跑步或游泳等其他动作时的运动数据也会被相应的传感器检测得到,以使电子装置根据这些运动数据了解用户的运动状态,以判断用户是否有接听的意愿,当用户观察后在又快速的恢复到原来的跑步状态,此时可表明用户并没有接听的意愿,若用户观察后一段时间并没有恢复到原来的跑步状态,可以表明用户想接听该呼叫。上述提到的用户观察后在又快速的恢复到原来的跑步状态,以及用户观察后一段时间并没有恢复到原来的跑步状态等状态下的运动数据,都可以由电子装置的传感器检测并记录,以使电子装置根据这些运动数据的变化判断用户是否有接听的意愿。基于上述判断,可以在电子装置接收 到呼叫前后,持续对用户的运动数据进行监测,以判断用户是否有接听的意愿,进而可以判断用户的主观意愿,以实现辅助用户处理接收的呼叫,提高用户的体验。
此外,用户在跑步的过程中,若用户在下蹲或摔倒时,重心会突然下降,此时,通过重力传感器的监测得到用户的向下方向(即重力方向)重力加速度增大,若在设定的参数3秒内重力加速度再次增大,且与3秒前的重力加速度的方向相反(重力的相反方向),可以表明用户再次站立,若在设定的3秒之后,重力加速度在设定时间内一直为0m/s
2,移动终端可以判断用户并没有站起,可能摔伤,此时自动向用户预先设定的紧急联系人发起呼叫或发送相应的信息,以使得用户得到更好的保护。本申请中参数仅是示例性的说明,在此,并不作为对本申请的限定。
下面结合附图对本申请的上述步骤530,被叫方接收到该呼叫后,据根据用户的运动状态判断用户是否有接听呼叫的意愿进行详细的说明。
图6示出了基于用户的运动状态对呼叫进行反馈的流程图,如图6所示,上述步骤S530中,电子装置判断用户是否有接听呼叫的意愿,具体包括:
步骤S600,根据用户的运动数据判断用户的运动状态是否为连续性运动,当电子装置判断用户的运动状态为连续性运动时,可以直接判断出用户没有接听电话的意愿。此时,电子装置可以执行步骤640,即向呼叫方发送预先设定的回复内容,即用户在运动前编辑的内容,或者电子装置的智能回复内容,具体可参见上述实施例的描述。若电子装置判断用户的运动为不连续运动,即用户的运动状态属于停顿,此时,电子装置执行步骤610,以进一步判断用户是否有接听呼叫的意愿。
下面结合具体实施例,对上述步骤S530中的步骤S600进行详细的说明。
结合图4所示,微处理器410将运动数据与预设阈值进行比较,其中,预设阈值可以是介于运动连续性与停顿之间的临界运动数据,当运动数据小于该预设阈值,则微处理器410判断该用户为连续性运动,当用户的运动数据大于等于预设阈值,则微处理器410判断用户的运动为不连续,即为停顿,其中运动数据包括在电子装置接收到呼叫时起至某一时刻用户的运动加速度,如陀螺仪监测手臂摆动的角度和方向,重力传感器检测的电子装置的重力加速度、加速度传感器监测的用户的运动方向上的加速度、定位系统检测的用户的移动移动距离等。举例说明,用户跑步状态中,通常用户手臂相对躯干左右摆动的角度小于30度,在电子装置接收到呼叫后,若陀螺仪检测到用户手臂的摆动角度始终保持小于30度,此时用户的运动是连续性运动,表明用户无接听该呼叫的意愿。或电子装置接收到呼叫后,加速度传感器与陀螺仪监测到用户始终保持运动方向的加速度为0m/s
2,即用户处于匀速运动,表明用户的运动是连续性运动,此时,微处理器410判断用户无接听该呼叫的意愿,此时,电子装置可以拒接该呼叫,并通过向呼叫方号码发送预先设置的回复内容,以免直接拒接或不接听给呼叫方带来焦虑或不愉快。需要说明的是,本申请中的预设阈值也可以是根据用户的不同运动状态设定为不同的参数,本申请中仅是示例性的说明,并不作为对本申请的限定。
如图4和图6所示,结合上述实施例,当用户的运动数据大于等于预设阈值,则微处理器410判断用户的运动为不连续,即为停顿,此时,微处理器410执行步骤S610,微处理器410可以根据用户的运动数据判断用户的运动状态是否为符合预设要求的停顿。举例来说,用户手臂佩戴或手持电子装置跑步,手臂摆动的位置突然抬高,电子装置可以通过 重力传感器450检测的重力加速度或陀螺仪检测手臂摆动的角度和方向,加速度传感器440检测出在手臂摆动方向上的加速度变化得出准确的判断。通常用户在运动中,手臂的摆动的中心位置是固定的,重力传感器450可以检测到电子装置此时的重力加速度为0m/s
2,突然抬高的动作会使重力加速度迅速的增大,如由0m/s
2变成5m/s
2。若将重力加速度达到5m/s
2时作为符合预设要求的停顿,此时,微处理器410可以判断用户此时的运动状态为停顿。此外,符合预设要求的停顿也可以是用户完全静止不动,运动方向上的速度为0m/s此时判断用户的运动处于停顿。本申请中,运动数据可以通过陀螺仪、加速度传感器和重力传感器以及定位系统传感器中一种或多种组合获得,以上的运动状态及对应的阈值参数只是示例性说明,在此并不作为限定。
下面以智能通信手表作为电子装置为例,对电子装置判断用户的运动不连续进行说明,该通信手表佩戴在用户的手腕上,用户跑步时,手臂带动手腕会有规律的动作连续摆动,手表的陀螺仪、重力传感器、加速度传感器会记录这一规律的摆动的角度、摆动的方向和摆动的速度,当手表接收到呼叫时,用户如果抬手观察手表界面的瞬间的动作,会传感器识别并记录,由于跑步时手臂有规律的摆动与抬手时的三维空间的摆动角度均会发生变化,若将手臂摆动角度的变化作为判断依据,手表可以将手臂相对用户躯干左右摆动的角度与预先在手表中设置的阈值30度进行比较,进而判断出用户是否在观察智能通信手表,例如,用户跑步时,用户手臂相对躯干摆动角度值正常应该是小于30度,在响铃后,若手臂抬起摆动角度大于30度,表明用户在抬起手臂观看智能通信手表的界面,则判断用户符合要求的停顿。本申请通过用户的肢体运动情况来判断用户的是否接听呼叫的意愿,可以给用户带来良好的体验。需要说明的是,判断可以是多个传感器检测的多个运动数据来判断用户的运动状态,以提高判断的准确性,此处示例仅是示例性的说明,并不作为对本申请的限定。
如图4和图6所示,当微处理器410判断用户的运动状态符合预设要求的停顿时,进一步,执行步骤S620,即判断用户的运动的停顿时间是否满足有接听意愿的预设时间,如,预先在电子装置中设置的预设时间5秒。结合上述实施例的手臂摆动为例,当重力传感器450监测手臂摆动的重力加速度突然由0m/s
2变成5m/s
2后,用户手臂保持不动,基于上述实施例的描述,表明用户正处于观看电子装置上的呼叫方,此时重力加速度由5m/s
2变为0m/s
2,从重力加速度由5m/s
2变为0m/s
2时刻作为停顿开始计时的始端,如果重力加速度为0保持到5秒,即停顿时间达到预设时间5秒,则微处理器410判断用户有接听呼叫的意愿,此时微处理器410可以通过通信模块420调用接口11并触发接听键自动接听该呼叫,可以进一步提高对用户有无接听呼叫的意愿的判断。
当微处理器410判断用户的运动的停顿时间未达到预设时间5秒,则判断用户无接听呼叫的意愿,例如,结合上述实施例的手臂摆动进行说明,当重力传感器450监测手臂的重力加速度突然由0m/s
2变成5m/s
2后,用户手臂保持不动维持在4秒后,重力加速度突然增加并达到6m/s
2,即用户的停顿时间为4秒,停顿时间4秒未达到预设时间5秒的要求,则微处理器410判断用户无接听呼叫的意愿,并向呼叫方发送短消息,短消息的内容可以是用户根据不同联系人编辑的回复内容。例如,微处理器410通过接口1调取通讯录中呼叫方号码及分组,以确定用户针对该呼叫方预先设定的回复内容,并通过接口10获取该回复内容并向呼叫方号码发送对应的回复内容,以使呼叫方可以及时得知用户的情况, 为双方带来良好的体验。
本申请实施例的运动中的呼叫处理方法,能够自动判断用户的运动状态,并判断用户在运动中对于呼叫的处理意图,根据用户的处理意图辅助用户完成呼叫的接听或发送回复内容,可以有效避免呼叫方没有及时接收到反馈时,产生焦虑,且对于被叫方主观想接或拒绝两种方式处理,可以及时作出反馈,提升了双方的体验。
基于上面的描述,下面具体描述本申请的呼叫处理的电子装置,该电子装置用于执行上述各方法实施例。图7示出了电子装置的结构示意图。如图7所示,该电子装置包括:
检测模块710,获取用户的运动数据,运动数据用于表征用户当前的运动状态,其中,检测模块可以包括重力传感器、陀螺仪、加速度计或定位系统中的一种或多种组合。
处理模块720,当处理模块收到呼叫时,电子装置根据用户当前的运动状态确定并通过通信模块730执行对当前呼叫对应的处理动作,其中,其中,对应的处理动作可以包括直接拒接该呼叫后向该呼叫号码发送对应的回复内容,或接听该呼叫等。
根据本申请的一个实施例,处理模块720通过传感器确定用户是否开始运动,当判断用户开始运动时,开启呼叫智能处理模式,以是电子装置可以自动处理收到的呼叫。
根据本申请的一个实施例,当电子装置接收到呼叫时,处理模块根据用户当前的运动状态确定对当前呼叫对应的动作,进一步包括:处理模块根据用户的运动状态判断用户是否有接听呼叫的意愿,当判断用户处于第一状态,即有接听呼叫的意愿时,自动接听呼叫;当判断用户处于第二状态,即无接听呼叫的意愿时,自动回复呼叫方用户预先设定的回复内容,其中回复内容用户可以根据联系人跟自己的关系分成组别,如家人组别中,女儿的呼叫可以设置为“女儿,我正在游泳,来XX地方找我”,同事和朋友组别中可以设置“我现在不方便,稍后给您电话”等,进行相应的设定。
根据本申请的一个实施例,该电子装置还包括存储模块,存储模块将用户预先设置的不同呼叫方的回复内容保存。
根据本申请的一个实施例,,处理模块720具体用于:根据用户的运动数据判断用户的运动状态是否为符合预设要求的停顿,当判断用户的运动状态符合预设要求的停顿时,进一步判断用户的运动的停顿时间是否达到预设时间,当停顿时间达到预设时间,则判断用户处于第一状态,即有接听呼叫的意愿。
根据本申请的一个实施例,处理模块720具体用于:当用户的运动的停顿时间未达到预设时间,则判断用户处于第二状态,即无接听呼叫的意愿。
根据本申请的一个实施例,处理模块720具体用于:判断运动数据是否大于等于预设阈值,当用户的运动数据大于等于预设阈值,则判断用户的运动状态为停顿。
根据本申请的一个实施例,处理模块720具体用于:根据用户的运动数据判断用户的运动状态是否为符合预设要求的连续运动,当判断用户的运动状态为连续运动,则判断用户处于第二状态,即无接听呼叫的意愿。
根据本申请的一个实施例,处理模块720具体用于:判断运动数据是否小于预设阈值,当用户的运动数据小于预设阈值,则判断用户的运动为连续运动。
本申请中的电子装置的具体工作过程,在上述实施例中已经详细的说明,具体可参考上述实施例的方法,在此不在赘述。
本申请实施例的电子装置,能够自动判断用户的运动状态,并判断用户在运动中对于呼叫的处理意图,根据用户的处理意图辅助用户完成呼叫的接听或发送回复内容,可以有效避免呼叫方没有及时接收到反馈时,产生焦虑,且对于被叫方主观想接或拒绝两种方式处理,可以及时作出反馈,提升了双方的体验。
本申请还提供了一种电子设备,如图8所示,该电子设备包括处理器801、存储器802和传感器803,其中,传感器803用于获取用户的运动数据,该运动数据用于表征用户当前的运动状态,其中,传感器可以包括重力传感器、陀螺仪、加速度计或定位系统中的一种或多种组合。
在存储器802中存储有计算机程序指令,其中,在计算机程序指令被处理器801运行时,使得处理器801执行以下步骤:当接收到呼叫时,根据用户当前的运动状态确定并执行与当前呼叫对应的处理动作。其中,对应的处理动作可以包括直接拒接该呼叫后向该呼叫号码发送对应的回复内容,或接听该呼叫等。其具体执行的步骤,可参见上述实施例,在此不在赘述。
本申请还提供了一种芯片,该芯片用于上述实施例的装置和电子设备中,如图9所示,所述芯片包括处理器901和存储器902,存储器可以包括用于存储代码或程序的一个或多个计算机可读介质,该计算机可读存储介质中可以存储有指令,具体而言,存储有该指令的暂时和永久副本。处理器901用于执行存储器902存储的指令,该指令可以包括:由中央处理器执行指令时使芯片执行根据上述实施例中的基于运动的呼叫处理方法,具体可参照上述实施例图2到图6描述的方法,在此不再赘述。
现在参考图10,所示为根据本申请的一个实施例的设备1200的框图。设备1200可以包括耦合到控制器中枢1203的一个或多个处理器1201。对于至少一个实施例,控制器中枢1203经由诸如前端总线(Front Side Bus,FSB)之类的多分支总线、诸如快速通道互连(Quick Path Interconnect,QPI)之类的点对点接口、或者类似的连接1206与处理器1201进行通信。处理器1201执行控制一般类型的数据处理操作的指令。在一实施例中,控制器中枢1203包括,但不局限于,图形存储器控制器中枢(Graphics Memory Controller Hub,GMCH)(未示出)和输入/输出中枢(Input Output Hub,IOH)(其可以在分开的芯片上)(未示出),其中GMCH包括存储器和图形控制器并与IOH耦合。
设备1200还可包括耦合到控制器中枢1203的协处理器1202和存储器1204。或者,存储器和GMCH中的一个或两者可以被集成在处理器内(如本申请中所描述的),存储器1204和协处理器1202直接耦合到处理器1201以及控制器中枢1203,控制器中枢1203与IOH处于单个芯片中。存储器1204可以是例如动态随机存取存储器(Dynamic Random Access Memory,DRAM)、相变存储器(Phase Change Memory,PCM)或这两者的组合。在一个实施例中,协处理器1202是专用处理器,诸如例如高吞吐量MIC处理器(Many Integerated Core,MIC)、网络或通信处理器、压缩引擎、图形处理器、通用图形处理器(General Purpose Computing on GPU,GPGPU)、或嵌入式处理器等等。协处理器1202的任选性质用虚线表示在图10中。
存储器1204作为计算机可读存储介质,可以包括用于存储数据和/或指令的一个或多个有形的、非暂时性计算机可读介质。例如,存储器1204可以包括闪存等任何合适的非易失性存储器和/或任何合适的非易失性存储设备,例如一个或多个硬盘驱动器 (Hard-Disk Drive,HDD(s)),一个或多个光盘(Compact Disc,CD)驱动器,和/或一个或多个数字通用光盘(Digital Versatile Disc,DVD)驱动器。
在一个实施例中,设备1200可以进一步包括网络接口(Network Interface Controller,NIC)1206。网络接口1206可以包括收发器,用于为设备1200提供无线电接口,进而与任何其他合适的设备(如前端模块,天线等)进行通信。在各种实施例中,网络接口1206可以与设备1200的其他组件集成。网络接口1206可以实现上述实施例中的通信单元的功能。
设备1200可以进一步包括输入/输出(Input/Output,I/O)设备1205。I/O 1205可以包括:用户界面,该设计使得用户能够与设备1200进行交互;外围组件接口的设计使得外围组件也能够与设备1200交互;和/或传感器设计用于确定与设备1200相关的环境条件和/或位置信息。
值得注意的是,图10仅是示例性的。即虽然图10中示出了设备1200包括处理器1201、控制器中枢1203、存储器1204等多个器件,但是,在实际的应用中,使用本申请各方法的设备,可以仅包括设备1200各器件中的一部分器件,例如,可以仅包含处理器1201和NIC1206。图10中可选器件的性质用虚线示出。
根据本申请的一些实施例,作为计算机可读存储介质的存储器1204上存储有指令,该指令在计算机上执行时使系统1200执行根据上述实施例中的方法,具体可参照上述实施例的方法,在此不再赘述。
现在参考图11,所示为根据本申请的一实施例的SoC(System on Chip,片上系统)1300的框图。在图11中,相似的部件具有同样的附图标记。另外,虚线框是更先进的SoC的可选特征。在图11中,SoC1300包括:互连单元1350,其被耦合至应用处理器1310;系统代理单元1380;总线控制器单元1390;集成存储器控制器单元1340;一组或一个或多个协处理器1320,其可包括集成图形逻辑、图像处理器、音频处理器和视频处理器;静态随机存取存储器(Static Random Access Memory,SRAM)单元1330;直接存储器存取(DMA)单元1360。在一个实施例中,协处理器1320包括专用处理器,诸如例如网络或通信处理器、压缩引擎、GPGPU、高吞吐量MIC处理器、或嵌入式处理器等。
静态随机存取存储器(SRAM)单元1330中可以包括用于存储数据和/或指令的一个或多个计算机可读介质。计算机可读存储介质中可以存储有指令,具体而言,存储有该指令的暂时和永久副本。该指令可以包括:由处理器中的至少一个单元执行时使Soc1300执行根据上述实施例中的基于运动的呼叫处理方法,具体可参照上述实施例的方法,在此不再赘述。
本申请公开的机制的各实施例可以被实现在硬件、软件、固件或这些实现方法的组合中。本申请的实施例可实现为在可编程系统上执行的计算机程序或程序代码,该可编程系统包括至少一个处理器、存储系统(包括易失性和非易失性存储器和/或存储元件)、至少一个输入设备以及至少一个输出设备。
可将程序代码应用于输入指令,以执行本申请描述的各功能并生成输出信息。可以按已知方式将输出信息应用于一个或多个输出设备。为了本申请的目的,处理系统包括具有诸如例如数字信号处理器(Digital Signal Processor,DSP)、微控制器、专用集成电路(Application Specific Integrated Circuit,ASIC)或微处理器之类的处理器的任何 系统。
程序代码可以用高级程序化语言或面向对象的编程语言来实现,以便与处理系统通信。在需要时,也可用汇编语言或机器语言来实现程序代码。事实上,本申请中描述的机制不限于任何特定编程语言的范围。在任一情形下,该语言可以是编译语言或解释语言。
在一些情况下,所公开的实施例可以以硬件、固件、软件或其任何组合来实现。所公开的实施例还可以被实现为由一个或多个暂时或非暂时性机器可读(例如,计算机可读)存储介质承载或存储在其上的指令,其可以由一个或多个处理器读取和执行。例如,指令可以通过网络或通过其他计算机可读介质分发。因此,机器可读介质可以包括用于以机器(例如,计算机)可读的形式存储或传输信息的任何机制,包括但不限于,软盘、光盘、光碟、光盘只读存储器(Compact Disc Read Only Memory,CD-ROMs)、磁光盘、只读存储器(Read Only Memory,ROM)、随机存取存储器(RAM)、可擦除可编程只读存储器(Erasable Programmable Read Only Memory,EPROM)、电可擦除可编程只读存储器(Electrically Erasable Programmable Read Only Memory,EEPROM)、磁卡或光卡、闪存、或用于利用因特网以电、光、声或其他形式的传播信号来传输信息(例如,载波、红外信号数字信号等)的有形的机器可读存储器。因此,机器可读介质包括适合于以机器(例如,计算机)可读的形式存储或传输电子指令或信息的任何类型的机器可读介质。
根据本申请的一个实施例的计算机可读存储介质,计算机可读存储介质存储有计算机程序,当该计算机程序在电子设备上运行时,使得电子设备执行前述各方法实施例所描述的方法。具体可参照上述实施例的方法,在此不再赘述。
根据本申请的一个实施例的包含指令的计算机程序产品,当该计算机程序产品在电子设备上运行时,使得电子设备执行前述各方法实施例所描述的方法。
在附图中,可以以特定布置和/或顺序示出一些结构或方法特征。然而,应该理解,可能不需要这样的特定布置和/或排序。而是,在一些实施例中,这些特征可以以不同于说明书附图中所示的方式和/或顺序来布置。另外,在特定图中包括结构或方法特征并不意味着暗示在所有实施例中都需要这样的特征,并且在一些实施例中,可以不包括这些特征或者可以与其他特征组合。
需要说明的是,本申请各设备实施例中提到的各单元/模块都是逻辑单元/模块,在物理上,一个逻辑单元/模块可以是一个物理单元/模块,也可以是一个物理单元/模块的一部分,还可以以多个物理单元/模块的组合实现,这些逻辑单元/模块本身的物理实现方式并不是最重要的,这些逻辑单元/模块所实现的功能的组合才是解决本申请所提出的技术问题的关键。此外,为了突出本申请的创新部分,本申请上述各设备实施例并没有将与解决本申请所提出的技术问题关系不太密切的单元/模块引入,这并不表明上述设备实施例并不存在其它的单元/模块。
需要说明的是,在本专利的示例和说明书中,诸如第一和第二等之类的关系术语仅仅用来将一个实体或者操作与另一个实体或操作区分开来,而不一定要求或者暗示这些实体或操作之间存在任何这种实际的关系或者顺序。而且,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者设备所固有的要素。在没有更多限制的情况下,由语句“包括一个”限定 的要素,并不排除在包括要素的过程、方法、物品或者设备中还存在另外的相同要素。
虽然通过参照本申请的某些优选实施例,已经对本申请进行了图示和描述,但本领域的普通技术人员应该明白,可以在形式上和细节上对其作各种改变,而不偏离本申请的精神和范围。
Claims (16)
- 一种基于运动中的呼叫处理方法,由电子装置执行,其特征在于,包括:获取来自至少一个传感器检测到的用户的运动数据;确定所述电子装置的用户的运动状态,所述运动数据用于表征用户当前的运动状态;当所述电子装置所在的系统接收到呼叫时,根据所述确定的用户当前的运动状态确定对当前呼叫对应的处理动作并执行。
- 根据权利要求1的方法,其特征在于,还包括:所述电子装置根据所述运动数据确定用户是否开始运动,当确定用户开始运动时,指示开启呼叫智能处理模式。
- 根据权利要求1的方法,其特征在于,当所述电子装置所在的系统接收到呼叫时,电子装置根据用户当前的运动状态确定对当前呼叫对应的动作,具体包括:所述电子装置根据所述用户的运动状态确定用户处于第一状态,则自动接听该呼叫;所述电子装置根据所述用户的运动状态确定用户处于第二状态,则自动回复呼叫方预先设定的回复内容,其中所述第一状态和第二状态不相同。
- 根据权利要求3的方法,其特征在于,所述预先设定的回复内容包括用户预先设定的回复内容或电子装置预先存储的回复内容。
- 根据权利要求3的方法,其特征在于,所述电子装置根据所述用户的运动状态确定用户处于所述第一状态,具体包括:根据所述用户的运动数据判断所述用户的运动状态是否为符合预设要求的停顿,当判断所述用户的运动状态符合预设要求的停顿时,进一步判断用户的运动的停顿时间是否达到预设时间,当所述停顿时间达到所述预设时间,则确定用户处于所述第一状态。
- 根据权利要求5的方法,其特征在于,所述电子装置根据所述用户的运动状态确定用户处于所述第二状态,包括:当用户的运动的所述停顿时间未达到所述预设时间,则确定用户处于所述第二状态。
- 根据权利要求1-6中任一的方法,其特征在于,所述电子装置为手机,所述电子装置所在的系统为所述手机;或者所述电子装置为芯片,所述电子装置所在系统为所述芯片所在移动终端。
- 一种电子装置,其特征在于,包括:至少一个接收器,用于获取用户的运动数据,所述运动数据用于表征用户当前的运动状态;处理器,根据所述接收器获取的用户运动数据,确定用户当前的运动状态;确定所述电子设备所在的系统接收到呼叫时,根据所述用户当前的运动状态确定对当前呼叫对应的处理动作并执行。
- 根据权利要求8所述的电子装置,其特征在于,所述处理器还用于根据所述获取的运动数据确定用户开始运动,则指示开启呼叫智能处理模式。
- 根据权利要求8的电子装置,其特征在于,所述根据所述用户当前的运动状态确定对当前呼叫对应的处理动作具体包括:根据所述用户当前的运动状态确定用户处于第一状态,则自动接听该呼叫;根据所述用户当前的运动状态确定用户处于第二状态,则自动回复呼叫方预先设定的回复内容。
- 根据权利要求10的电子装置,其特征在于,所述根据所述用户当前的运动状态确定用户处于第一状态,具体包括:根据所述用户当前的运动数据判断所述用户的运动状态是否为符合预设要求的停顿,当判断所述用户的运动状态符合预设要求的停顿时,进一步判断所述用户的运动的停顿时间是否达到预设时间,当所述停顿时间达到所述预设时间,则确定用户处于所述第一状态。
- 根据权利要求11的电子装置,其特征在于,所述根据所述用户当前的运动状态确定用户处于第二状态包括:当用户的运动的所述停顿时间未达到所述预设时间,则确定用户处于所述第二状态。
- 根据权利要求9-12中任一的电子装置,其特征在于,所述电子装置为手机,所述电子装置所在的系统为所述手机;或者所述电子装置为芯片,所述电子装置所在系统为所述芯片所在移动终端。
- 一种电子设备,其特征在于,包含一个或多个存储器,与所述存储器耦合的一个或多个处理器,以及一个或多个程序,其中所述一个或多个程序被存储在所述存储器中,其特征在于,所述电子设备用于执行如权利要求1至7任一项所述的方法。
- 一种计算机可读存储介质,其特征在于,计算机可读存储介质存储有计算机程序,计算机程序被处理器运行时,使得处理器执行权利要求1-7任一项的方法。
- 一种包含指令的计算机程序产品,其特征在于,当该计算机程序产品在电子设备上运行时,使得处理器执行权利要求1-7任一项的方法。
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