WO2020093937A1 - Procédé de commande de prothèse auditive et terminal - Google Patents

Procédé de commande de prothèse auditive et terminal Download PDF

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Publication number
WO2020093937A1
WO2020093937A1 PCT/CN2019/114933 CN2019114933W WO2020093937A1 WO 2020093937 A1 WO2020093937 A1 WO 2020093937A1 CN 2019114933 W CN2019114933 W CN 2019114933W WO 2020093937 A1 WO2020093937 A1 WO 2020093937A1
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WO
WIPO (PCT)
Prior art keywords
parameter configuration
terminal
hearing aid
configuration instruction
environmental data
Prior art date
Application number
PCT/CN2019/114933
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English (en)
Chinese (zh)
Inventor
董金光
刘超
黄一炜
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Publication of WO2020093937A1 publication Critical patent/WO2020093937A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72403User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
    • H04M1/72409User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
    • H04M1/72415User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories for remote control of appliances
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/725Cordless telephones
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R25/00Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception

Definitions

  • the present application relates to the field of terminal technology, and in particular, to a method and terminal for controlling a hearing aid.
  • the Federal Communications Commission has set forth requirements for hearing-aid compatibility (HAC), requiring wireless service providers and mobile wireless device manufacturers to provide handsets compatible with hearing aids; some existing
  • HAC hearing-aid compatibility
  • the terminal device can realize Bluetooth connection with the hearing aid, so that the hearing impaired people can make voice calls or listen to music and other operations.
  • the parameters of the hearing aid can be adjusted by professional doctors according to the wearer's hearing, or by Bluetooth connection in a specific application.
  • These adjustment methods have the following problems: 1. The parameter adjustment depends on experienced people and specific applications, and the cost is high and not convenient; 2. The new hearing aid needs to be readjusted after replacement, which is more time-consuming; 3. The adjusted parameters cannot be Change flexibly.
  • the embodiments of the present application provide a method and a terminal for controlling a hearing aid, which can conveniently, flexibly, and intelligently adjust the parameters of the hearing aid, so that the hearing aid more closely meets the user's hearing needs.
  • an embodiment of the present application provides a method of controlling a hearing aid.
  • the method includes: a terminal and a hearing aid establish a wireless communication link; the terminal collects environmental data; the terminal generates a parameter configuration instruction according to the environmental data, and sends the parameter configuration instruction to Hearing aids.
  • the terminal can configure various parameters of the hearing aid through wireless communication.
  • the wireless communication link includes one of the following wireless connection methods: Bluetooth, NFC, or WiFi. Of course, it can also be other wireless connection methods, such as ZigBee. Wireless connection is more convenient than wired connection.
  • the environmental data may include one or more of the following data: user voice, environmental noise, user action data, setting data, or user usage habits.
  • the terminal may periodically update the collected environmental data. This keeps the environmental data up to date.
  • the terminal when the terminal detects that the environmental data has changed, the terminal may re-collect environmental data. This keeps the environmental data up to date.
  • the terminal may upload the collected environmental data to the server for analysis.
  • the parameter configuration instructions include configuration instructions for one or more of the following hearing aid parameters: volume, noise reduction effect, gain of different sound frequency bands, or gain of left and right channels.
  • the terminal generating the parameter configuration instruction according to the environmental data includes: when the user sound collected by the terminal is lower than the preset first sound threshold, generating a parameter configuration instruction to increase the volume of the hearing aid.
  • the terminal generating the parameter configuration instruction according to the environmental data includes: when the environmental noise collected by the terminal is higher than a preset second sound threshold, generating a parameter configuration instruction to increase the volume of the hearing aid.
  • the terminal generating the parameter configuration instruction according to the environmental data includes: when the environmental noise collected by the terminal is higher than a preset second sound threshold, generating a parameter configuration instruction that enhances the noise reduction effect of the hearing aid.
  • the terminal generates the parameter configuration instruction according to the environmental data, including: when the user's heartbeat value collected by the terminal is higher than a preset third heartbeat threshold, generating a parameter configuration instruction to increase the volume of the hearing aid.
  • the terminal generates the parameter configuration instruction according to the environmental data, including: when the user's historical listening data collected by the terminal generates a parameter configuration instruction that sets the hearing aid volume to the historical average volume.
  • the terminal generates the parameter configuration instruction based on the environmental data, including: generating a parameter configuration instruction that sets the gain of each sound frequency band of the hearing aid to the historical average gain value based on the user's historical listening data collected by the terminal.
  • the terminal generates the parameter configuration instruction according to the environmental data, which includes: when the terminal detects that the user's face turns to the first direction, the parameter configuration instruction to increase the sound gain of the hearing aid in the first direction is generated.
  • the terminal generating the parameter configuration instruction according to the environment data includes: when the terminal detects that the sound source is located in the second direction, generating a parameter configuration instruction to increase the sound gain of the hearing aid in the second direction.
  • the terminal before sending the parameter configuration instruction to the hearing aid, the terminal obtains the authority to change the settings of the hearing aid.
  • an embodiment of the present application provides a terminal, including a connection unit, a data collection unit, an instruction generation unit, and an instruction transmission unit.
  • the connection unit is used to establish a wireless communication link between the hearing aid and the hearing aid;
  • the data collection unit is used to collect environmental data;
  • the instruction generation unit is used to generate parameter configuration instructions based on the environment data; and
  • the instruction transmission unit is used to Send parameter configuration instructions to hearing aids.
  • the terminal can configure various parameters of the hearing aid through wireless communication.
  • the wireless communication link includes one of the following wireless connection methods: Bluetooth, NFC, or WiFi. Of course, it can also be other wireless connection methods, such as ZigBee. Wireless connection is more convenient than wired connection.
  • the environmental data may include one or more of the following data: user voice, environmental noise, user action data, setting data, or user usage habits.
  • the data collection unit may periodically update the collected environmental data. This keeps the environmental data up to date.
  • the data collection unit when the data collection unit detects that the environmental data changes, the data collection unit re-collects the environmental data. This keeps the environmental data up to date.
  • the terminal may upload the collected environmental data to the server for analysis.
  • the parameter configuration instructions include configuration instructions for one or more of the following hearing aid parameters: volume, noise reduction effect, gain of different sound frequency bands, or gain of left and right channels.
  • generating the parameter configuration instruction according to the environmental data includes: when the user sound collected by the data collection unit is lower than a preset first sound threshold, the instruction generation unit generates a parameter configuration to increase the volume of the hearing aid instruction.
  • generating the parameter configuration instruction based on the environmental data includes: when the environmental noise collected by the data collection unit is higher than a preset second sound threshold, the instruction generation unit generates a parameter configuration to increase the volume of the hearing aid instruction.
  • generating the parameter configuration instruction according to the environmental data includes: when the environmental noise collected by the data collection unit is higher than a preset second sound threshold, the instruction generation unit generates a parameter that enhances the noise reduction effect of the hearing aid Configuration instructions.
  • generating the parameter configuration instruction according to the environmental data includes: when the user's heartbeat value collected by the data collection unit is higher than a preset third heartbeat threshold, the instruction generation unit generates a parameter to increase the volume of the hearing aid Configuration instructions.
  • generating the parameter configuration instruction based on the environmental data includes: generating the parameter configuration instruction that sets the volume of the hearing aid to the historical average volume based on the user's historical listening data collected by the data collection unit.
  • generating the parameter configuration instruction based on the environmental data includes: generating the parameter configuration that sets the gain of each sound frequency band of the hearing aid to the historical average gain value based on the user's historical listening data collected by the data collection unit instruction.
  • generating the parameter configuration instruction according to the environmental data includes: when the data collection unit detects that the user's face turns to the first direction, the instruction generation unit generates an increase in the sound gain of the hearing aid in the first direction Parameter configuration instructions.
  • generating the parameter configuration instruction based on the environmental data includes: when the data collection unit detects that the sound source is located in the second direction, the instruction generation unit generates a parameter configuration instruction to increase the sound gain of the hearing aid in the second direction .
  • the terminal before sending the parameter configuration instruction to the hearing aid, the terminal obtains the authority to change the settings of the hearing aid.
  • an embodiment of the present application provides a terminal, including a processor, a sensor, and a wireless communication device, wherein the wireless communication device is used to establish a wireless communication link with a hearing aid; the sensor is used to collect environmental data; and the processor is used to The environment data generates parameter configuration instructions; the wireless communication device is also used to send parameter configuration instructions to the hearing aid.
  • the terminal can configure various parameters of the hearing aid through wireless communication.
  • the wireless communication link includes one of the following wireless connection methods: Bluetooth, NFC, or WiFi. Of course, it can also be other wireless connection methods, such as ZigBee. Wireless connection is more convenient than wired connection.
  • the environmental data may include one or more of the following data: user voice, environmental noise, user action data, setting data, or user usage habits.
  • the senor may periodically update the collected environmental data. This keeps the environmental data up to date.
  • the sensor when the sensor detects that the environmental data changes, the sensor re-collects the environmental data. This keeps the environmental data up to date.
  • the terminal may upload the collected environmental data to the server for analysis.
  • the parameter configuration instructions include configuration instructions for one or more of the following hearing aid parameters: volume, noise reduction effect, gain of different sound frequency bands, or gain of left and right channels.
  • generating the parameter configuration instruction based on the environmental data includes: when the user's sound collected by the sensor is lower than a preset first sound threshold, the processor generates a parameter configuration instruction to increase the volume of the hearing aid.
  • generating the parameter configuration instruction according to the environmental data includes: when the environmental noise collected by the sensor is higher than a preset second sound threshold, the processor generates a parameter configuration instruction to increase the volume of the hearing aid.
  • generating the parameter configuration instruction according to the environmental data includes: when the environmental noise collected by the sensor is higher than a preset second sound threshold, the processor generates a parameter configuration instruction that enhances the noise reduction effect of the hearing aid.
  • generating the parameter configuration instruction based on the environmental data includes: when the user's heartbeat value collected by the sensor is higher than a preset third heartbeat threshold, the processor generates a parameter configuration instruction to increase the volume of the hearing aid.
  • generating the parameter configuration instruction according to the environmental data includes: according to the user's historical listening data collected by the processor, the processor generating a parameter configuration instruction that sets the volume of the hearing aid to the historical average volume.
  • generating the parameter configuration instruction based on the environmental data includes: according to the user's historical listening data collected by the processor, the processor generating a parameter configuration instruction that sets the gain of each sound frequency band of the hearing aid to the historical average gain value.
  • generating the parameter configuration instruction according to the environmental data includes: when the sensor detects that the user's face turns to the first direction, the processor generates a parameter configuration instruction to increase the sound gain of the hearing aid in the first direction .
  • generating the parameter configuration instruction according to the environmental data includes: when the sensor detects that the sound source is located in the second direction, the processor generates a parameter configuration instruction to increase the sound gain of the hearing aid in the second direction.
  • the terminal before sending the parameter configuration instruction to the hearing aid, the terminal obtains the authority to change the settings of the hearing aid.
  • an embodiment of the present application provides a terminal, including a processor, a memory, and one or more programs; wherein, the one or more programs are stored in the memory and configured to be executed by one or more processors
  • the one or more programs include instructions, characterized in that the instructions are used to perform the method as described in the first aspect.
  • an embodiment of the present application provides a computer program product for storing computer software instructions to perform the method described in the first aspect.
  • an embodiment of the present application provides a computer storage medium in which instructions are stored. When the instructions are executed on a terminal, the terminal is caused to execute the method according to the first aspect.
  • FIG. 1 is a schematic diagram of a hearing aid 100 provided by an embodiment of this application.
  • FIG. 2 is a schematic diagram of a hardware structure of a mobile phone 200 provided by an embodiment of the present application
  • FIG. 3 is a flowchart of a method for controlling a hearing aid provided by an embodiment of this application.
  • FIG. 4 is a schematic diagram of a scenario in which a user uses a hearing aid 100 and a mobile phone 200 according to an embodiment of this application;
  • FIG. 5 is a flowchart of a connection and interaction between a mobile phone 200 and a hearing aid 100 according to an embodiment of the present application
  • FIG. 6 is a schematic diagram of an operation menu of a hearing aid setting interface on a mobile phone 200 provided by an embodiment of the present application;
  • FIG. 7 is a schematic structural diagram of a terminal 700 provided by an embodiment of this application.
  • FIG. 8 is a schematic structural diagram of a terminal 800 provided by an embodiment of the present application.
  • the words “first” and “second” are used to distinguish the same or similar items that have substantially the same functions and functions. Those skilled in the art may understand that the words “first” and “second” do not limit the number and execution order, and the words “first” and “second” do not necessarily mean different.
  • the name of the message between each device or the name of each parameter in the message in the following embodiments of the present application is only an example, and may be other names in specific implementations, which is not specifically limited in this embodiment of the present application.
  • Hearing aids are instruments that help improve hearing. They can amplify the originally inaudible sounds and be perceived by the hearing impaired (hereinafter referred to as "users"). There are many types of hearing aids, which can be divided into box type, back of ear type, and in-ear type according to the external structure; they can be divided into air conduction type and bone conduction type according to the conduction mode. Common hearing aid structures include microphones, headphones, amplifiers, power supplies, housings, and various buttons.
  • the microphone is used to collect sound signals and converted into electrical signals
  • the headphones are used to convert the electrical signals into sound signals and output to the user
  • the amplifier can increase the strength of the electrical signals
  • power supply such as batteries, including non-rechargeable batteries and rechargeable batteries
  • the various buttons can be on / off buttons, volume adjustment buttons, gear adjustment buttons, or other buttons.
  • it may also include charging interfaces, indicator lights, etc.
  • the hearing aid may further include a communication device, which may establish a communication connection with other electronic devices.
  • the communication device may be a Bluetooth device, NFC device, WiFi device, or the like. Some embodiments of the present application take the Bluetooth device as an example to introduce the communication device of the hearing aid.
  • the hearing aid may further include various sensors for detecting the state of the user and the surrounding environment.
  • an acceleration sensor may be used to detect the user's motion state.
  • FIG. 1 is a schematic diagram of a BTE hearing aid 100, including a microphone 101, an earphone 102, a battery 103, a volume adjustment button 104, and a switch 105.
  • the microphone 101 is used to collect the sound of the surrounding environment and convert it into an electrical signal.
  • the battery 103 is used to supply power to the hearing aid 100
  • the volume adjustment button 104 is used to increase or decrease the volume
  • the switch 105 is used to turn the hearing aid 100 on or off.
  • the hearing aid 100 may also have a Bluetooth device (not shown in the figure) for establishing a communication connection with other electronic devices; the hearing aid 100 may also have a sensor (not shown in the figure) for detecting the user's status and The surrounding environment.
  • a Bluetooth device not shown in the figure
  • the hearing aid 100 in FIG. 1 is only an example and not a limitation, and the actual hearing aid may be of other types or shapes, and may include more or less components than FIG. 1, or combine certain components, or disassemble Divided into some parts, or different parts arranged.
  • the illustrated components can be implemented in hardware, software, or a combination of software and hardware.
  • a terminal which may be, for example, a mobile phone, a tablet computer, a desktop type, a laptop computer, an ultra-mobile personal computer (UMPC), a handheld computer, a netbook, a personal digital assistant (personal digital assistant, PDA), wearable devices (including smart bracelets, smart watches, smart glasses, etc.), in-vehicle devices, augmented reality (AR) / virtual reality (VR) and other devices.
  • UMPC ultra-mobile personal computer
  • PDA personal digital assistant
  • wearable devices including smart bracelets, smart watches, smart glasses, etc.
  • AR augmented reality
  • VR virtual reality
  • the mobile phone 200 is taken as an example to introduce this terminal. It can be understood that these embodiments can also be applied to other types of terminals listed above.
  • the mobile phone 200 may include a processor 201, a memory 202, a display 203, a camera 204, an I / O device 205, a sensor 206, a power supply 207, a Bluetooth device 208, a positioning device 209, Audio circuit 210, WiFi device 211, radio frequency circuit 212, etc. These components communicate through one or more communication buses or signal lines.
  • the hardware structure in FIG. 2 is only an example of the mobile phone 200, and does not constitute a limitation on the structure of the mobile phone 200; the mobile phone 200 may have more or fewer components than those shown in FIG. One or more components, or may have different configurations or arrangements of these components.
  • Operating systems running on the mobile phone 200 include but are not limited to DOS, Unix, Linux or other operating systems.
  • the processor 201 includes a single processor or processing unit, multiple processors, multiple processing units, or one or more other suitably configured computing elements.
  • the processor 201 may be a microprocessor, a central processing unit (CPU), an application specific integrated circuit (ASIC), a digital signal processor (DSP), or a combination of such devices.
  • the processor 201 may integrate an application processor (application processor, AP), modem, graphics processor (GPU), image signal processor (ISP), video codec, digital Signal processor (digital signal processor, DSP), baseband processor, and / or neural network processor (Neural-network Processing Unit, NPU), etc.
  • the application processor mainly deals with the operating system, user interface and application programs, etc.
  • the modem mainly deals with wireless communication.
  • Different processing units can be independent devices or integrated in the same processor.
  • the processor 110 may include an interface.
  • the interfaces may include integrated circuit (inter-integrated circuit, I2C) interface, integrated circuit built-in audio (inter-integrated circuit, sound, I2S) interface, pulse code modulation (pulse code modulation (PCM) interface, universal asynchronous transceiver (universal asynchronous / receiver / transmitter, UART) interface, mobile industry processor interface (MIPI), general-purpose input / output (GPIO) interface, user identification module (subscriber identity module, SIM) interface, And / or universal serial bus (USB) interface, etc.
  • I2C integrated circuit
  • I2S integrated circuit built-in audio
  • PCM pulse code modulation
  • PCM pulse code modulation
  • MIPI mobile industry processor interface
  • GPIO general-purpose input / output
  • SIM subscriber identity module
  • the processor 201 is the control center of the mobile phone 200, and directly or indirectly connects various parts of the mobile phone 200 by using various interfaces and lines, by running or executing the software program or instruction set stored in the memory 202, and calling the stored in the memory 202 Data, execute various functions and process data of the mobile phone 200, so as to monitor the mobile phone 200 as a whole.
  • the memory 202 can store electronic data that can be used by the mobile phone 200, such as computer executable program codes, operating systems, applications and their generated data, text, pictures, audio and video, various documents, device settings, user preferences, and contact lists And communication records, memos and schedules, biometric data, data structures or databases, etc.
  • the memory 202 may be configured as any type of memory such as random access memory, read only memory, flash memory, removable memory, or other types of storage elements, or a combination of such devices.
  • the display 203 may be used to display information input by the user or provided to the user and various interfaces of the mobile phone 200.
  • the display screen includes a display panel.
  • the display panel can use LCD (liquid crystal), OLED (organic light-emitting diode), active matrix organic light-emitting diode or active matrix organic light-emitting diode (active-matrix organic light) emitting diodes, AMOLED), Miniled, MicroLed, Micro-oLed, quantum dot light emitting diodes (QLED), etc.
  • the display 203 can also be integrated with a touch panel, and the touch panel can detect whether a contact has occurred, as well as the contact pressure value, moving speed and direction, position information, and the like.
  • the detection methods of the touch panel include, but are not limited to, capacitive, resistive, infrared, surface acoustic wave, etc.
  • the touch panel detects a touch operation on or near it, it is transmitted to the processor 201 to determine the type of touch event, and then the processor 201 provides a corresponding visual output on the display 203 according to the type of touch event.
  • the visual output includes Text, graphics, icons, video, and any combination.
  • the mobile phone 200 may include 1 or N display screens, and N is a positive integer greater than 1.
  • the camera 204 is used to capture still images or videos.
  • the object generates an optical image through the lens and projects it onto the photosensitive element.
  • the photosensitive element may be a charge coupled device (charge coupled device, CCD) or a complementary metal-oxide-semiconductor (CMOS) phototransistor.
  • CCD charge coupled device
  • CMOS complementary metal-oxide-semiconductor
  • the photosensitive element converts the optical signal into an electrical signal, and then transmits the electrical signal to the ISP to convert it into a digital image signal.
  • the ISP outputs the digital image signal to the DSP for processing.
  • DSP converts digital image signals into standard RGB, YUV and other image signals.
  • the mobile phone 200 may include 1 or N cameras, and N is a positive integer greater than 1.
  • the camera 204 can be divided into a front camera and a rear camera, and is used in conjunction with other components such as a flash.
  • the I / O device 205 that is, the input / output device, can receive data and instructions sent by the user or other devices, and can also output data or instructions to the user or other devices.
  • the I / O device 205 includes various buttons, interfaces, keyboards, touch input devices, touch pads, mice, and other components of the mobile phone 200; I / O devices in a broad sense may also include the display 203 and the camera 204 shown in FIG. Audio circuit 210 and so on.
  • the mobile phone 200 may include one or more sensors 206, which may be configured to detect any type of attributes, including but not limited to images, pressure, light, touch, heat, magnetism, movement, relative motion, and so on.
  • the sensor 206 may be an image sensor, a thermometer, a hygrometer, a proximity sensor, an infrared sensor, an accelerometer, an angular velocity sensor, a gravity sensor, a gyroscope, a geomagnetometer, a heart rate detector, and so on.
  • the pressure sensor is used to sense the pressure signal and can convert the pressure signal into an electrical signal.
  • the pressure sensor may be provided on the display screen.
  • the capacitive pressure sensor may be at least two parallel plates with conductive materials. When force is applied to the pressure sensor, the capacitance between the electrodes changes.
  • the mobile phone 200 determines the strength of the pressure based on the change in capacitance.
  • the mobile phone 200 detects the intensity of the touch operation according to the pressure sensor.
  • the mobile phone 200 may also calculate the touched position based on the detection signal of the pressure sensor.
  • touch operations that act on the same touch position but have different touch operation intensities may correspond to different operation instructions. For example, when a touch operation with a touch operation intensity less than the first pressure threshold acts on the short message application icon, an instruction to view the short message is executed. When a touch operation with a touch operation intensity greater than or equal to the first pressure threshold acts on the short message application icon, an instruction to create a new short message is executed.
  • the gyro sensor can be used to determine the movement posture of the mobile phone 200.
  • the angular velocity of the mobile phone 200 around three axes ie, x, y, and z axes
  • the gyro sensor can be used to shoot anti-shake.
  • the gyro sensor detects the jitter angle of the mobile phone 200, and calculates the distance to be compensated by the lens module according to the angle, so that the lens counteracts the jitter of the mobile phone 200 through reverse movement to achieve anti-shake.
  • the gyro sensor can also be used for navigation and somatosensory game scenes.
  • Air pressure sensor is used to measure air pressure.
  • the mobile phone 200 calculates the altitude using the air pressure value measured by the air pressure sensor to assist positioning and navigation.
  • Magnetic sensors include Hall sensors.
  • the mobile phone 200 can use a magnetic sensor to detect the opening and closing of the flip holster.
  • the mobile phone 200 when the mobile phone 200 is a clamshell machine, the mobile phone 200 can detect the opening and closing of the clamshell according to the magnetic sensor.
  • features such as automatic unlocking of the flip cover are set.
  • the acceleration sensor can detect the acceleration of the mobile phone 200 in various directions (generally three axes). When the mobile phone 200 is stationary, the magnitude and direction of gravity can be detected. It can also be used to recognize the posture of the terminal, and be used in applications such as horizontal and vertical screen switching and pedometers.
  • the mobile phone 200 can measure the distance by infrared or laser. In some embodiments, when shooting scenes, the mobile phone 200 may use a distance sensor to measure distance to achieve fast focusing.
  • the proximity light sensor may include, for example, a light emitting diode (LED) and a light detector, such as a photodiode.
  • the light emitting diode may be an infrared light emitting diode. Infrared light is emitted outward through the light emitting diode.
  • Use photodiodes to detect infrared reflected light from nearby objects. When sufficient reflected light is detected, it can be determined that there is an object near the mobile phone 200. When insufficient reflected light is detected, it can be determined that there is no object near the mobile phone 200.
  • the mobile phone 200 can use the proximity light sensor to detect that the user is holding the mobile phone 200 close to the ear to talk, so as to automatically turn off the screen to save power.
  • the proximity light sensor can also be used in leather case mode, pocket mode automatically unlocks and locks the screen.
  • the ambient light sensor is used to sense the ambient light brightness.
  • the mobile phone 200 can adaptively adjust the brightness of the display screen according to the perceived ambient light brightness.
  • the ambient light sensor can also be used to automatically adjust the white balance when taking pictures.
  • the ambient light sensor can also cooperate with the proximity light sensor to detect whether the mobile phone 200 is in a pocket to prevent accidental touch.
  • the fingerprint sensor is used to collect fingerprints.
  • the mobile phone 200 can use the collected fingerprint characteristics to realize fingerprint unlocking, access to application lock, fingerprint taking pictures, fingerprint answering calls, and the like.
  • the temperature sensor is used to detect the temperature.
  • the mobile phone 200 uses the temperature detected by the temperature sensor to execute a temperature processing strategy. For example, when the temperature reported by the temperature sensor exceeds the threshold, the mobile phone 200 performs to reduce the performance of the processor located near the temperature sensor, so as to reduce power consumption and implement thermal protection.
  • Touch sensor also known as "touch panel”. Can be set on the display. Used to detect touch operations on or near it. The detected touch operation can be passed to the application processor to determine the type of touch event and provide corresponding visual output through the display screen.
  • Bone conduction sensors can acquire vibration signals.
  • the bone conduction sensor may acquire the vibration signal of the vibrating bone mass of the human voice.
  • the bone conduction sensor can also touch the pulse of the human body and receive the blood pressure beating signal.
  • the bone conduction sensor may also be provided in the earphone, and the audio module may parse out the voice signal based on the vibration signal of the vibrating bone block acquired by the bone conduction sensor to realize the voice function.
  • the application processor may analyze the heart rate information based on the blood pressure beating signal acquired by the bone conduction sensor to implement the heart rate detection function.
  • the power supply 207 can provide power to the mobile phone 200 and its components.
  • the power supply 207 may include one or more rechargeable batteries, or non-rechargeable batteries, or an external power supply connected to the mobile phone 200 through a wired / wireless manner.
  • the power supply 207 may also include a charging management module for receiving charging input from the charger.
  • the charger may be a wireless charger or a wired charger.
  • the charging management module may receive the charging input of the wired charger through the USB interface.
  • the charging management module may receive wireless charging input through the wireless charging coil of the mobile phone 200. While the charging management module charges the battery, it can also supply power to the terminal equipment through the power management module.
  • the power supply 207 may also include power management systems, fault detection systems, power conversion systems, and other related devices.
  • the power management system is used to connect the battery, the charging management module, and the processor 201.
  • the power management module receives the input of the battery and / or charge management module, and supplies power to the processor 201, the memory 202, the display 203, the camera 204, and the like.
  • the power management system can also be used to monitor battery capacity, battery cycle times, battery health status (leakage, impedance) and other parameters.
  • the Bluetooth device 208 is used to implement data exchange between the mobile phone 200 and other devices through the Bluetooth protocol. It can be understood that the mobile phone 200 may also include other short-range communication devices such as NFC devices.
  • the positioning device 209 can provide geographic location information for the mobile phone 200 and the installed applications.
  • the positioning device 209 may be a positioning system such as GPS, Beidou satellite navigation system, GLONASS or the like.
  • the positioning device 209 further includes an auxiliary global positioning system AGPS, which performs auxiliary positioning based on a base station or a WiFi access point.
  • the audio circuit 210 can perform functions such as audio signal processing, input, and output, and can include a speaker 210-1, a microphone 210-2, and other audio processing devices.
  • the speaker 210-1 also known as a "speaker” is used to convert audio electrical signals into sound signals.
  • the mobile phone 200 can listen to music through a speaker, or listen to a hands-free call.
  • the microphone 210-2 also called “microphone”, "microphone”, is used to convert sound signals into electrical signals. When making a call or sending a voice message, the user can make a sound by approaching the microphone through the person's mouth, and input the sound signal to the microphone.
  • the mobile phone 200 may be provided with at least one microphone. When two microphones are provided, in addition to collecting sound signals, functions such as noise reduction, sound source identification, and directional recording functions may also be implemented.
  • the WiFi device 211 is used to provide the mobile phone 200 with network access following WiFi related standard protocols.
  • the mobile phone 200 can be connected to a WiFi access point through the WiFi device 211 to connect to the network.
  • the radio frequency circuit (RF, Radio Frequency) 212 can be used to receive and send information or send and receive signals during a call, convert electrical signals into electromagnetic signals or convert electromagnetic signals into electrical signals, and communicate with communication networks and other communication equipment via electromagnetic signals Communication.
  • the radio frequency circuit 212 may provide a communication processing module for a wireless communication solution including 2G / 3G / 4G / 5G and the like applied to the mobile phone 200.
  • the structure of the radio frequency circuit 212 includes but is not limited to: antenna system, radio frequency transceiver, one or more amplifiers, tuners, one or more oscillators, digital signal processor, codec chipset, SIM (Subscriber Identity Module) card and many more.
  • the radio frequency circuit 212 can receive electromagnetic waves from an antenna, filter, amplify, etc.
  • the radio frequency module can also amplify the signal modulated by the modem and convert it to electromagnetic waves through the antenna.
  • at least part of the functional modules of the radio frequency circuit 212 may be provided in the processor 201.
  • at least part of the functional modules of the radio frequency circuit 212 and at least part of the modules of the processor 201 may be provided in the same device.
  • the radio frequency circuit 212 can communicate with a network and other devices through wireless communication, such as the Internet, an intranet, and / or a wireless network (such as a cellular phone network, a wireless local area network, and / or a metropolitan area network).
  • Wireless communication can use any type of various communication standards, protocols and technologies, including but not limited to global mobile communication system, enhanced data GSM environment, high-speed downlink packet access, high-speed uplink packet access, broadband code division Multiple access, code division multiple access, time division multiple access, Bluetooth, wireless fidelity (for example, IEEE802.11a, IEEE802.11b, IEEE802.11g and / or IEEE802.11n), Internet voice protocol, Wi-MAX, email protocol (E.g. Internet Message Access Protocol (IMAP) and / or Post Office Protocol (POP)), instant messaging (e.g.
  • IMAP Internet Message Access Protocol
  • POP Post Office Protocol
  • instant messaging e.g.
  • Extensible Messaging Field Protocol XMPP
  • Extended Session Initiation Protocol SIMPLE
  • instant messaging and field utilization IMPS
  • instant messaging and presence service IMPS
  • SMS short message service
  • the mobile phone 200 may further include other components, which will not be repeated here.
  • an embodiment of the present application provides a method of controlling a hearing aid, including the following steps:
  • S301 The terminal establishes a wireless communication link with the hearing aid.
  • the mobile phone 200 may establish a wireless communication link with the hearing aid 100.
  • a wireless communication link can be established between the hearing aid 100 and the mobile phone 200.
  • the hearing aid 100 can be connected to the mobile phone 200 through a wireless connection such as Bluetooth / NFC / WiFi.
  • the following uses Bluetooth connection as an example to describe how to control the hearing aid 100.
  • both the hearing aid 100 and the mobile phone 200 have a Bluetooth module and are activated.
  • Standard protocols (including various versions of the protocol) establish connections. For example, when using the mobile phone 200 to connect the hearing aid 100, you can activate the respective Bluetooth device, scan to find the nearby hearing aid 100, and then initiate a Bluetooth connection. After pairing, the Bluetooth connection can be established.
  • Bluetooth pairing processes such as direct pairing, PIN code pairing, physical or virtual button pairing, and so on.
  • the mobile phone 200 and the hearing aid 100 can interact to transfer data or instructions to each other.
  • a master device can be connected to multiple slave devices, so the mobile phone 200 can also be connected to multiple hearing aids 100 at the same time, send data and instructions to the multiple hearing aids 100, or receive multiple hearing aids 100 Data and instructions sent.
  • the user when the mobile phone 200 is playing music, the user can listen to the music through the wearing hearing aid 100 that has established a Bluetooth connection. It can be understood that the user can operate the buttons of the hearing aid 100 to realize functions such as volume adjustment, switching music, and pausing playback, and can also realize these functions by operating the mobile phone 200. Optionally, the user can also use the hearing aid 100 to perform operations such as watching videos and talking on the phone 200; in addition, the user can also hear the sound of the surrounding environment or the sound of others' conversations through the hearing aid 100.
  • S302 The terminal collects environmental data.
  • the mobile phone 200 can collect various environmental data, such as detecting user voice, environmental noise, and user motion data (user motion data including motion status, movement, distance, heartbeat, etc.) through various sensors, and collecting User setting data or system menu setting data (collectively called setting data), collecting user usage habits, etc.
  • environmental data such as detecting user voice, environmental noise, and user motion data (user motion data including motion status, movement, distance, heartbeat, etc.) through various sensors, and collecting User setting data or system menu setting data (collectively called setting data), collecting user usage habits, etc.
  • setting data User setting data or system menu setting data
  • There are many ways to collect environmental data Specifically, you can use a microphone to collect user voice or environmental noise sound data (such as volume, frequency, etc.), or you can use the microphone to locate the sound source orientation, or use an acceleration sensor to detect the user's movement status.
  • the microphone can also be regarded as a type of sensor; in other examples, the processor can also collect environmental data, and in this case, the processor can also be regarded as a part of the sensor.
  • the terminal when the terminal collects environmental data, multiple terminals can cooperate to collect.
  • a user may wear a wearable device (which may be referred to as a "second terminal") while using the mobile phone 200 (which may be referred to as a "first terminal” at this time).
  • the wearable device may also collect environmental data and cooperate with The mobile phone 200 determines the usage scenario of the hearing aid 100.
  • the wearable device can use various sensors to collect environmental data. For example, ECG electrocardiographic sensors can be used to measure the user's heart rate, and acceleration sensors can be used to measure the user's steps, movement distance and other sports data, etc. Wait.
  • the mobile phone 200 may upload the collected environmental data to the server for analysis, for example, the server analyzes the user's historical usage data to determine the user's usage habits, or the server analyzes the environmental noise collected by the microphone of the mobile phone 200, etc. .
  • the mobile phone 200 may update the collected environmental data, for example, periodically re-collect environmental data at intervals (for example, 5 minutes), or re-collect environmental data after detecting changes in the environmental data. For example, when the acceleration sensor of the mobile phone 200 detects that the movement state of the user has changed, it may re-collect environmental data.
  • S303 The terminal generates a parameter configuration instruction according to the environmental data, and sends the parameter configuration instruction to the hearing aid.
  • the mobile phone 200 After the mobile phone 200 collects environmental data, it can generate a parameter configuration instruction and send it to the hearing aid 100.
  • the parameter configuration instruction is used to configure various parameters of the hearing aid 100, for example, the hearing aid volume, noise reduction effect, gain of different sound frequency bands, left and right Channel gain and other parameters, so as to achieve a better hearing effect.
  • the parameter configuration instruction is an instruction that can be executed by the hearing aid 100, conforms to a preset format, and is sent to the hearing aid 100 for execution by the terminal (for example, the mobile phone 200) through the wireless communication link.
  • the mobile phone 200 can send a parameter configuration instruction to the hearing aid 100 through a Bluetooth communication link, so as to implement the configuration of various parameters of the hearing aid 100.
  • the mobile phone 200 may send a volume adjustment instruction to the hearing aid 100 to control the volume of the hearing aid 100, or configure parameters such as the gain of each frequency band of the sound, the sound amplification effect, and the noise reduction effect.
  • the user can use the hearing aid 100 with the configured parameters to hear the sound played by the mobile phone 200, or the sound from the surrounding environment, the conversation sound of others, and so on. It can be understood that the hearing aid 100 needs to turn on the corresponding permissions (for example, the mobile phone 200 to change the permissions of the hearing aid 100 settings), so that the parameter configuration command sent by the mobile phone 200 can be executed, so as to realize the use of the mobile phone 200 to control the hearing aid 100.
  • the corresponding permissions for example, the mobile phone 200 to change the permissions of the hearing aid 100 settings
  • the mobile phone 200 can analyze the collected environmental data to generate parameter configuration instructions. For example, for collected environmental data such as user voice, environmental noise, user motion data, user settings and system settings, or user usage habits, the mobile phone 200 can judge the usage scenarios of the hearing aid 100, thereby generating parameter configuration instructions to achieve The personalized settings of the hearing aid 100 make the hearing aid 100 more suitable for the user's hearing needs.
  • collected environmental data such as user voice, environmental noise, user motion data, user settings and system settings, or user usage habits
  • the mobile phone 200 can judge the usage scenarios of the hearing aid 100, thereby generating parameter configuration instructions to achieve The personalized settings of the hearing aid 100 make the hearing aid 100 more suitable for the user's hearing needs.
  • a parameter configuration instruction for increasing the volume may be generated.
  • the environmental noise collected by the microphone of the mobile phone 200 is large (for example, higher than a preset second sound threshold)
  • a parameter configuration instruction for increasing the volume or enhancing the noise reduction effect may be generated.
  • the wearable device uses the ECG sensor to detect that the user's heartbeat / pulse is fast, it can determine that the user is running, or can't hear the sound, and becomes impatient and nervous, resulting in a faster pulse. Parameter configuration instructions.
  • the mobile phone 200 can perform spectrum analysis on the sound signals and noise signals collected by the microphone, configure gain parameters of different frequency bands, and generate parameter configuration instructions.
  • the mobile phone 200 can analyze the historical data of the user's use of the hearing aid 100 to determine the user's usage habits. For example, if the user likes to listen to bass, the mobile phone 200 can generate a parameter configuration instruction for enhancing bass gain.
  • the hearing of the left and right ears of the user may be different, and the mobile phone 200 may generate parameter configuration instructions for different gain effects of the left and right ears according to the listening difference of the user.
  • the orientation of the user's face can be determined by an acceleration sensor or an eye tracking sensor, and at the same time, the volume gain parameters of the left and right ears can be adjusted according to the position of the sound source positioned by the microphone.
  • the sound gain of the hearing aid in the first direction is increased.
  • the sound gain of the hearing aid in the second direction is increased.
  • the volume of the hearing aid 100 is automatically adjusted to conform to the user's usage habits.
  • multiple terminals may cooperate to control the hearing aid 100.
  • the parameter configuration instruction may be issued by one or more of the multiple terminals, and the hearing aid 100 may execute these parameter configuration instructions.
  • the hearing aid 100 may execute multiple parameter configuration instructions at the same time, or execute the parameter configuration instructions in a preset order, or select to execute parameter configuration instructions issued by a terminal with a higher priority.
  • the user can use the mobile phone 200 and the wearable device to control the hearing aid 100 at the same time. Both the mobile phone 200 and the wearable device can send parameter configuration instructions to the hearing aid 100.
  • the hearing aid 100 can execute these parameter configuration instructions at the same time, or preferentially execute the parameters sent by the mobile phone 200 Configuration instructions, or preferential execution of parameter configuration instructions sent by wearable devices, etc.
  • the wearable device can control the hearing aid 100 through the mobile phone 200, and configure various parameters of the hearing aid 100.
  • FIG. 5 is a schematic diagram of a connection and interaction between the mobile phone 200 and the hearing aid 100. It includes the following steps:
  • the mobile phone 200 activates Bluetooth and scans peripheral devices.
  • the mobile phone 200 turns on the Bluetooth module and scans peripheral devices according to the Bluetooth standard protocol.
  • the hearing aid 100 returns the scan result, and the mobile phone 200 finds the hearing aid 100.
  • the mobile phone 200 can display the peripheral devices found in the scan in the form of a list, which can include the hearing aid 100.
  • the mobile phone 200 and the hearing aid 100 establish a Bluetooth communication link.
  • a Bluetooth communication link can be established by Bluetooth pairing.
  • Bluetooth pairing There can be multiple Bluetooth pairing processes, such as direct pairing, PIN code pairing, physical or virtual button pairing, and so on.
  • the mobile phone 200 sends a parameter configuration instruction to the hearing aid 100.
  • the mobile phone 200 can set various parameters of the hearing aid 100. Specifically, a parameter configuration instruction can be sent to the hearing aid 100 through a Bluetooth communication link to adjust the volume of the hearing aid 100, the noise reduction effect, the gain of different sound frequency bands, the left and right Parameters such as channel gain. It can be understood that the hearing aid 100 needs to open corresponding permissions, so that the mobile phone 200 can set various parameters of the hearing aid 100.
  • the mobile phone 200 performs data interaction with the hearing aid 100.
  • the mobile phone 200 and the hearing aid 100 can perform data interaction through a Bluetooth communication link, where the data can be audio files, parameter configuration instructions, and other data.
  • FIG. 6 is a schematic diagram of an operation menu for controlling the hearing aid 100 on the mobile phone 200.
  • the mobile phone 200 can set the parameter configuration menu of the hearing aid 100 in the setting menu.
  • the user can manually configure various parameters of the hearing aid 100, or can turn on the automatic setting function, that is, the mobile phone 200 generates a parameter configuration instruction according to the collected environmental data, and sends the parameter configuration instruction to the hearing aid 100 to implement automatic setting.
  • the user when the user manually adjusts various parameters of the hearing aid 100, he can slide the triangle slider to the left and right with his finger to transfer the parameters.
  • the setting menu can configure the left and right ear parameters separately, and set the left and right ear volume, noise reduction effect, each band gain or channel Gain and so on.
  • the user can also check the power level of the hearing aid 100 and receive a charging prompt message when the power level is low.
  • a list of hearing aid devices found by the mobile phone 200 may be displayed in the hearing aid setting menu to implement operations such as quick pairing and switching to different hearing aids.
  • the hearing aid setting options can also be integrated in an application APP, or can be called up through shortcuts (including shortcut keys, voice assistants, etc.).
  • the setting of various parameters of the hearing aid 100 may be manually performed by the user or automatically set by the mobile phone 200.
  • Various parameters of the hearing aid 100 may include: volume, noise reduction effect, low frequency gain, intermediate frequency gain, high frequency gain, left channel gain, right channel gain, and so on.
  • the volume can be adjusted according to the sound volume or the environmental noise. For example, when the sound is too low or the surrounding environmental noise is relatively large, the volume can be increased to make the user hear clearly.
  • the noise reduction effect indicates the degree of filtering of surrounding noise.
  • the noise reduction can specifically include the following steps: 1. Separate the collected mixed sound signal to separate the sound signal and the noise signal; 2. Automatically adjust the gain of the separated sound signal according to the ratio of sound to noise Relation and decibel number are used to automatically adjust the gain of the sound in different degrees to achieve a better hearing effect; 3. Output the sound information after gain adjustment, for example, when the external environment is noisy, the output sound is appropriately amplified to make The user can hear the sound clearly.
  • the gain of each frequency band of the sound is adjusted in order to adjust the sound gain of the bass, midrange and treble regions in a targeted manner according to the user's preference for the timbre and the sensitivity of the ear to the sound of different frequency bands.
  • the gain of the left and right channels By adjusting the gain of the left and right channels, the balance and offset of the left and right channels can be adjusted.
  • the electronic device includes hardware and / or software modules corresponding to performing each function.
  • the present application can be implemented in the form of hardware or a combination of hardware and computer software. Whether a function is executed by hardware or computer software driven hardware depends on the specific application and design constraints of the technical solution. Those skilled in the art may use different methods to implement the described functions for each specific application in combination with the embodiments, but such implementation should not be considered beyond the scope of the present application.
  • the electronic device may be divided into function modules according to the above method example.
  • each function module may be divided corresponding to each function, or two or more functions may be integrated into one processing module.
  • the above integrated module can be implemented in the form of hardware. It should be noted that the division of the modules in this embodiment is schematic, and is only a division of logical functions. In actual implementation, there may be another division manner.
  • FIG. 7 provides a terminal 700 that can be used to control the hearing aid 100.
  • the terminal 700 includes a connection unit 701, a data collection unit 702, an instruction generation unit 703, and an instruction transmission unit 704.
  • the connection unit 701 is used to establish a wireless communication link between the terminal 700 and the hearing aid 100;
  • the data collection unit 702 is used For collecting environmental data,
  • the instruction generating unit 703 is used to generate a parameter configuration instruction according to the environmental data, and the instruction sending unit 704 is used to send the parameter configuration instruction to the hearing aid 100.
  • the instruction sending unit 704 is used to send the parameter configuration instruction to the hearing aid 100.
  • the present application also provides a terminal 800 that can be used to control the hearing aid 100.
  • the terminal 800 includes: a processor 801, a sensor 802, and a wireless communication device 803.
  • the wireless communication device 803 is used to establish a wireless communication link with the hearing aid 100; the sensor 802 is used to collect environmental data; the processor 801 is used to generate parameter configuration instructions according to the environmental data; the wireless communication device 803 is also used Yu sends a parameter configuration instruction to the hearing aid 100.
  • a processor 801 is used to collect environmental data; the processor 801 is used to generate parameter configuration instructions according to the environmental data; the wireless communication device 803 is also used Yu sends a parameter configuration instruction to the hearing aid 100.
  • the present application also provides a terminal 900, including a processor, a memory, and one or more programs; wherein, one or more programs are stored in the memory and configured to be executed by one or more processors.
  • One or more programs include instructions for establishing a wireless communication link between the terminal and the hearing aid; the terminal collecting environmental data; the terminal generates a parameter configuration instruction based on the environmental data, and sends the parameter configuration instruction to the hearing aid.
  • this application also provides a storage medium or computer program product for storing computer software instructions, which are used to: establish a wireless communication link between the terminal and the hearing aid; the terminal collects environmental data; the terminal generates parameter configuration instructions based on the environmental data Send parameter configuration instructions to hearing aids.
  • computer software instructions which are used to: establish a wireless communication link between the terminal and the hearing aid; the terminal collects environmental data; the terminal generates parameter configuration instructions based on the environmental data Send parameter configuration instructions to hearing aids.
  • the disclosed device and method may be implemented in other ways.
  • the device embodiments described above are only schematic.
  • the division of the modules or units is only a division of logical functions.
  • there may be other divisions for example, multiple units or components may be The combination can either be integrated into another device, or some features can be ignored, or not implemented.
  • the displayed or discussed mutual coupling or direct coupling or communication connection may be indirect coupling or communication connection through some interfaces, devices or units, and may be in electrical, mechanical, or other forms.
  • the units described as separate components may or may not be physically separated, and the components displayed as units may be one physical unit or multiple physical units, that is, may be located in one place, or may be distributed in multiple different places . Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.
  • each functional unit in each embodiment of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units may be integrated into one unit.
  • the above integrated unit may be implemented in the form of hardware or software functional unit.
  • the integrated unit is implemented in the form of a software functional unit and sold or used as an independent product, it may be stored in a readable storage medium.
  • the technical solutions of the embodiments of the present application may essentially be part of or contribute to the existing technology, or all or part of the technical solutions may be embodied in the form of software products, which are stored in a storage medium
  • several instructions are included to enable a device (which may be a single-chip microcomputer, chip, etc.) or processor to execute all or part of the steps of the methods described in the embodiments of the present application.
  • the foregoing storage media include various media that can store program codes, such as a USB flash drive, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk.

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  • Engineering & Computer Science (AREA)
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  • Computer Networks & Wireless Communication (AREA)
  • Human Computer Interaction (AREA)
  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
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  • Otolaryngology (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
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Abstract

Les modes de réalisation de la présente invention concernent un procédé de commande de prothèse auditive et un terminal. Le procédé comprend les étapes au cours desquelles : un terminal établit une liaison de communication sans fil avec une prothèse auditive ; le terminal collecte des données environnementales ; puis le terminal génère une instruction de configuration de paramètres en fonction des données environnementales et transmet l'instruction de configuration de paramètres à la prothèse auditive. Dans l'invention, un scénario d'utilisation d'une prothèse auditive est déterminé en fonction de données environnementales, ce qui permet des réglages personnalisés de la prothèse auditive et répond mieux aux besoins d'un utilisateur en matière d'audition.
PCT/CN2019/114933 2018-11-05 2019-11-01 Procédé de commande de prothèse auditive et terminal WO2020093937A1 (fr)

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