CN106856416B - Incoming call reminding method of wearable device and wearable device - Google Patents

Abstract

The embodiment of the invention relates to the technical field of wearable equipment, and discloses an incoming call reminding method of wearable equipment and the wearable equipment, wherein the method comprises the following steps: when the wearable device plays the incoming call prompt of the incoming call by using the external playing mode, detecting whether the wearable device receives a playing mode switching instruction; if the wearable device receives a play mode switching instruction, switching the play mode of the wearable device from a play-out mode to a bone conduction mode; and stopping playing the incoming call reminder of the incoming call by using the external playing mode, and converting a real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting the vibration signal through bone media. The embodiment of the invention is used for enabling the user to know the incoming call information of the incoming call in time, avoiding missing the incoming call, and reducing the risk of stealing the incoming call information, thereby achieving the purpose of protecting the privacy of the user.

Description

A wearable device call reminder method and wearable device

technical field

The invention relates to the technical field of wearable devices, in particular to a method for reminding incoming calls of a wearable device and a wearable device.

Background technique

With the development of wearable device technology, wearable devices (such as smart watches, etc.) can realize functions such as phone calls, text messages, emails, photos and music. At present, the sound playback mode of the wearable device on the market is relatively simple, which is usually the external playback mode of an external speaker. When there is an incoming call, the external playback mode plays the ringtone of the incoming call. In practical applications, in order to prevent the sound from being eavesdropped on or disturbing the surrounding people as much as possible, the user usually needs to stick the wearable device tightly to the ear as shown in FIG. 1 . Since the wearable device is usually worn on the wrist, it is very inconvenient to put the wearable device close to the ear, thereby reducing the user experience.

SUMMARY OF THE INVENTION

The embodiment of the present invention discloses a method for reminding an incoming call of a wearable device and the wearable device, which can make the user know the incoming call information in time, and reduce the risk of the incoming call information being eavesdropped by the surrounding people.

A first aspect of the present invention discloses an incoming call reminder method for a wearable device, comprising:

When the wearable device uses the external playback mode to play the incoming call reminder of the incoming call, detecting whether the wearable device receives a playback mode switching instruction;

If the wearable device receives the play mode switching instruction, switch the play mode of the wearable device from the external play mode to the bone conduction mode; and

Stop using the external playback mode to play the incoming call reminder of the incoming call, and use the bone conduction mode to convert the real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium.

As an optional implementation manner, in the first aspect of the present invention, when the wearable device uses the external playback mode to play an incoming call reminder of an incoming call, the method of detecting whether the wearable device receives a playback mode switching instruction include:

When the wearable device plays the incoming call reminder of the incoming call in the external playback mode, detecting the first arm motion of the arm wearing the wearable device;

Identifying whether the first arm movement matches a preset arm movement;

When the first arm motion matches the preset arm motion, the first arm motion is used as a play mode switching instruction, and it is determined that the wearable device receives the play mode switching instruction.

As an optional implementation manner, in the first aspect of the present invention, after switching the playback mode of the wearable device from the external playback mode to the bone conduction mode, and after the use of the bone conduction mode Before converting the real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal and transmitting it through the bone medium, the method further includes:

After switching the playback mode of the wearable device from the external playback mode to the bone conduction mode, acquiring the incoming call number of the incoming call;

Identifying whether the incoming call number belongs to a contact number in the wearable device contact list;

If the incoming call number belongs to a contact number in the contact list, obtain first associated information of the incoming call number from the contact list, and use the first associated information as the incoming call of the incoming call information, the first associated information includes the caller number and the contact information corresponding to the caller number, and the bone conduction mode is used to convert the real-time voice signal used to broadcast the caller information of the incoming call into a vibration signal And the step of passing through the bone medium;

If the caller number does not belong to the contact number in the contact list, identify whether the caller number is a harassing caller number;

If the caller number is a nuisance caller number, obtain second associated information of the caller number, and use the second associated information as the caller information of the incoming call, where the second associated information includes the caller number and Indicating that the incoming call number is the information of a harassing incoming call, and performing the step of converting the real-time voice signal used for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting it through the bone medium;

If the incoming call number is not a harassing incoming call number, obtain third associated information of the incoming call number, and use the third associated information as the incoming call information of the incoming call, where the third associated information includes the incoming call number, The step of converting the real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting it through the bone medium is performed.

As an optional implementation manner, in the first aspect of the present invention, when the real-time voice signal is broadcast, the method further includes:

When the real-time voice signal is broadcast, detecting whether the incoming call is hung up;

If the incoming call is not hung up, connect the incoming call.

As an optional implementation manner, in the first aspect of the present invention, the use of the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmit it through a bone medium Afterwards, the method further includes:

detecting the movement of the second arm wearing the arm of the wearable device;

Identifying whether the second arm action matches a preset hang-up action;

If the second arm motion matches the preset hang-up motion, hang up the incoming call.

A second aspect of the present invention discloses a wearable device, which may include:

an instruction detection unit, configured to detect whether a playback mode switching instruction is received when the first reminder unit plays an incoming call reminder of an incoming call using the external playback mode;

a mode switching unit, configured to switch the playback mode from the external playback mode to the bone conduction mode when the instruction detection unit receives the playback mode switching instruction; and

the first reminder unit, configured to stop playing the incoming call reminder of the incoming call by using the external playback mode; and

The second reminding unit is configured to use the bone conduction mode to convert the real-time voice signal used for broadcasting the incoming call information of the incoming call into a vibration signal and transmit it through a bone medium.

As an optional implementation manner, in the second aspect of the present invention, the instruction detection unit specifically includes:

a first motion detection unit, configured to detect the motion of the first arm wearing the arm of the wearable device when the first reminder unit plays an incoming call reminder of an incoming call in an external playback mode;

a first action recognition unit for identifying whether the first arm action matches a preset arm action;

an instruction determining unit, configured to use the first arm motion as a playback mode switching instruction and determine the wearable The device receives the play mode switching instruction.

As an optional implementation manner, in the second aspect of the present invention, the wearable device further includes:

a number acquisition unit, for after the mode switching unit switches the playback mode from the external playback mode to the bone conduction mode, and after the second reminder unit uses the bone conduction mode to broadcast the incoming call Before converting the real-time voice signal of the incoming call information into a vibration signal and transmitting it through the bone medium, obtain the incoming call number of the incoming call;

a first number identification unit, configured to identify whether the incoming call number belongs to a contact number in the contact list;

A first information obtaining unit, configured to obtain the first information of the calling number from the contact list when the first number identifying unit identifies that the calling number belongs to a contact number in the contact list. association information, and use the first association information as incoming call information of the incoming call, where the first association information includes the incoming call number and the contact information corresponding to the incoming call number;

The second reminding unit is specifically configured to use the bone conduction mode to convert the real-time voice signal acquired by the first information acquisition unit and used to broadcast the incoming call information of the incoming call into a vibration signal and perform the operation through the bone medium. transfer;

a second number identifying unit, configured to identify whether the calling number is a nuisance calling number when the first number identifying unit identifies that the calling number does not belong to the contact number in the contact list;

A second information acquisition unit, configured to acquire second associated information of the incoming call number when the second number identification unit identifies that the incoming call number is a harassing incoming call number, and use the second associated information as the Incoming call information of an incoming call, the second associated information includes the incoming call number and information indicating that the incoming call number is a nuisance call;

The second reminder unit is specifically configured to use the bone conduction mode to convert the real-time voice signal acquired by the second information acquisition unit and used to broadcast the incoming call information of the incoming call into a vibration signal and perform the operation through the bone medium. transfer;

A third information acquisition unit, configured to acquire third associated information of the incoming call number when the second number identification unit identifies that the incoming call number is not a harassing incoming call number, and use the third associated information as the Incoming call information of an incoming call, the third associated information includes the incoming call number;

The second reminding unit is specifically configured to use the bone conduction mode to convert the real-time voice signal acquired by the third information acquisition unit and used to broadcast the incoming call information of the incoming call into a vibration signal and perform the operation through the bone medium. transfer.

As an optional implementation manner, in the second aspect of the present invention, the wearable device further includes:

The connecting unit is configured to detect whether the incoming call is hung up after the second reminding unit has finished broadcasting the real-time voice signal, and connect the incoming call if the incoming call is not hung up.

As an optional implementation manner, in the second aspect of the present invention, the wearable device further includes:

The second action detection unit is configured to detect the wearer after the second reminder unit converts the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmits it through the bone medium. the second arm action of the wearable device arm;

a second action recognition unit, configured to identify whether the second arm action matches a preset hang-up action;

A hang-up unit, configured to hang up the incoming call when the second motion recognition unit recognizes that the second arm motion matches the preset hang-up motion.

Compared with the prior art, the embodiments of the present invention have the following beneficial effects:

In the embodiment of the present invention, when the wearable device receives an incoming call and uses the external playback mode to play the incoming call reminder of the incoming call, it is detected whether the wearable device receives a playback mode switching instruction, and the wearable device receives the playback mode switching instruction. When the playback mode of the wearable device is switched from the external playback mode to the bone conduction mode, the incoming call reminder of the incoming call played in the external playback mode will be stopped, and the incoming call used to broadcast the incoming call will be broadcast in the bone conduction mode. The real-time voice signal of the information is converted into vibration information and transmitted through the bone medium. It can be seen that when the embodiment of the present invention is implemented, when the wearable device receives an incoming call and plays an incoming call reminder through the external playback mode, and is in the bone conduction mode, the incoming call reminder of the incoming call played in the external playback mode is stopped. The use of bone conduction mode to broadcast the incoming call information of incoming calls can ensure that users know the incoming call information of incoming calls in time, so as to avoid missed calls. At the same time, because the bone conduction mode is transmitted through the bone medium, it will not cause sound leakage, which can reduce the eavesdropping of incoming call information. risk, so as to protect user privacy.

Description of drawings

In order to illustrate the technical solutions in the embodiments of the present invention more clearly, the following briefly introduces the drawings required in the embodiments. Obviously, the drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can also be obtained from these drawings without any creative effort.

1 is an application schematic diagram of a wearable device disclosed in the prior art;

2a is a schematic flowchart of a method for reminding an incoming call of a wearable device disclosed in an embodiment of the present invention;

2b is a schematic structural diagram of a wearable device disclosed in an embodiment of the present invention;

3 is another schematic flowchart of a method for reminding incoming calls of a wearable device disclosed in an embodiment of the present invention;

4 is another schematic structural diagram of a wearable device disclosed in an embodiment of the present invention;

FIG. 5 is another schematic structural diagram of a wearable device disclosed in an embodiment of the present invention;

6 is another schematic structural diagram of a wearable device disclosed in an embodiment of the present invention;

FIG. 7 is another schematic structural diagram of a wearable device disclosed in an embodiment of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

It should be noted that the terms "comprising" and "having" and any modifications thereof in the embodiments of the present invention are intended to cover non-exclusive inclusion, for example, a process, method, system, product or process including a series of steps or units. The apparatus is not necessarily limited to those steps or units expressly listed, but may include other steps or units not expressly listed or inherent to the process, method, product or apparatus.

The embodiment of the present invention discloses a method for reminding an incoming call of a wearable device, which is used for a user to know the incoming call information of an incoming call in time, so as to avoid missing an incoming call, and at the same time, it can reduce the risk of the incoming call information being eavesdropped, so as to protect the privacy of the user. . Embodiments of the present invention correspondingly disclose a wearable device.

The wearable devices involved in the embodiments of the present invention include smart wearable devices including smart watches, etc., which are not specifically limited herein. The technical solutions of the present invention will be described in detail below with reference to specific embodiments.

Example 1

Please refer to FIG. 2a. FIG. 2a is a schematic flowchart of a method for reminding incoming calls of a wearable device disclosed in an embodiment of the present invention; as shown in FIG. 2a, a method for reminding incoming calls of a wearable device may include:

201. When an incoming call reminder of an incoming call is played in an external play mode, the wearable device detects whether a play mode switching instruction is received;

Please refer to FIG. 2b. FIG. 2b is a schematic structural diagram of a wearable device disclosed in an embodiment of the present invention. As shown in Figure 2b, the wearable device provided by the present invention is provided with a bone conduction vibration module (bone conduction speaker, also called bone conduction speaker), an external speaker (external speaker), a microphone (Microphone), a motion sensor, One or more processors (Central Processing Unit, CPU for short), memory, battery, communication module, display screen, etc., are electrically connected with other modules through a bus. Based on the bone conduction vibration module, the wearable device can realize the bone conduction mode. So far, the sound playback mode of the wearable device will include the external mode (implemented through an external speaker) and the bone conduction mode (implemented through the bone conduction vibration module). Among them, the external mode vibrates the sound through the external speaker, and the sound wave of the sound enters the inner ear through the eardrum. Bone conduction mode is used to convert audio signals into vibration signals and transmit them through the bone medium, and finally convert the vibration signals into audio signals.

It can be understood that in the bone conduction mode, the wearer wears the wearable device on the arm (usually on the wrist), and the bone conduction vibration module is tightly attached to the wrist bone or wrist soft tissue skin. The audio signal output by the CPU is converted into a vibration signal by the bone conduction vibration module. The vibration signal is transmitted to the finger through the skin, bones and subcutaneous tissue. At the same time, the finger (usually the index finger) is pressed against the ear or inserted into the ear to form a closed sound cavity. , to accept the vibration signal transmitted from the finger, because the closed sound cavity has been formed, the eardrum only needs a very small amount of vibration, and the vibration signal of the finger can make the eardrum vibrate enough, so as to achieve a clear sound effect, and achieve The purpose of protecting user privacy and reducing the risk of being eavesdropped by surrounding people during sound playback is the working principle of bone conduction mode.

In some embodiments provided by the present invention, when the wearable device receives an incoming call and uses the external playback mode to play an incoming call reminder, it detects the first arm movement of the arm wearing the wearable device, and identifies whether the first arm action matches the preset The preset arm action; when the first arm action matches the preset arm action, the first arm action is used as the play mode switching instruction and it is determined that the wearable device receives the play mode switching instruction, and then step 202 is executed. Through this embodiment, when the incoming call reminder is played in the external playback mode, the wearable device detects the first arm movement, and when the first arm movement matches the preset arm movement, it is considered that the user has input the play mode switching instruction to the wearable device , using arm movements to complete the play mode switching, easy to operate, giving users a better experience.

The arm action is preset to switch the playback mode from the external playback mode to the bone conduction mode. The wearable device detects the arm action and saves it as the preset arm action, and executes the instruction corresponding to the preset arm action at the same time. To associate and save, the execution instruction is to switch the playback mode from the external playback mode to the bone conduction mode. It can be understood that the motion of the arm is detected by the motion sensor provided in the wearable device, and the motion sensor can be protrudingly provided at the bottom of the casing, so that the motion sensor can be closely attached to the arm to accurately detect the motion of the arm. Arm movements can include arm horizontally horizontal, arm vertical vertical, arm vertical vertical, arm horizontal horizontal to vertical vertical, arm horizontal horizontal to vertical vertical, arm vertical vertical to horizontal horizontal, arm vertical vertical upward to down vertical and so on. Considering the most convenient posture for the user in the bone conduction mode, it is preferable to set the arm upright as the preset arm motion.

In the above embodiment, after determining that the first arm motion matches the preset arm motion, the wearable device further detects the first finger motion (such as the index finger motion) of the preset finger on the arm wearing the wearable device, and identifies the first finger motion (for example, the index finger motion). Whether the finger motion matches the preset finger motion, when it matches the preset finger motion, the first finger motion is used as the play mode switching instruction and it is determined that the wearable device receives the play mode switching instruction.

Similarly, the combination of preset arm movements and finger movements is used to switch the playback mode from the external mode to the bone conduction mode. The wearable device detects the arm movements and finger movements and then saves them as the preset arm movements and presets. At the same time, the corresponding execution instruction after combining the preset arm motion with the preset finger motion is associated and saved, and the execution instruction is to switch the playback mode from the external playback mode to the bone conduction mode. The finger movements may include finger straightening, finger bending, etc. In the arm movements described above, the arm movement may be set vertically upward as the preset arm movement, and preferably when the finger is straightened as the default finger movement. The arm movements and finger movements are preset to correspond to the execution instructions, so as to operate the wearable device with one hand, which brings convenience for the user to control the wearable device, and improves the user's sense of use experience.

It can be understood that, in the above embodiment, if the wearable device needs to detect finger movements, a muscle sensor can be added, and the finger movements can be detected through the muscle sensor. Similarly, the muscle sensor can be arranged on the bottom of the casing, so that the muscle sensor can be closely attached. arm, so that finger movements can be accurately detected.

A physical button is also provided on the surface of the wearable device to switch the playback mode from the external playback mode to the bone conduction mode. After the wearable device receives an incoming call and uses the external playback mode to play the incoming call reminder, it monitors the physical button to obtain a playback mode switching instruction. It can also be understood that the physical button is also used to switch the playback mode from the bone conduction mode to the external playback mode. Usually, the playback mode of the wearable device is the external playback mode. When an incoming call is reminded, you can switch from the external mode to the bone conduction mode through the physical button. After that, if the physical button is pressed again, the playback mode will switch from the bone conduction mode to the external playback mode.

202. The wearable device switches the playback mode from the external playback mode to the bone conduction mode;

203. The wearable device stops playing the incoming call reminder of the incoming call using the external playback mode, and uses the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium.

In some embodiments provided by the present invention, after the wearable device switches the playback mode from the external playback mode to the bone conduction mode, and uses the bone conduction mode to convert the real-time voice signal used to announce the incoming call information of the incoming call into a vibration signal And before delivery through the bone medium, the wearable device also performs the following steps:

A1. Obtain the incoming call number of the incoming call, and identify whether the incoming call number belongs to the contact number in the contact list of the wearable device;

A2. If the incoming call number belongs to a contact number in the contact list, obtain the first associated information of the incoming call number from the contact list, and use the first associated information as the incoming call information of the incoming call, where the first associated information includes the incoming call number and For the contact information corresponding to the incoming call number, the step of converting the real-time voice signal used for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting it through the bone medium is performed;

A3. If the caller number does not belong to the contact number in the contact list, identify whether the caller number is a harassing caller number;

A4. If the caller number is a harassing caller number, obtain the second associated information of the caller number, and use the second associated information as the caller information of the incoming call, where the second associated information includes the caller number and the information indicating that the caller number is a harassing caller, execute The step of using the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium;

A5. If the caller number is not a harassing caller number, obtain the third related information of the caller number, and use the third related information as the caller information of the incoming call. The third related information includes the caller number, and the bone conduction mode is used to broadcast the incoming call. The step of converting the real-time voice signal of the incoming call information into a vibration signal and transmitting it through the bone medium.

Through the above embodiment, the incoming call is further intelligently identified. If it is a contact number in the contact list, it will broadcast the incoming call number and contact information (such as name, number location, relationship with the user, etc.) through the bone conduction mode. and other incoming call information, so that users can clearly understand the incoming call information and avoid missing calls, and at the same time broadcast the incoming call information through the bone conduction mode, which can reduce the risk of incoming call information being eavesdropped by the surrounding people, so as to protect the user's privacy. . If the caller number is not a contact number in the contact list, it can be further determined whether it is a harassing caller number. Help the user determine if they need to answer. If the caller number is not a contact number in the contact list, nor is it a harassing caller number, the caller information including the caller number (and the location of the number, etc.) can be broadcast through the bone conduction mode, so that the user has a preliminary understanding of the incoming call and Determine if you need to answer.

In the above step A1, the wearable device extracts the incoming call number from the incoming call, and then searches for the incoming call number from the local contact list first.

In the above-mentioned step A3, the wearable device invokes the anti-harassment software to identify the incoming call number, and the anti-harassment software checks whether there is the incoming call number in the local harassing caller number database. In some embodiments, after the wearable device calls the anti-harassment software, the anti-harassment software uploads the caller number to the cloud server, identifies the caller number through the cloud server and obtains the recognition result, and the recognition result is returned to the anti-harassment software, and the wearable device from the The recognition result is obtained from the anti-harassment software, and the caller number is determined according to the recognition result whether it is a harassing caller number. Wearable devices, improve the running rate of wearable devices.

In the embodiment of the present invention, when the wearable device receives an incoming call and uses the external playback mode to play the incoming call reminder of the incoming call, it is detected whether the wearable device receives a playback mode switching instruction, and the wearable device receives the playback mode switching instruction. When the playback mode of the wearable device is switched from the external playback mode to the bone conduction mode, the incoming call reminder of the incoming call played in the external playback mode will be stopped, and the incoming call used to broadcast the incoming call will be broadcast in the bone conduction mode. The real-time voice signal of the information is converted into vibration information and transmitted through the bone medium. It can be seen that, by implementing the embodiment of the present invention, after the wearable device receives an incoming call and is in the bone conduction mode, the incoming call reminder of the incoming call played in the external playback mode is stopped, and the incoming call of the incoming call is broadcast by using the bone conduction mode. information, which can ensure that users can obtain the incoming call information in time to avoid missed calls. At the same time, because the bone conduction mode is transmitted through the bone medium, it will not cause sound leakage, which can reduce the risk of incoming call information being eavesdropped, thus protecting users. Privacy Purposes.

Embodiment 2

Please refer to FIG. 3 . FIG. 3 is another schematic flowchart of a method for reminding incoming calls of a wearable device disclosed in an embodiment of the present invention; as shown in FIG. 3 , a method for reminding incoming calls of a wearable device may include:

301. The wearable device determines whether an incoming call is received;

Wherein, the wearable device can realize the call function. When it is determined that an incoming call is received, it is further determined whether the play mode function of the wearable device is in an enabled state, and if so, it will turn to and execute step 302; if the play mode function of the wearable device If it is not in the enabled state, then use the external playback mode to play the incoming call reminder for incoming calls.

302. If an incoming call is received, the wearable device uses the external playback mode to play an incoming call reminder of the incoming call;

The default setting uses loudspeaker mode to play incoming call alerts.

303. The wearable device detects whether a playback mode switching instruction is received;

Before detecting the play mode switching instruction, the wearable device further detects whether it is in a worn state, and if it is in a worn state, step 304 is further performed.

In some embodiments provided by the present invention, the wearable device collects human body feature information through a human body feature collection device disposed at the bottom of the housing, and when the value of the human body feature information is within a preset range, it is determined that the wearable device is in a worn state , when the value of the human body feature information is not within the preset range, it is determined that the wearable device is not in a worn state. The device for collecting human body characteristics may be a device for collecting temperature, a device for collecting heart rate, or a device for collecting blood pressure. For example, when the human body feature collection device is a temperature collection device, the temperature is collected through the temperature collection device, and when the collected temperature is within the preset temperature range, it is determined that the wearable device is in a worn state, and when the collected temperature When it is not within the preset temperature range, it is determined that the wearable device is not in a worn state.

In other embodiments provided by the present invention, the wearable device detects the distance value between the wearable device casing and the external obstacle through an infrared detection module disposed at the bottom of the casing, and when the distance value is less than the preset distance value , determine that the wearable device is in the worn state, and when the distance value is not less than the preset distance value, determine that the wearable device is in the worn state.

304. The wearable device switches the playback mode from the external playback mode to the bone conduction mode;

305. The wearable device stops using the external playback mode to play the incoming call reminder of the incoming call, and uses the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium;

306. During the real-time voice signal broadcast process, the wearable device detects whether the incoming call is hung up;

307. If the incoming call is not hung up, the wearable device connects the incoming call.

In some embodiments provided by the present invention, after a certain period of time after the real-time voice signal is broadcast, and the incoming call has not been hung up by the caller or the user within the certain period of time, the wearable device can automatically connect the incoming call call.

As an optional implementation manner, connecting the wearable device to an incoming call specifically includes: obtaining the incoming call number of the incoming call; when recognizing that the incoming call number belongs to a contact number in the contact list, playing the password to obtain the voice to obtain the call password , and monitor the password input voice for the password acquisition voice input, identify whether the password contained in the password input voice matches the preset password; if it matches, connect the incoming call; When the contact number is reached, the incoming call is connected. In this embodiment, the caller numbers are divided into two categories, namely the contact numbers stored in the contact list and the unstored caller numbers. If the caller number belongs to the contact number in the contact list, the wearable device will play the Password input voice to get the call password, only when the call password matches the preset password, the incoming call will be connected to prevent important/private contacts from being connected by third-party users other than the user, effectively protecting important/private contacts Incoming calls from private contacts, thus protecting user privacy.

Further, in order to protect the call password from being eavesdropped by outsiders, the wearable device plays the password input voice to obtain the call password, and at the same time displays the call password input field on the display screen to require the user to enter the call on the password input field of the display screen. Password, when the wearable device receives the call password entered by the user for the password, it identifies whether the call password matches the preset password. Risk of eavesdropping by outsiders.

In some embodiments provided by the present invention, after the wearable device uses the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmits it through the bone medium, the wearable device detects the wearable wearable The second arm action of the device arm identifies whether the second arm action matches the preset hang-up action, and if the second arm action matches the preset hang-up action, hang up the incoming call. With this embodiment, the incoming call is hung up according to the arm movement.

The pre-set hang-up action is used to hang up the incoming call. The wearable device detects the arm movement and saves it as the preset hang-up action, and at the same time associates and saves the execution instruction corresponding to the preset hang-up action. The execution of the instruction is to hang up the incoming call if the hang-up action is detected when there is an incoming call. It is possible to hang up the incoming call when the arm is down and vertical from the arm movements described above.

After determining that the motion of the second arm matches the preset hang-up motion, and before hanging up the incoming call, the wearable device further detects the motion of the second finger of the preset finger on the arm wearing the wearable device (for example, another finger of the index finger). action), identify whether the second finger action matches the preset finger hang-up action, and hang up the incoming call when it matches the preset finger hang-up action.

Similarly, the combination of arm motion and finger motion is preset to hang up incoming calls. The wearable device detects the arm motion and finger motion and saves them as the preset hang-up motion and the preset finger hang-up motion. After the preset hang-up action and the preset finger hang-up action are combined, the corresponding execution instruction is associated and saved, and the execution instruction is to hang up the incoming call. In the above-mentioned arm actions, it is preferable to set the arm vertically upward as the preset hang-up action, and at the same time, it is preferable that the finger is bent as the preset finger hang-up action. The pre-set hang-up action and the finger hang-up action correspond to hanging up an incoming call, so as to realize one-handed operation of the wearable device, bring convenience for the user to control the wearable device, and improve the user's use experience.

In some embodiments provided by the present invention, after the wearable device uses the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmits it through the bone medium, the wearable device detects that the wearer is wearing the The second arm action of the wearable device arm, to identify whether the second arm action matches the preset hang up action, if the second arm action matches the preset hang up action, hang up the incoming call; if the second arm action does not match The preset hang-up action detects whether the real-time voice signal has been broadcast. If the broadcast is completed and within a certain period of time after the broadcast, the incoming call will be connected.

It should be noted that the present invention can also be used in other event reminders other than call reminders, such as message reminders, memo reminders or alarm clock reminders, and so on. Taking the message reminder as an example, when the wearable device receives the message and plays the message reminder in the external playback mode, it detects whether the wearable device receives the playback mode switching instruction, and if it receives the playback mode switching instruction, the playback mode is switched from the external playback mode. To the bone conduction mode, stop using the external playback mode to play the message reminder, and use the bone conduction mode to convert the real-time voice signal used to broadcast the message-related information into a vibration signal and transmit it through the bone medium. It can be understood that the message-related information may be account information corresponding to the message, and the like.

Taking the reminder of the memo as an example, the wearable device detects the reminder time of the event in the memo in real time, and when the reminder time arrives, the reminder of the event is played in the external mode. When the reminder of the event is played through the external playback mode, detect whether the wearable device receives the playback mode switching instruction; if the wearable device receives the playback mode switching instruction, switch the playback mode of the wearable device from the external playback mode to bone conduction mode, and a reminder to stop playing the event using the external playback mode, and using the bone conduction mode to convert the real-time voice signal used to broadcast the event content into a vibration signal and transmit it through the bone medium. Through this implementation, the wearable device can directly convert the event content in the memo into a real-time voice signal, and then use the bone conduction mode to convert the real-time voice signal into a vibration signal and transmit it through the bone medium, so that the user can obtain the event content in time , to achieve timely reminders, while preventing the content of the event from being eavesdropped by the surrounding people.

Embodiment 3

Please refer to FIG. 4, which is another schematic structural diagram of a wearable device disclosed in an embodiment of the present invention; as shown in FIG. 4, a wearable device may include:

The instruction detection unit 410 is configured to detect whether a playback mode switching instruction is received when the first reminder unit 430 uses the external playback mode to play the incoming call reminder of the incoming call;

a mode switching unit 420, configured to switch the playback mode from the external playback mode to the bone conduction mode when the instruction detection unit 410 receives the playback mode switching instruction; and

a first reminding unit 430, configured to stop playing an incoming call alert for an incoming call using the external playback mode; and

The second reminding unit 440 is configured to use the bone conduction mode to convert the real-time voice signal used to announce the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium.

In this embodiment of the present invention, when the wearable device receives an incoming call and the first reminder unit 430 uses the external playback mode to play the incoming call reminder of the incoming call, the instruction detection unit 410 detects whether a playback mode switching instruction is received, and the instruction detection unit 410 receives the playback mode switching instruction, the mode switching unit 420 switches the playback mode from the external playback mode to the bone conduction mode, and the first reminder unit 430 stops the incoming call reminder of the incoming call played in the external playback mode, and the second reminder The unit 440 uses the bone conduction mode to convert the real-time voice signal used to announce the incoming call information of the incoming call into vibration information and transmit it through the bone medium. It can be seen that when the embodiment of the present invention is implemented, when the wearable device receives an incoming call and plays an incoming call reminder through the external playback mode, and is in the bone conduction mode, the incoming call reminder of the incoming call played in the external playback mode is stopped. Using the bone conduction mode to broadcast the incoming call information of the incoming call can ensure that the user can obtain the incoming call information of the incoming call in time, so as to avoid missed calls. At the same time, because the bone conduction mode is transmitted through the bone medium, the sound will not be leaked, which can reduce the eavesdropping of the incoming call information. risk, so as to protect the privacy of users.

Please refer to FIG. 4 , in the wearable device shown in FIG. 5 , the above-mentioned instruction detection unit 410 specifically includes:

The first motion detection unit 510 is configured to detect the motion of the first arm wearing the wearable device arm when the first reminder unit 430 uses the external playback mode to play an incoming call reminder of an incoming call;

The first action recognition unit 520 is used to identify whether the first arm action matches the preset arm action;

The instruction determining unit 530 is configured to use the first arm motion as a playback mode switching instruction and determine that the wearable device receives the playback mode switching instruction when the first motion recognition unit 520 recognizes that the first arm motion matches a preset arm motion.

After the instruction determination unit 530 determines that the first arm motion matches the preset arm motion, the instruction determination unit 530 further detects the first finger motion (such as the index finger motion) of the preset finger on the arm wearing the wearable device, and identifies the first finger Whether the motion matches the preset finger motion, when matching the preset finger motion, the instruction determining unit 530 takes the first finger motion as the play mode switching instruction and determines that the wearable device receives the play mode switching instruction.

Similarly, the combination of arm motion and finger motion is preset to switch the playback mode from the external playback mode to the bone conduction mode, and the arm motion and finger motion are detected and saved as the preset arm motion and preset finger motion. At the same time, the corresponding execution instruction after combining the preset arm motion and the preset finger motion is associated and saved, and the execution instruction is to switch the playback mode from the external playback mode to the bone conduction mode. The finger movements may include finger straightening, finger bending, etc. In the arm movements described above, the arm movement may be set vertically upward as the preset arm movement, and preferably when the finger is straightened as the default finger movement. The arm movements and finger movements are preset to correspond to the execution instructions, so as to operate the wearable device with one hand, which brings convenience for the user to control the wearable device, and improves the user's sense of use experience.

A physical button is also provided on the surface of the wearable device to switch the playback mode from the external playback mode to the bone conduction mode. After the wearable device receives an incoming call and uses the external playback mode to play an incoming call reminder, the instruction detection unit 410 monitors the physical button to obtain a playback mode switching instruction. It can also be understood that the physical button is also used to switch the playback mode from the bone conduction mode to the external playback mode. Usually, the playback mode of the wearable device is the external playback mode. When an incoming call is reminded, you can switch from the external mode to the bone conduction mode through the physical button. After that, if the physical button is pressed again, the playback mode will switch from the bone conduction mode to the external playback mode.

Embodiment 4

Please refer to FIG. 6, which is another schematic structural diagram of the wearable device disclosed in the embodiment of the present invention; the wearable device shown in FIG. 6 is obtained by optimizing the wearable device shown in FIG. 4, as shown in FIG. As shown in Figure 6, the wearable device further includes:

The number acquisition unit 610 is used for, after the mode switching unit 420 switches the playback mode from the external playback mode to the bone conduction mode, and after the second reminder unit 440 uses the bone conduction mode to broadcast the real-time voice signal of the incoming call information of the incoming call Obtain the caller number of the incoming call before converting it into a vibration signal and transmitting it through the bone medium;

The first number identification unit 620 is used to identify whether the incoming call number belongs to the contact number in the contact list;

The first information obtaining unit 630 is configured to obtain the first associated information of the calling number from the contact list when the first number identifying unit 620 identifies that the calling number belongs to the contact number in the contact list, and associate the first The information is the incoming call information of the incoming call, and the first associated information includes the incoming call number and the contact information corresponding to the incoming call number;

The second reminding unit 440 is specifically configured to use the bone conduction mode to convert the real-time voice signal obtained by the first information obtaining unit 630 for broadcasting the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium;

The second number identification unit 640 is configured to identify whether the incoming call number is a harassing incoming call number when the first number identification unit 620 recognizes that the incoming call number does not belong to the contact number in the contact list;

The second information acquisition unit 650 is configured to acquire the second associated information of the incoming call number when the second number identification unit 640 recognizes that the incoming call number is a harassing incoming call number, and use the second associated information as the incoming call information of the incoming call, the second The associated information includes the caller number and information indicating that the caller number is a harassing call;

The second reminding unit 440 is specifically configured to use the bone conduction mode to convert the real-time voice signal obtained by the second information obtaining unit 650 for broadcasting the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium;

The third information acquisition unit 660 is configured to acquire third associated information of the incoming call number when the second number identification unit 640 recognizes that the incoming call number is not a harassing incoming call number, and use the third associated information as the incoming call information of the incoming call, and the third The associated information includes the caller number;

The second reminding unit 440 is specifically configured to use the bone conduction mode to convert the real-time voice signal obtained by the third information obtaining unit 660 for broadcasting the incoming call information into a vibration signal and transmit it through the bone medium.

Through the above embodiment, the incoming call is further intelligently identified. When the first number identification unit 620 identifies that the incoming call number is a contact number in the contact list, the first information acquisition unit 630 acquires information including the incoming call number and contact information (such as name , number location, relationship with the user, etc.), the second reminder unit 440 will broadcast the incoming call information through the bone conduction mode, so that the user can clearly understand the incoming call information of the incoming call and avoid missing calls. At the same time, through the bone conduction mode Broadcasting the incoming call information of the incoming call can reduce the risk of the incoming call information being eavesdropped by the surrounding people, so as to protect the privacy of the user. If the first number identification unit 620 identifies that the incoming call number is not a contact number in the contact list, the second number identification unit 640 may further determine whether it is a harassing caller number. The second information obtaining unit 650 obtains caller information including caller number and harassing caller number prompt information, and the second reminding unit 440 broadcasts caller information through bone conduction mode to help the user determine whether to answer. If the first number identifying unit 620 identifies that the incoming call number is not a contact number in the contact list, and the second number identifying unit 640 also identifies that it is not a harassing caller number, the third information obtaining unit 660 obtains the caller number (which may also include number location, etc.), the second reminder unit 440 can broadcast the incoming call information through the bone conduction mode, so that the user has a preliminary understanding of the incoming call to determine whether to answer.

In the above embodiment, the number acquisition unit 610 extracts the incoming call number from the incoming call, and then the first number identification unit 620 first searches for the incoming call number from the local contact list.

Specifically, the second number identification unit 640 invokes the anti-harassment software to identify the incoming call number, and the anti-harassment software checks whether there is the incoming call number in the local harassment caller number database. In some embodiments, after the second number identification unit 640 invokes the anti-harassment software, the anti-harassment software uploads the caller number to the cloud server, identifies the caller number through the cloud server and obtains the recognition result, and returns the recognition result to the anti-harassment software, and the first The second-number identification unit 640 obtains the identification result from the anti-harassment software, and determines whether the caller number is a caller number according to the recognition result. Small, small-sized wearable devices improve the running rate of wearable devices.

Embodiment 5

Please refer to FIG. 7, FIG. 7 is another schematic structural diagram of the wearable device disclosed in the embodiment of the present invention; the wearable device shown in FIG. 7 is obtained by optimizing the wearable device shown in FIG. 4, as shown in FIG. As shown in Figure 7, the wearable device further includes:

The connecting unit 710 is configured to detect whether the incoming call is hung up after the second reminding unit 440 finishes broadcasting the real-time voice signal, and connect the incoming call if the incoming call is not hung up.

As an optional implementation manner, the connecting unit 710 is specifically configured to obtain the incoming call number of the incoming call; when it is recognized that the incoming call number belongs to the contact number in the contact list, play the password to obtain the voice to obtain the call password, and monitor Obtain the password input voice entered by the voice input for the password, identify whether the password contained in the password input voice matches the preset password; if it matches, connect the incoming call; when it is recognized that the incoming call number does not belong to the contact number in the contact list , connect the incoming call. In this embodiment, the caller numbers are divided into two categories, namely the contact numbers stored in the contact list and the unstored caller numbers. If the caller number belongs to the contact number in the contact list, the wearable device will play the Password input voice to get the call password, only when the call password matches the preset password, the incoming call will be connected to prevent important/private contacts from being connected by third-party users other than the user, effectively protecting important/private contacts Incoming calls from private contacts, thus protecting user privacy.

In the wearable device shown in Figure 7, the wearable device further includes:

The second motion detection unit 720 is configured to detect the wearing of the wearable device arm after the second reminder unit 440 uses the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium. the second arm movement;

The second action recognition unit 730 is configured to recognize whether the second arm action matches the preset hang-up action;

The hang-up unit 740 is configured to hang up the incoming call when the second motion recognition unit 730 recognizes that the motion of the second arm matches a preset hang-up motion.

After the second motion recognition unit 730 determines that the motion of the second arm matches the preset hang-up motion, and before the hang-up unit 740 hangs up the incoming call, the second motion detection unit 720 further detects the pre-set motion of the arm wearing the wearable device. Suppose the second finger motion of the finger (such as another motion of the index finger), the second motion recognition unit 730 recognizes whether the second finger motion matches the preset finger hang-up motion, and when the second motion recognition unit 730 recognizes that the finger motion matches When the preset finger hang-up action is performed, the hang-up unit 740 hangs up the incoming call.

The present invention can also be used in other event reminders except call reminders, such as message reminders, memo reminders or alarm clock reminders, and so on. In some embodiments provided by the present invention, when a message is received and a message reminder is played through the external playback mode, the instruction detection unit 410 detects whether the wearable device receives a playback mode switching instruction, and if a playback mode switching instruction is received, the mode switches The unit 420 switches the playback mode from the external playback mode to the bone conduction mode, the first reminder unit 430 stops playing the message reminder using the external playback mode, and the second reminder unit 440 uses the bone conduction mode to broadcast the real-time voice signal of the message-related information. Converted to vibrational signals and transmitted through bone media. It can be understood that the message-related information may be account information corresponding to the message, and the like.

In some embodiments provided by the present invention, the instruction detection unit 410 detects the reminder time of the event in the memo in real time, and when the reminder time arrives, the first reminder unit 430 plays the reminder of the event in an external playback mode. When the first reminder unit 430 plays the reminder of the event through the external playback mode, the instruction detection unit 410 detects whether a playback mode switching instruction is received; if the wearable device receives the playback mode switching instruction, the mode switching unit 420 The playback mode is switched from the external playback mode to the bone conduction mode, and the first reminder unit 430 stops playing the reminder of the event using the external playback mode, and the second reminder unit 440 uses the bone conduction mode to convert the real-time voice signal used to broadcast the event content It is a vibration signal and is transmitted through the bone medium. Through this implementation, the wearable device can directly convert the event content in the memo into a real-time voice signal, and then use the bone conduction mode to convert the real-time voice signal into a vibration signal and transmit it through the bone medium, so that the user can obtain the event content in time , to achieve timely reminders, while preventing the content of the event from being eavesdropped by the surrounding people.

Embodiment 8

Please refer to Figure 2b. The wearable device shown in Figure 2b includes a bone conduction vibration module (bone conduction speaker, also called bone conduction speaker), an external speaker (external speaker), a microphone (Microphone), a Sensors, one or more processors (CPUs), memory, batteries, communication modules and display screens, etc., are electrically connected with other modules through a bus.

The memory is used to store program instructions, and the processor executes various functional applications and data processing by executing the program instructions stored in the memory. The memory may mainly include a stored program area and a stored data area, wherein the stored program area may store an operating system, an application program (such as a sound playback function) required for at least one function, and the like; the stored data area may store data created according to the use of the terminal. Data (such as audio data, phone book, etc.) and so on. Additionally, the memory may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device. Accordingly, the memory may also include a memory controller to provide processor access to the memory.

Wherein, the processor executes the following steps by running the program instructions of the memory: when the wearable device uses the external playback mode to play the incoming call reminder of the incoming call, it is detected whether the wearable device receives the playback mode switching instruction; if the wearable device receives the playback mode The mode switching command switches the playback mode of the wearable device from the external playback mode to the bone conduction mode; and stops using the external playback mode to play the incoming call reminder of the incoming call, and uses the bone conduction mode to broadcast the real-time call information of the incoming call. The speech signal is converted into a vibration signal and transmitted through the bone medium.

As an optional implementation manner, the above-mentioned processor further performs the following steps: when the wearable device uses the external playback mode to play an incoming call reminder of the incoming call, triggering the motion sensor to detect the first arm motion of the arm wearing the wearable device; Whether an arm action matches a preset arm action; when the first arm action matches a preset arm action, the first arm action is used as the play mode switching instruction and it is determined that the wearable device receives the play mode switching instruction.

As an optional implementation manner, the above-mentioned processor further executes the following steps: after switching the playback mode of the wearable device from the external playback mode to the bone conduction mode, and after using the bone conduction mode to broadcast the incoming call for an incoming call Before the real-time voice signal of the information is converted into a vibration signal and transmitted through the bone medium, after the playback mode of the wearable device is switched from the external playback mode to the bone conduction mode, the caller number of the incoming call is obtained; identify whether the caller number belongs to the wearable device The contact number in the device contact list; if the incoming call number belongs to the contact number in the contact list, obtain the first associated information of the incoming call number from the contact list, and use the first associated information as the incoming call information of the incoming call, The first associated information includes the caller number and the contact information corresponding to the caller number, and the bone conduction mode is used to convert the real-time voice signal used to broadcast the caller information of the incoming call into a vibration signal and transmit it through the bone medium; if the caller number The contact number that does not belong to the contact list, identify whether the caller number is a spam caller number; if the caller number is a spam caller number, obtain the second associated information of the caller number, and use the second associated information as the caller information of the incoming call, The second associated information includes the caller number and information indicating that the caller number is a harassing call, and the bone conduction mode is used to convert the real-time voice signal used to broadcast the caller information of the incoming call into a vibration signal and transmit it through the bone medium; The number is not a harassing caller number, obtain the third related information of the caller number, and use the third related information as the caller information of the incoming call, the third related information includes the caller number, and execute the use of bone conduction mode to broadcast the incoming call information of the incoming call. The real-time speech signal is converted into vibration signal and transmitted through the bone medium.

As an optional implementation manner, the above-mentioned processor further performs the following steps: when the real-time voice signal is broadcast, detecting whether the incoming call is hung up; if the incoming call is not hung up, connecting the incoming call call.

As an optional implementation manner, the above-mentioned processor further performs the following steps: after using the bone conduction mode to convert the real-time voice signal used to broadcast the incoming call information of the incoming call into a vibration signal and transmit it through the bone medium, trigger the motion sensor to detect Wear the second arm action of the wearable device arm; identify whether the second arm action matches the preset hang up action; if the second arm action matches the preset hang up action, hang up the incoming call.

Those of ordinary skill in the art can understand that all or part of the steps in the various methods of the above embodiments can be completed by instructing relevant hardware through a program, and the program can be stored in a computer-readable storage medium, and the storage medium includes a read-only storage medium. Memory (Read-Only Memory, ROM), Random Access Memory (Random Access Memory, RAM), Programmable Read-only Memory (PROM), Erasable Programmable Read Only Memory (Erasable Programmable Read Only Memory, EPROM), One-time Programmable Read-Only Memory (OTPROM), Electronically-Erasable Programmable Read-Only Memory (EEPROM), CompactDisc Read -Only Memory, CD-ROM) or other optical disk storage, magnetic disk storage, magnetic tape storage, or any other computer-readable medium that can be used to carry or store data.

A method for reminding incoming calls of a wearable device and the wearable device disclosed in the embodiments of the present invention are described above in detail. The principles and implementations of the present invention are described with specific examples in this paper. The descriptions of the above embodiments are only for In order to help understand the method of the present invention and its core idea; at the same time, for those skilled in the art, according to the idea of the present invention, there will be changes in the specific implementation and application scope. In summary, this specification The contents should not be construed as limiting the present invention.

Claims (6)

1. An incoming call reminding method of a wearable device is characterized by comprising the following steps:

when the wearable device plays the incoming call prompt of the incoming call in the play-out mode, detecting a first arm action, and when the first arm action is matched with a preset arm action, inputting a play mode switching instruction to the wearable device;

if the wearable device receives the play mode switching instruction, switching the play mode of the wearable device from the play-out mode to a bone conduction mode; and

stopping playing the incoming call reminder of the incoming call by using the external playing mode, converting a real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode, and transmitting the vibration signal through a bone medium;

after the first arm action is determined to be matched with the preset arm action, the wearable device detects a first finger action of a preset finger wearing the arm of the wearable device, identifies whether the first finger action is matched with the preset finger action, and when the first finger action is matched with the preset finger action, the first finger action is used as a play mode switching instruction and determines that the wearable device receives the play mode switching instruction;

after switching the play mode of the wearable device from the play-out mode to the bone conduction mode, and before converting the real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal and transferring the vibration signal through bone media by using the bone conduction mode, the method further comprises:

after the playing mode of the wearable device is switched from the playing mode to the bone conduction mode, acquiring an incoming call number of the incoming call;

identifying whether the incoming call number belongs to a contact number in the wearable device contact list;

if the incoming call number belongs to the contact number in the contact list, acquiring first associated information of the incoming call number from the contact list, and taking the first associated information as incoming call information of the incoming call, wherein the first associated information comprises the incoming call number and the contact information corresponding to the incoming call number, and executing a step of converting a real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting the vibration signal through a bone medium;

if the incoming call number does not belong to the contact number in the contact list, identifying whether the incoming call number is a harassing incoming call number;

if the incoming call number is a harassing incoming call number, acquiring second associated information of the incoming call number, and taking the second associated information as incoming call information of the incoming call, wherein the second associated information comprises the incoming call number and information indicating that the incoming call number is a harassing incoming call, and executing the step of converting a real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting the vibration signal through a bone medium;

and if the incoming call number is not a harassing incoming call number, acquiring third associated information of the incoming call number, and taking the third associated information as incoming call information of the incoming call, wherein the third associated information comprises the incoming call number, and executing the step of converting a real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting the vibration signal through a bone medium.

2. The method of claim 1, wherein when the real-time voice signal is broadcasted, the method further comprises:

detecting whether the incoming call is hung up or not in the real-time voice signal broadcasting process;

and if the incoming call is not hung up, the incoming call is connected.

3. The method of claim 1, wherein after converting the real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal and transmitting the vibration signal through a bone medium by using the bone conduction mode, the method further comprises:

detecting a second arm motion wearing the wearable device arm;

identifying whether the second arm action is matched with a preset hang-up action;

and hanging up the incoming call if the second arm action is matched with the preset hanging-up action.

4. A wearable device, comprising:

the instruction detection unit is used for detecting whether a playing mode switching instruction is received or not when the first reminding unit plays the incoming call reminding of the incoming call in the play-out mode; the instruction detection unit specifically includes:

the first action detection unit is used for detecting a first arm action of wearing the arm of the wearable device when the wearable device plays the incoming call prompt of the incoming call in the play-out mode;

the first action recognition unit is used for recognizing whether the first arm action is matched with a preset arm action;

the command determining unit is used for taking the first arm motion as a play mode switching command and determining that the wearable device receives the play mode switching command when the first motion recognizing unit recognizes that the first arm motion matches the preset arm motion;

the mode switching unit is used for switching the playing mode from the playing mode to the bone conduction mode when the instruction detection unit receives the playing mode switching instruction; and

the first reminding unit is used for stopping playing the incoming call reminder of the incoming call by utilizing the play-out mode; and

the second reminding unit is used for converting a real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting the vibration signal through a bone medium;

after the instruction determining unit determines that the first arm action is matched with the preset arm action, the instruction determining unit further detects a first finger action of a preset finger wearing the arm of the wearable device, identifies whether the first finger action is matched with the preset finger action, and when the preset finger action is matched, the instruction determining unit takes the first finger action as a play mode switching instruction and determines that the wearable device receives the play mode switching instruction;

the wearable device further comprises:

a number obtaining unit, configured to obtain an incoming call number of the incoming call after the mode switching unit switches the play mode from the play-out mode to the bone conduction mode, and before the second prompting unit converts a real-time voice signal for broadcasting incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmits the vibration signal through a bone medium;

the first number identification unit is used for identifying whether the incoming call number belongs to a contact number in a contact list or not;

a first information obtaining unit, configured to obtain first associated information of the incoming call number from the contact list when the first number identifying unit identifies that the incoming call number belongs to a contact number in the contact list, and use the first associated information as incoming call information of the incoming call, where the first associated information includes the incoming call number and contact information corresponding to the incoming call number;

the second reminding unit is specifically used for converting the real-time voice signal which is acquired by the first information acquisition unit and used for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmitting the vibration signal through a bone medium;

the second number identification unit is used for identifying whether the incoming call number is a harassing call number or not when the first number identification unit identifies that the incoming call number does not belong to the contact number in the contact list;

a second information obtaining unit, configured to obtain second associated information of the incoming call number when the second number identification unit identifies that the incoming call number is a harassing incoming call number, and use the second associated information as incoming call information of the incoming call, where the second associated information includes the incoming call number and information indicating that the incoming call number is a harassing incoming call;

the second reminding unit is specifically configured to convert the real-time voice signal, which is acquired by the second information acquisition unit and used for broadcasting the incoming call information of the incoming call, into a vibration signal by using the bone conduction mode, and transmit the vibration signal through a bone medium;

a third information obtaining unit, configured to obtain third association information of the incoming call number when the second number identification unit identifies that the incoming call number is not a harassing incoming call number, and use the third association information as incoming call information of the incoming call, where the third association information includes the incoming call number;

the second reminding unit is specifically configured to convert the real-time voice signal, which is acquired by the third information acquisition unit and used for broadcasting the incoming call information of the incoming call, into a vibration signal by using the bone conduction mode, and transmit the vibration signal through a bone medium.

5. The wearable device of claim 4, further comprising:

and the connection unit is used for detecting whether the incoming call is hung up or not after the second reminding unit finishes broadcasting the real-time voice signal, and connecting the incoming call if the incoming call is not hung up.

6. The wearable device of claim 4, further comprising:

the second action detection unit is used for detecting a second arm action of wearing the arm of the wearable device after the second reminding unit converts a real-time voice signal for broadcasting the incoming call information of the incoming call into a vibration signal by using the bone conduction mode and transmits the vibration signal through a bone medium;

the second action recognition unit is used for recognizing whether the second arm action is matched with a preset hang-up action or not;

and the hanging-up unit is used for hanging up the incoming call when the second arm action is identified by the second action identification unit to be matched with the preset hanging-up action.

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