CN106709301A - Intelligent watch and locking control method and device for intelligent wearable equipment - Google Patents

Abstract

The invention discloses an intelligent watch and a locking control method and device for intelligent wearable equipment. The intelligent watch comprises an intelligent watch body, an intelligent watch strap, and a sensor for detecting whether the intelligent watch is in contact with the human body or not according to the surface physiological features of the human body. The sensor is arranged on the surface, in contact with the wrist, of at least one of the intelligent watch body and the intelligent watch strap. Because the intelligent watch is provided with the sensor for detecting whether the intelligent watch is in contact with the human body or not according to the surface physiological features of the human body, the intelligent watch wearing state of a user can be detected accurately and conveniently, and thus the safety problem existing when the intelligent watch in a non-worn state can be easily solved.

Description

Smart watch, and locking control method and device of smart wearable device

Technical Field

The application relates to an intelligence wearing technique, concretely relates to intelligence wrist-watch. The application also relates to a locking control method and device of the intelligent wearable device.

Background

The coming era of intelligent wearable equipment means the intelligent extension of people, and through the equipment, people can better perceive the information of outside and self, can be with computer, network assistance under more efficient processing information, can realize more seamless interchange. The intelligent wearing equipment is a general term for applying a wearing technology to intelligently design daily wearing and further developing wearable equipment, such as intelligent glasses, intelligent gloves, intelligent watches, intelligent clothes and the like.

The smart watch has the advantages of being convenient to carry, easy to use, rich in functions and the like, and is rapidly developed in recent years, and the smart watch is increasingly popularized. The smart watch not only has the traditional function of checking time, but also can operate the phone, short messages, mails, photos, music and the like in the smart phone connected with the smart watch, can also be inserted into an SIM card to realize the functions of dialing and answering the phone, and can even execute sensitive operations such as network payment and the like.

Because the smart watch has the portability, under general conditions, only a user wearing the smart watch can access information in the smart watch or use various functions provided by the smart watch, namely, when the smart watch is in a wearable state, the safety of information stored in the smart watch and the legal use of the smart watch can be basically guaranteed. However, when the smart watch leaves the wrist of the user, for example, the smart watch is taken off for charging, or is lost carelessly, the smart watch may be acquired by other users and used maliciously, thereby causing some security problems, for example, the leakage of privacy information of the legitimate owner of the smart watch may be caused, and economic loss may be caused to the legitimate owner by performing malicious operations related to the payment account.

Disclosure of Invention

The embodiment of the application provides an intelligent watch, whether can accurately, conveniently detect out intelligent watch and human contact to help solving the security problem that exists when intelligent watch is in the state of not wearing. The embodiment of the application further provides a locking control method and device of the intelligent wearable device.

The application provides a smart watch, include: intelligence wrist-watch main part and intelligent wrist-watch watchband still include: the sensor is used for detecting whether the intelligent watch is in contact with the human body according to the physiological characteristics of the body surface of the human body, and the sensor is arranged on the surface, in contact with the wrist, of at least one of the intelligent watch main body and the intelligent watch watchband.

Optionally, the human body surface physiological characteristics include: conductive features of the human body; the sensor adopts at least one of a capacitance type touch sensor and an electrode type touch sensor.

Optionally, the human body surface physiological characteristics include: a body temperature characteristic of a human body; the sensor includes: a temperature sensor.

Optionally, the human body surface physiological characteristics include: heart rate characteristics of the human body; the sensor includes: a heart rate sensor.

Optionally, the sensor is disposed on a surface of the case where the smart watch body contacts the wrist.

Optionally, the sensor is at least one of a capacitive touch sensor and an electrode touch sensor, and the shell of the smart watch body contacting the wrist is made of any one of ceramic or glass.

In addition, this application still provides a locking control method of intelligence wearing equipment, includes:

receiving detection information output by a sensor;

judging whether the state of the intelligent wearable device worn by the user changes or not according to the detection information;

if yes, locking a display screen or locking a setting function of the intelligent wearable device when the state is changed from wearing to taking off;

the sensor is used for detecting whether the intelligent wearable device is in contact with a human body or not by utilizing the physiological characteristics of the body surface of the human body.

Optionally, the human body surface physiological characteristics include: a conductive feature;

the sensor includes: a capacitive touch sensor or an electrode touch sensor;

the detection information output by the sensor includes: and instructions for indicating whether the human body is in contact with the intelligent wearable device.

Optionally, the human body surface physiological characteristics include: a body temperature characteristic; the sensor includes: a temperature sensor.

Optionally, the human body surface physiological characteristics include: heart rate characteristics; the sensor includes: a heart rate sensor.

Optionally, the locking of the display screen is implemented in the following manner:

displaying a screen locking interface with a screen locking mark; or,

and displaying an unlocking interface for prompting the user to input unlocking information.

Optionally, after the step of locking the display screen is performed, the following operations are performed:

and forbidding the function of pop-up display of the received push message.

Optionally, when an unlocking request of the user is received, or when the result that whether the state of the intelligent wearable device worn by the user changes is yes according to the detection information and the state changes from off to on, the following operations are performed:

displaying an unlocking interface, wherein the unlocking interface comprises: an unlocking interface for the locked display screen or an unlocking interface for the set function locked in the intelligent wearable device.

Optionally, after the step of displaying the unlocking interface is executed, the following operations are executed:

receiving unlocking information input by a user;

and when the unlocking information is consistent with the pre-stored unlocking information, unlocking the lock.

Optionally, the unlocking interface includes: a password unlock interface, a gesture unlock interface, or an unlock interface based on human personalized biometric features.

Optionally, the personalized biological characteristics of the human body include: fingerprint, iris, voice print, voice, or human face.

Optionally, the smart wearable device includes: smart watches, smart bracelets, or smart glasses.

Correspondingly, this application still provides a locking controlling means of intelligence wearing equipment, includes:

the sensor information receiving unit is used for receiving detection information output by a sensor, and the sensor is used for detecting whether the intelligent wearable device is in contact with a human body by utilizing the physiological characteristics of the body surface of the human body;

the state change judging unit is used for judging whether the state of the intelligent wearable device worn by the user changes or not according to the detection information received by the sensor information receiving unit;

and the locking unit is used for locking the display screen or locking the set function of the intelligent wearable device when the output of the state change judging unit is yes and the state is changed from wearing to taking off.

Optionally, the sensor information receiving unit is specifically configured to receive detection information output by a sensor that detects whether the intelligent wearable device is in contact with a human body by using a conductive feature of the human body, where the detection information includes: and instructions for indicating whether the human body is in contact with the intelligent wearable device.

Optionally, the locking unit specifically adopts the following method to realize the function of locking the display screen: displaying a screen locking interface with a screen locking mark; or displaying an unlocking interface for prompting the user to input unlocking information.

Optionally, the apparatus includes:

and the message popup disabling unit is used for disabling the function of popup display of the received push message after the display screen is locked by the locking unit.

Optionally, the apparatus further comprises:

an unlocking request receiving unit, configured to receive an unlocking request of a user;

and the unlocking interface display unit is used for displaying an unlocking interface when the unlocking request receiving unit receives an unlocking request of a user or when the output of the state change judging unit is yes and the state is changed from off to wearing.

Optionally, the apparatus further comprises:

the unlocking information receiving unit is used for receiving unlocking information input by a user after the unlocking interface display unit displays an unlocking interface;

and the locking releasing unit is used for releasing the locking when the unlocking information is consistent with the prestored unlocking information.

Compared with the prior art, the method has the following advantages:

the application provides an intelligent wrist-watch not only includes intelligent wrist-watch main part and intelligent wrist-watch watchband, still including being used for detecting the intelligent wrist-watch with the sensor of human contact according to human body surface physiological characteristic, the sensor setting in intelligent wrist-watch main part and intelligent wrist-watch watchband at least one, with wrist contact on the surface. Because the intelligent watch is provided with the sensor for detecting whether the intelligent watch is in contact with the human body according to the physiological characteristics of the body surface of the human body, the state that the user wears the intelligent watch can be accurately and conveniently detected, and therefore the safety problem existing when the intelligent watch is not worn is favorably solved.

The application provides a locking control method of intelligent wearing equipment, through receiving the detection information of sensor output, judge whether the state that the user wore intelligent wearing equipment changes, and when the state becomes to take off by wearing, lock display screen or locking intelligent wearing equipment's settlement function. Because the method adopts the sensor for detecting whether the intelligent wearable device is in contact with the human body or not based on the physiological characteristics of the body surface of the human body, the biological level recognition function is realized, and whether the intelligent wearable device leaves the human body or not can be accurately judged, namely: the intelligent wearable device is in the off state, and the display screen is locked or the setting function of the intelligent wearable device is locked when the state change is detected, so that even if a malicious user obtains the intelligent wearable device in the off state, the intelligent wearable device cannot be normally used, the safety problem of the intelligent wearable device after leaving the human body is effectively solved, and unnecessary loss of the user is avoided.

Drawings

Fig. 1 is a schematic diagram of a back side of an embodiment of a smart watch provided herein;

fig. 2 is a flowchart of an embodiment of a locking control method of an intelligent wearable device provided in the present application;

fig. 3 is a schematic diagram illustrating a lock display screen when a smart watch is changed from a wearing state to a removing state according to an embodiment of the present application;

fig. 4 is a schematic diagram illustrating an unlocking interface displayed when the smart watch is changed from a detached state to a worn state according to the embodiment of the application;

fig. 5 is a schematic diagram of an embodiment of a locking control device of an intelligent wearable device provided in the present application.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of implementation in many different ways than those herein set forth and of similar import by those skilled in the art without departing from the spirit and scope of this application, and it is therefore not limited to the specific implementations disclosed below.

In the present application, a smart watch, a locking control method of a smart wearable device, and a locking control apparatus of a smart wearable device are provided, respectively, and detailed description is made one by one in the following embodiments.

The intelligent wrist-watch that this embodiment provided not only includes intelligent wrist-watch main part and intelligent wrist-watch watchband, still including being used for detecting the intelligent wrist-watch according to human body surface physiological characteristic whether with the sensor of human contact, the sensor sets up intelligent wrist-watch main part with in the intelligent wrist-watch watchband at least one, with wrist contact on the surface.

The sensor can be connected with a processor inside the intelligent watch through a signal line, so that the processor can know whether the intelligent watch is in contact with a human body according to detection information output by the sensor, and corresponding processing is carried out as required.

The human body surface physiological characteristics generally refer to human body physiological characteristics which can be obtained by detecting the human body surface, and include but are not limited to: a conductive characteristic of a human body, a body temperature characteristic, or a heart rate characteristic. Corresponding sensors can be arranged in the intelligent watch according to different human body surface physiological characteristics, so that whether the intelligent watch is in contact with a human body or not can be accurately and conveniently detected.

Since the human skin and tissues are filled with conductive electrolyte, the human body has the characteristics of a conductor, i.e., is capable of conducting electricity. By utilizing the physiological characteristics of the human body surface, a capacitive touch sensor can be arranged on the contact surface between the intelligent watch and the wrist, when a user wears the intelligent watch, a current loop in the capacitive touch sensor is changed from an off state to an on state due to the contact with the skin, and at the moment, an instruction indicating that the human body is in contact with the intelligent watch can be sent to a processor in the intelligent watch; when the user takes off the smart watch, the current loop of the capacitive touch sensor is changed from the on state to the off state because the user is not in contact with the skin any more, and at the moment, an instruction indicating that the human body is separated from the smart watch can be sent to a processor in the smart watch.

Given above is a preferred embodiment, in the implementation, an electrode type touch sensor may also be used, and the working principle is similar: when the positive and negative electrodes of the electrode type touch sensor are contacted with the skin of a human body, the current loop is switched from off to on, and when the positive and negative electrodes of the electrode type touch sensor are separated from the skin of the human body, the current loop is switched from on to off; when the current loop is switched on and switched off, corresponding instructions can be sent to a processor in the intelligent watch respectively.

Compared with the two modes, the capacitive touch sensor is equivalent to a plurality of electrode detection points distributed on a detection plane, so that the capacitive touch sensor is more sensitive, any one of the touch sensors can be selected according to requirements during specific implementation, and other sensors which detect whether the intelligent watch is in contact with a human body or not by using the physiological characteristic that the human body is a conductor can also be adopted.

In addition, can also utilize this physiological characteristic of human body surface temperature, adopt the mode that sets up temperature sensor on intelligent wrist-watch and skin contact surface to detect whether intelligent wrist-watch contacts with the human body, if the temperature that temperature sensor detected is in the normal range of human body surface temperature, then usually explain that intelligent wrist-watch is in the state of contacting with the human body, otherwise then not contact. Similarly, can also utilize this physiological characteristic of human rhythm of the heart, adopt the mode that sets up heart rate sensor on intelligent wrist-watch and skin contact surface to detect whether intelligent wrist-watch contacts with the human body, and this here is no longer repeated.

The various sensors may be disposed on the contact surface of the body of the smart watch with the wrist, i.e., on the surface of the back case of the smart watch, or on the contact surface of the wristband of the smart watch with the wrist. It is often a good choice to place the sensors on the surface of the back case of a smart watch, considering the stability of the contact with the skin and the user experience.

Please refer to fig. 1, which is a schematic back view of a smart watch according to the present embodiment. The illustrated smart watch includes a smart watch body and a smart watch band, and a capacitive touch sensor is attached to the back (i.e., the back case) of the smart watch.

In specific implementation, the smart watch back case attached with the capacitive touch sensor or the electrode touch sensor is usually made of a material without conductivity, such as: acrylic. Preferably, in order to enable the surface of the smart watch, which is in contact with the wrist, to have higher strength, the material of the back shell of the smart watch can be ceramic; the back shell of the intelligent watch can be made of glass for the purpose of reducing cost.

In summary, the smart watch provided by this embodiment is equipped with the sensor that detects whether the smart watch contacts with the human body according to the physiological characteristics of the human body surface, so that the recognition function of the biological layer can be realized, the state that the user wears the smart watch can be accurately and conveniently known, the processor inside the smart watch can conveniently execute corresponding processing actions according to the wearing state of the user, and the safety problem existing when the smart watch is not worn can be favorably solved.

The wrist watch is taken as an example for description, and various intelligent wearable devices can be improved based on the same working principle, so that the same purpose is achieved. Through the sensor that possesses above-mentioned function of outfit, can be accurate, conveniently learn the state that the user wore intelligent wearing equipment to be convenient for intelligent wearing equipment inside treater according to user's wearing state execution corresponding processing action, help solving the security problem that exists when intelligent wearing equipment is in not wearing the state.

For example, when intelligent wearing equipment is intelligent bracelet, can be at least one in intelligent bracelet main part and intelligent bracelet wrist strap, with the wrist contact on the surface, set up foretell sensor for whether contact with the human body according to human body surface physiological characteristics detection intelligent bracelet. When intelligent wearing equipment is intelligent glasses, can be at intelligent spectacle-frame, with human face or ear contact on the surface, set up foretell sensor to whether be used for detecting intelligent glasses and human contact according to human body surface physiological characteristics. That is to say, the above-mentioned sensor can be arranged on various intelligent wearable devices and on the surface contacting with the human body, so as to detect whether the intelligent wearable device contacts with the human body according to the physiological characteristics of the body surface of the human body, which is not listed here.

The above embodiment provides a smart watch, and on this basis, the application further provides a locking control method of a smart wearable device, where the method may be implemented in the smart wearable device. Although the locking control mode provided by the application is proposed based on the safety problem of the smart watch after the smart watch leaves the wrist of the user, the application range of the technical scheme is not limited to the smart watch, and the locking control mode can be implemented on other smart wearable devices, for example: the safety problem of these intelligence wearing equipment after leaving the human body can be solved equally to intelligence bracelet, intelligent glasses etc.. For convenience of description, in this embodiment, a locking control method provided by the present application is described with a smart watch as an important point.

Please refer to fig. 2, which is a flowchart illustrating an embodiment of a locking control method for an intelligent wearable device according to the present application, wherein the same contents as those of the above-mentioned embodiment of the intelligent watch are not repeated, and the following description focuses on differences. The application provides a locking control method of intelligent wearable equipment includes:

step 201, receiving detection information output by a sensor.

The sensor is a sensor for detecting whether the intelligent wearable device is in contact with a human body or not by utilizing the physiological characteristics of the body surface of the human body, the sensor is usually arranged on the surface of the intelligent wearable device in contact with the human body, for example, for an intelligent watch, the sensor can be arranged on the surface of at least one of the intelligent watch main body and the intelligent watch watchband in contact with the wrist. For the smart band, the sensor may be disposed on a surface of at least one of the smart band body and the smart band wristband, which is in contact with the wrist. For smart glasses, the sensors may be disposed on a surface of the smart glasses frame that contacts the face or ears of the human body.

When the implementation specifically, can utilize human electrically conductive characteristic to detect, correspondingly intelligence wearing equipment is provided with capacitanc touch sensor, or electrode formula touch sensor, the detection information of touch sensor output includes: and instructions for indicating whether the human body is in contact with the intelligent wearable device. For example: when a user wears the smart watch on the wrist, the sensor outputs a command indicating that a human body is in contact with the smart watch, and when the user takes off the smart watch from the wrist, the sensor outputs a command indicating that the human body is separated from the smart watch.

In specific implementation, the body temperature characteristics of a human body can be used for detection, correspondingly, the intelligent wearable device is provided with a temperature sensor, and the temperature sensor can output temperature detection data according to a certain period; in the same way, the heart rate characteristics of the human body can be used for detection, correspondingly, the sensor can be a heart rate sensor, and the heart rate sensor can output heart rate detection data according to a certain period.

The detection information output by the sensor is usually transmitted to a processor inside the intelligent wearable device through a signal line, the processor sends the detection information to a service entity (for example, a background service program) in charge of locking control, and accordingly, the service entity executes the step to receive the detection information output by the sensor.

Step 202, judging whether the state of the intelligent wearable device worn by the user changes or not according to the detection information, if so, executing step 203 when the state is changed from wearing to taking off, and executing step 204 when the state is changed from taking off to wearing.

According to the difference of the adopted sensors, whether the state of the intelligent wearable device worn by the user changes or not can be judged in a corresponding mode.

If a capacitive touch sensor or an electrical level touch sensor is adopted, the received detection information can generally accurately indicate the state change of the intelligent wearable device worn by the user. Taking the smart watch as an example, when the received detection information is an instruction indicating that a human body is in contact with the smart watch, the state is changed from off to wearing; when the received detection information is an instruction indicating that the human body is separated from the smart watch, the state is changed from wearing to taking off.

If the temperature sensor is adopted, whether the state that the user wears the intelligent wearable device changes or not can be judged according to the received temperature data and the last received temperature data. For example, if the temperature data received this time is within a preset conventional range of the body surface temperature of the human body, and the temperature data received last time is lower than the lower limit of the range, it can be determined that the state is changed from being taken off to being worn; if the temperature data received this time is lower than the preset body surface temperature of the human body and the temperature data received last time is within the conventional range of the preset body surface temperature of the human body, the state that the user wears the intelligent wearable device can be judged to be changed from wearing to taking off; if the temperature data received at the current time and the temperature data received at the last time are both in the conventional range or are not in the conventional range, the state that the intelligent wearable device is worn by the user is not changed.

If adopt heart rate sensor, the rationale of judging whether the state that the user wore intelligent wearing equipment changes is similar with adopting temperature sensor, and it is no longer repeated here.

The specific manner of judging whether the wearing state changes is described above for the touch sensor, the temperature sensor and the heart rate sensor, wherein the implementation of the capacitive touch sensor or the electrical level touch sensor can detect the change of the contact state of the intelligent wearable device and the skin of the human body quickly, and thus is a preferred implementation provided by this embodiment. Of course, in other embodiments, a sensor for detecting wearing state by using physiological characteristics of the body surface of the human body, which is different from the above-described sensor, may be provided in the smart watch, and the determination may be performed in a manner corresponding to the sensor in this step.

Through the judging process, if the state that the intelligent wearable device is worn by the user is judged to be changed, when the state is changed from wearing to taking off, the step 203 is executed; when the status is changed from off-hook to on-hook, step 204 is performed.

It should be noted that the core of this technical scheme lies in, when detecting that intelligent wearing equipment becomes to take off by wearing through the mode of detecting human body surface physiological characteristics, lock the display screen or lock intelligent wearing equipment's settlement function to security after leaving human for intelligent wearing equipment provides the guarantee. Further, on the basis of realizing the above functions, the embodiment further provides an implementation mode of actively displaying the unlocking interface when the intelligent wearable device is detected to be worn after being taken off. Therefore, the present embodiment determines both of the above two state changes in step 202, and performs the corresponding subsequent processing steps according to the result.

And step 203, locking a display screen or locking a setting function of the intelligent wearable device.

In this step, it is detected that the smart wearable device is changed from the wearing state to the off state, in this case, the smart wearable device usually leaves the body of the user and may be in the charging state or be carelessly lost, and in order to avoid the smart wearable device being acquired by other users and performing malicious operations, the display screen is locked or the setting function of the smart wearable device is locked in this step. Because only the legal owner of the intelligent wearable device can execute correct unlocking operation, privacy disclosure or other potential safety hazards caused by malicious use of other users of the intelligent wearable device are avoided.

In specific implementation, two locking modes can be adopted: the display screen is locked, or the setting function of the intelligent wearable device is locked, and the two modes are respectively explained below.

One) locking the display screen.

After the display screen is locked, the user generally cannot use the application program and the corresponding function installed on the intelligent wearable device, so that the safety of the intelligent wearable device can be guaranteed. In particular implementations, a lock screen interface with a screen lock flag may be displayed, for example, an interface with a padlock flag. Further, in consideration of the fact that there may be a case where a rightful owner of the smart wearable device takes off the smart wearable device but still wants to continue to use the functions provided by the smart wearable device, in order to simplify the unlocking operation of the user, an unlocking interface prompting the user to input unlocking information may be directly displayed in this step (to simplify the process that the user can display the unlocking interface only through the touch screen or a specific key). The two embodiments provide the same safety, and the corresponding mode can be selected according to the requirements during specific implementation.

In a specific example of this embodiment, a capacitive touch sensor is disposed on a surface of a back shell of the smart watch, and when a user takes off the smart watch from a wrist, the capacitive touch sensor is disconnected from a skin and an internal current thereof is disconnected, and a service entity implementing the method receives a corresponding instruction and locks a display screen. Please refer to fig. 3, which is a schematic diagram illustrating the locking of the display screen when the smart watch is changed from the worn state to the removed state in the specific example.

Considering that most smart devices have a function of pop-up displaying a received push message on a screen, even in a screen-locked state, some information may also relate to privacy of a user, for example: prompt information related to payment, and the like. In order to avoid these pop-up messages from being seen by the non-legitimate owner of the smart wearable device, the present embodiment provides a preferred embodiment, namely: and after the step of locking the display screen is executed, disabling the function of pop-up display of the received push message. Thereby detect intelligent wearing equipment become to take off the state by wearing after, not only intelligent wearing equipment's display screen is locked, and various propelling movement messages that intelligent wearing equipment received simultaneously also can not show on the screen.

And II) locking the setting function of the intelligent wearable device.

Compared with the mode of locking the display screen, the mode locks the setting function of the intelligent wearable device, namely, the user cannot use the setting function, so that a small-granularity locking mode is provided. The locked set function may be divided according to the type of access system resource, and may include, for example: a function of accessing private data, a function of using hardware modules such as a camera device, and the like, and a function of establishing data connection; the locking can also be performed by taking the application installed in the intelligent wearable device as a unit, for example, functions provided by applications such as WeChat and Payment APP can be locked.

After the setting function of the intelligent wearable device is locked in this step, a locking mark can be displayed on a screen, or the locking mark can be displayed on an application icon of a locked application program.

In this manner, the setting function of the intelligent wearable device to be locked may be set by default by the system, or may be set according to the user's requirement, for example, a setting entry may be provided for the user to set, and the user may select the system function to be locked, or select the application program to be locked.

The two locking modes can be set by default of the system or according to the requirements of the user, for example, a setting option can be provided for the user to select which locking mode is used.

And step 204, displaying an unlocking interface.

Executing the step, which indicates that it is detected that the smart wearable device is changed from the off state to the wearing state, and as can be known from the description in step 203, the smart wearable device may lock the display screen or lock the setting function of the smart wearable device when changing from the wearing state to the off state, so that when it is recognized that the smart watch is worn again, an unlocking interface may be actively displayed, and accordingly, the unlocking interface includes: an unlocking interface for the locked display screen or an unlocking interface for the set function locked in the intelligent wearable device. By adopting the mode, on one hand, the operation process that the user can only display the unlocking interface through the touch screen or the specific key can be simplified, and on the other hand, the identity of the current wearer can be verified.

The unlocking interface may be any one of the following:

1) password unlock interface. Prompting a user to input information such as numbers, letters or PIN codes for unlocking;

2) the gesture unlocks the interface. Also called a pattern unlocking interface, prompting a user to input unlocking information in a mode of clicking or sliding a finger on a screen;

3) an unlocking interface based on human personalized biological characteristics. The personalized biometric characteristic of the human body may be any one of the following: when the method is specifically implemented, the user can be prompted to pass through corresponding peripheral equipment according to the type of the adopted human body personalized biological characteristics, such as: fingerprint sensor, camera device, microphone etc. input corresponding human biological feature as unblock information.

In a specific example of this embodiment, a capacitive touch sensor is disposed on a surface of a back shell of the smart watch, and when a user wears the smart watch, the capacitive touch sensor contacts with skin and an internal current thereof is turned on, and a service entity implementing the method receives a corresponding instruction and displays a password unlocking interface. Please refer to fig. 4, which is a schematic diagram illustrating an unlocking interface displayed when the smart watch is changed from a detached state to a worn state in the specific example, wherein a shaded frame in the diagram indicates a capacitive touch sensor disposed on a rear shell surface of the smart watch.

Further, after the unlocking interface is displayed, unlocking information input by a user can be received, the unlocking information is compared with prestored unlocking information, and when the unlocking information is consistent with the prestored unlocking information, the current wearer is a legal owner of the intelligent wearable device, and corresponding locking can be released under the condition. The method includes releasing a lock on a display screen if a mode of locking the display screen is previously adopted, and releasing a lock on a setting function if a mode of locking the setting function is previously adopted, so that a wearer can access information stored in the smart wearable device and use various functions provided by the smart wearable device.

It should be noted that, this embodiment describes an implementation that when it is detected that the smart wearable device is changed from being taken off to being worn, an unlocking interface is displayed. In specific implementation, the unlocking interface may also be displayed according to the received unlocking request, for example: after the user takes off the smart watch (the smart watch locks the display screen or locks the setting function), the user wants to use the application in the smart watch without wearing the smart watch again, and at the moment, the user can touch the display screen, and in this case, the unlocking interface can also be displayed.

Now, the locking control method of the smart wearable device according to the present embodiment is described in detail through the above steps 201 to 204. It can be seen from the above characters that the locking control method of the intelligent wearable device provided by the embodiment detects whether the intelligent wearable device is in contact with the human body or not based on the physiological characteristics of the human body surface, thereby realizing the biological level recognition function, and accurately and conveniently judging whether the intelligent wearable device leaves the human body or not, namely: the intelligent wearable device is in the off state, and the display screen is locked or the setting function of the intelligent wearable device is locked when the state change is detected, so that even if a malicious user obtains the intelligent wearable device in the off state, the intelligent wearable device cannot be normally used, the safety problem of the intelligent wearable device after leaving the human body is effectively solved, and unnecessary loss of the user is avoided.

In the above embodiment, a locking control method of an intelligent wearable device is provided, and correspondingly, the application further provides a locking control device of the intelligent wearable device. Please refer to fig. 5, which is a schematic diagram of an embodiment of a locking control device of an intelligent wearable device according to the present application. Since the apparatus embodiments are substantially similar to the method embodiments, they are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for relevant points. The device embodiments described below are merely illustrative.

The locking controlling means of intelligence wearing equipment of this embodiment includes: the sensor information receiving unit 501 is configured to receive detection information output by a sensor, where the sensor is a sensor that detects whether the intelligent wearable device is in contact with a human body by using human body surface physiological characteristics; a state change judging unit 502, configured to judge whether a state of the user wearing the intelligent wearable device changes according to the detection information received by the sensor information receiving unit; a locking unit 503, configured to lock a display screen or lock a setting function of the smart wearable device when the output of the state change determination unit is yes and the state is changed from being worn to being taken off; an unlocking interface display unit 504, configured to display an unlocking interface when the output of the state change determination unit is yes and the state is changed from being taken off to being worn.

Optionally, the sensor information receiving unit is specifically configured to receive detection information output by a sensor that detects whether the intelligent wearable device is in contact with a human body by using a conductive feature of the human body, where the detection information includes: and instructions for indicating whether the human body is in contact with the intelligent wearable device.

Optionally, the locking unit specifically adopts the following method to realize the function of locking the display screen: displaying a screen locking interface with a screen locking mark; or displaying an unlocking interface for prompting the user to input unlocking information.

Optionally, the apparatus includes:

and the message popup disabling unit is used for disabling the function of popup display of the received push message.

Optionally, the apparatus further comprises:

the unlocking information receiving unit is used for receiving unlocking information input by a user after the unlocking interface display unit displays an unlocking interface;

and the locking releasing unit is used for releasing the locking when the unlocking information is consistent with the prestored unlocking information.

Although the present application has been described with reference to the preferred embodiments, it is not intended to limit the present application, and those skilled in the art can make variations and modifications without departing from the spirit and scope of the present application, therefore, the scope of the present application should be determined by the claims that follow.

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

1. Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include non-transitory computer readable media (transient media), such as modulated data signals and carrier waves.

2. As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Claims (23)

1. A smart watch, comprising: intelligence wrist-watch main part and intelligent wrist-watch watchband, its characterized in that still includes: the sensor is used for detecting whether the intelligent watch is in contact with the human body according to the physiological characteristics of the body surface of the human body, and the sensor is arranged on the surface, in contact with the wrist, of at least one of the intelligent watch main body and the intelligent watch watchband.

2. The smart watch of claim 1, wherein the human body surface physiological characteristics comprise: conductive features of the human body; the sensor adopts at least one of a capacitance type touch sensor and an electrode type touch sensor.

3. The smart watch of claim 1, wherein the human body surface physiological characteristics comprise: a body temperature characteristic of a human body; the sensor includes: a temperature sensor.

4. The smart watch of claim 1, wherein the human body surface physiological characteristics comprise: heart rate characteristics of the human body; the sensor includes: a heart rate sensor.

5. The smart watch of claim 1, wherein the sensor is disposed on a surface of the case where the smart watch body contacts the wrist.

6. The smart watch according to claim 5, wherein the sensor is at least one of a capacitive touch sensor and an electrode touch sensor, and a case of the smart watch body contacting the wrist is made of any one of ceramic and glass.

7. A locking control method of intelligent wearable equipment is characterized by comprising the following steps:

receiving detection information output by a sensor;

judging whether the state of the intelligent wearable device worn by the user changes or not according to the detection information;

if yes, locking a display screen or locking a setting function of the intelligent wearable device when the state is changed from wearing to taking off;

the sensor is used for detecting whether the intelligent wearable device is in contact with a human body or not by utilizing the physiological characteristics of the body surface of the human body.

8. The locking control method of the intelligent wearable device according to claim 7, wherein the human body surface physiological characteristics include: a conductive feature;

the sensor includes: a capacitive touch sensor or an electrode touch sensor;

the detection information output by the sensor includes: and instructions for indicating whether the human body is in contact with the intelligent wearable device.

9. The locking control method of the intelligent wearable device according to claim 7, wherein the human body surface physiological characteristics include: a body temperature characteristic; the sensor includes: a temperature sensor.

10. The locking control method of the intelligent wearable device according to claim 7, wherein the human body surface physiological characteristics include: heart rate characteristics; the sensor includes: a heart rate sensor.

11. The locking control method of the intelligent wearable device according to claim 7, wherein the locking display screen is implemented as follows:

displaying a screen locking interface with a screen locking mark; or,

and displaying an unlocking interface for prompting the user to input unlocking information.

12. The lock control method of an intelligent wearable device according to claim 7, wherein after the step of locking the display screen is performed, the following operations are performed:

and forbidding the function of pop-up display of the received push message.

13. The locking control method of the intelligent wearable device according to claim 7, wherein when an unlocking request of a user is received, or when a result of the determination of whether the state of the intelligent wearable device worn by the user changes from off to on according to the detection information is yes and the state changes from off to on, the following operations are performed:

displaying an unlocking interface, wherein the unlocking interface comprises: an unlocking interface for the locked display screen or an unlocking interface for the set function locked in the intelligent wearable device.

14. The locking control method of the intelligent wearable device according to claim 13, wherein after the step of displaying the unlocking interface is performed, the following operations are performed:

receiving unlocking information input by a user;

and when the unlocking information is consistent with the pre-stored unlocking information, unlocking the lock.

15. The locking control method of the intelligent wearable device according to claim 11 or 13, wherein the unlocking interface comprises: a password unlock interface, a gesture unlock interface, or an unlock interface based on human personalized biometric features.

16. The locking control method of the smart wearable device according to claim 15, wherein the human personalized biometric features include: fingerprint, iris, voice print, voice, or human face.

17. The lock control method of the smart wearable device according to any one of claims 7 to 16, wherein the smart wearable device comprises: smart watches, smart bracelets, or smart glasses.

18. The utility model provides a locking controlling means of intelligence wearing equipment which characterized in that includes:

the sensor information receiving unit is used for receiving detection information output by a sensor, and the sensor is used for detecting whether the intelligent wearable device is in contact with a human body by utilizing the physiological characteristics of the body surface of the human body;

the state change judging unit is used for judging whether the state of the intelligent wearable device worn by the user changes or not according to the detection information received by the sensor information receiving unit;

and the locking unit is used for locking the display screen or locking the set function of the intelligent wearable device when the output of the state change judging unit is yes and the state is changed from wearing to taking off.

19. The locking control device of the intelligent wearable device according to claim 18, wherein the sensor information receiving unit is specifically configured to receive detection information output by a sensor that detects whether the intelligent wearable device is in contact with the human body using a conductive feature of the human body, and the detection information includes: and instructions for indicating whether the human body is in contact with the intelligent wearable device.

20. The locking control device of the intelligent wearable device according to claim 18, wherein the locking unit is configured to lock the display screen in the following manner: displaying a screen locking interface with a screen locking mark; or displaying an unlocking interface for prompting the user to input unlocking information.

21. The lock control device of a smart wearable device according to claim 18, characterized in that the device comprises:

and the message popup disabling unit is used for disabling the function of popup display of the received push message after the display screen is locked by the locking unit.

22. The lock control device of a smart wearable device according to claim 18, further comprising:

an unlocking request receiving unit, configured to receive an unlocking request of a user;

and the unlocking interface display unit is used for displaying an unlocking interface when the unlocking request receiving unit receives an unlocking request of a user or when the output of the state change judging unit is yes and the state is changed from off to wearing.

23. The lock control device of a smart wearable device according to claim 22, further comprising:

the unlocking information receiving unit is used for receiving unlocking information input by a user after the unlocking interface display unit displays an unlocking interface;

and the locking releasing unit is used for releasing the locking when the unlocking information is consistent with the prestored unlocking information.