WO2019000193A1

WO2019000193A1 - Wearable device operating method and wearable device

Info

Publication number: WO2019000193A1
Application number: PCT/CN2017/090099
Authority: WO
Inventors: 杨贤伟; 李美祥; 袁权; 廖伟军; 张伟; 肖德银
Original assignee: 国民技术股份有限公司
Priority date: 2017-06-26
Filing date: 2017-06-26
Publication date: 2019-01-03

Abstract

A wearable device operating method and a wearable device, the wearable device operating method mainly comprising: detecting a current vibration, and generating a vibration detection signal (S101); on the basis of the vibration detection signal, implementing user identity authentication (S102); if authentication is successful, then generating a control command corresponding to the vibration detection signal (S103); and externally transmitting the control command (S104). By means of the present solution, the user wearing the wearable device only needs to produce mechanical vibration, such as tapping on a table, clicking the fingers, clapping, or stamping the feet, and the wearable device will implement user identity authentication by means of detecting the vibration, avoiding the user manually entering a pin code and, after authentication is successful, directly triggering the generation and transmission of a control command without requiring manual implementation of a trigger operation; operation is thus extremely simple.

Description

Working method of wearable device and wearable device

[0001] The present invention relates to the field of electronic technologies, and in particular, to a working method of a wearable device and a wearable device.

[0002] Online banking applications generally use a smart PIN key (USBKEY) for transaction signing and confirmation. When the user uses USBKEY for online transfer operation, not only does the user need to input the PIN code for identity authentication, but also needs to press the confirmation button on the USBKEY to confirm the transaction operation. Therefore, the operation is not simple enough. In addition, the physical buttons on the USBKEY are not beautiful, and the USBKEY is not easy to carry around.

technical problem

[0003] The present invention provides a working method of a wearable device and a wearable device, which mainly solves the problem that the use of the existing USBKEY is not convenient.

[0004]

Problem solution

Technical solution

[0005] The working method of the wearable device provided by the present invention mainly includes:

[0006] detecting its current vibration to generate a vibration detection signal;

[0007] performing user identity authentication according to the vibration detection signal;

[0008] if the authentication is passed, generating a control instruction corresponding to the vibration detection signal;

[0009] transmitting the control instruction to the outside.

[0010] In some embodiments, the performing user identity authentication according to the vibration detection signal includes:

[0011] obtaining a vibration feature detection data set according to the vibration detection signal, the vibration feature detection data group including at least one vibration feature detection data;

[0012] comparing the vibration feature detection data set with a pre-stored operation behavior feature template data set, where the operation behavior feature template data set includes at least one operation behavior feature template data;

[0013] If they match, the authentication passes. [0014] In some embodiments, the working method of the above wearable device further includes:

[0015] performing sampling detection on the vibration generated by the user's N-time vibration operation, and obtaining N operation behavior sampling data sets, where the operation behavior sampling data group includes at least one operation behavior characteristic sampling data;

[0016] using the typical value or the average value of the various operational behavior feature sample data in the N operational behavior sample data sets as the operation behavior feature template data, generating the operation behavior feature template data group and saving.

[0017] In some embodiments, the vibration characteristic detection data is any one of the following: vibration frequency, vibration rhythm

, vibration intensity, vibration intensity, number of vibrations, continuous vibration, and vibration interval.

[0018] In some embodiments, the control instruction includes: a payment confirmation instruction; before the detecting the current vibration of the self, the method further includes: receiving a payment request instruction sent by the external device.

[0019] In some embodiments, the sampling of the vibration generated under the N-time vibration operation of the user is performed before sampling

, the method further includes: receiving a template generation instruction sent by an external device.

[0020] In some embodiments, the working method of the wearable device further includes: generating at least one of signature data, verification result, encrypted data, and decrypted data, and transmitting the same with the control instruction.

[0021] A wearable device provided by the present invention includes: a detection module, an identity authentication module, a generation module, and a communication module, where

[0022] the detecting module is configured to detect a current vibration of the self, and generate a vibration detecting signal;

[0023] the identity authentication module is configured to perform user identity authentication according to the vibration detection signal;

[0024] the generating module is configured to generate a control instruction corresponding to the vibration detecting signal after the passing of the authentication; [0025] the communication module is configured to transmit the control instruction to the outside.

[0026] In some embodiments, the identity authentication module includes: a processing module, a comparison module, and a storage module, where

[0027] the processing module is configured to obtain a vibration feature detection data group according to the vibration detection signal, where the vibration feature detection data group includes at least one vibration feature detection data;

[0028] the comparison module is configured to compare the vibration feature detection data group with an operation behavior feature template data group stored by the storage module, where the operation behavior feature template data group includes at least one operation behavior feature template data. ;

[0029] The storage module is configured to store the operation behavior feature template data group.

[0030] In some embodiments, the detecting module is further configured to enter a vibration generated by a user's N-time vibration operation. Line sampling detection, generating N vibration sampling signals; the processing module is further configured to obtain N operation behavior sampling data groups according to the N vibration sampling signals, where the operation behavior sampling data group includes at least one operation behavior characteristic sampling The above-mentioned wearable device further includes a template generating module, configured to use a typical value or an average value of the sampling data of the various operational behavior features in the N operational behavior sampling data sets as the operational behavior feature template data to generate the operation. Behavioral feature template data set and saved to the storage module

[0031] In some embodiments, the control instruction used by the communication module to transmit outward includes a payment confirmation instruction; the communication module is further configured to receive an external device before the detection module detects its current vibration. The payment request instruction sent.

[0032] In some embodiments, the communication module is further configured to receive a template generation instruction sent by the external device before the detecting module samples and detects the vibration generated by the user under the N-th vibration operation.

[0033] In some embodiments, the wearable device further includes: a security module, configured to generate at least one of signature data, verification result, encrypted data, and decrypted data; the communication module is further configured to: The data generated by the security module is transmitted together with the control command.

[0034] Another wearable device provided by the present invention includes a wearable body, and a detecting unit, a processing unit, a storage unit and a communication unit disposed on the wearable body, the detecting unit and the storage unit

And the communication unit is connected to the processing unit, wherein

[0035] the detecting unit is configured to detect a current vibration of the self in the working mode to generate a vibration detecting signal; [0036] the storage unit is configured to store an operating behavior feature template data group, and the operating behavior feature template data group Include at least one operational behavior feature template data;

[0037] the processing unit is configured to perform user identity authentication according to the vibration detection signal and the operation behavior feature template data group in an operation mode; if the authentication passes, generate a control instruction corresponding to the vibration detection signal ;

[0038] The communication unit is configured to transmit the control instruction to the outside.

[0039] In some embodiments, the detecting unit is further configured to perform sampling detection on the vibration generated by the N times vibration operation of the user in the template setting mode to generate N vibration sampling signals; And in the template setting mode, obtaining N operation behavior sampling data groups according to the N vibration sampling signals, where the operation behavior sampling data group includes at least one operation behavior characteristic sampling data; The typical value or average value of the various operational behavior feature sample data in the behavior sample data set is used as the operation behavior feature template data, and the operation behavior feature template data set is generated and saved to the storage unit.

[0040] In some embodiments, the communication unit is further configured to receive an external request instruction, and transmit the request instruction to the processing unit, where the processing unit enters the working mode after receiving the request instruction. And triggering the detecting unit to enter the working mode.

[0041] In some embodiments, the communication unit is further configured to receive an external template setting instruction, and send the template setting instruction to the processing unit, where the processing unit enters the template after receiving the template setting instruction The template setting mode is set, and the detecting unit is triggered to enter the template setting mode.

[0042] In some embodiments, the communication unit comprises at least one of Bluetooth, RCC, WiFi, Zigbee, NFC.

[0043] In some embodiments, the wearable body is annular.

[0044] In some embodiments, the wearable device further includes: a security unit connected to the processing unit, configured to generate at least one of signature data, verification result, encrypted data, and decrypted data; The unit is further configured to transmit the data generated by the security unit together with the control instruction.

[0045]

Advantageous effects of the invention

Beneficial effect

[0046] The working method and the wearable device of the wearable device provided by the present invention perform user identity authentication by detecting vibration, avoiding the user manually inputting the PIN code, and directly triggering the generation and transmission of the control command after the authentication is passed, without manual Trigger operation, therefore, the operation is extremely simple, the user wearing the wearable device only needs mechanical vibration, such as finger tapping on the desktop, ringing fingers, clapping hands, lame, etc., can realize user identity authentication and control command is issued, wearable There is no need to set additional trigger buttons on the device. In addition, wearable devices such as smart rings, smart bracelets, and smart watches have the characteristics of being carried around. At present, the applications of wearable devices such as smart rings, smart bracelets, and smart watches are becoming more and more popular. Therefore, it is further convenient for the user to use.

Brief description of the drawing

DRAWINGS

1 is a flowchart of a working method of a wearable device according to a first embodiment of the present invention; 2 is a flowchart of performing online payment using a wearable device according to a second embodiment of the present invention;

3 is a schematic diagram of a wearable device according to a third embodiment of the present invention;

4 is a schematic diagram of a wearable device according to a fourth embodiment of the present invention.

[0051]

Embodiments of the invention

The specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0053] Wearable devices in the present invention include, but are not limited to, smart rings, smart bracelets, smart watches, smart shoes, smart feet, and the like. External devices that communicate with wearable devices include, but are not limited to, mobile phones, smart phones, laptops, digital broadcast receivers, PDAs (Personal Digital Assistants), PADs (tablets), PMPs (portable multimedia players), navigation Devices and so on.

[0054] The present invention will now be described in further detail by way of specific examples.

First Embodiment

1 is a flowchart of a working method of a wearable device according to a first embodiment of the present invention. The working method of the wearable device mainly includes:

[0057] S101. Detect a current vibration of the self, and generate a vibration detection signal.

[0058] In the process of carrying the user in the wearable device, when the user vibrates, such as a finger tapping on the desktop, snapping fingers, clapping hands, stomping, etc., the wearable device may be vibrated, and the wearable device detects itself. The vibration situation, indirectly obtained the user's vibration data. Specifically, it can be detected by a sensor capable of sensing vibration, such as one or a combination of a vibration sensor, an acceleration sensor, a displacement sensor, a direction sensor, an angle sensor, and the like.

[0059] S102. Perform user identity authentication according to the vibration detection signal.

[0060] This step replaces the traditional manual input PIN code for user identity authentication. The specific authentication process includes but is not limited to the following:

[0061] S102a. Obtain a vibration feature detection data group according to the vibration detection signal, where the vibration feature detection data group includes at least one vibration feature detection data.

[0062] In this step, the vibration detection signal may be analyzed, extracted, and processed to obtain vibration characteristics. The detection data set, wherein the vibration characteristic detection data is any one of the following: vibration frequency, vibration rhythm, vibration intensity, vibration intensity, vibration number, vibration continuous daytime, and vibration interval, therefore, the vibration characteristic detection data set is One or more combinations of these data.

[0063] S102b, comparing the vibration feature detection data group with a pre-stored operation behavior feature template data group, where the operation behavior feature template data group includes at least one operation behavior feature template data, if matched, the authentication by.

[0064] The operational behavior feature template data group embodies the user's operational behavior habits, and therefore has the function of identifying the user identity, and compares the vibration feature detection data group with the data. If they match, it means that the user is operating, if not If it matches, it means that the user is not operating. Matching means that one or more data are consistent or similar in the vibration feature detection data set and the operational behavior feature template data set.

[0065] S103. If the authentication passes, generate a control instruction corresponding to the vibration detection signal.

[0066] The feature value may be obtained according to the vibration detection signal, and the corresponding control command is matched according to the feature value and the corresponding relationship between the preset feature value and the control command, and the control command is generated.

[0067] The feature value may be a combination of one of the vibration feature detection data or the plurality of vibration feature detection data in step S102a.

[0068] S104. Transmit the control instruction to the outside.

[0069] This step may be based on a communication mode implemented by a 2.45 GHz radio frequency, such as Bluetooth, RCC, WiFi, Zigbee, etc.; or a communication method based on a 13.56 MHz radio frequency, such as a 13.56 Mhz contactless smart card, NFC, and the like.

[0070] In some embodiments, the control instruction can be a payment confirmation instruction. The payment confirmation command can be sent to the transaction terminal through the above steps to confirm the payment on the transaction terminal. In this way, there is no need to manually input the PI N code, and the payment confirmation operation can be performed on the smart ring, the smart bracelet, the smart watch, and the like, without the need of a button, so that the payment confirmation operation has personal characteristics, which is not only convenient to use, but also convenient. And the security and user experience are also better. Before step S101, the method may further include: receiving a payment request instruction sent by the external device, to trigger each module of the wearable device to enter the working mode.

[0071] S105. If the authentication is not passed, no processing is performed, or the user authentication failure is prompted. [0072] In this embodiment, before step S101, the setting step of the operation behavior feature template data group may be further included, including but not limited to the following:

[0073] performing sampling detection on the vibration generated by the user's N-time vibration operation, and obtaining N operation behavior sampling data sets, where the operation behavior sampling data group includes at least one operation behavior characteristic sampling data;

[0074] using the typical value or the average value of the various operational behavior feature sample data in the N operational behavior sample data sets as the operation behavior feature template data, generating the operation behavior feature template data group and saving.

[0075] According to the type of the wearable device, the user can take a finger tapping the desktop, hitting the finger, clapping, kicking, etc. according to his or her own personal use habit to generate mechanical vibration to achieve sampling. In order to improve the accuracy of the template data set, the user can repeat the vibration frequency, the vibration rhythm, the vibration intensity, the vibration intensity, the vibration frequency, and the vibration continuously after the vibration device is detected by the wearable device. Inter-, vibration interval, etc., as the operational behavior feature sampling data, select the typical values or average values of the various operational behavior feature sampling data in the N operational behavior sampling data sets as the operational behavior feature template data, and generate the operational behavior characteristics. Template data set and saved. N is a positive integer greater than or equal to 1.

[0076] In this embodiment, before the setting step of the operation behavior feature template data group, the method further includes: receiving a template setting instruction sent by the external device, to trigger each module of the wearable device to enter the working mode except the working mode Another mode, the template setting mode, eliminates the need to set a button on the wearable device for triggering.

[0077] In this embodiment, the method further includes: generating at least one of signature data, verification result, encrypted data, and decrypted data, and transmitting the same with the control instruction to implement data encryption and decryption and signature verification. Like the basic functions of USB KEY, such wearable devices can replace USBKEY for online banking transfer and payment.

[0078] The working method of the wearable device provided by the embodiment performs user identity authentication by detecting vibration, avoids manually inputting the PIN code, and directly triggers generation and transmission of the control command after the authentication is passed, without other trigger operations, and the operation is extremely Simple, it can replace USBKEY, which is convenient for users.

[0079] [0079]

Second Embodiment

[0081] Taking the wearable device for online payment as an example, referring to FIG. 2, FIG. 2 is a flowchart of using the wearable device to perform online payment according to the second embodiment of the present invention, which mainly includes:

[0082] Template setting process: [0083] S201. The transaction terminal prompts the user to perform template generation, and the transaction terminal issues a template setting instruction to the wearable device, and the wearable device receives the template setting instruction to enter the template setting mode.

[0084] S202. The user takes a finger to hit the desktop, slaps, clap, slap, etc. according to his own personal use habit according to the type of the wearable device to emit mechanical vibration.

[0085] S203. After detecting the vibration, the wearable device generates one or more of vibration frequency, rhythm, velocity, intensity, number of times, continuous time, interval, and the like as operation behavior feature template data. The operational behavior feature template data set is saved.

[0086] In the above steps, in order to improve the accuracy of the template, the transaction terminal may prompt the user to perform multiple repeated operations, and finally take the typical value or average value of the sampling data of various operational behavior features obtained by each operation as the operation behavior feature template. data.

[0087] When a payment confirmation is required, proceed to the following steps:

[0088] S204. The transaction terminal prompts the user to perform a confirmation operation, and the transaction terminal sends a payment request instruction to the wearable device, and the wearable device receives the payment request instruction, enters a working mode, and the user takes a finger to tap the desktop, slaps the finger, clap the hand, slaps, etc. Action to emit mechanical vibrations.

[0089] S205. After detecting the vibration, the wearable device generates a vibration detection signal, and after analyzing, extracting, and calculating the vibration detection signal, the vibration frequency, the rhythm, the strength, the intensity, the number of times, the continuous time interval, and the interval are obtained. The vibration characteristic detection data such as daytime constitutes a vibration characteristic detection data set.

[0090] S206. The wearable device compares the vibration feature detection data group with the operation behavior feature template data group. If it matches, it is considered to be the user's own operation behavior, and the authentication passes, and proceeds to S207; otherwise, no processing is performed.

[0091] S207. Generate a payment confirmation instruction, and return to the transaction terminal.

[0092] S208. The transaction terminal performs a subsequent transaction process.

[0093] In this embodiment, the wearable device replaces the USBKEY for online payment, and the wearable device triggers the generation and transmission of the payment confirmation command by detecting the vibration, and identifies the user operation based on the characteristics of the personal operation behavior, so as to ensure the confirmation operation by the user. Manual input of the PIN code is avoided, thereby avoiding the security problem caused by the leakage of the PIN code in the case of loss of the wearable device. In addition, the embodiment avoids the button triggering operation, and does not need to additionally set a confirmation button on the wearable device, and does not need to set a mode switching button, which is convenient to use and has a good user experience. [0094]

Third Embodiment

[0096] FIG. 3 is a schematic diagram of a wearable device according to a third embodiment of the present invention. The wearable device can be used to perform the method in the first embodiment. The wearable device mainly includes: a detecting module 301, An identity authentication module 302, a generating module 303, and a communication module 304, where

[0097] The detecting module 301 is configured to detect a current vibration of the self, and generate a vibration detecting signal.

[0098] The identity authentication module 302 is configured to perform user identity authentication according to the vibration detection signal.

[0099] The generating module 303 is configured to generate a control instruction corresponding to the vibration detecting signal after the authentication is passed; [0100] the communication module 305 is configured to transmit the control command to the outside.

[0101] The wearable device provided in this embodiment performs user identity authentication by detecting the vibration of the detection module 301, avoids manually inputting the PIN code, and after the authentication is passed, the direct trigger generation module 303 generates a control instruction, and triggers the communication module 304 to Sending outside, no need for other manual triggering operation, therefore, the operation is extremely simple, and there is no need to additionally set the trigger button. In addition, the wearable device such as the smart ring, the smart bracelet, the smart watch, and the like have the characteristics of being carried around, the current smart ring, the smart hand The use of wearable devices such as rings and smart watches is becoming more and more popular, and thus, it is further convenient for users to use.

[0102] Further, the identity authentication module 302 may include (not shown): a processing module, a comparison module, and a storage module, where the processing module is configured to obtain a vibration feature detection data group according to the vibration detection signal, The vibration feature detection data set includes at least one vibration feature detection data; the comparison module is configured to compare the vibration feature detection data set with an operation behavior feature template data set stored by the storage module, where the operation behavior feature template data set includes at least An operation behavior feature template data; a storage module is configured to store the operation behavior feature template data group. The operation behavior feature template data group stored in the storage module is used as the user identity authentication information for comparison with the vibration feature detection data group obtained in the vibration detection signal, and is a preferred identity authentication scheme.

[0103] Further, the detecting module 301 is further configured to perform sampling detection on the vibration generated by the user's N times of vibration operations to generate N vibration sampling signals; the processing module is further configured to obtain N according to the N vibration sampling signals. The operational behavior sampling data set, the operational behavior sampling data set includes at least one operational behavior characteristic sampling data; the wearable device may further include a template generating module 305, configured to sample the N operational behaviors in the data group Typical value or average value of the behavioral characteristic sampling data as the operational behavior characteristic model The board data is generated, and the operation behavior feature template data group is generated and saved to the storage module. The feature template data is obtained by sampling the user's own operational behavior such that the template data has personal characteristics.

[0104] Further, the control module 303 generates and the control command transmitted by the communication module 304 may include a payment confirmation instruction. It only requires the user to perform a vibration operation when carrying the wearable device, without manually inputting the PIN code, and directly triggering the generation and transmission of the payment confirmation command after the authentication is passed, the payment confirmation on the transaction terminal can be completed, and the operation is extremely simple. . The communication module 304 is further configured to receive a payment request instruction sent by the external device before the detecting module 301 detects the current vibration of the self, the payment request instruction is used to trigger the wearable device to enter the working mode, and the button is not required to be set on the wearable device. To start the mode.

[0105] Further, the communication module 304 is further configured to receive a template setting instruction sent by the external device before the detecting module 301 samples and detects the vibration generated by the user's N times of vibration operations. This template setting command is used to trigger the wearable device to perform the template setting mode, and it is not necessary to set the button on the wearable device to start the mode.

[0106] The wearable device of this embodiment may further include: a security module 306, configured to generate at least one of signature data, verification result, encrypted data, and decrypted data; the communication module 304 may be further configured to generate the security module 306. The data is transmitted together with the control command generated by the generation module 303. Such a wearable device can replace the USBKEY, and since the wearable device is more portable than the USBKEY, the user is more convenient to use. The wearable device of this embodiment may further include a display module, a voice play module, a power supply module, and the like.

[0107]

Fourth Embodiment

[0109] FIG. 4 is a schematic diagram of a wearable device according to a fourth embodiment of the present invention. The wearable device can also be used to perform the method in the first embodiment. The wearable device mainly includes: a wearable body. The detection unit 402, the processing unit 403, the storage unit 404, and the communication unit 405 are disposed on the wearable body 401. The detection unit 402, the storage unit 404, and the communication unit 405 are all connected to the processing unit 403, where

[0110] The detecting unit 402 is configured to detect the current vibration of the self in the working mode, and generate a vibration detecting signal. [0111] The storage unit 404 is configured to store an operation behavior feature template data group, and the operation behavior feature template data is used. The group includes at least one operational behavior feature template data;

[0112] the processing unit 403 is configured to perform user identity authentication according to the vibration detection signal and the operation behavior feature template data group in an operation mode; if the authentication is passed, generate a control instruction corresponding to the vibration detection signal;

[0113] The communication unit 405 is configured to transmit the control command to the outside.

[0114] The wearable body 401 can be annular. Detection unit 402 can be a sensor, such as one or a combination of vibration sensors, acceleration sensors, direction sensors, angle sensors, and the like. The operation behavior feature template data group stored in the storage unit 404 is used as the user identity authentication information for comparison with the vibration feature detection data group obtained in the vibration detection signal, and is a preferred identity authentication scheme.

[0115] The wearable device provided in this embodiment performs user identity authentication by detecting the vibration by the detecting unit 402, avoids manually inputting the PIN code, and after the authentication is passed, the direct trigger processing unit 403 generates a control command, and triggers the communication module 405 to Sending outside, no need for other manual triggering operation, therefore, the operation is extremely simple, and there is no need to additionally set the trigger button. In addition, wearable devices such as smart rings, smart bracelets and smart watches have the characteristics of being carried around, and the current smart ring and smart bracelet The use of wearable devices such as smart watches is becoming more and more popular, and thus, it is further convenient for users to use.

[0116] Further, the processing unit 403 may specifically obtain a vibration feature detection data group according to the vibration detection signal, where the vibration feature detection data group includes at least one vibration feature detection data; and the vibration feature detection data group and the pre-stored The operation behavior feature template data group is compared, and the operation behavior feature template data group includes at least one operation behavior feature template data; if they match, the authentication passes.

[0117] Further, the detecting unit 402 is further configured to perform sampling detection on the vibration generated by the N times vibration operation of the user in the template setting mode to generate N vibration sampling signals; the processing unit 403 may also be used in the template setting mode. And obtaining N operation behavior sampling data groups according to the N vibration sampling signals, where the operation behavior sampling data group includes at least one operation behavior characteristic sampling data; and the N operation behaviors are used to sample various operations in the data group. A typical value or an average value of the behavior characteristic sample data is used as the operation behavior feature template data, and the operation behavior feature template data group is generated and saved to the storage unit 404. The feature template data is obtained by sampling the user's own operational behavior such that the template data has personal characteristics. The communication unit 405 is further configured to receive a template setting instruction sent by the external device before the detecting unit 402 performs sampling detection on the vibration generated by the user's N times of vibration operations. The template setting command is used to trigger wearable The device performs the template setting mode, and there is no need to set the button on the wearable device to switch modes.

[0118] Further, the control instruction generated by the processing unit 403 and transmitted to the communication unit 405 may include a payment confirmation instruction. It only requires the user to perform a vibration operation when carrying the wearable device, without manually inputting the PIN code, and directly triggering the generation and transmission of the payment confirmation command after the authentication is passed, the payment confirmation on the transaction terminal can be completed, and the operation is extremely simple. . The communication unit 405 can also receive a payment request instruction sent by the external device before the detecting unit 402 detects the current vibration of the self, and the payment request instruction is used to trigger the wearable device to enter the working mode without setting a button on the wearable device. Perform mode switching.

[0119] The communication unit 405 may include at least one of Bluetooth, RCC, WiFi, Zigbee, and NFC.

[0120] The wearable device of this embodiment may further include: a security unit 406 connected to the processing unit 403, configured to generate at least one of signature data, verification result, encrypted data, and decrypted data; the communication module 305 is also available. The data generated by the security unit 406 is transmitted out together with the control command generated by the processing unit 403. Such a wearable device can replace the USBKEY, and since the wearable device has a more portable belt feature than the USBKEY, the user is more convenient to use. Security unit 406 and/or storage unit 404 may be integrated in processing unit 403, and security unit 406, storage unit 404, and/or processing unit 403 may be integrated in the same chip.

[0121] The wearable device of the embodiment may further include a display unit, a voice playing unit, a power supply unit, and the like.

[0122] The foregoing serial numbers of the embodiments of the present invention are merely for the description, and do not represent the advantages and disadvantages of the embodiments. Through the description of the above embodiments, those skilled in the art can clearly understand that the foregoing embodiment method can be implemented by means of software plus a necessary general hardware platform, and of course, can also be through hardware, but in many cases, the former is better. Implementation. Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, may be embodied in the form of a software product stored in a storage medium (such as ROM/RAM, disk, The optical disc includes a number of instructions for causing a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the methods described in various embodiments of the present invention.

[0123]

The embodiments of the present invention have been described above with reference to the drawings, but the present invention is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. It will be apparent to those skilled in the art that many forms may be made without departing from the spirit and scope of the invention as claimed.

Claims

Claim

[Claim 1] A method for operating a wearable device, comprising:

Detecting its current vibration and generating a vibration detection signal;

Performing user identity authentication according to the vibration detection signal;

If the authentication is passed, a control command corresponding to the vibration detection signal is generated; and the control command is transmitted outward.

[Claim 2] The method for operating a wearable device according to claim 1, wherein the performing user identity authentication according to the vibration detection signal comprises:

Obtaining a vibration feature detection data set according to the vibration detection signal, the vibration feature detection data set including at least one vibration feature detection data;

Comparing the vibration feature detection data set with a pre-stored operational behavior feature template data set, the operational behavior feature template data set including at least one operational behavior feature template data;

If they match, the authentication passes.

[Claim 3] The working method of the wearable device according to claim 2, further comprising: sampling and detecting vibration generated by the user's N times of vibration operation, and obtaining N operation behavior sampling data sets, The operational behavior sampling data set includes at least one operational behavior characteristic sampling data;

The typical value or average value of the sampling data of the various operational behavior features in the N operational behavior sampling data sets is used as the operational behavior feature template data, and the operational behavior feature template data set is generated and saved.

[Claim 4] The working method of the wearable device according to claim 2, wherein the vibration characteristic detection data is any one of the following: vibration frequency, vibration rhythm, vibration strength, vibration intensity, and vibration number The vibration continues for a long time and the vibration interval is between turns.

[Claim 5] The working method of the wearable device according to claim 1, wherein the control instruction comprises: a payment confirmation instruction;

Before detecting the current vibration of the self, the method further includes: receiving a payment request instruction sent by the external device. The method for operating a wearable device according to claim 3, wherein before the sampling and detecting the vibration generated by the N-th vibration operation of the user, the method further comprises: receiving a template generation instruction sent by the external device.

The working method of the wearable device according to any one of claims 1 to 6, further comprising: generating at least one of signature data, verification result, encrypted data, and decrypted data, and the control instruction Transfer it together.

A wearable device, comprising: a detection module, an identity authentication module, a generation module, and a communication module, wherein

The detecting module is configured to detect the current vibration of the self, and generate a vibration detecting signal; the identity authentication module is configured to perform user identity authentication according to the vibration detecting signal; and the generating module is configured to generate and vibrate after the authentication is passed a control command corresponding to the detection signal;

The communication module is configured to transmit the control instruction outward.

The wearable device according to claim 8, wherein the identity authentication module comprises: a processing module, a comparison module, and a storage module, where

The processing module is configured to obtain a vibration feature detection data group according to the vibration detection signal, where the vibration feature detection data group includes at least one vibration feature detection data; and the comparison module is configured to use the vibration feature detection data group Comparing the operation behavior feature template data group stored by the storage module, the operation behavior feature template data group includes at least one operation behavior feature template data;

The storage module is configured to store the operation behavior feature template data group.

The wearable device according to claim 9, wherein

The detecting module is further configured to perform sampling detection on the vibration generated by the user's N times of vibration operations, and generate N vibration sampling signals;

The processing module is further configured to obtain N operation behavior sampling data groups according to the N vibration sampling signals, where the operation behavior sampling data group includes at least one operation behavior characteristic sampling data;

a template generating module, configured to sample the N operational behaviors in the data group A typical value or an average value of the behavior characteristic sampling data is used as the operation behavior feature template data, and the operation behavior feature template data group is generated and saved to the storage module.

The wearable device according to claim 8, wherein the control instruction used by the communication module for external transmission comprises a payment confirmation instruction;

The communication module is further configured to receive a payment request instruction sent by the external device before the detecting module detects its current vibration.

The wearable device according to claim 10, wherein the communication module is further configured to receive a template generation instruction sent by the external device before the detecting module samples and detects the vibration generated by the N times of the user's vibration operation. .

The wearable device according to any one of claims 8 to 12, further comprising: a security module, configured to generate at least one of signature data, verification result, encrypted data, and decrypted data; The module is further configured to transmit the data generated by the security module together with the control instruction.

A wearable device, comprising: a wearable body; and a detecting unit, a processing unit, a storage unit, and a communication unit disposed on the wearable body, wherein the detecting unit, the storage unit, and the communication unit are both The processing unit is connected, wherein the detecting unit is configured to detect a current vibration of the self in the working mode to generate a vibration detecting signal;

The storage unit is configured to store an operation behavior feature template data group, where the operation behavior feature template data group includes at least one operation behavior feature template data;

The processing unit is configured to perform user identity authentication according to the vibration detection signal and the operation behavior feature template data group in an operation mode; if the authentication is passed, generate a control instruction corresponding to the vibration detection signal;

The communication unit is configured to transmit the control instruction outward.

A wearable device according to claim 14, wherein

The detecting unit is further configured to sample and detect the vibration generated by the user under the N-th vibration operation in the template setting mode, and generate N vibration sampling signals;

The processing unit is further configured to: according to the N vibration sampling signals in a template setting mode Obtaining N operational behavior sampling data sets, the operational behavior sampling data set comprising at least one operational behavior characteristic sampling data; and sampling, by the N operational behaviors, typical values or average values of sampling data of various operational behavior features in the data set As the operation behavior feature template data, the operation behavior feature template data group is generated and saved to the storage unit.

The wearable device according to claim 14, wherein the communication unit is further configured to receive an external request instruction, and transmit the request instruction to the processing unit, after the processing unit receives the request instruction Entering the working mode and triggering the detecting unit to enter the working mode.

The wearable device according to claim 15, wherein the communication unit is further configured to receive an external template setting instruction, and transmit the template setting instruction to the processing unit, where the processing unit receives the template After the instruction is set, the template setting mode is entered, and the detecting unit is triggered to enter the template setting mode.

The wearable device according to claim 14, wherein the communication unit comprises at least one of Bluetooth, RCC, WiFi, Zigbee, and NFC.

The wearable device according to claim 14, wherein the wearable body is in the shape of a ring.

The wearable device according to any one of claims 14 to 19, further comprising: a security unit connected to the processing unit, configured to generate signature data, verification result, encrypted data, and decrypted data At least one of the communication units is further configured to transmit the data generated by the security unit together with the control instruction.