CN112382380A

Movatterモバイル変換

Info

Publication number: CN112382380A
Application number: CN202011157279.6A
Authority: CN
Inventors: 刘秋英
Original assignee: Xian Wanxiang Electronics Technology Co Ltd
Current assignee: Xian Wanxiang Electronics Technology Co Ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-02-19

Abstract

The invention provides an intelligent bracelet and a system, and relates to the technical field of wearable equipment, wherein the intelligent bracelet comprises a bracelet body and a circuit module, the bracelet body comprises a dial plate and a watchband, and the circuit module comprises a processing chip, a signal input module and a signal output module which are connected with the processing chip; the signal input module is used for acquiring target acquisition information and sending the target acquisition information to the processing chip; the processing chip is used for sending the target acquisition information to the corresponding virtual terminal, and the virtual terminal determines target coding information according to the target acquisition information and sends the target coding information to the processing chip; the processing chip is used for decoding and displaying the target coding information. The intelligent bracelet only needs to send the collected information to the virtual terminal, all business processing is completed by the virtual terminal, and the intelligent bracelet can analyze the target coding information, so that the operation burden of the intelligent bracelet is reduced.

Description

Intelligent bracelet and system

Technical Field

The utility model relates to a wearing equipment technical field especially relates to intelligent bracelet and system.

Background

Along with the development of intelligent science and technology, intelligent bracelet also produces in succession. The intelligent bracelet integrates a plurality of functions, such as recording a series of related data of fitness data, sleep quality, diet arrangement, habits and the like of a user, and can synchronize the data into the terminal equipment of the user, and the terminal equipment gives related suggestions to the user according to the analysis of the data, thereby playing a role of guiding healthy life through the data.

In the correlation technique, dispose treater, microphone, camera and other peripheral devices on the intelligent bracelet, all operations of intelligent bracelet are all carried out by local treater to the operation burden of intelligent bracelet has been increased.

Disclosure of Invention

The embodiment of the disclosure provides an intelligent bracelet and a system, which can solve the problem of increasing the operation burden of the intelligent bracelet in the prior art. The technical scheme is as follows:

according to a first aspect of the embodiments of the present disclosure, an intelligent bracelet is provided, which includes a bracelet body and a circuit module, wherein the bracelet body includes a dial and a watch band, and the circuit module includes a processing chip, and a signal input module and a signal output module connected to the processing chip;

the signal input module is used for acquiring target acquisition information and sending the target acquisition information to the processing chip;

the processing chip is used for sending the target acquisition information to a virtual terminal corresponding to the smart bracelet, so that the virtual terminal determines target coding information according to the target acquisition information and sends the target coding information to the processing chip;

the processing chip is further configured to decode the target encoding information and control the signal output module to display the decoded target encoding information.

The embodiment of the disclosure provides an intelligent bracelet, a signal input module sends acquired target acquisition information to a processing chip, the processing chip sends the acquired target acquisition information to a virtual terminal corresponding to the intelligent bracelet, the virtual terminal sends target coding information determined according to the target acquisition information to the processing chip, and the processing chip controls a signal output module to display the decoded target coding information. The intelligent bracelet only needs to send the collected information to the virtual terminal, all business processing is completed by the virtual terminal, and the intelligent bracelet can analyze the target coding information, so that the operation burden of the intelligent bracelet is reduced.

In one embodiment, the processing chip comprises a processor, a coding and decoding component connected with the processor; the coding and decoding component at least comprises one of the following components: the device comprises an audio coding and decoding module, a video coding and decoding module and an image coding and decoding module.

In one embodiment, the circuit module further comprises a cache component coupled to the processor; the cache assembly comprises an instruction cache module, a data cache module and a second-level cache module.

In one embodiment, the circuit module further comprises at least one of the following modules connected to the processor: the device comprises a data transmission module, a memory module and a data interface module.

In one embodiment, the signal input module includes at least one of: the device comprises a microphone, a positioning module, a camera module, a key module and a sensor assembly;

when the signal input module comprises the microphone, the microphone is connected with the processor through the audio coding and decoding module;

when the signal input module comprises the camera module, the camera module is connected with the processor through the video coding and decoding module, and/or the camera module is connected with the processor through the image coding and decoding module;

when the signal input module comprises the key module, the positioning module and the sensor assembly, the key module, the positioning module and the sensor assembly are all connected with the processor.

In one embodiment, the sensor assembly includes at least one of: heart rate detection module, body temperature detection module, face identification module, infrared imaging module, distance detection module, inertia measuring unit, gravity detection module, temperature and humidity detection module, fingerprint identification module and air quality detection module.

In one embodiment, the signal output module includes at least one of: a speaker and a display module;

when the signal output module comprises a loudspeaker, the loudspeaker is connected with the processor through the audio coding and decoding module;

when the signal output module comprises the display module, the display module is connected with the processor.

According to a second aspect of the embodiments of the present disclosure, there is provided an intelligent bracelet system, including a cloud server and the intelligent bracelet of the above embodiments, where the cloud server includes at least one virtual terminal;

the intelligent bracelet is used for acquiring target acquisition information and sending the target acquisition information to a virtual terminal corresponding to the intelligent bracelet;

the virtual terminal is used for determining target coding information according to the target acquisition information and sending the target coding information to the intelligent bracelet;

the intelligent bracelet is further used for decoding the target coding information and displaying the decoded target coding information.

In one embodiment, the system further comprises cloud terminal equipment;

the virtual terminal is further used for sending the target coding information to the cloud terminal equipment;

and the cloud terminal equipment is used for decoding the target coding information and displaying the decoded target coding information.

In one embodiment, the cloud server further comprises at least one first display module and at least one second display module; the first display module is a display module corresponding to the smart band, and the second display module is a display module corresponding to the cloud terminal device.

In one embodiment, the virtual terminal is specifically configured to generate a reference display interface according to the target acquisition information, and send the reference display interface to the first display module corresponding to the smart band;

the first display module is used for processing the reference display interface to obtain target coding information and sending the target coding information to the virtual terminal.

In an embodiment, the virtual terminal is further specifically configured to send the reference display interface to the second display module corresponding to the cloud terminal device;

and the second display module is used for processing the reference display interface to obtain target coding information and sending the target coding information to the virtual terminal.

In one embodiment, the target acquisition information includes target operation actions, and/or target sensing information.

In one embodiment, the target operation action comprises number information of a called device and a calling operation;

the intelligent bracelet is specifically used for generating first target operation information according to the target operation action and sending the first target operation information to the virtual terminal; the first target operation information comprises number information of the called equipment and the dialing operation;

the virtual terminal is specifically used for acquiring address information of a called cloud server corresponding to the called device according to the dialing operation and the number information of the called device, and the called cloud server is configured with a called virtual terminal corresponding to the called device; sending a call request to the called virtual terminal according to the address information of the called cloud server, so that the called virtual terminal sends target call request coded data determined according to the call request to the called equipment;

and the called device is used for decoding and displaying the target call request coded data.

In one embodiment, the called device is further configured to acquire a called operation action, generate second target operation information according to the called operation action, and send the second target operation information to the called virtual terminal; the second target operation action comprises an action of responding to the decoded target call request coded data;

the called virtual terminal is used for generating a called response interface according to the second target operation action and sending the called response interface to the virtual terminal;

the virtual terminal is further used for sending target response coded data obtained after the called response interface is processed to the intelligent bracelet;

the intelligent bracelet is also used for decoding and displaying the target response coded data.

In one embodiment, the target operation action comprises a target login action;

the smart bracelet is specifically used for generating third target operation information according to the target login action and sending the third target operation information to the cloud server; the third target operation information comprises login information, login actions, identification information of the intelligent bracelet and display information of the intelligent bracelet;

the cloud server is specifically used for determining a virtual terminal corresponding to the smart band according to the login information and determining a first display module corresponding to the smart band according to the identification information of the smart band;

the virtual terminal is specifically used for generating a reference login interface according to the login action and sending the reference login interface to the first display module;

the first display module is used for processing the reference login interface according to the display information of the intelligent bracelet to obtain target login coded data and sending the target login coded data to the intelligent bracelet;

and the intelligent bracelet is used for decoding the target login coded data and displaying the decoded target login coded data.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a structural diagram of an intelligent bracelet provided in an embodiment of the present disclosure;

fig. 2 is a structural diagram of an intelligent bracelet provided in an embodiment of the present disclosure;

fig. 3 is a structural diagram of an intelligent bracelet provided in an embodiment of the present disclosure;

fig. 4 is a structural diagram of an intelligent bracelet provided in an embodiment of the present disclosure;

fig. 5 is a frame diagram of an intelligent bracelet system provided by an embodiment of the present disclosure;

fig. 6 is a frame diagram of an intelligent bracelet system provided by an embodiment of the present disclosure;

fig. 7 is a frame diagram of an intelligent bracelet system provided by an embodiment of the disclosure;

fig. 8 is a schematic interface diagram of a display form provided by the embodiment of the present disclosure.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The embodiment of the present disclosure provides an intelligent bracelet, as shown in fig. 1, including bracelet body and circuit module, bracelet body includes dial plate and watchband, circuit module includingprocessing chip 1, withsignal input module 2 andsignal output module 3 thatprocessing chip 1 connects.

Thesignal input module 2 is configured to acquire target acquisition information and send the target acquisition information to theprocessing chip 1.

Theprocessing chip 1 is configured to send the target acquisition information to a virtual terminal corresponding to the smart bracelet, so that the virtual terminal determines target coding information according to the target acquisition information and sends the target coding information to theprocessing chip 1.

Theprocessing chip 1 is further configured to decode the target encoding information, and control thesignal output module 3 to display the decoded target encoding information.

As shown in fig. 2, thesignal input module 2 at least includes one of the following components: amicrophone 21, apositioning module 22, acamera module 23, akey module 24, and asensor assembly 25; thesignal output module 3 includes at least one of: aspeaker 31 and adisplay module 32; thePositioning module 22 comprises at least one of a Global Positioning System (GPS) Positioning, a Beidou Positioning and a community Positioning, and thesensor assembly 25 comprises at least one of a heart rate detection module, a body temperature detection module, a face recognition module, an infrared imaging module, a distance detection module, an inertial measurement unit, a gravity detection module, a temperature and humidity detection module, a fingerprint recognition module and an air quality detection module.

The heart rate detection module can be a reflection-type photoelectric sensor and is used for detecting heart rate information of a user; the body temperature detection module can be a thermistor and is used for detecting the body temperature of the user; the face recognition module is used for recognizing the face information of the user; the infrared imaging module is an infrared imager and is used for imaging the whole target in a surface form in real time; the distance detection module is used for measuring the distance between two objects; the inertial measurement unit is used for measuring three-axis attitude angles and accelerations of an object, generally, one inertial measurement unit comprises three single-axis accelerometers and three single-axis gyroscopes, the accelerometers detect acceleration signals of the object in three independent axes of a carrier coordinate system, and the gyroscopes detect angular velocity signals of the carrier relative to a navigation coordinate system, measure the angular velocity and the acceleration of the object in a three-dimensional space, and calculate the attitude of the object according to the angular velocity and the acceleration.

The gravity detection module is a gravity sensor and is used for measuring the weight of an object; the temperature and humidity detection module is used for detecting temperature and humidity information of an environment where a user is located; the fingerprint identification module is used for identifying user fingerprint information; the air quality detection module is a gas sensor and is used for detecting the gas content in the air in the environment where the user is located.

Illustratively, taking target acquisition information as target sensing information as an example, when each module in thesensor assembly 25 acquires corresponding target sensing information, the target sensing information is sent to theprocessing chip 1, theprocessing chip 1 sends the target sensing information to a virtual terminal registered by the smart band, the virtual terminal performs integration analysis on each target sensing information to obtain a sensing data display interface, the sensing data display interface is sent to thedisplay module 32 corresponding to the smart band, thedisplay module 32 performs corresponding processing such as picture reduction, picture enlargement, resolution adjustment or the like on the sensing data display interface, then codes the sensing data display interface to obtain target coding information, and returns the target coding information to the virtual terminal, the virtual terminal returns the target coding information to theprocessing chip 1, theprocessing chip 1 decodes the received target coding information and then controls thesignal output module 3 to display, the specific display mode may be direct display through thedisplay module 32, or voice broadcast through thespeaker 31.

It should be noted that the target acquisition information may also be a target operation action, and the target operation action may be a call making operation, a video obtaining operation, an audio obtaining operation, a web browsing operation, a login operation, and the like, which is not limited in this disclosure.

Further, as shown in fig. 2, theprocessing chip 1 includes aprocessor 11, and a codec component connected to theprocessor 11; the coding and decoding component at least comprises one of the following components: anaudio codec module 12, avideo codec module 13, and animage codec module 14.

When thesignal input module 2 comprises themicrophone 21, themicrophone 21 is connected with theprocessor 11 through theaudio codec module 12; when thesignal input module 2 comprises thecamera module 23, thecamera module 23 is connected with theprocessor 11 through the video coding anddecoding module 13, and/or thecamera module 23 is connected with theprocessor 11 through the image coding anddecoding module 14; when thesignal input module 2 includes thekey module 24, thepositioning module 22 and thesensor assembly 25, thekey module 24, thepositioning module 22 and thesensor assembly 25 are all connected to theprocessor 11.

When thesignal output module 3 comprises aspeaker 31, thespeaker 31 is connected to theprocessor 11 through theaudio codec module 12; when thesignal output module 3 includes thedisplay module 32, thedisplay module 32 is connected to theprocessor 11.

Illustratively, theaudio codec module 12 is configured to encode or decode voice data; thevideo codec module 13 is configured to encode or decode video data, and may be an H264 codec or an H265 codec; theimage codec module 14 integrates an image transmission protocol based on image processing, for example, the image transmission protocol is a vttp (real-time image compression transmission protocol) protocol, which is a real-time image compression transmission protocol and is used for encoding or decoding image data; according to the video encoding and decoding method, the video encoding anddecoding module 13 is used for encoding and decoding the video data specially, and the image encoding anddecoding module 14 is used for encoding and decoding the image data specially, so that the image is clearer and the time delay of encoding and decoding can be reduced compared with the case that the video and the image are encoded and decoded by the video encoding and decoding module in the prior art.

It should be noted that, when receiving the target encoded data, theprocessor 11 of the smart band first determines the type of the target encoded data, and when determining that the type of the target encoded data is voice data, controls the audio encoding anddecoding module 12 to perform decoding processing; when the type of the target encoding data is determined to be video data, controlling the video encoding anddecoding module 13 to perform decoding processing; when the type of the target encoded data is determined to be image data, theimage codec module 14 is controlled to perform decoding processing.

Further, as shown in fig. 3, the circuit module further includes acache component 4 connected to theprocessor 11; thecache component 4 comprises an instruction cache module, a data cache module and a second-level cache module.

The instruction cache module generally fetches instructions in sequence, and jumps when encountering branch instructions; the access mode of the data cache module is changed greatly, and the instruction only has reading and refilling and is not written; and data is read and written, so that the instructions and the data are separated, the instructions and the data can be ensured to be independent, and the interference is reduced. That is, instructions needed by theprocessor 11 are stored in the instruction cache module, and in the instruction fetching stage of theprocessor 11, addresses provided to the instruction cache module by the program counter can be used by theprocessor 11 to fetch the needed instructions; data is stored in the data cache module, and data of an address to be operated for the downloading and storing instruction is provided. In addition, the interface between the instruction cache module and theprocessor 11 is unidirectional, and the interface between the data cache module and theprocessor 11 is bidirectional. The reason for this is that the instruction cache module stores instructions and does not need to change the value of the stored data; the data cache module stores data, and the value of the data can be changed according to different instruction operations. For example, when the store instruction is executed, data is written into a corresponding address in the data cache module.

The second level cache module is on a separate chip (possibly on an expansion card) and can be accessed much faster than the large main memory. Typically a second level cache is 1024Kb (kilobytes) in size.

Further, as shown in fig. 4, the circuit module further includes at least one of the following modules connected to the processor 11: adata transmission module 5, amemory module 6 and adata interface module 7.

Thedata transmission module 5 may be a Wireless transmission module, and the Wireless transmission module is integrated with any one or more modern digital communication networks among 2G, 3G, 4G, 5G, WIFI (Wireless-Fidelity), bluetooth, ZigBee (ZigBee), MESH (multi-hop), COFDM (coded Orthogonal Frequency Division Multiplexing), WOFDM (Wideband Orthogonal Frequency Division Multiplexing), intercom, and the like.

Thememory module 6 may be a DDR (Double Data Rate) SDRAM (synchronous dynamic random access memory), which is a high-speed CMOS (Complementary Metal Oxide Semiconductor) dynamic random access memory.

Thedata interface module 7 at least comprises a first type interface and a second type interface, and the first type interface at least comprises one of the following interfaces: an emmc (embedded Multi Media Card) interface, an SDIO (Secure Digital Input and Output Card) interface, a GMAC (gigabit ethernet Media access control) interface, a USB (Universal Serial Bus) interface, a Type-C interface, and an I2S (Inter-IC Sound, integrated circuit-embedded audio Bus) interface; the second type of interface includes at least one of: an RTC Interface, an I2C (Inter-Integrated Circuit) Interface, a GPIOS (General-purpose input/output) Interface, a UART (Universal Asynchronous Receiver/Transmitter) Interface, and an SPI (Serial Peripheral Interface) Interface. The I2C bus is a bus standard widely adopted in the field of microelectronic communication control, is a special form of synchronous communication, and has the advantages of few interface lines, simple control mode, small device packaging form, high communication speed and the like, for example, a temperature and humidity sensor is connected with a processing chip through an I2C interface; the SPI interface may be connected to a Display module, which may be a touch screen, an LCD (Liquid Crystal Display), or the like.

It should be noted that the smart bracelet of the present disclosure may further include a graphics accelerator connected to theprocessor 11, and the graphics accelerator is used for processing the graphics rendering of the body.

It should be noted that each sensor in thesensor assembly 25 may also be connected to theprocessor 11 through the first type interface or the second type interface.

It should be noted that thesignal input module 2, thesignal output module 3, thedata transmission module 5, thememory module 6, thebuffer module 4, thedata interface module 7, and the like may be separately disposed in the smart bracelet body, or may be integrated in theprocessing chip 1, and the integration level of the chip may be increased and the volume of the chip may be reduced when theprocessing chip 1 is integrated.

The embodiment of the disclosure provides an intelligent bracelet, asignal input module 2 sends acquired target acquisition information to aprocessing chip 1, theprocessing chip 1 sends the acquired target acquisition information to a virtual terminal corresponding to the intelligent bracelet, the virtual terminal sends target coding information determined according to the target acquisition information to theprocessing chip 1, and theprocessing chip 1 decodes and then controls asignal output module 3 to display the target coding information. The intelligent bracelet only needs to send the collected information to the virtual terminal, all business processing is completed by the virtual terminal, and the intelligent bracelet can analyze the target coding information, so that the operation burden of the intelligent bracelet is reduced.

Fig. 5 is a frame diagram of an intelligent bracelet system according to an embodiment of the present disclosure, where the intelligent bracelet system shown in fig. 5 includes acloud server 501 and at least oneintelligent bracelet 502 according to the above embodiment; thecloud server 501 includes at least onevirtual terminal 5011.

Thesmart band 502 is configured to acquire target collection information and send the target collection information to the virtual terminal 5011 corresponding to the smart band.

Thevirtual terminal 5011 is configured to determine target coding information according to the target collection information, and send the target coding information to thesmart band 502.

Thesmart band 502 is further configured to decode the target encoding information, and display the decoded target encoding information.

The target acquisition information comprises target operation actions and/or target sensing information.

Illustratively, taking target acquisition information as target sensing information as an example, each module in the sensor assembly is used for acquiring corresponding target sensing information in real time, so that thesmart band 502 acquires each target sensing information and transmits the target sensing information to the virtual terminal 5011 registered in thesmart band 502, thevirtual terminal 5011 integrates and analyzes each target sensing information to obtain a sensing data display interface, the sensing data display interface is transmitted to the display module corresponding to thesmart band 502, the display module performs corresponding processing such as picture reduction, picture enlargement, or resolution adjustment on the sensing data display interface, and then codes to obtain target coding information, and returns the target coding data to thevirtual terminal 5011, the virtual terminal 5011 returns to thesmart band 502, thesmart band 502 decodes and then displays the received target coding data, the specific display mode can be direct display through a display module, and voice broadcast can also be carried out through a loudspeaker.

Further, as shown in fig. 6, the smart band system further includes acloud terminal device 503.

Thevirtual terminal 502 is further configured to send the target encoding information to thecloud terminal device 503.

Thecloud terminal device 503 is configured to decode the target encoding information, and display the decoded target encoding information.

Thecloud terminal device 503 and thesmart band 502 share one login information to log in the virtual terminal, and the login information may be account password information, fingerprint information, face information, and the like. A secure network channel is established between eachcloud terminal device 503 and thecloud server 501, and data interaction, such as audio data interaction, video data interaction and the like, is performed between thecloud terminal device 503 and thecloud server 501 based on the network channel; the network channels between thecloud terminal device 503 and thecloud server 501 include a first network channel between thecloud terminal device 503 and the network side device and a second network channel between the network side device and thecloud server 501; a secure network channel is established between eachsmart band 502 and thecloud server 501, and data interaction, such as audio data interaction, video data interaction and the like, is performed between thesmart bands 502 and thecloud server 501 based on the network channel; the network channels between thesmart band 502 and thecloud server 501 include a first network channel between thesmart band 502 and the network side device and a second network channel between the network side device and thecloud server 501; the network side device is, for example, a base station.

For example, when thevirtual terminal 5011 obtains the sensing data display interface, the sensing data display interface may also be sent to a display module corresponding to thecloud terminal device 503, the display module corresponding to thecloud terminal device 503 performs corresponding processing such as picture reduction, picture enlargement, resolution adjustment, or interface detail refinement on the sensing data display interface, and then performs coding to obtain target coding information, and returns the target coding information to thevirtual terminal 5011, the virtual terminal 5011 returns to thecloud terminal device 503, thecloud terminal device 503 decodes and displays the received target coding information, and a specific display mode may be direct display through the display module, or voice broadcast through a speaker, or voice broadcast through an earphone. As can be seen from the above, thesmart band 502 and thecloud terminal device 503 in the present disclosure are interacted through thecloud server 501 and thevirtual terminal 501, and are not limited by a transmission distance; and connect the interaction through the bluetooth between bracelet and the cell-phone among the prior art, receive transmission distance restriction.

Further, as shown in fig. 7, thecloud server 501 further includes at least onefirst display module 5012 and at least onesecond display module 5013; thefirst display module 5012 is a display module corresponding to thesmart band 502, and thesecond display module 5013 is a display module corresponding to thecloud terminal 503.

Thefirst display module 5012 and thesecond display module 5013 are arranged for different resolutions, different display forms, and the like of thesmart band 502 and thecloud terminal device 503, and thefirst display module 5012 is configured to perform preprocessing on an image before encoding, such as reduction or enlargement processing, simple display preprocessing on an image interface, and the like, according to the resolution and the display form of thesmart band 502; thesecond display module 5013 is configured to perform preprocessing on the image before encoding, such as reduction or enlargement processing, image interface detailed display preprocessing, and the like, according to the resolution and display form of thecloud terminal device 503.

It should be noted that thecloud server 501 stores in advance a corresponding relationship between the identification information of eachsmart band 502 and display information, where the display information includes a display resolution and a display form, and the display form includes a detailed version and a brief version.

Further, thevirtual terminal 5011 is specifically configured to generate a reference display interface according to the target acquisition information, and send the reference display interface to thefirst display module 5012 corresponding to thesmart band 502.

Thefirst display module 5012 is configured to process the reference display interface to obtain target coding information, and send the target coding information to thevirtual terminal 5011.

For example, when thevirtual terminal 5011 receives the target acquisition information, a specific method for determining the target encoding information according to the target acquisition information is as follows: thevirtual terminal 5011 comprises an acquisition module, a processing module and a virtual network card, the processing module generates a reference display interface according to target acquisition information, the acquisition module acquires data of the reference display interface and sends the acquired data to afirst display module 5012 corresponding to the smart bracelet, thefirst display module 5012 preprocesses corresponding data and encodes the data to finally obtain target coding information, the target coding information is returned to the processing module, the processing module sends the target coding information to thesmart bracelet 502 through the virtual network card, thesmart bracelet 502 performs decoding display, and for example, the display form of thesmart bracelet 502 is simple display.

Further, thevirtual terminal 5011 is further specifically configured to send the reference display interface to thesecond display module 5013 corresponding to thecloud terminal device 503.

Thesecond display module 5013 is configured to process the reference display interface to obtain target coding information, and send the target coding information to thevirtual terminal 5011.

For example, the acquisition module may further send the acquired data of the reference display interface to asecond display module 5013 corresponding to thecloud terminal device 503, thesecond display module 5013 performs preprocessing on the corresponding data and then encodes the data to obtain target encoding information, the target encoding information is returned to the processing module, the processing module sends the target encoding information to thecloud terminal device 503 through a virtual network card, and thecloud terminal device 503 performs decoding display, for example, if thecloud terminal device 503 is a mobile phone, the display form is normal detailed display; if thecloud terminal device 503 is a tablet computer, the display form is an enlarged display. As shown in fig. 8, the left side view is a normal detailed display, and the right side view is a simplified display.

Further, the target operation action comprises number information of the called device and a call-making operation.

Thesmart band 502 is specifically configured to generate first target operation information according to the target operation action, and send the first target operation information to thevirtual terminal 5011; the first target operation information comprises number information of the called device and the dialing operation.

Thevirtual terminal 5011 is specifically configured to obtain address information of a called cloud server corresponding to the called device according to the call dialing operation and number information of the called device, where the called cloud server is configured with a called virtual terminal corresponding to the called device; and sending a call request to the called virtual terminal according to the address information of the called cloud server, so that the called virtual terminal sends target call request encoding data determined according to the call request to the called equipment.

The called device can be a called intelligent bracelet and/or a called cloud terminal device.

Taking called equipment as a called intelligent bracelet and called cloud terminal equipment as an example, when a called virtual terminal receives a call request, a call request interface is generated according to the call request, the generated call request interface is collected, the call request interface is respectively sent to a first display module 5012 and a second display module 5013, the call request interface is respectively subjected to display preprocessing and coding by the first display module 5012 and the second display module 5013 to obtain target call request coded data, the target call request coded data obtained by the first display module 5012 is sent to the intelligent bracelet 502 through a virtual network, a physical network card and a base station, and the intelligent bracelet 502 decodes the target call request coded data to generate image data which is displayed by the display modules; the target call request encoded data obtained by the second display module 5013 is sent to the cloud terminal device 503 through the virtual network card, the physical network and the base station, and the cloud terminal device 503 decodes the target call request encoded data to generate image data, and displays the image data through the display module; at this time, the called user can see the call request interface initiated by the calling user through the smart band 502 on the called smart band and the called cloud terminal device.

It should be noted that, the user may also input the phone number of the called device and the voice information of the call through the microphone on thesmart band 502, and thesmart band 502 generates the first target operation information according to the received voice information.

It should be noted that the number information of the called device may be a traditional mobile phone number, or may be virtualized number information, or may be that a traditional mobile phone number is converted into corresponding IP number information on the virtual terminal side, which is not limited in this disclosure.

It should be noted that, in practical applications, if a user inputs through a touch screen, every time the user inputs a number on thesmart band 502, a processing chip of thesmart band 502 collects a corresponding operation action and sends the collected operation action to thevirtual terminal 5011, thevirtual terminal 5011 generates a corresponding desktop image according to the operation action, the desktop image is adaptively adjusted and encoded by a corresponding display module and then returns to thesmart band 502, or thecloud terminal device 503, or returns to thesmart band 502 and thecloud terminal device 503 at the same time, and thesmart band 502 and thecloud terminal device 503 perform decoding display.

Further, the called device is further configured to acquire a called operation action, generate second target operation information according to the called operation action, and send the second target operation information to the called virtual terminal; the second target operation action comprises an action of responding to the decoded target call request coded data.

And the called virtual terminal is used for generating a called response interface according to the second target operation action and sending the called response interface to the virtual terminal.

Thevirtual terminal 5011 is further configured to send target response encoded data obtained by processing the called response interface to thesmart band 502.

Thesmart band 502 is further configured to decode the target response encoded data and display the decoded target response encoded data.

For example, when the called user sees a call request interface initiated by the calling user through thesmart band 502 on the called smart band and the called cloud terminal device, a response action, that is, a called operation action, can be made according to an actual situation, and if the called user determines to answer the call, an answering operation can be input through a touch screen or a key, that is, the called user can press an answering key; or the called user triggers the called equipment to carry out voice acquisition answering operation according to a preset mode; if the called user determines to reject the call, the rejection operation can be input through the touch screen or the keys, namely the called user can press the rejection keys; or the called user triggers the called equipment to carry out voice acquisition rejection operation according to a preset mode.

Taking the called operation action of the called user for answering the call as an example, when the called device acquires the called operation action, the called device generates second target operation information according to the called operation action and identification information of the called device, and sends the second target operation information to a called virtual terminal logged in by the called device, the called virtual terminal analyzes the second target operation information, executes the answering call operation corresponding to the second target operation information, sends a reply message allowing call connection establishment to a virtual terminal 5011 corresponding to the calling user, namely the called virtual terminal generates a called response interface, namely an answering interface, according to the second target operation information, and sends the answering interface to a virtual terminal 5011 corresponding to the calling user, the virtual terminal 5011 corresponding to the calling user controls a corresponding display module to preprocess and code the called response interface, and finally sends the coded target response coded data to theintelligent bracelet 502, thesmart band 502 decodes and displays the target response coded data, so that the calling user can see that the called user agrees to answer the call, and then the call is carried out.

It should be noted that the whole flow of the called operation action of rejecting the call by the called party, the whole flow of the subsequent call connection for making a call, and the whole flow of hanging up the call are similar to the whole flow of the called operation action of answering the call by the called party, and the whole flow of answering the call by the called party may be referred to specifically, and is not described herein again.

It should be noted that the display interface of thesmart band 502 is further provided with a call transfer key, that is, after the user selects the call transfer key, thesmart band 502 sends a control message corresponding to the key to thecloud server 501, and thecloud server 501 controls the corresponding virtual terminal 5011 to no longer send the display interface to the display module corresponding to thesmart band 502 until the call is ended.

It should be noted that the voice call between the cloud terminal device and the cloud terminal device is implemented through the PS domain, the data service is transmitted, and when the voice call is performed through the PS domain, different users may share the same resource, for example, the voice call between thecloud terminal device 1 and thecloud terminal device 2, and the voice call between thecloud terminal device 3 and thecloud terminal device 4 may share the same resource.

Further, the target operation action comprises a target login action.

Thesmart band 502 is specifically configured to generate third target operation information according to the target login action, and send the third target operation information to thecloud server 501; the third target operation information comprises login information, login actions, identification information of the intelligent bracelet and display information of the intelligent bracelet.

Thecloud server 501 is specifically configured to determine the virtual terminal corresponding to thesmart band 502 according to the login information, and determine thefirst display module 5012 corresponding to thesmart band 502 according to the identification information of the smart band.

Thevirtual terminal 5011 is specifically configured to generate a reference login interface according to the login action, and send the reference login interface to thefirst display module 5012.

Thefirst display module 5012 is configured to process the reference login interface according to the display information of thesmart band 502 to obtain target login encoded data, and send the target login encoded data to thesmart band 502.

Thesmart band 502 is used for decoding the target login coded data and displaying the decoded target login coded data.

The login information can also be account password information, or voice information, or fingerprint information, or face information, etc.; the identification information of theintelligent bracelet 1 can be information such as a hardware identification code which can uniquely distinguish theintelligent bracelet 1; the display information includes resolution and a display form, or the display information includes resolution and a device type identifier, and thecloud server 501 stores a correspondence between the device type identifier and the display form, where the device type identifier may be a watch, a bracelet, a mobile phone, or the like.

Illustratively, the smart band 502 and the cloud terminal device 503 share one account a, a user inputs login information on a display interface of the smart band 502, the login information is the account a and a password, and a login key is clicked, so that the smart band 502 obtains a target login action of the user, generates third target operation information according to the target login action, identification information of the smart band 502, the account a and the password, and display information of the smart band 502, and sends the third target operation information to the cloud server 501, the cloud server 501 analyzes the third target operation information, determines a corresponding virtual terminal according to a corresponding relationship between the account and the virtual terminal, and determines a display module corresponding to the smart band 502 according to a corresponding relationship between the identification information of the smart band 502 and the display module, namely, the first display module 5012; and then the target login operation is sent to the virtual terminal 5011, the virtual terminal 5011 generates a rendering instruction of a window picture according to the login action, the window picture is rendered according to the rendering instruction to obtain a reference login interface, the reference login interface is sent to the determined first display module 5012, the first display module 5012 preprocesses and codes image information of the reference login interface according to display information of the smart bracelet 502 to obtain target login coded data, the target login coded data are finally returned to the virtual terminal 5011 and sent to the smart bracelet 502 by the virtual terminal 5011, the target login coded data are decoded by the smart bracelet 502 and then displayed, and therefore the process that the smart bracelet 502 logs in the virtual terminal is achieved.

It should be noted that a process of thecloud terminal device 503 logging in thevirtual terminal 5011 is the same as the process of thesmart band 502 logging in thevirtual terminal 5011, and specifically, reference may be made to the process of thesmart band 502 logging in thevirtual terminal 5011, which is not described herein again.

It should be noted that thecloud server 501 includes a management module, and the management module executes other services than the service processed by thevirtual terminal 5011.

When two or morevirtual terminals 5011 are included, the twovirtual terminals 5011 may be in thesame cloud server 501, or may be controlled by a management module in thecloud server 501 indifferent cloud servers 501 when the twovirtual terminals 5011 are in thesame cloud server 501.

It should be noted that multiple threads may be run in thevirtual terminal 5011, and one thread is specially started for transmission and processing of health data, so as to ensure that the health data uploading service is not interrupted by other services such as a call.

The embodiment of the disclosure provides an intelligent bracelet system, which comprises anintelligent bracelet 502,cloud terminal equipment 503 and acloud server 501, wherein theintelligent bracelet 502 sends acquired target acquisition information to a virtual terminal 5011 corresponding to theintelligent bracelet 502, thevirtual terminal 5011 sends target coding information determined according to the target acquisition information to theintelligent bracelet 502 and thecloud terminal equipment 503, and theintelligent bracelet 502 and thecloud terminal equipment 503 are displayed after decoding. It can be known that, according to thesmart band 502 and thecloud terminal device 503, all that is needed is to send the collected information to thevirtual terminal 5011, all business processes are completed by thevirtual terminal 5011, and thesmart band 502 and thecloud terminal device 503 can analyze the target coding information, so that the operation burden of thesmart band 502 and thecloud terminal device 503 is reduced, and the endurance time of thesmart band 502 and thecloud terminal device 503 is prolonged.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims

1. An intelligent bracelet is characterized by comprising a bracelet body and a circuit module, wherein the bracelet body comprises a dial plate and a watchband, and the circuit module comprises a processing chip, a signal input module and a signal output module which are connected with the processing chip;

2. The smart bracelet of claim 1, wherein the processing chip comprises a processor, a coding and decoding component connected with the processor; the coding and decoding component at least comprises one of the following components: the device comprises an audio coding and decoding module, a video coding and decoding module and an image coding and decoding module.

3. The smart bracelet of claim 2, wherein the circuit module further comprises a cache component connected with the processor; the cache assembly comprises an instruction cache module, a data cache module and a second-level cache module.

4. The smart bracelet of claim 2, wherein the circuit module further comprises at least one of the following modules connected with the processor: the device comprises a data transmission module, a memory module and a data interface module.

5. The smart bracelet of claim 2, wherein the signal input module comprises at least one of: the device comprises a microphone, a positioning module, a camera module, a key module and a sensor assembly;

6. Intelligent bracelet according to claim 5, characterized in that said sensor assembly comprises at least one of: heart rate detection module, body temperature detection module, face identification module, infrared imaging module, distance detection module, inertia measuring unit, gravity detection module, temperature and humidity detection module, fingerprint identification module and air quality detection module.

7. The smart bracelet of claim 2, wherein the signal output module comprises at least one of: a speaker and a display module;

8. An intelligent bracelet system comprising a cloud server and the intelligent bracelet of any one of claims 1-7, the cloud server comprising at least one virtual terminal;

9. The system of claim 8, further comprising a cloud end device;

10. The system of claim 9, wherein the cloud server further comprises at least one first display module and at least one second display module; the first display module is a display module corresponding to the smart band, and the second display module is a display module corresponding to the cloud terminal device.

11. The system of claim 10,

the virtual terminal is specifically used for generating a reference display interface according to the target acquisition information and sending the reference display interface to the first display module corresponding to the smart band;

12. The system of claim 11,

the virtual terminal is further specifically configured to send the reference display interface to the second display module corresponding to the cloud terminal device;

13. The system of claim 12, wherein the target acquisition information comprises target operation actions, and/or target sensing information.

14. The system of claim 13, wherein the target operation action comprises number information of a called device and a call-making operation;

15. The system of claim 14,

the called device is also used for acquiring a called operation action, generating second target operation information according to the called operation action and sending the second target operation information to the called virtual terminal; the second target operation action comprises an action of responding to the decoded target call request coded data;

16. The system of claim 13, wherein the target operation action comprises a target login action;