CN110855452A - Intelligent wearable device, mobile terminal, remote starting system and method - Google Patents

Abstract

The invention provides intelligent wearable equipment, a mobile terminal, a remote starting system and a remote starting method, wherein the intelligent wearable equipment comprises a data transmission module and a control module which are independently powered; the data transmission module establishes data connection with the connection terminal when the intelligent wearable device is powered off; the data transmission module receives a starting-up instruction sent by the connection terminal; and the control module starts the starting according to the starting instruction received by the data transmission module. The invention ensures that the guardian can also control the intelligent wearable device to start up through a remote instruction even if the intelligent wearable device is in a power-off state, thereby conveniently contacting the person under guardianship.

Description

Intelligent wearable device, mobile terminal, remote starting system and method

Technical Field

The invention relates to the technical field of intelligent terminals, in particular to an intelligent wearable device, a mobile terminal, a remote starting system and a remote starting method.

Background

With the development of intelligent terminals, for people needing to be monitored, such as children and old people, a guardian can contact or check the current state of the monitored terminal at any time by binding the monitored terminal on the monitored person. However, sometimes parents are reluctant to know their own location and may shut down the terminal actively, or an old person may not contact a person under guardianship due to unskilled and mishandled operations to shut down the terminal, so that a method and a system for remotely controlling the intelligent terminal to be powered on are needed at present, and the powered-off terminal is remotely controlled to be powered on.

Disclosure of Invention

The invention aims to provide an intelligent wearable device, a mobile terminal, a remote power-on system and a remote power-on method, which can enable a guardian to control the intelligent wearable device to be powered on through a remote instruction even if the intelligent wearable device is powered off, so that the guardian can conveniently contact a person under guardianship.

The technical scheme provided by the invention is as follows:

the invention provides intelligent wearable equipment, which comprises a data transmission module and a control module, wherein the data transmission module and the control module are independently powered;

the data transmission module establishes data connection with the connection terminal when the intelligent wearable device is powered off;

the data transmission module receives a starting-up instruction sent by the connection terminal;

and the control module starts the starting according to the starting instruction received by the data transmission module.

Further, the data transmission module further includes:

the instruction receiving unit is used for receiving a starting-up instruction forwarded by the connecting terminal, wherein the starting-up instruction is sent to the connecting terminal by the mobile terminal; or the like, or, alternatively,

the instruction receiving unit receives a starting-up instruction sent by the connection terminal, wherein the starting-up instruction is generated by the connection terminal.

Further, the method also comprises the following steps:

the information acquisition module acquires own equipment information, wherein the equipment information comprises identification information and residual electric quantity information of the intelligent wearable equipment;

and the data transmission module sends the equipment information acquired by the information acquisition module and the identification information of the connection terminal to a server through the connection terminal.

Further, the method also comprises the following steps:

the data transmission module sends the device information of the data transmission module to another shutdown intelligent wearable device when the data transmission module is connected with the other shutdown intelligent wearable device, and receives the device information of the other shutdown intelligent wearable device, wherein the other shutdown intelligent wearable device is provided with an independent power supply data transmission module;

and the data transmission module establishes data connection with the connection terminal, and sends the equipment information of the data transmission module, the equipment information of other intelligent wearable equipment received by the data transmission module and the identification information of the connection terminal to the server through the connection terminal.

The present invention also provides a mobile terminal, comprising:

the information acquisition module is used for acquiring the state information of the associated intelligent wearable device through a server when the associated intelligent wearable device is powered off, wherein the state information comprises the identification information of the associated intelligent wearable device, the residual electric quantity information and the identification information of a connection terminal of the associated intelligent wearable device;

the instruction acquisition module is used for acquiring a starting instruction;

and the instruction sending module is used for sending the starting-up instruction acquired by the instruction acquisition module to the associated connection terminal of the intelligent wearable device according to the state information acquired by the information acquisition module.

Further, the method also comprises the following steps:

the association registration module is used for acquiring identification information of the mobile terminal and identification information of a plurality of intelligent wearable devices to be associated, registering the identification information on a server, and associating the mobile terminal with the plurality of intelligent wearable devices to be associated through the server.

The invention also provides a remote starting system which comprises the intelligent wearable equipment and the connection terminal; the intelligent wearable equipment is provided with an independent power supply data transmission module;

the intelligent wearable device establishes data connection with the connection terminal through the data transmission module when the intelligent wearable device is turned off;

the intelligent wearable device receives the starting-up instruction sent by the connection terminal through the data transmission module and starts up the intelligent wearable device.

Further, the system also comprises a server and a mobile terminal;

the intelligent wearable device collects self device information, and transmits the self device information to the connection terminal through the data transmission module, wherein the device information comprises identification information and residual electric quantity information of the intelligent wearable device;

the connection terminal sends the equipment information of the intelligent wearable equipment and the identification information of the intelligent wearable equipment to the server;

if the connection terminal is the associated terminal of the intelligent wearable device, state information of the intelligent wearable device is obtained through the server, a starting instruction is generated and transmitted to the intelligent wearable device through the data transmission module, and the state information comprises identification information of the associated intelligent wearable device, residual electric quantity information and identification information of the connection terminal of the associated intelligent wearable device; or

If the mobile terminal is the associated terminal of the intelligent wearable device, the state information of the intelligent wearable device is obtained through the server, and a starting instruction is generated and sent to the connecting terminal according to the state information;

the connection terminal transmits the starting-up instruction sent by the mobile terminal to the intelligent wearable device through the data transmission module.

The invention also provides a remote starting method, which is applied to intelligent wearable equipment comprising an independent power supply data transmission module and comprises the following steps:

when the intelligent wearable device is powered off, the intelligent wearable device establishes data connection with a connection terminal through the data transmission module;

and the intelligent wearable equipment receives the starting-up instruction sent by the connection terminal to start up the computer.

Further, before the intelligent wearable device receives the start instruction sent by the connection terminal and starts the start, the method further includes:

the intelligent wearable device collects self device information, and transmits the self device information to the connection terminal through the data transmission module, wherein the device information comprises identification information and residual electric quantity information of the intelligent wearable device;

the connection terminal sends the equipment information of the intelligent wearable equipment and the identification information of the connection terminal to the server;

if the connection terminal is the associated terminal of the intelligent wearable device, the connection terminal acquires state information of the intelligent wearable device through the server, generates a starting instruction and transmits the starting instruction to the intelligent wearable device through the data transmission module, wherein the state information comprises identification information of the associated intelligent wearable device, residual electric quantity information and identification information of the connection terminal of the associated intelligent wearable device; or

If the mobile terminal is the associated terminal of the intelligent wearable device, the mobile terminal acquires the state information of the intelligent wearable device through the server, generates a starting instruction and sends the starting instruction to the connection terminal according to the state information;

and the connecting terminal transmits the starting-up instruction sent by the mobile terminal to the intelligent wearable device through the data transmission module.

By the intelligent wearing equipment, the mobile terminal, the remote starting system and the method, even if the intelligent wearing equipment is in a power-off state, a guardian can control the intelligent wearing equipment to start through a remote instruction, so that the guardian can conveniently contact the person under guardianship.

Drawings

The above features, technical features, advantages and implementations of an intelligent wearable device, a mobile terminal, a remote booting system and method will be further described in the following detailed description of preferred embodiments with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an embodiment of an intelligent wearable device of the invention;

fig. 2 is a schematic structural diagram of another embodiment of an intelligent wearable device according to the invention;

FIG. 3 is a block diagram of one embodiment of a mobile terminal of the present invention;

FIG. 4 is a block diagram of an embodiment of a remote boot system according to the invention;

FIG. 5 is a flowchart of an embodiment of a remote boot method of the present invention.

The reference numbers illustrate:

100 intelligent wearable device 110 data transmission module 120 control module 130 information acquisition module

200 mobile terminal 210 information acquisition module 220 instruction acquisition module 230 instruction sending module

300 connecting terminal

400 server

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the present application. However, it will be apparent to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically depicted, or only one of them is labeled. In this document, "one" means not only "only one" but also a case of "more than one".

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In particular implementations, the terminal devices described in embodiments of the present application include, but are not limited to, other portable devices such as mobile phones, laptop computers, family computers, or tablet computers having touch sensitive surfaces (e.g., touch screen displays and/or touch pads). It should also be understood that in some embodiments the terminal device is not a portable communication device, but is a desktop computer having a touch-sensitive surface (e.g., a touch screen display and/or touchpad).

In the discussion that follows, a terminal device that includes a display and a touch-sensitive surface is described. However, it should be understood that the terminal device may include one or more other physical user interface devices such as a physical keyboard, mouse, and/or joystick.

The terminal device supports various applications, such as one or more of the following: a drawing application, a presentation application, a network creation application, a word processing application, a disc burning application, a spreadsheet application, a gaming application, a telephone application, a video conferencing application, an email application, an instant messaging application, an exercise support application, a photo management application, a digital camera application, a digital video camera application, a Web browsing application, a digital music player application, and/or a digital video player application.

Various applications that may be executed on the terminal device may use at least one common physical user interface device, such as a touch-sensitive surface. One or more functions of the touch-sensitive surface and corresponding information displayed on the terminal can be adjusted and/or changed between applications and/or within respective applications. In this way, a common physical architecture (e.g., touch-sensitive surface) of the terminal can support various applications with user interfaces that are intuitive and transparent to the user.

In addition, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

One embodiment of the present invention, as shown in fig. 1, is an intelligent wearable device 100, which includes a control module 120 and a control module that are independently powered;

the control module 120, when the intelligent wearable device 100 is powered off, establishes data connection with a connection terminal;

the control module 120 receives a power-on instruction sent by the connection terminal;

the control module starts the boot according to the boot instruction received by the control module 120.

Specifically, the present invention is applied to the smart wearable devices 100 used by users who need to be monitored, such as children and the elderly, including the smart wearable devices 100, such as smart bracelets and smart watches. For example, if a child does not want to find the monitored person to turn off the intelligent wearable device 100, and an old person carelessly turns off the intelligent wearable device 100 due to an unfamiliar misoperation such as a miss-touch or the like, the monitor can remotely control the intelligent wearable device 100 to turn off and on.

When the intelligent wearable device 100 detects that it is powered off, no matter the intelligent wearable device is powered off automatically when the power is exhausted or the intelligent wearable device is powered off actively by the user, data connection is immediately established with the surrounding connection terminals through the control module 120 which supplies power independently. The independently powered control module 120 of the smart wearable device 100 includes, but is not limited to, a bluetooth transmission module, a local area network communication module, and the like.

The control module 120 of the intelligent wearable device 100 is independently powered, so that the intelligent wearable device 100 can normally communicate even when the intelligent wearable device is powered off or in a power failure state. In order to ensure that the power supply of the control module 120 is normal under special conditions, a solar power supply mode can also be adopted. And the control module 120 of the intelligent wearable device 100 and the control modules 120 of other terminals use a specific pre-authorized protocol, so that data connection can be directly established between each other without the user's consent.

However, in order to protect the privacy of the terminal user and avoid information leakage, the current direct authorization automatic connection is limited to perform only the related operations of remote control startup without the data connection established under the condition of user consent, and other operations similar to file transmission and the like are not executed. Or, a new control module 120 is newly provided outside the original control module 120 of the terminal, which is only used for realizing the function of remotely controlling the startup, and is completely independent from the original control module 120.

After the intelligent wearable device 100 establishes data connection with the connection terminal through the control module 120, the connection terminal can acquire a power-on instruction sent by the guardian through the terminal, and the intelligent wearable device 100 is controlled to be powered on.

Preferably, in another embodiment of the present invention, the control module 120 specifically includes: the target selection unit is used for searching the terminals to be connected within a preset range around when the shutdown of the target selection unit is detected, and selecting the connection terminals in the terminals to be connected according to a preset rule; and the data connection unit is used for sending a data connection request to the connection terminal selected by the target selection unit and establishing data connection with the connection terminal.

Specifically, when the smart wearable device 100 detects that it is turned off, it needs to establish a data connection with a surrounding connection terminal through the control module 120 that independently supplies power. Therefore, the terminals to be connected within the preset range around the terminals to be connected are immediately searched, the terminals to be connected are the terminals with the same control module 120 or data transmission function, have the same communication protocol, and can establish data connection with the intelligent wearable device 100 without the operation approval of the user. The control module 120 of the terminal to be connected may or may not be independently powered. The connection terminal may be a watch, a bracelet, or other intelligent wearable device 100, or may also be a mobile terminal such as a mobile phone or a tablet. The target selection unit selects a connection terminal from the terminals to be connected according to a preset rule, for example, the terminal to be connected with the strongest signal or the closest distance is selected as the connection terminal, and then the data connection unit sends a data connection request to the connection terminal, so as to establish data connection.

The preset range is a distance at which the control module 120 of the intelligent wearable device 100 can search and establish a stable data connection, and a terminal beyond the preset range cannot be searched by the intelligent wearable device 100. Therefore, the preset ranges corresponding to the control modules 120 with different performances mounted on the intelligent wearable device 100 are also different.

Preferably, the control module 120 further comprises: the instruction receiving unit is used for receiving a starting-up instruction forwarded by the connecting terminal, wherein the starting-up instruction is sent to the connecting terminal by the mobile terminal; or, the instruction receiving unit receives a starting-up instruction sent by the connection terminal, wherein the starting-up instruction is generated by the connection terminal.

Specifically, if the connection terminal is the associated terminal of the intelligent wearable device 100, and the guardian directly sends the power-on instruction through the connection terminal, the instruction receiving unit of the intelligent wearable device 100 receives the power-on instruction output by the connection terminal. If the other mobile terminal is the associated terminal of the intelligent wearable device 100, the guardian sends the power-on instruction to the connection terminal through the mobile terminal, and the connection terminal transmits the power-on instruction to the instruction receiving unit of the intelligent wearable device 100. The mobile terminal is a mobile phone, a tablet, or the like, and may or may not include the control module 120 for independently supplying power.

In the invention, when the intelligent wearable device 100 is powered off, the intelligent wearable device can be connected with other terminals through the control module 120 with independent power supply, and the monitor can obtain the power-on instruction of the monitor by the connection terminal to trigger power-on, so that the monitor can conveniently contact the monitored person.

Preferably, in a further embodiment of the present invention, further comprising: when the control module detects that the intelligent wearable device 100 is turned off and the control module 120 is turned off, the control module triggers the intelligent wearable device 100 to be turned on and sends a preset alarm message to the associated terminal.

Specifically, if the control module of the intelligent wearable device 100 detects that the device is turned off, the operation is performed according to the above procedure, so that the guardian can perform remote control through the terminal. However, if the control module of the intelligent wearable device 100 detects that the device is turned off and the control module 120 is turned off, and cannot establish data connection with another connection terminal, the intelligent wearable device 100 is triggered to be turned on, and a preset alarm message is sent to the associated terminal in time for explanation.

In this embodiment, when the intelligent wearable device 100 detects that it is turned off and the control module 120 is turned off, the intelligent wearable device automatically triggers the turn-on and sends a preset alarm message to the associated terminal for explaining, so as to prevent the guardian from failing to perform remote control due to insufficient power supply or failure of the control module 120.

Another embodiment of the present invention is a preferred embodiment of the above embodiment, as shown in fig. 2, and includes a control module 120 and a control module that are independently powered;

the control module 120, when the intelligent wearable device 100 is powered off, establishes data connection with a connection terminal;

the information acquisition module 130 is configured to acquire device information of the intelligent wearable device 100, where the device information includes identification information and remaining power information of the intelligent wearable device;

the control module 120 sends the device information acquired by the information acquisition module 130 and the identification information of the connection terminal to a server through the connection terminal;

the control module 120 receives a power-on instruction sent by the connection terminal;

the control module starts the boot according to the boot instruction received by the control module 120.

Specifically, in this embodiment, when the smart wearable device 100 detects that it is turned off, the data connection is immediately established with the surrounding connection terminals through the control module 120 that independently supplies power. Then, the information collecting module of the intelligent wearable device 100 collects the device information of itself and sends the device information to the connected intelligent terminal through the control module 120.

The device information includes, but is not limited to, identification information of the smart wearable device 100 and remaining power information, and the identification information may be any relevant information that can indicate the smart wearable device 100, such as a terminal number, a mobile phone number, and the like. Through the remaining power information of the smart wearable device 100, it can be identified that the smart wearable device 100 is automatically powered off after the power is exhausted, or the person under guardianship actively powers off (the active power off may be self-determined to be powered off or misoperation).

In addition, the device information may further include information such as shutdown time, location information during shutdown, remaining power and remaining standby time of the intelligent wearable device 100, so that the guardian can know more detailed related information of the intelligent wearable device 100 during shutdown, and ensure that the guardian completes remote startup before the intelligent wearable device 100 can work.

The connection terminal generates state information from the received equipment information of the intelligent wearable equipment 100 and the identification information of the connection terminal, and sends the state information to the server, the server stores the state information, and the state information comprises the equipment information of the intelligent wearable equipment 100, the identification information of the connection terminal establishing connection with the intelligent wearable equipment 100 and state display that the intelligent wearable equipment 100 is in a connection state with the connection terminal.

After the intelligent wearable device 100 establishes data connection with the connection terminal through the control module 120, the connection terminal can acquire a power-on instruction sent by the guardian through the terminal, and the intelligent wearable device 100 is controlled to be powered on.

In this embodiment, in the shutdown state, the intelligent wearable device 100 uses the connection terminal establishing the communication connection with the intelligent wearable device as the information forwarding site, so that the guardian can obtain the state information of the intelligent wearable device 100 through the server and control the intelligent wearable device 100 to be powered on through the remote power-on instruction, thereby conveniently contacting the person under guardianship.

Preferably, in another embodiment of the present invention, when the distance between the control module 120 and the connection terminal is greater than a preset distance, the control module disconnects from the connection terminal, and sends an interrupt message to the server to update the status information through the connection terminal; the control module 120 resends the data connection request to the terminal to be connected within the preset range around, establishes data connection with the next connection terminal, sends the device information of itself to the next connection terminal, and sends the device information of the intelligent wearable device 100 and the identification information of itself to the server through the next connection terminal to renew the state information again.

Specifically, when the distance between the intelligent wearable device 100 and the connection terminal is too large and exceeds the connection range of the control module 120, that is, the preset distance, the intelligent wearable device and the connection terminal are automatically disconnected, and after the disconnection, the connection terminal sends an interrupt message to the server. After receiving the interrupt message sent by the connection terminal, the server changes the state of the intelligent wearable device 100, changes the state of the intelligent wearable device 100 and the connection terminal from connection to disconnection, and obtains updated state information.

After the intelligent wearable device 100 is disconnected from the previous connection terminal, the data connection request is sent to the terminals to be connected within the preset range around again, the next connection terminal is selected, and the processes of establishing data connection with the previous connection terminal, reporting to the server and forwarding the start-up instruction are repeated. After establishing data connection with the next connection terminal, the intelligent wearable device 100 also sends the device information of itself to the next connection terminal, the next connection terminal generates new state information according to the received device information and the identification information of itself, and sends the new state information to the server, the server updates the updated state information according to the new state information, after the intelligent wearable device 100 is disconnected with the previous connection terminal, the updated state information shows that the intelligent wearable device 100 is disconnected with the previous connection terminal, the identification information of the connection terminal connected with the intelligent wearable device 100 is changed into the identification information of the next connection terminal, and the intelligent wearable device 100 is changed into connection with the next connection terminal.

In this embodiment, after the intelligent wearable device 100 is disconnected from the connection terminal, possibly because the connection range is exceeded, or possibly because the connection fails, the data connection request is timely sent again, and the data connection is established with the next connection terminal, so that it is ensured that the intelligent wearable device 100 is always connected with other connection terminals. And updating the state information on the server in real time, ensuring that the guardian can obtain the latest connection information from the server, and can look up the historical connection record of the intelligent wearable device 100.

Preferably, in another embodiment of the present invention, the method further comprises: when the control module 120 is connected with another shutdown intelligent wearable device, sending the device information of the control module to the another shutdown intelligent wearable device, and receiving the device information of the another shutdown intelligent wearable device, where the another shutdown intelligent wearable device is provided with the control module 120 for independently supplying power; when the control module 120 establishes data connection with the connection terminal, the connection terminal sends the device information of the control module, the device information of the other intelligent wearable devices received by the control module, and the identification information of the connection terminal to the server.

Specifically, the intelligent wearable device 100 in the power-off state and including the control module 120 independently powered on can also establish data connection with each other, but cannot send data to the server, so that the intelligent wearable device 100 in the power-off state and including the control module 120 independently powered on at least needs to establish data connection with a connection terminal in the power-on state and capable of normally transmitting data.

Therefore, if the intelligent wearable device 100 in the power-off state and including the independently powered control module 120 is connected with another intelligent wearable device 100 in the power-off state and including the independently powered control module 120 through the control module 120, the device information of the device is sent to the other party, the device information of the other party is received and stored, the data connection with the other party is maintained, and the next intelligent wearable device or the connection terminal is searched again to establish the data connection.

And if the next connection is successful and still is the intelligent wearable device, sending and storing respective device information to each other, and searching again until a data connection is established with the connection terminal which is in the power-on state and can normally transmit data.

When any one intelligent wearable device is in data connection with the connecting terminal, the connecting terminal sends the self device information, the self received device information of other intelligent wearable devices and the identification information of the connecting terminal to the server.

In addition, after one of the intelligent wearable devices is connected with the connection terminal, because the previously connected intelligent wearable device still keeps the connection, the connection terminal and the connected intelligent wearable device can forward the power-on instruction to trigger the other intelligent wearable device to be powered on. For example, intelligent wearing equipment A is connected with intelligent wearing equipment B, and intelligent wearing equipment A is connected with connecting terminal C, then can forward the start-up instruction through connecting terminal C and intelligent wearing equipment A and trigger intelligent wearing equipment B and start up.

In this embodiment, when the intelligent wearable device establishes data connection with each other, the device information of the other storage party is acquired. Therefore, after any intelligent wearable device is connected with the connecting terminal, all connected intelligent wearable devices can be triggered to be started through the connecting terminal, and the success rate of remote control starting is higher.

One embodiment of the present invention, as shown in fig. 3, a mobile terminal 200, includes;

the information obtaining module 210 is configured to obtain, through a server, status information of an associated intelligent wearable device when the associated intelligent wearable device is powered off, where the status information includes identification information of the associated intelligent wearable device, remaining power information, and identification information of a connection terminal of the associated intelligent wearable device;

the instruction acquisition module 220 acquires a starting instruction;

the instruction sending module 230 sends the startup instruction obtained by the instruction obtaining module 220 to the connection terminal of the associated intelligent wearable device according to the state information obtained by the information obtaining module 210.

Specifically, when the mobile terminal 200 detects that the associated intelligent wearable device is powered off, for example, the mobile terminal 200 cannot contact the intelligent wearable device, or the server sends a message to the mobile terminal 200 to notify that the intelligent wearable device is currently in a powered-off state and needs to remotely control the intelligent wearable device to be powered on, the mobile terminal 200 obtains state information of the associated intelligent wearable device from the server, where the state information includes identification information of the associated intelligent wearable device, remaining power information, and identification information of a connection terminal of the associated intelligent wearable device.

And judging whether the intelligent wearable device is actively powered off or powered off when the intelligent wearable device is used up according to the residual power information of the intelligent wearable device in the state information, and acquiring the connection state and the identification information of the connection terminal. When the state information received by the mobile terminal 200 is active power-off, that is, the remaining power of the intelligent wearable device is sufficient but in a power-off state at present, if the guardian needs to remotely control the intelligent wearable device to power on, the mobile terminal 200 obtains the user operation information input by the guardian. The method comprises the steps of obtaining operation information of a user to generate a starting-up instruction, sending the starting-up instruction to a connection terminal according to identification information of the connection terminal, receiving the starting-up instruction by the connection terminal, forwarding the starting-up instruction to the intelligent wearable device through a Bluetooth transmission module, and finally triggering the intelligent wearable device to start up after receiving the starting-up instruction.

In this embodiment, the mobile terminal 200 obtains identification information of a connection terminal that establishes connection with the intelligent wearable device from a server, and then sends the generated boot instruction to the connection terminal, and the connection terminal forwards the boot instruction to the intelligent wearable device that is powered off through the data transmission module, so as to trigger booting, thereby achieving the purpose of remotely controlling the intelligent wearable device to boot, and facilitating a guardian to contact with a person under guardianship.

Preferably, in another embodiment of the present invention, the method further comprises: the association registration module is used for acquiring identification information of the mobile terminal 200 and identification information of a plurality of intelligent wearable devices to be associated, registering the identification information on a server, and associating the mobile terminal 200 with the plurality of intelligent wearable devices to be associated through the server.

Specifically, the association registration module of the mobile terminal 200 obtains registration information, generates a registration request according to the registration information, and sends the registration request to the server for registration, where the registration information at least includes identification information of the mobile terminal 200 and identification information of a plurality of intelligent wearable devices to be associated, and may further include related information required by other servers for registration. The server associates and binds the mobile terminal 200 and the intelligent wearable device, wherein one mobile terminal 200 can bind a plurality of intelligent wearable devices, and meanwhile, one intelligent wearable device can also be bound by a plurality of mobile terminals 200.

In this embodiment, the mobile terminal 200 may register an account on the server, and associate and bind the corresponding intelligent wearable device, and the intelligent wearable device reports the state of the intelligent wearable device to the server directly or through a connected connection terminal, so that the corresponding mobile terminal 200 is conveniently acquired from the server.

In an embodiment of the present invention, as shown in fig. 4, a remote booting system includes an intelligent wearable device 100 and a connection terminal 300; the intelligent wearable device 100 is provided with a data transmission module for independent power supply;

when the intelligent wearable device 100 is turned off, the intelligent wearable device establishes data connection with the connection terminal 300 through the data transmission module;

the intelligent wearable device 100 receives the power-on instruction sent by the connection terminal 300 through the data transmission module, and starts up the device.

Further comprising a server 400 and a mobile terminal 200;

the intelligent wearable device 100 collects device information of the intelligent wearable device 100, and transmits the device information to the connection terminal 300 through the data transmission module, wherein the device information includes identification information and remaining power information of the intelligent wearable device 100;

the connection terminal 300 sends the device information of the intelligent wearable device 100 and the identification information of the connection terminal to the server 400;

if the connection terminal 300 is a related terminal of the intelligent wearable device 100, acquiring state information of the intelligent wearable device 100 through the server 400, generating a boot instruction, and transmitting the boot instruction to the intelligent wearable device 100 through the data transmission module, where the state information includes identification information of the related intelligent wearable device 100, remaining power information, and identification information of the connection terminal 300 of the related intelligent wearable device 100; or

If the mobile terminal 200 is a related terminal of the intelligent wearable device 100, the server 400 acquires the state information of the intelligent wearable device 100, generates a power-on instruction, and sends the power-on instruction to the connection terminal 300 according to the state information;

the connection terminal 300 transmits the power-on instruction sent by the mobile terminal 200 to the intelligent wearable device 100 through the data transmission module.

Specifically, the present invention is applied to the smart wearable devices 100 used by users who need to be monitored, such as children and the elderly, including the smart wearable devices 100, such as smart bracelets and smart watches. For example, if a child does not want to find the monitored person to turn off the intelligent wearable device 100, and an old person carelessly turns off the intelligent wearable device 100 due to an unfamiliar misoperation such as a miss-touch or the like, the monitor can remotely control the intelligent wearable device 100 to turn off and on.

When the intelligent wearable device 100 detects that it is powered off, no matter the intelligent wearable device is powered off automatically when the power is exhausted or the intelligent wearable device is powered off actively by the user, data connection is immediately established with the surrounding connection terminals 300 through the data transmission module which supplies power independently. The independently powered data transmission module of the intelligent wearable device 100 includes, but is not limited to, a bluetooth transmission module, a local area network communication module, and the like.

The data transmission module of the intelligent wearable device 100 is independently powered, so that the intelligent wearable device 100 can normally communicate even if the intelligent wearable device is powered off or in a power failure state. In order to ensure normal power supply of the data transmission module under special conditions, a solar power supply mode can be adopted. And the data transmission module of the intelligent wearable device 100 and the data transmission module of the other terminal use a specific pre-authorized protocol, so that the data connection can be directly established between them without the consent of the user.

However, in order to protect the privacy of the terminal user and avoid information leakage, the current direct authorization automatic connection is limited to perform only the related operations of remote control startup without the data connection established under the condition of user consent, and other operations similar to file transmission and the like are not executed. Or, a new data transmission module is reset outside the original data transmission module of the terminal, and the new data transmission module is only used for realizing the function of remotely controlling the startup and is completely independent from the original data transmission module.

When the intelligent wearable device 100 detects that the intelligent wearable device is turned off, the to-be-connected terminal 300 in the preset range around the intelligent wearable device is immediately searched, the to-be-connected terminal 300 is a terminal with the same data transmission module or data transmission function, has the same communication protocol, and can establish data connection with the intelligent wearable device 100 without the operation consent of a user. The data transmission module of the terminal 300 to be connected may or may not be independently powered. The connection terminal 300 may be a smart wearable device 100 such as a watch or a bracelet, or may be a mobile terminal 200 such as a mobile phone or a tablet. The connection terminal 300 of the terminals 300 to be connected is selected according to a preset rule, for example, the terminal 300 to be connected with the strongest signal or the closest distance is selected as the connection terminal 300, and then a data connection request is sent to the connection terminal 300, so as to establish a data connection.

The preset range is a distance at which the data transmission module of the intelligent wearable device 100 can search and establish stable data connection, and a terminal beyond the preset range cannot be searched by the intelligent wearable device 100. Therefore, the preset ranges corresponding to the data transmission modules with different performances carried on the intelligent wearable device 100 are also different.

Preferably, the intelligent wearable device 100 receives a power-on instruction forwarded by the connection terminal 300, where the power-on instruction is sent to the connection terminal 300 by the mobile terminal 200; or, the intelligent wearable device 100 receives a power-on instruction sent by the connection terminal 300, where the power-on instruction is generated by the connection terminal 300 itself.

Specifically, if the connection terminal 300 is a terminal associated with the intelligent wearable device 100, and the guardian directly sends the power-on instruction through the connection terminal 300, the intelligent wearable device 100 receives the power-on instruction output by the connection terminal 300. If another mobile terminal 200 is a terminal associated with the intelligent wearable device 100, the guardian sends the power-on instruction to the connection terminal 300 through the mobile terminal 200, and the connection terminal 300 transmits the power-on instruction to the intelligent wearable device 100. The mobile terminal 200 is a device such as a mobile phone and a tablet, and may or may not include a data transmission module for independent power supply.

After the intelligent wearable device 100 establishes data connection with the connection terminal 300 through the data transmission module, the intelligent wearable device 100 collects device information of itself and sends the device information to the connected intelligent terminal through the data transmission module. The device information includes, but is not limited to, identification information of the smart wearable device 100 and remaining power information, and the identification information may be any relevant information that can indicate the smart wearable device 100, such as a terminal number, a mobile phone number, and the like. Through the remaining power information of the smart wearable device 100, it can be identified that the smart wearable device 100 is automatically powered off after the power is exhausted, or the person under guardianship actively powers off (the active power off may be self-determined to be powered off or misoperation).

In addition, the device information may further include information such as shutdown time, location information during shutdown, remaining power and remaining standby time of the intelligent wearable device 100, so that the guardian can know more detailed related information of the intelligent wearable device 100 during shutdown, and ensure that the guardian completes remote startup before the intelligent wearable device 100 can work.

The connection terminal 300 generates state information from the received device information of the intelligent wearable device 100 and the identification information of the connection terminal 300, and sends the state information to the server 400, and the server 400 stores the state information, where the state information includes the device information of the intelligent wearable device 100, the identification information of the connection terminal 300 that establishes connection with the intelligent wearable device 100, and a state display that the intelligent wearable device 100 and the connection terminal 300 are in a connection state.

After the intelligent wearable device 100 establishes data connection with the connection terminal 300 through the data transmission module, the connection terminal 300 can acquire a power-on instruction sent by a guardian through the terminal, and control the intelligent wearable device 100 to be powered on.

In this embodiment, in the shutdown state, the intelligent wearable device 100 uses the connection terminal 300 establishing communication connection with the intelligent wearable device as an information forwarding site, so that the guardian can obtain the state information of the intelligent wearable device 100 through the server 400 and control the intelligent wearable device 100 to be powered on through a remote power-on instruction, thereby conveniently contacting the person under guardianship.

Preferably, in another embodiment of the present invention, when the distance between the smart wearable device 100 and the connection terminal 300 is greater than a preset distance, the smart wearable device disconnects from the connection terminal 300, and sends an interrupt message to the server 400 through the connection terminal 300 to update the status information; the intelligent wearable device 100 resends the data connection request to the terminal 300 to be connected within the preset range around, establishes data connection with the next connection terminal 300, sends the device information of itself to the next connection terminal 300, and sends the device information of the intelligent wearable device 100 and the identification information of itself to the server 400 through the next connection terminal 300 to renew the state information again.

Specifically, when the distance between the intelligent wearable device 100 and the connection terminal 300 is too large and exceeds the connection range of the data transmission module, that is, the preset distance, the two devices are automatically disconnected, and after the disconnection, the connection terminal 300 sends an interrupt message to the server 400. After receiving the interrupt message sent by the connection terminal 300, the server 400 changes the state of the intelligent wearable device 100, changes the state of the intelligent wearable device 100 and the connection terminal 300 from connected to disconnected, and obtains updated state information.

After the intelligent wearable device 100 is disconnected from the previous connection terminal 300, the data connection request is sent to the terminal 300 to be connected within the preset range around again, the next connection terminal 300 is selected, and the above processes of establishing data connection with the previous connection terminal 300, reporting to the server 400, and forwarding the power-on instruction are repeated. After establishing data connection with the next connection terminal 300, the smart wearable device 100 also sends its own device information to the next connection terminal 300, the next connection terminal 300 generates new state information according to the received device information and its identification information, and sends the new state information to the server 400, the server 400 updates the updated state information according to the new state information, after the smart wearable device 100 is disconnected from the previous connection terminal 300 before, the updated state information shows that the state of the smart wearable device 100 and the previous connection terminal 300 is disconnected, the identification information of the connection terminal 300 connected with the smart wearable device 100 is changed to the identification information of the next connection terminal 300, and the state of the smart wearable device 100 and the next connection terminal 300 is changed to be connected.

In this embodiment, after the intelligent wearable device 100 is disconnected from the connection terminal 300, possibly because the connection range is exceeded, or possibly because the connection fails, the data connection request is timely sent again to establish data connection with the next connection terminal 300, so as to ensure that the intelligent wearable device 100 is always connected to the other connection terminals 300. And updates the status information on the server 400 in real time, ensures that the guardian can acquire the latest connection message from the server 400, and can refer to the historical connection record of the intelligent wearable device 100.

Preferably, in another embodiment of the present invention, the method further comprises: when the self-powered device 100 establishes a connection with another powered-off intelligent wearable device 100, sending the device information of the self-powered device to the other powered-off intelligent wearable device 100, and receiving the device information of the other powered-off intelligent wearable device 100, where the other powered-off intelligent wearable device 100 is provided with an independently-powered data transmission module; when the intelligent wearable device 100 establishes a data connection with the connection terminal 300, the connection terminal 300 sends the device information of the intelligent wearable device 100, the device information of the other intelligent wearable devices 100 received by the intelligent wearable device 100, and the identification information of the connection terminal 300 to the server 400.

Specifically, the intelligent wearable device 100 in the power-off state and including the independently powered data transmission module can also establish data connection with each other, but cannot send data to the server 400, so that the intelligent wearable device 100 in the power-off state and including the independently powered data transmission module at least needs to establish data connection with one connection terminal 300 in the power-on state and capable of normally transmitting data.

Therefore, if the intelligent wearable device 100 in the power-off state and including the independently powered data transmission module is connected with another intelligent wearable device 100 in the power-off state and including the independently powered data transmission module through the data transmission module, the device information of the intelligent wearable device 100 is sent to the other party, the device information of the other party is received and stored, the data connection with the other party is maintained, and the next intelligent wearable device 100 or the connection terminal 300 is searched again to establish the data connection.

If the next connection is successful and still is the intelligent wearable device 100, the device information stored in the smart wearable device 100 is also mutually sent and then searched again until a data connection is established with the connection terminal 300 which is in the power-on state and can normally transmit data.

When any one of the intelligent wearable devices 100 establishes data connection with the connection terminal 300, the connection terminal 300 sends the device information of itself, the device information of the other intelligent wearable devices 100 received by itself, and the identification information of the connection terminal 300 to the server 400.

In addition, after one of the smart-wearable devices 100 is connected to the connection terminal 300, since the previously connected smart-wearable device 100 still maintains the connection, the connection terminal 300 and the connected smart-wearable device 100 may forward the power-on instruction to trigger the power-on of another smart-wearable device 100. For example, intelligent wearing equipment A is connected with intelligent wearing equipment B, and intelligent wearing equipment A is connected with connecting terminal C, then can forward the start-up instruction through connecting terminal 300C and intelligent wearing equipment A and trigger intelligent wearing equipment B and start up.

In this embodiment, when the intelligent wearable devices 100 establish data connection with each other, the device information of the other storage party is acquired. Therefore, after any intelligent wearable device 100 is connected with the connection terminal 300, all connected intelligent wearable devices 100 can be triggered to be started through the connection terminal 300, so that the success rate of remote control starting is higher.

Preferably, in a further embodiment of the present invention, further comprising: when detecting that the intelligent wearable device 100 is turned off and the data transmission module is turned off, the intelligent wearable device triggers the intelligent wearable device to be turned on and sends a preset alarm message to the associated terminal.

Specifically, if the intelligent wearable device 100 detects that it is turned off, the operation is performed according to the above procedure, so that the guardian can perform remote control through the terminal. However, if the smart wearable device 100 detects that it is turned off and the data transmission module is turned off, and cannot establish data connection with the other connection terminal 300, the smart wearable device 100 is triggered to turn on, and a preset alarm message is sent to the associated terminal in time for explanation.

When the intelligent wearable device detects that the intelligent wearable device is turned off and the data transmission module is turned off, the intelligent wearable device automatically triggers the turning on and sends a preset alarm message to the associated terminal for explaining, so that the condition that the guardian cannot carry out remote control due to insufficient power supply or failure of the data transmission module is avoided.

In an embodiment of the present invention, as shown in fig. 5, a remote booting method is applied to an intelligent wearable device including an independently powered data transmission module, including;

when the intelligent wearable device is powered off, the intelligent wearable device establishes data connection with a connection terminal through the data transmission module;

the intelligent wearable device collects self device information, and transmits the self device information to the connection terminal through the data transmission module, wherein the device information comprises identification information and residual electric quantity information of the intelligent wearable device;

the connection terminal sends the equipment information of the intelligent wearable equipment and the identification information of the connection terminal to the server;

if the connection terminal is the associated terminal of the intelligent wearable device, the connection terminal acquires state information of the intelligent wearable device through the server, generates a starting instruction and transmits the starting instruction to the intelligent wearable device through the data transmission module, wherein the state information comprises identification information of the associated intelligent wearable device, residual electric quantity information and identification information of the connection terminal of the associated intelligent wearable device; or

If the mobile terminal is the associated terminal of the intelligent wearable device, the mobile terminal acquires the state information of the intelligent wearable device through the server, generates a starting instruction and sends the starting instruction to the connection terminal according to the state information;

the connection terminal transmits a starting-up instruction sent by the mobile terminal to the intelligent wearable device through the data transmission module;

and the intelligent wearable equipment receives the starting-up instruction sent by the connection terminal to start up the computer.

The specific operation manner in this embodiment has been described in detail in the corresponding system embodiment, and therefore, is not described in detail.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The intelligent wearable device is characterized by comprising a data transmission module and a control module which are independently powered;

the data transmission module establishes data connection with the connection terminal when the intelligent wearable device is powered off;

the data transmission module receives a starting-up instruction sent by the connection terminal;

and the control module starts the starting according to the starting instruction received by the data transmission module.

2. The intelligent wearable device of claim 1, wherein the data transmission module further comprises:

the instruction receiving unit is used for receiving a starting-up instruction forwarded by the connecting terminal, wherein the starting-up instruction is sent to the connecting terminal by the mobile terminal; or the like, or, alternatively,

the instruction receiving unit receives a starting-up instruction sent by the connection terminal, wherein the starting-up instruction is generated by the connection terminal.

3. The smart wearable device according to claim 1, further comprising:

the information acquisition module acquires own equipment information, wherein the equipment information comprises identification information and residual electric quantity information of the intelligent wearable equipment;

and the data transmission module sends the equipment information acquired by the information acquisition module and the identification information of the connection terminal to a server through the connection terminal.

4. The smart wearable device according to claim 1, further comprising:

the data transmission module sends the device information of the data transmission module to another shutdown intelligent wearable device when the data transmission module is connected with the other shutdown intelligent wearable device, and receives the device information of the other shutdown intelligent wearable device, wherein the other shutdown intelligent wearable device is provided with an independent power supply data transmission module;

and the data transmission module establishes data connection with the connection terminal, and sends the equipment information of the data transmission module, the equipment information of other intelligent wearable equipment received by the data transmission module and the identification information of the connection terminal to the server through the connection terminal.

5. A mobile terminal, comprising:

the information acquisition module is used for acquiring the state information of the associated intelligent wearable device through a server when the associated intelligent wearable device is powered off, wherein the state information comprises the identification information of the associated intelligent wearable device, the residual electric quantity information and the identification information of a connection terminal of the associated intelligent wearable device;

the instruction acquisition module is used for acquiring a starting instruction;

and the instruction sending module is used for sending the starting-up instruction acquired by the instruction acquisition module to the associated connection terminal of the intelligent wearable device according to the state information acquired by the information acquisition module.

6. The mobile terminal of claim 5, further comprising:

the association registration module is used for acquiring identification information of the mobile terminal and identification information of a plurality of intelligent wearable devices to be associated, registering the identification information on a server, and associating the mobile terminal with the plurality of intelligent wearable devices to be associated through the server.

7. A remote starting system is characterized by comprising intelligent wearable equipment and a connecting terminal; the intelligent wearable equipment is provided with an independent power supply data transmission module;

the intelligent wearable device establishes data connection with the connection terminal through the data transmission module when the intelligent wearable device is turned off;

the intelligent wearable device receives the starting-up instruction sent by the connection terminal through the data transmission module and starts up the intelligent wearable device.

8. The remote boot system of claim 7, further comprising a server and a mobile terminal;

the intelligent wearable device collects self device information, and transmits the self device information to the connection terminal through the data transmission module, wherein the device information comprises identification information and residual electric quantity information of the intelligent wearable device;

the connection terminal sends the equipment information of the intelligent wearable equipment and the identification information of the intelligent wearable equipment to the server;

if the connection terminal is the associated terminal of the intelligent wearable device, state information of the intelligent wearable device is obtained through the server, a starting instruction is generated and transmitted to the intelligent wearable device through the data transmission module, and the state information comprises identification information of the associated intelligent wearable device, residual electric quantity information and identification information of the connection terminal of the associated intelligent wearable device; or

If the mobile terminal is the associated terminal of the intelligent wearable device, the state information of the intelligent wearable device is obtained through the server, and a starting instruction is generated and sent to the connecting terminal according to the state information;

the connection terminal transmits the starting-up instruction sent by the mobile terminal to the intelligent wearable device through the data transmission module.

9. The remote starting method is applied to intelligent wearable equipment comprising an independently-powered data transmission module, and comprises the following steps:

when the intelligent wearable device is powered off, the intelligent wearable device establishes data connection with a connection terminal through the data transmission module;

and the intelligent wearable equipment receives the starting-up instruction sent by the connection terminal to start up the computer.

10. The remote boot method according to claim 9, wherein before the intelligent wearable device receives the boot instruction sent by the connection terminal to start booting, the method further comprises:

the intelligent wearable device collects self device information, and transmits the self device information to the connection terminal through the data transmission module, wherein the device information comprises identification information and residual electric quantity information of the intelligent wearable device;

the connection terminal sends the equipment information of the intelligent wearable equipment and the identification information of the intelligent wearable equipment to a server;

if the connection terminal is the associated terminal of the intelligent wearable device, the connection terminal acquires state information of the intelligent wearable device through the server, generates a starting instruction and transmits the starting instruction to the intelligent wearable device through the data transmission module, wherein the state information comprises identification information of the associated intelligent wearable device, residual electric quantity information and identification information of the connection terminal of the associated intelligent wearable device; or

If the mobile terminal is the associated terminal of the intelligent wearable device, the mobile terminal acquires the state information of the intelligent wearable device through the server, generates a starting instruction and sends the starting instruction to the connection terminal according to the state information;

and the connecting terminal transmits the starting-up instruction sent by the mobile terminal to the intelligent wearable device through the data transmission module.

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