CN114038176A - Object anti-lost method, anti-lost device and equipment terminal - Google Patents

Abstract

The invention provides an object anti-lost method, an anti-lost device and an equipment terminal, wherein the method applied to the anti-lost device comprises the following steps: establishing connection with the equipment terminal by adopting the first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal; judging whether a terminal inquiry instruction is sent to the equipment terminal; if a terminal query instruction is sent to the equipment terminal, updating a first connection parameter of the anti-lost device connected with the equipment terminal into a second connection parameter; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter; and when the second connection parameter is connected with the equipment terminal, sending a terminal query instruction to the equipment terminal so that the equipment terminal responds according to the terminal query instruction. This scheme can reduce the consumption of anti-lost device.

Description

Object anti-lost method, anti-lost device and equipment terminal

Technical Field

The invention relates to the technical field of electronic communication, in particular to an object anti-lost method, an anti-lost device and an equipment terminal.

Background

In life, the situations of finding a mobile phone, finding a key and the like often occur, and great inconvenience is brought to life. Even loss of valuables can occur, resulting in significant economic loss. Along with the continuous progress of science and technology, through the mode of installing anti-lost device on article, can effectively solve above-mentioned problem.

However, the anti-lost device usually consumes a large amount of power because it continuously interacts with the terminal device, which is not favorable for the anti-lost device to stand by for a long time. At present, patent application No. CN201720717477.0 discloses a power-saving bidirectional bluetooth anti-lost device, which performs the switching between a standby mode and an operating mode through a static wake-up circuit, thereby achieving the purpose of reducing power consumption.

Disclosure of Invention

The invention provides an object anti-lost method, an anti-lost device and an equipment terminal, which can reduce the power consumption of the anti-lost device.

In a first aspect, an embodiment of the present invention provides an object anti-lost method, which is applied to an anti-lost device installed on an object, and includes:

establishing connection with the equipment terminal by adopting the first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

judging whether a terminal inquiry instruction is sent to the equipment terminal;

if a terminal query instruction is sent to the equipment terminal, updating a first connection parameter of the anti-lost device connected with the equipment terminal into a second connection parameter; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and when the connection with the equipment terminal is the second connection parameter connection, the terminal query instruction is sent to the equipment terminal, so that the equipment terminal responds according to the terminal query instruction.

In a possible implementation manner, after establishing a connection with the device terminal by using the first connection parameter, the method further includes:

receiving a parameter updating request sent by the equipment terminal;

updating a first connection parameter connected between the anti-lost device and the equipment terminal into a second connection parameter according to the parameter updating request;

sending a response reply of the completion of the updating of the connection parameters to the equipment terminal; and the number of the first and second groups,

when the connection with the equipment terminal is the second connection parameter connection, receiving an equipment query instruction sent by the terminal equipment;

responding according to the equipment inquiry instruction.

In a possible implementation manner, after the device terminal responds according to the terminal query instruction, the method further includes:

updating the second connection parameter of the anti-lost device connected with the equipment terminal into the first connection parameter;

and/or the presence of a gas in the gas,

after responding according to the device query instruction, the method further comprises the following steps:

and updating the second connection parameter of the anti-lost device connected with the equipment terminal into the first connection parameter.

In a second aspect, an embodiment of the present invention provides an object anti-lost method, where the method is applied to a device terminal, and includes:

establishing connection with an anti-lost device by adopting first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

updating the first connection parameter to a second connection parameter, and receiving a terminal query instruction sent by the anti-lost device; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and responding according to the terminal inquiry instruction.

In a possible implementation manner, after the establishing a connection with the anti-lost device by using the first connection parameter, the method further includes:

judging whether an equipment inquiry instruction is sent to the anti-lost device;

if the equipment query instruction is sent to the anti-lost device, sending a parameter updating request to the anti-lost device;

after a response reply of the completion of the updating of the connection parameters returned by the anti-lost device is received, the equipment query instruction is sent to the anti-lost device, so that the anti-lost device responds according to the equipment query instruction; wherein the response reply is used for indicating that the connection parameters between the device terminal and the anti-lost device are updated from the first connection parameters to the second connection parameters.

In a possible implementation manner, the establishing a connection with an anti-lost device using a first connection parameter includes:

adding the anti-lost device;

judging whether the anti-lost device has a binding relationship with other equipment;

if the anti-lost device has a binding relationship with other equipment, resetting the anti-lost device;

and establishing connection with the reset anti-lost device according to the first connection parameters.

In a third aspect, an embodiment of the present invention provides an anti-lost device, including: the system comprises a first connection establishing module, a terminal query instruction judging module, a connection parameter updating module and a terminal query instruction sending module;

the first connection establishing module is used for establishing connection with the equipment terminal by adopting first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

the terminal query instruction judging module is used for judging whether a terminal query instruction is sent to the equipment terminal;

the connection parameter updating module is used for updating a first connection parameter established by the first connection establishing module when the anti-lost device and the equipment terminal are connected to the equipment terminal into a second connection parameter if the terminal query instruction judging module judges that a terminal query instruction is sent to the equipment terminal; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and the terminal query instruction sending module is used for sending the terminal query instruction to the equipment terminal when the connection parameter updating module updates the connection parameter between the equipment terminal and the terminal to be a second connection parameter, so that the equipment terminal responds according to the terminal query instruction.

In one possible implementation, the method further includes: a first device query module to perform operations comprising:

receiving a parameter updating request sent by the equipment terminal;

updating a first connection parameter connected between the anti-lost device and the equipment terminal into a second connection parameter according to the parameter updating request;

sending a response reply of the completion of the updating of the connection parameters to the equipment terminal; and the number of the first and second groups,

when the connection with the equipment terminal is the second connection parameter connection, receiving an equipment query instruction sent by the terminal equipment;

responding according to the equipment inquiry instruction.

In a fourth aspect, an embodiment of the present invention provides an apparatus terminal, including: the system comprises a second connection establishing module, a terminal query instruction receiving module and a response module;

the second connection establishing module is used for establishing connection with the anti-lost device by adopting the first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

the terminal query instruction receiving module is used for updating the first connection parameter adopted by the second connection establishing module into a second connection parameter and receiving a terminal query instruction sent by the anti-lost device; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and the response module is used for responding according to the terminal query instruction received by the terminal query instruction receiving module.

In one possible implementation, the method further includes: a second device query module to perform operations comprising:

judging whether an equipment inquiry instruction is sent to the anti-lost device;

if the equipment query instruction is sent to the anti-lost device, sending a parameter updating request to the anti-lost device;

after a response reply of the completion of the updating of the connection parameters returned by the anti-lost device is received, the equipment query instruction is sent to the anti-lost device, so that the anti-lost device responds according to the equipment query instruction; wherein the response reply is used for indicating that the connection parameters between the device terminal and the anti-lost device are updated from the first connection parameters to the second connection parameters.

According to the technical scheme, the anti-lost device is installed on the object, and the anti-lost device is connected with the equipment terminal through the first connection parameter. And when the anti-lost device needs to send data to the equipment terminal or search the equipment terminal, the first connection parameter between the anti-lost device and the equipment terminal can be updated to be the second connection parameter, so that a terminal query instruction is sent when the second connection parameter is connected, and the equipment terminal is further queried through the response of the equipment terminal. Therefore, the purpose of finding the corresponding object can be achieved. In addition, since the frequency of data interaction represented by the second connection parameter is greater than the frequency of data interaction represented by the first connection parameter, it is obvious that the more frequent the data interaction is, the greater the power consumption is. According to the scheme, the first connection parameter is updated to the second connection parameter only when the anti-lost device and the equipment terminal perform data interaction, so that the power consumption of the anti-lost device can be greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a flowchart of an object anti-lost method applied to an anti-lost device according to an embodiment of the present invention;

fig. 2 is a flowchart of an object anti-lost method applied to a device terminal according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an anti-lost device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a device terminal according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As before, the situations of finding a mobile phone, finding a key, etc. often occur in life, which causes great inconvenience to life. Even loss of valuables can occur, resulting in significant economic loss. Along with the continuous progress of science and technology, through the mode of installing anti-lost device on article, can effectively solve above-mentioned problem. For example, the above problems can be solved by developing an anti-lost device product having anti-lost and two-way calling functions using BLE technology in bluetooth. Through with the anti-lost device on the object, establish the connection through APP and anti-lost device, through APP calling, the anti-lost device can ring to find the object, also can call the cell-phone through the button of anti-lost device.

However, the anti-lost device usually consumes a large amount of power because it continuously interacts with the terminal device, which is not favorable for the anti-lost device to stand by for a long time. At present, a static wake-up circuit is usually used to switch between a standby mode and a working mode, so as to achieve the purpose of reducing power consumption. However, the mode of switching the working mode of the peripheral circuit is adopted, and the working mode can be switched only by waking up, so that the working mode cannot be switched in time, and the effect of reducing the power consumption is not obvious.

Based on this, this scheme considers to be connected anti-lost device and equipment terminal to when carrying out data interaction, switch its connected mode into the second connection parameter that interactive frequency degree is higher, and when not having data interaction, its connected mode just uses the first connection parameter that interactive frequency degree is low, so can independently realize the switching of connected parameter, thereby can effectively reduce anti-lost device's energy consumption.

The object anti-lost method, anti-lost device and equipment terminal provided by the invention are further described in detail below.

As shown in fig. 1, an embodiment of the present invention provides an object anti-lost method, which is applied to an anti-lost device mounted on an object, and may include the following steps:

step 101: establishing connection with the equipment terminal by adopting the first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

step 102: judging whether a terminal inquiry instruction is sent to the equipment terminal;

step 103: if a terminal query instruction is sent to the equipment terminal, updating a first connection parameter of the anti-lost device connected with the equipment terminal into a second connection parameter; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

step 104: and when the second connection parameter is connected with the equipment terminal, sending a terminal query instruction to the equipment terminal so that the equipment terminal responds according to the terminal query instruction.

In this embodiment, the anti-lost device is mounted on the object, and the anti-lost device and the device terminal are connected by the first connection parameter. And when the anti-lost device needs to send data to the equipment terminal or search the equipment terminal, the first connection parameter between the anti-lost device and the equipment terminal can be updated to be the second connection parameter, so that a terminal query instruction is sent when the second connection parameter is connected, and the equipment terminal is further queried through the response of the equipment terminal. Therefore, the purpose of finding the corresponding object can be achieved. In addition, since the frequency of data interaction represented by the second connection parameter is greater than the frequency of data interaction represented by the first connection parameter, it is obvious that the more frequent the data interaction is, the greater the power consumption is. According to the scheme, the first connection parameter is updated to the second connection parameter only when the anti-lost device and the equipment terminal perform data interaction, so that the power consumption of the anti-lost device can be greatly reduced.

The anti-lost device and the equipment terminal can be connected through the Bluetooth technology. Certainly, this scheme can also include the high in the clouds server, connects through WIFI between high in the clouds server and the equipment terminal, wherein can save first connection parameter, second connection parameter and relevant other data etc. in the high in the clouds server.

Since the power consumption of a bluetooth device depends on the broadcast parameter settings at the time of broadcast in addition to the peripheral circuits: broadcast duration, broadcast interval, slave time delay and supervision timeout set by connection parameters in a connection state, and the like. The larger the broadcast duration parameter is, the smaller the broadcast interval is, the larger the power consumption is, otherwise, the smaller the power consumption is; the slave computer time delay and supervision timeout are larger, the power consumption is lower, and vice versa. That is, by increasing the broadcasting interval, the frequency of data interaction between the anti-lost device and the device terminal is reduced, so that power consumption can be reduced.

For example, as shown in table 1 below, the connection parameters may be, in one possible approach: connection _ Latency is 5, and super _ Timeout is 20; the second connection parameter may be: connection _ Latency is 1 and super _ Timeout is 10.

TABLE 1 connection parameters

In one possible implementation, the anti-lost device may be composed of a power module, a bluetooth low energy module, a crystal oscillator, a memory, a filter circuit, a matching circuit, an antenna, a function key, a buzzer, a status indicator lamp, and the like.

In a possible implementation mode, the anti-lost device can also detect the electric quantity of the anti-lost device through an electric quantity detection module, display the residual electric quantity information in real time through a UI (user interface) of the equipment terminal, when the electric quantity of the anti-lost device is lower than 10%, prompt a user that the electric quantity is insufficient through a popup window, and display the residual electric quantity information through a red icon on the UI. If the user sets the mobile terminal to the do-not-disturb mode, the alarm function and the position memory function are not started

In a possible implementation manner, after establishing a connection with the device terminal by using the first connection parameter, the method further includes:

receiving a parameter updating request sent by a device terminal;

updating a first connection parameter connected between the anti-lost device and the equipment terminal into a second connection parameter according to the parameter updating request;

sending a response reply of the connection parameter updating completion to the equipment terminal; and the number of the first and second groups,

when the second connection parameter is connected with the equipment terminal, receiving an equipment query instruction sent by the terminal equipment;

responding according to the device query instruction.

In this embodiment, after the anti-lost device and the device terminal establish a connection, the terminal device may send the query instruction in addition to actively sending the query instruction to the device terminal through the anti-lost device. That is, bidirectional communication, that is, bidirectional inquiry, can be realized between the anti-lost device and the terminal device. When any one end is lost or needs to be searched, a corresponding instruction is sent through the other end so that the other end can respond, such as an alarm, and therefore the object to be searched can be easily known.

Of course, it should be noted that, when updating the connection parameters, the update is mainly performed at the anti-lost device side. Therefore, when the device terminal wants to search for an object at the anti-lost device end, it first needs to send a parameter update request to the device terminal, and after receiving the parameter update request, the anti-lost device updates the first connection parameter to the second connection parameter and sends a feedback to the device terminal to complete the parameter update. Therefore, the terminal equipment can send an equipment inquiry instruction to the anti-lost device so as to inquire where the object corresponding to the anti-lost device is.

In a possible implementation manner, after the device terminal responds according to the instruction to be queried, the method further includes: updating a second connection parameter of the anti-lost device connected with the equipment terminal into a first connection parameter;

in another possible implementation manner, after responding according to the device query instruction, the method further includes: and updating the second connection parameter of the anti-lost device connected with the equipment terminal into the first connection parameter.

Therefore, the second connection parameter connected between the anti-lost device and the equipment terminal is timely updated to the first connection parameter after the equipment terminal responds according to the terminal query instruction or responds according to the equipment query instruction, and therefore the power consumption is lower due to the fact that the data interaction frequency degree corresponding to the first connection parameter is lower, and the power consumption of the anti-lost device and the power consumption of the equipment terminal can be reduced.

As shown in fig. 2, an embodiment of the present invention further provides an object anti-lost method, which is applied to a device terminal, and includes the following steps:

step 201: establishing connection with an anti-lost device by adopting first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

step 202: updating the first connection parameter into a second connection parameter, and receiving a terminal query instruction sent by the anti-lost device; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

step 203: and responding according to the terminal inquiry instruction.

In this embodiment, after the connection of the first connection parameter is established between the device terminal and the anti-lost device, when the anti-lost device needs to perform data interaction with the device terminal, the first connection parameter is updated to the second connection parameter, and then a terminal query instruction from the anti-lost device is received, so that the anti-lost device responds according to the terminal query instruction, so that the anti-lost device obtains a desired result.

For example, the terminal device responds by an alarm, and the anti-lost device can know the position of the terminal device. For another example, when the user cannot find the mobile phone, the user can find an anti-lost device connected with the mobile phone terminal, and press a corresponding case on the anti-lost device, so that the anti-lost device sends a corresponding instruction to the mobile phone terminal, and the mobile phone terminal makes a corresponding response after receiving the instruction, so that the user can easily find the mobile phone.

In a possible implementation manner, after establishing a connection with the anti-lost device by using the first connection parameter, the method may further include:

judging whether an equipment query instruction is sent to the anti-lost device;

if the equipment query instruction is sent to the anti-lost device, sending a parameter updating request to the anti-lost device;

after a response reply of the completion of updating of the connection parameters returned by the anti-lost device is received, sending an equipment query instruction to the anti-lost device so that the anti-lost device responds according to the equipment query instruction; and the response reply is used for indicating the connection parameters between the equipment terminal and the anti-lost device to be updated from the first connection parameters to the second connection parameters.

In this embodiment, when the anti-lost device is searched by sending a corresponding instruction through the device terminal, a parameter update request is first sent to the anti-lost device, the anti-lost device updates the connected first connection parameter to the second connection parameter, and then the related instruction of the query device is sent to the anti-lost device, so as to achieve the purpose of searching for the object corresponding to the anti-lost device.

In a possible implementation manner, when the first connection parameter is used to establish the connection with the anti-lost device, step 201 may be implemented as follows:

adding an anti-lost device;

judging whether the anti-lost device has a binding relationship with other equipment;

if the anti-lost device has a binding relationship with other equipment, resetting the anti-lost device;

and establishing connection with the reset anti-lost device according to the first connection parameters.

Since the anti-lost device may be bound and connected with other terminal devices before, for the success of the connection, it may be considered to reset the anti-lost device during the connection, so as to implement the connection between the anti-lost device and the device terminal.

For example, running mobile terminal APP, adding the bluetooth anti-lost device, judging earlier whether this equipment once was bound by the number beyond this cell-phone before adding, if, need to click the function button in succession thrice fast, send "drip" 3 sound rings at anti-lost device bee calling organ to when the status indicator lamp of anti-lost device was the slow flash state, realize resetting the resetting of anti-lost device, then be connected this anti-lost device and equipment terminal.

As shown in fig. 3, an embodiment of the present invention further provides an anti-lost device, which may include: a first connection establishing module 301, a terminal query instruction judging module 302, a connection parameter updating module 303 and a terminal query instruction sending module 304;

a first connection establishing module 301, configured to establish a connection with an equipment terminal by using a first connection parameter; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

a terminal query instruction judging module 302, configured to judge whether a terminal query instruction is sent to the device terminal;

a connection parameter updating module 303, configured to update a first connection parameter established by the first connection establishing module 301 when the terminal query instruction determining module 302 determines that a terminal query instruction is sent to the device terminal, to a second connection parameter; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

a terminal query instruction sending module 304, configured to send a terminal query instruction to the device terminal when the connection parameter updating module 303 updates the connection parameter with the device terminal to the second connection parameter, so that the device terminal responds according to the terminal query instruction.

In a possible implementation manner, the anti-lost device may further include: a first device query module to perform operations comprising:

receiving a parameter updating request sent by a device terminal;

updating a first connection parameter connected between the anti-lost device and the equipment terminal into a second connection parameter according to the parameter updating request;

sending a response reply of the connection parameter updating completion to the equipment terminal; and the number of the first and second groups,

when the second connection parameter is connected with the equipment terminal, receiving an equipment query instruction sent by the terminal equipment;

responding according to the device query instruction.

In a possible implementation manner, the anti-lost device may further include a connection parameter recovery module, where the connection parameter recovery module updates the second connection parameter of the connection between the anti-lost device and the device terminal to the first connection parameter after the device terminal responds according to the terminal query instruction and/or after the device terminal responds according to the device query instruction.

As shown in fig. 4, an embodiment of the present invention further provides an apparatus terminal, including: a second connection establishing module 401, a terminal query instruction receiving module 402 and a response module 403;

a second connection establishing module 401, configured to establish a connection with the anti-lost device by using the first connection parameter; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

a terminal query instruction receiving module 402, configured to update the first connection parameter adopted by the second connection establishing module 401 to a second connection parameter, and receive a terminal query instruction sent by the anti-lost device; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

a responding module 403, configured to respond according to the terminal query instruction received by the terminal query instruction receiving module 402.

In a possible implementation manner, the device terminal may further include: a second device query module to perform operations comprising:

judging whether an equipment query instruction is sent to the anti-lost device;

if the equipment query instruction is sent to the anti-lost device, sending a parameter updating request to the anti-lost device;

after a response reply of the completion of updating of the connection parameters returned by the anti-lost device is received, sending an equipment query instruction to the anti-lost device so that the anti-lost device responds according to the equipment query instruction; and the response reply is used for indicating the connection parameters between the equipment terminal and the anti-lost device to be updated from the first connection parameters to the second connection parameters.

In one possible implementation, the second connection establishing module 401, when establishing a connection with the anti-lost device using the first connection parameters, is configured to perform the following operations:

adding an anti-lost device;

judging whether the anti-lost device has a binding relationship with other equipment;

if the anti-lost device has a binding relationship with other equipment, resetting the anti-lost device;

and establishing connection with the reset anti-lost device according to the first connection parameters.

It is to be understood that the illustrated structure of the embodiment of the present invention does not constitute a specific limitation to the anti-lost device and the device terminal. In other embodiments of the invention the anti-lost device and the device terminal may comprise more or fewer components than shown, or some components may be combined, some components may be split, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Because the content of information interaction, execution process, and the like among the modules in the device is based on the same concept as the method embodiment of the present invention, specific content can be referred to the description in the method embodiment of the present invention, and is not described herein again.

An embodiment of the present invention further provides a computing device, including: at least one memory and at least one processor;

at least one memory for storing a machine readable program;

at least one processor for invoking a machine readable program to perform an object anti-loss method in any embodiment of the invention.

Embodiments of the present invention also provide a computer-readable medium storing instructions for causing a computer to perform an object anti-loss method as described herein. Specifically, a method or an apparatus equipped with a storage medium on which a software program code that realizes the functions of any of the above-described embodiments is stored may be provided, and a computer (or a CPU or MPU) of the method or the apparatus is caused to read out and execute the program code stored in the storage medium.

In this case, the program code itself read from the storage medium can realize the functions of any of the above-described embodiments, and thus the program code and the storage medium storing the program code constitute a part of the present invention.

Examples of the storage medium for supplying the program code include a floppy disk, a hard disk, a magneto-optical disk, an optical disk (e.g., CD-ROM, CD-R, CD-RW, DVD-ROM, DVD-RAM, DVD-RW, DVD + RW), a magnetic tape, a nonvolatile memory card, and a ROM. Alternatively, the program code may be downloaded from a server computer via a communications network.

Further, it should be clear that the functions of any one of the above-described embodiments can be implemented not only by executing the program code read out by the computer, but also by performing a part or all of the actual operations by an operation method or the like operating on the computer based on instructions of the program code.

The foregoing description of specific embodiments of the present invention has been presented. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

The above embodiments are only for illustrating the embodiments of the present invention and are not to be construed as limiting the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made on the basis of the embodiments of the present invention shall be included in the scope of the present invention.

Claims (10)

1. An object anti-lost method, characterized in that, applied to an anti-lost device mounted on an object, comprises:

establishing connection with the equipment terminal by adopting the first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

judging whether a terminal inquiry instruction is sent to the equipment terminal;

if a terminal query instruction is sent to the equipment terminal, updating a first connection parameter of the anti-lost device connected with the equipment terminal into a second connection parameter; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and when the connection with the equipment terminal is the second connection parameter connection, the terminal query instruction is sent to the equipment terminal, so that the equipment terminal responds according to the terminal query instruction.

2. The method of claim 1, wherein after establishing the connection with the device terminal using the first connection parameters, further comprising:

receiving a parameter updating request sent by the equipment terminal;

updating a first connection parameter connected between the anti-lost device and the equipment terminal into a second connection parameter according to the parameter updating request;

sending a response reply of the completion of the updating of the connection parameters to the equipment terminal; and the number of the first and second groups,

when the connection with the equipment terminal is the second connection parameter connection, receiving an equipment query instruction sent by the terminal equipment;

responding according to the equipment inquiry instruction.

3. The method according to claim 2, wherein after the device terminal responds according to the terminal query instruction, further comprising:

updating the second connection parameter of the anti-lost device connected with the equipment terminal into the first connection parameter;

and/or the presence of a gas in the gas,

after responding according to the device query instruction, the method further comprises the following steps:

and updating the second connection parameter of the anti-lost device connected with the equipment terminal into the first connection parameter.

4. The object loss prevention method is characterized by being applied to an equipment terminal and comprising the following steps:

establishing connection with an anti-lost device by adopting first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

updating the first connection parameter to a second connection parameter, and receiving a terminal query instruction sent by the anti-lost device; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and responding according to the terminal inquiry instruction.

5. The method of claim 4, further comprising, after the establishing a connection with an anti-lost device using the first connection parameters:

judging whether an equipment inquiry instruction is sent to the anti-lost device;

if the equipment query instruction is sent to the anti-lost device, sending a parameter updating request to the anti-lost device;

after a response reply of the completion of the updating of the connection parameters returned by the anti-lost device is received, the equipment query instruction is sent to the anti-lost device, so that the anti-lost device responds according to the equipment query instruction; wherein the response reply is used for indicating that the connection parameters between the device terminal and the anti-lost device are updated from the first connection parameters to the second connection parameters.

6. The method according to any one of claims 4 to 5, wherein said establishing a connection with the anti-lost device using the first connection parameters comprises:

adding the anti-lost device;

judging whether the anti-lost device has a binding relationship with other equipment;

if the anti-lost device has a binding relationship with other equipment, resetting the anti-lost device;

and establishing connection with the reset anti-lost device according to the first connection parameters.

7. Anti-lost device, its characterized in that includes: the system comprises a first connection establishing module, a terminal query instruction judging module, a connection parameter updating module and a terminal query instruction sending module;

the first connection establishing module is used for establishing connection with the equipment terminal by adopting first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

the terminal query instruction judging module is used for judging whether a terminal query instruction is sent to the equipment terminal;

the connection parameter updating module is used for updating a first connection parameter established by the first connection establishing module when the anti-lost device and the equipment terminal are connected to the equipment terminal into a second connection parameter if the terminal query instruction judging module judges that a terminal query instruction is sent to the equipment terminal; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and the terminal query instruction sending module is used for sending the terminal query instruction to the equipment terminal when the connection parameter updating module updates the connection parameter between the equipment terminal and the terminal to be a second connection parameter, so that the equipment terminal responds according to the terminal query instruction.

8. The anti-lost device according to claim 7, further comprising: a first device query module to perform operations comprising:

receiving a parameter updating request sent by the equipment terminal;

updating a first connection parameter connected between the anti-lost device and the equipment terminal into a second connection parameter according to the parameter updating request;

sending a response reply of the completion of the updating of the connection parameters to the equipment terminal; and the number of the first and second groups,

when the connection with the equipment terminal is the second connection parameter connection, receiving an equipment query instruction sent by the terminal equipment;

responding according to the equipment inquiry instruction.

9. An equipment terminal, comprising: the system comprises a second connection establishing module, a terminal query instruction receiving module and a response module;

the second connection establishing module is used for establishing connection with the anti-lost device by adopting the first connection parameters; the first connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal;

the terminal query instruction receiving module is used for updating the first connection parameter adopted by the second connection establishing module into a second connection parameter and receiving a terminal query instruction sent by the anti-lost device; the second connection parameter is used for representing the frequency degree of data interaction between the anti-lost device and the equipment terminal, and the frequency degree of data interaction represented by the second connection parameter is greater than that represented by the first connection parameter;

and the response module is used for responding according to the terminal query instruction received by the terminal query instruction receiving module.

10. The device terminal of claim 9, further comprising: a second device query module to perform operations comprising:

judging whether an equipment inquiry instruction is sent to the anti-lost device;

if the equipment query instruction is sent to the anti-lost device, sending a parameter updating request to the anti-lost device;

after a response reply of the completion of the updating of the connection parameters returned by the anti-lost device is received, the equipment query instruction is sent to the anti-lost device, so that the anti-lost device responds according to the equipment query instruction; wherein the response reply is used for indicating that the connection parameters between the device terminal and the anti-lost device are updated from the first connection parameters to the second connection parameters.

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