CN110278135B - Equipment position searching method, device, gateway and storage medium - Google Patents

Abstract

The embodiment of the application provides a method and a device for searching a device position, a gateway and a storage medium. The method comprises the following steps: the gateway acquires a device position searching instruction, wherein the device position searching instruction comprises a specified device identifier, and the specified device represents a device of which the position is to be determined; detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not; and triggering an execution equipment position searching instruction according to the detection result so as to determine the position of the specified equipment according to the prompt signal after the execution of the equipment position searching instruction. The gateway obtains the equipment position searching instruction containing the specified equipment identification, then compares the specified equipment identification with the equipment identification of the gateway, and triggers a prompt signal according to the comparison result to respond to the equipment position searching instruction, so that the position of the equipment can be rapidly determined, and the searching requirement of a user on the intelligent home equipment is met.

Description

Equipment position searching method, device, gateway and storage medium

Technical Field

The present application relates to the field of smart home technologies, and in particular, to a method and an apparatus for searching a device location, a gateway, and a computer-readable storage medium.

Background

Along with the more popular of intelligence life, the use of intelligent home equipment is more and more extensive, and the equipment kind is also more and more, when there is a plurality of gateways to use simultaneously, perhaps has a plurality of sub-equipment under the gateway, the user is the actual mounted position that can't accurate location to certain gateway or sub-equipment on the APP, can bring inconvenience for user's use like this in the more complex environment of equipment.

Disclosure of Invention

In view of the foregoing deficiencies of the prior art, embodiments of the present application provide a method and an apparatus for searching a device location, a gateway, and a computer-readable storage medium, so as to solve the foregoing problems.

In a first aspect, an embodiment of the present application provides a device location finding method, where the method includes: the gateway acquires a device position searching instruction, wherein the device position searching instruction comprises a specified device identifier, and the specified device represents a device of which the position is to be determined; detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not; and triggering an execution equipment position searching instruction according to the detection result so as to determine the position of the specified equipment according to the prompt signal after the execution of the equipment position searching instruction.

In a second aspect, an embodiment of the present application provides an apparatus for finding a device location, where the apparatus includes: the command acquisition module is used for acquiring a device position search command by the gateway, wherein the device position search command comprises a specified device identifier, and the specified device represents a device of which the position is to be determined; the detection module is used for detecting whether the specified equipment identifier is consistent with the equipment identifier of the gateway or not by the gateway; and the instruction processing module is used for triggering the execution equipment position searching instruction according to the detection result by the gateway so as to determine the position of the specified equipment according to the prompt signal after the execution of the equipment position searching instruction.

In a third aspect, an embodiment of the present application provides a gateway, including a memory and one or more processors; one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the device location lookup method of the first aspect described above.

In a fourth aspect, the present application provides a computer-readable storage medium, in which a program code is stored, where the program code is executed by a processor to perform the device location search method of the first aspect.

The embodiment of the application provides a device position searching method, a device, a gateway and a storage medium, the method obtains a device position searching instruction comprising a specified device identifier through the gateway, the specified device identifier is used for representing a device to be determined in position, then whether the specified device identifier is consistent with the device identifier of the gateway or not is detected, and the device position searching instruction is triggered and executed according to a detection result, so that the position of the specified device is rapidly determined according to a prompt signal after the device position searching instruction is executed, and the searching requirement of a user on the intelligent home device is met.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 shows a schematic diagram of a network system provided in an embodiment of the present application.

Fig. 2 shows a flowchart of a method for finding a device location applied to a gateway according to an embodiment of the present application.

Fig. 3 shows a flowchart of a method for finding a device location applied to a gateway according to another embodiment of the present application.

Fig. 4 shows a method flowchart of step S250 in the method of fig. 3.

Fig. 5 shows a block diagram of a device location finding apparatus operating in a gateway according to an embodiment of the present application.

Fig. 6 shows a block diagram of a gateway according to an embodiment of the present application.

Fig. 7 illustrates a storage unit for storing or carrying a program code for implementing the device location finding method according to the embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

With the rapid development of the internet of things technology, more intelligent household devices are connected to the internet. As a mode, an application program (equipment management APP) corresponding to the intelligent home equipment can be installed on the mobile terminal, the intelligent home equipment is accessed into the home network, and the intelligent home equipment can be remotely controlled through the APP. Optionally, through remote control, the user can be better experience the convenience and the comfort of intelligent household equipment, can strengthen user's life comfort level and happiness.

Wherein, to a family's thing networking that has more intelligent home equipment, when the quantity of intelligent home equipment was more and had more equipment of the same type, the user is difficult to distinguish the actual mounted position of a certain or a plurality of equipment, can bring inconvenience for the user in the use of equipment, influences user experience.

After careful research, the inventor finds that smart home devices (including gateways or sub-devices) have device attributes and functional characteristics, and when a user faces a large number of home devices and is difficult to distinguish and needs to find the actual installation position of a certain device, so that the device is managed in a related manner, the gateway triggers a device position finding instruction sent by a mobile terminal to actively find the position of the smart home device, and then instructs the smart home device to send a corresponding prompt signal to respond to the device position finding instruction, so that the position of the smart home device can be obtained quickly and accurately, and therefore, the device position finding method, the device, the gateway and the storage medium provided by the embodiment of the application are provided.

For the convenience of describing the scheme of the present application in detail, the following description will first describe an application environment in the embodiments of the present application with reference to the drawings.

Referring to fig. 1, a network system 10 according to an embodiment of the present application is provided, where the network system 10 includes: the mobile terminal 11, the server 12 and the local area network 13, wherein the local area network 13 includes a router 131, a gateway 132 and a sub-device 133. By way of example, the mobile terminal 11 may be any device having communication and storage capabilities, such as: the smart phone, the desktop computer, the notebook computer, the tablet computer or other smart communication devices with network connection functions. The server 12 may be a network access server, a database server, a cloud server, or the like. Optionally, the gateway 132 is built based on a ZigBee protocol, and the child device 133 may be a device added in the gateway 132 in advance, for example, the child device 133 may be a device in a suite to which the gateway belongs when the gateway leaves a factory; or may be a device that is subsequently connected to the gateway 132 by a user operation.

Optionally, the sub-device 133 may be an entity intelligent device, such as an electric meter, a door sensor, a body sensor, a door sensor, a window sensor, a temperature and humidity sensor, a water sensor, a natural gas alarm, a smoke alarm, a wall switch, a wall socket, an intelligent socket, a wireless switch, a wireless wall switch, a magic cube controller, a curtain motor, a multifunctional gateway, an air conditioner partner, a camera, or may be a virtual sensor device, such as a virtual body sensor device, which is not limited herein. Optionally, the sub-devices 133 may be devices of the same type and the same brand, devices of the same type but different brands, or devices of different types and different brands.

Optionally, a client capable of managing the smart home device is installed in the mobile terminal 11, where the client may be an application client (such as a mobile phone APP) or a web page client, and is not limited herein.

Alternatively, one or more of the kid devices 133 may establish a network connection with the gateway 132 based on the ZigBee protocol, thereby joining the ZigBee network. The gateway 132 and the mobile terminal 11 may be connected to the router 131, and access to the ethernet through the router 131, as one way, the router 131 may access the server 12 through the ethernet access network 14, for example, the gateway 132 and the mobile terminal 11 may store the acquired information in the server 12. Optionally, the mobile terminal 11 may also establish a network link with the server 12 through 2G/3G/4G/5G or WIFI, so as to obtain data sent by the server 12.

Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 2, a flowchart of a method for searching a device location according to an embodiment of the present application is shown, where the embodiment provides a method for searching a device location, where the method is applied to a gateway, and the method includes:

step S110: the gateway obtains a device position searching instruction, wherein the device position searching instruction comprises a designated device identifier, and the designated device represents a device of which the position is to be determined.

The specified device in this embodiment may be a gateway or a sub-device connected to the gateway, and the specified device identifier carried in the device location search instruction corresponds to the specified device. For example, if the specified device identifier carried in the device location search instruction is the device identifier of the gateway, the specified device is the gateway, and if the specified device identifier carried in the device location search instruction is the device identifier of the sub-device, the specified device is the sub-device.

It should be noted that if there are multiple gateways or sub-devices of the same type, the device identifications of the gateways or sub-devices of the same type are not consistent. For example, if there are three identical sub-devices, the device identifiers of the three sub-devices may be respectively denoted as "101", "102" and "103", and may be other naming manners. Then, it can be understood that, if there are multiple gateways or sub-devices of the same type, the specified device identifier carried in the device location search instruction corresponds to the corresponding gateway or sub-device, respectively.

The gateway can obtain the device location search instruction in various ways.

As a mode, a search function for the smart home device may be configured at the mobile terminal, an "identification button" corresponding to the device search function is configured at the device management interface of the mobile terminal, and the user may trigger the identification button corresponding to any device as needed or at random, optionally, when the user triggers the identification button corresponding to a certain device, the mobile terminal may send a device location search instruction to the gateway. And the gateway receives the equipment position searching instruction and identifies the specified equipment identifier carried in the equipment position searching instruction.

As another way, the mobile terminal may divide all the smart home devices of the home internet of things system according to the area or room numbers, and when there are more devices of the same type in a certain area or room, the user may trigger an identification button corresponding to a specific device in the certain area or room, and then the mobile terminal may send a corresponding device location search instruction to the gateway according to the area or room numbers. Under the condition, the equipment position searching instruction can carry the equipment identifier of the appointed equipment corresponding to the identification button of the appointed equipment triggered by the user, and can also carry room number information or area identification information, so that the gateway can obtain the equipment position searching instruction which also carries the room number or the area identifier besides the appointed equipment identifier, and further identifies the appointed equipment identifier carried in the equipment position searching instruction and the room number or the area identifier.

As another way, the gateway in this embodiment may also generate the device location search instruction locally. Optionally, when a user needs to check the location of some specific devices (which may be understood as specified devices), the device identifier of the specific device may be added to the gateway for storage, so that the gateway may generate a device location search instruction according to the device identifiers of the specific devices; optionally, if the gateway needs to know the designated location where the gateway is located, a device location search instruction of the gateway may also be generated, which is not limited herein.

Step S120: and detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not.

After receiving the device location search instruction, if there are multiple gateways working at the same time, or there are multiple sub-devices of the same type under the same gateway, then the user will be bothered, and therefore, as a manner, the gateway in this embodiment can detect whether the specified device identifier carried in the device location search instruction is consistent with the device identifier of the gateway, so as to determine the location of the specified device according to the detection result.

As one way, if the gateway detects that the specified device identifier is consistent with the device identifier of the gateway, it may be determined that the specified device is the gateway, and if the specified device identifier is not consistent with the device identifier of the gateway, it may be determined that the specified device is a child device connected to the gateway.

In a specific application scenario, a plurality of sub-devices or gateways of the same type may exist under a login account of a mobile terminal, and if one gateway has a plurality of the sub-devices, if an equipment identifier of a designated device is consistent with an equipment identifier of the gateway, the designated device is the gateway; optionally, if the specified device identifier is not consistent with the device identifier of the gateway, the specified device may be a certain sub-device connected to the gateway.

In another specific application scenario, it is understood that, if there are multiple gateways, there may be multiple sub-devices, and in this case, if the specified device identifier is consistent with the device identifier of the gateway, the specified device may be a device identifier of a certain gateway; if the specified device identifier is not consistent with the device identifier of the gateway, the specified device may be a certain sub-device connected under a certain gateway.

It should be noted that, when a user triggers an identification button of a designated device through a management interface of a device management APP, the designated device may be one device or multiple devices, and if the designated device is multiple devices, the location of each designated device may be sequentially determined according to the sequence of triggering each identification button.

Step S130: and triggering and executing the equipment position searching instruction according to the detection result so as to determine the position of the specified equipment according to the prompt signal after the equipment position searching instruction is executed.

As a mode, if the specified device identifier is consistent with the device identifier of the gateway, the gateway may send a prompt signal in response to the device location search instruction, so that the user may determine the location of the specified device according to the prompt signal sent by the gateway.

As another mode, if the specified device identifier is not consistent with the device identifier of the gateway, the gateway may send the device search instruction to the sub device correspondingly connected to the gateway, and may further instruct the sub device to send a prompt signal in response to the device location search instruction, so that the user may determine the location of the specified device according to the prompt signal sent by the sub device.

Furthermore, in order to determine the location of the specified device more quickly, if the specified device identifier is not consistent with the device identifier of the gateway, the gateway in this embodiment may also send a corresponding prompt signal while instructing the sub-device to send a prompt signal in response to the device location search instruction, so that the user may determine the location of the specified device more quickly and accurately according to the prompt signal sent by the sub-device and the prompt signal sent by the gateway.

It should be noted that, under the condition that the specified device identifier is consistent or inconsistent with the device identifier of the gateway, the gateway will send out a prompt signal in response to the device location search instruction, and for convenience of distinguishing, as a way, when the specified device identifier is consistent with the device identifier of the gateway, the gateway can be configured to send out an indicator light prompt signal and/or a sound prompt signal; when the specified device identification is inconsistent with the device identification of the gateway, the gateway can be configured to send out an indicator light prompt signal and/or a sound prompt signal which can be distinguished from the consistent condition.

For example, when the specified device identifier is consistent with the device identifier of the gateway, the gateway may emit a red ring light flashing prompt signal and/or a sharp uninterrupted buzzer sound prompt signal, where red may indicate the currently searched specified device, and has a more striking prompting function. And when the specified equipment identification is inconsistent with the equipment identification of the gateway, the gateway can send out a green ring light flashing prompt signal and/or a deep and intermittent buzzing prompt signal, so that a user can distinguish the actual position of the searched specified equipment according to different prompt signal modes.

Furthermore, when the specified device identifier is consistent with the device identifier of the gateway, both the factor device and the gateway will send out a prompt signal, in which case it is easy for the user to make it difficult to discern the actual location of the specified device currently being sought. Then, as a mode, on the basis that the configuration gateway sends out a prompt signal which can be distinguished from the case that the specified device identifier is not consistent with the device identifier of the gateway, the gateway can also send out a corresponding prompt signal according to the type of the prompt signal sent by the sub-device. For example, if the sub-device sends out a sound prompt signal and a function prompt signal, in order to avoid confusion between the sound sent out by the gateway and the sound sent out by the sub-device, the gateway may only send out a green ring light flashing signal, which is convenient for the user to determine accurately.

The gateway sends out the prompt signal simultaneously, so that the user can quickly determine the approximate area or direction of the position of the designated equipment, and the user can distinguish which gateway the current designated equipment (which can be understood as the sub-equipment) is connected with, so that the user can further manage the designated equipment subsequently, and the user experience is improved.

In the device location finding method provided by this embodiment, a device location finding instruction is obtained through a gateway, where the device location finding instruction includes a specified device identifier, and the specified device represents a device whose location is to be determined; detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not; and triggering an execution equipment position searching instruction according to the detection result so as to determine the position of the specified equipment according to the prompt signal after the execution of the equipment position searching instruction. The gateway obtains the equipment position searching instruction containing the specified equipment identification, then compares the specified equipment identification with the equipment identification of the gateway, and triggers a prompt signal according to the comparison result to respond to the equipment position searching instruction, so that the position of the equipment can be rapidly determined, and the searching requirement of a user on the intelligent home equipment is met.

Referring to fig. 3, a flowchart of a method for searching a device location according to an embodiment of the present application is shown, where the embodiment provides a method for searching a device location, where the method is applied to a gateway, and the method includes:

step S210: the gateway obtains a device position searching instruction, wherein the device position searching instruction comprises a designated device identifier, and the designated device represents a device of which the position is to be determined.

Step S220: and detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not.

Step S230: if the specified equipment identification is consistent with the equipment identification of the gateway, the gateway sends a prompt signal to respond to the equipment position searching instruction so as to determine the position of the specified equipment according to the prompt signal of the gateway.

The prompt signal in the embodiment of the present application may be different according to the type of the specific device. By one approach, if the designated device is a gateway, the alert signal may comprise an indicator light alert signal and/or an audible alert signal. Alternatively, if the designated device is a sub-device connected to the gateway, the alert signal may include an indicator light alert signal, an audible alert signal, and/or a functional alert signal.

The function prompt signal of the sub-device represents the function display of the sub-device in response to the device position search instruction, for example, if the sub-device is a smoke alarm, the sub-device may send out a smoke alarm in response to the device position search instruction.

It should be noted that, in general, all the sub-devices are configured with a complete automation, and then, under the condition that the function display is triggered in the process of responding to the device location finding instruction by the sub-devices, after the sub-devices respond to the device location finding instruction, the states of other devices under automation corresponding to the sub-devices also change correspondingly.

In a complete automation execution process, after a certain subset executes device automation, the executed device state data is uploaded to the server, so that the server can trigger other subsets in the automation to generate state changes according to the device state of the subset after the subset executes the device automation in the device state data. This can cause confusion between the function prompt signal issued by the user in response to the device location finding instruction and the automated function presentation of the response device by the sub-device.

Therefore, the gateway in the embodiment of the present application may configure a threshold reaction time for the device location search instruction, where the reaction time may be used to detect whether device status data after the device location search instruction is executed, which is returned by the sub device, is received within the threshold reaction time after the device location search instruction is sent to the sub device by the gateway, and if the device status data is received, the gateway may intercept the device status data, so as to avoid triggering state change of other automated devices corresponding to the sub device, so that a user may determine a location where the sub device is located according to a prompt signal of the sub device itself.

As a manner, if the specified device identifier in the embodiment of the present application is consistent with the device identifier of the gateway, it may be determined that the specified device is the gateway, and when the gateway receives the device location search instruction, the gateway may send a sound and/or indicator light prompt signal to respond to the device location search instruction, so that the user may determine the location of the specified device according to the sound and/or indicator light prompt signal of the gateway.

For example, in a specific application scenario, when a user triggers an identification button corresponding to a certain gateway through a device management terminal display interface of the smart home device, the mobile terminal sends a device location search instruction to the gateway, and after receiving the device location search instruction, if it is detected that a specified device identifier carried in the device location search instruction is consistent with a device identifier of the gateway itself, the gateway may send an indicator light prompt signal, or send a sound prompt signal, or the indicator light prompt signal and the sound prompt signal respond to the device location search instruction, so that the user may quickly and accurately determine the location of the gateway according to any of the prompt signals.

Wherein, can integrate sound sensor and optical sensor in the gateway for the gateway can send different cue signal according to the strong and weak and the noisy degree adaptation of sound of the light of environment of difference. For example, when the gateway detects that the current position is quiet and the light is dark, an audible prompt signal (such as a buzzer sound) or an indicator light prompt signal (such as a ring light flashing) may be sent out; when the gateway detects that the current position is noisy and the light is dark, the gateway can send out an indicator light prompt signal, and under the condition, the indicator light prompt signal can more obviously help a user to determine the position of the specified equipment; if the gateway detects that the current environment is quiet and the light is strong, the indication lamp prompt signal is sent out at the moment, which may not be convenient for the user to see, therefore, under the condition, the gateway can send out the sound prompt signal.

If the designated equipment is the gateway, the gateway sends different prompt signals according to different conditions, so that the user can be helped to quickly determine the position of the designated equipment, the search requirement of the user is met, and the user experience is further improved.

Step S240: and if the specified equipment identification is inconsistent with the equipment identification of the gateway, judging whether the sub-equipment is in an online state according to the specified equipment identification.

As another way, if the specified device identifier in the embodiment of the present application is not consistent with the device identifier of the gateway, it may be determined that the specified device is a child device connected to the gateway, and after the gateway receives the device location search instruction, in order to determine the location of the child device more efficiently, it may be determined in advance whether the child device is in an online state according to the specified device identifier. The child device in this embodiment is a device corresponding to the specified device identifier.

There are various ways for the gateway to determine whether the child device is online.

As a manner, in the embodiment of the present application, the child device may actively send a heartbeat signal to the server at a certain frequency periodically through the gateway, where the heartbeat signal is a data packet sent to another party interconnected at a certain interval, and whether a communication link between the two parties interconnected is in a connection state may be determined according to a reply condition of the other party, and the heartbeat signal may carry an assigned device identifier. Therefore, the server can detect that the child device is online when the heartbeat signal is received in a fixed period based on the specified device identification, and the server can periodically transmit judgment data back to the gateway so as to facilitate the gateway to store the heartbeat data of the child device locally. When detecting that the sub-device is connected to the gateway, the gateway may search locally stored heartbeat data corresponding to the sub-device based on a specified device identifier (here, a device identifier of the sub-device), and then determine whether the sub-device is in an online state according to the heartbeat data.

As another way, the gateway may also actively query the server to detect whether the kid device is online.

Step S250: and when the sub-equipment is judged to be in the online state, the gateway sends the equipment position searching instruction to the correspondingly connected sub-equipment, and the sub-equipment is instructed to send a prompt signal to respond to the equipment position searching instruction so as to determine the position of the specified equipment according to the prompt signal of the gateway.

As a mode, when it is determined that the sub-device is in the online state, the gateway may send a device location search instruction to the correspondingly connected sub-device, and then instruct the sub-device to send a sound prompt signal, an indicator light prompt signal, and/or a function prompt signal in response to the device location search instruction, so that a user may determine the location of the specified device according to the sound prompt signal, the indicator light prompt signal, and/or the function prompt signal of the sub-device.

It should be noted that, if it is determined that the sub-device is not in the online state, the gateway may directly feed back an execution failure signal of the device location search instruction to the mobile terminal.

By one approach, referring to fig. 4, step S250 may include:

step S251: and acquiring parameter values of the environment state of the sub-equipment, wherein the environment state comprises the brightness and the sound noise degree of the environment in which the sub-equipment is positioned.

The sub-equipment can be configured with an acousto-optic sensor and the like for detecting the brightness and the sound noise of the environment state where the sub-equipment is located, and the sub-equipment can upload the environmental state parameter values corresponding to the environment where the sub-equipment is located to the gateway, so that the gateway can instruct the sub-equipment to send different prompt signals according to the parameter values to respond to the equipment position searching instruction.

Step S252: and instructing the sub-equipment to send a corresponding prompt signal to respond to the equipment position searching instruction according to the parameter value of the environment state.

As a mode, the gateway may preset different prompt signals corresponding to the environmental status parameter values of the sub-devices in different ranges, so that the gateway may instruct the sub-devices to send corresponding prompt signals according to the environmental status parameter values of the sub-devices to respond to the device location search instruction. The preset threshold of the luminance parameter value of the environment where the sub device is located and the set threshold of the sound noise level of the environment where the sub device is located may be preset, for example, the preset threshold of the luminance parameter value may be set to "a" candela/square meter (cd/m2), where a may be set according to an actual situation, for example, 10,20, or 8; the set threshold of the sound noise parameter value is set to "b" decibels (dB), and the value of b may also be set or adjusted according to actual situations, for example, b may be 10,20,30, etc.

In one implementation, when the brightness parameter value of the environment where the acquired sub-device is located is higher than the preset threshold, it indicates that the light of the environment where the sub-device is located is strong, and if the sub-device sends an indicator light prompt signal, the flickering may not be obvious and is not convenient for the user to perceive because the light is too strong or the indicator light is small. The gateway may instruct the sub-device to issue an audible prompt signal and/or a functional prompt signal in response to the device location finding instruction so that the user may quickly determine the location of the sub-device based on the audible prompt signal and/or the functional prompt signal of the sub-device.

In another implementation manner, if the noisy sound parameter value of the environment where the acquired sub-device is located is higher than the set threshold, it indicates that the environment where the sub-device is located is noisy in this case, and if a sound prompt signal is sent, it will be inconvenient for the user to accurately distinguish which sound is sent by the sub-device, which affects user experience. In this case, the gateway may instruct the sub-device to send an indicator light prompt signal and/or a function prompt signal in response to the device location search instruction, so that the user may quickly determine the location of the sub-device according to the indicator light prompt signal and/or the function prompt signal of the sub-device.

It should be noted that, for the specific implementation process of the above two ways in which the gateway instructs the sub-device to send the corresponding prompt signal in response to the device location search instruction, reference may be made to the description in the foregoing embodiments, which is not described herein again.

In another implementation manner, if the luminance parameter value of the environment where the obtained sub-device is located is higher than the preset threshold and the sound noise parameter value is higher than the set threshold, the position where the sub-device is located may be hidden, that is, the light is weak, the sound is noisy, and the like. Optionally, when the sound prompt signal or the indicator light prompt signal is not convenient for the user to find the location of the specified device, the gateway in this embodiment may instruct the sub-device to send the function prompt signal in response to the device location finding instruction, so that the user may accurately and quickly determine the location of the sub-device according to the sub-device.

In a specific application scenario, assuming that one piece of sub-equipment is a dual-channel controller, the dual-channel controller is embedded inside a switch, and the environment where the dual-channel controller is located is noisy and has strong light, then when an equipment position searching instruction is received and the specified equipment is judged to be the sub-equipment, the gateway can instruct the switch to send a function prompt signal to respond to the equipment position searching instruction. In this case, the two-way controller may control the switch to be turned on or off in response to the device location finding command.

Optionally, the switch may be connected to the bulb, and the switch in the same position range is connected to the corresponding bulb, so that the user may determine the position of the two-way controller by observing the on and off conditions of the bulb.

It should be noted that although there are many prompting signals of the sub-device responding to the device location finding instruction, in an actual situation, there are often many uncertain factors interfering with the judgment of the user, so that, in order to enhance the accuracy of determining the location of the worthy device, if the specified device identifier is not consistent with the device identifier of the gateway, the gateway may also send a prompting signal to respond to the device location finding instruction, so that the user may quickly and accurately determine the location of the sub-device according to the prompting signals of the sub-device and the prompting signals of the gateway.

For example, in a specific application scenario, when an environment where a certain sub device is located is noisy, the sub device sends out an indicator light prompt signal and/or a function prompt signal, if the indicator light of the sub device is small at this time, it is inconvenient for a user to search, and even if the sub device also sends out the function prompt signal, trouble may be brought to the user due to too short response time or delayed response of the function prompt signal. In this case, the gateway may send the sound prompt signal and/or the indicator light prompt signal to respond to the device location search instruction, so that the user may roughly determine the range of the location of the sub-device according to the sound prompt signal and/or the indicator light prompt signal of the gateway, and further determine the location of the sub-device according to the indicator light prompt signal and/or the function prompt signal of the sub-device, and meanwhile, the user may perform further operations such as management on the sub-device.

In the device location finding method provided by this embodiment, a device location finding instruction is obtained through a gateway, where the device location finding instruction includes a specified device identifier; then detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not; if the specified equipment identification is consistent with the equipment identification of the gateway, the gateway sends a prompt signal to respond to an equipment position searching instruction so as to determine the position of the specified equipment according to the prompt signal of the gateway; if the specified equipment identification is inconsistent with the equipment identification of the gateway, judging whether the sub-equipment is in an online state according to the specified equipment identification; and when the sub-equipment is judged to be in the online state, the gateway sends the equipment position searching instruction to the correspondingly connected sub-equipment, and instructs the sub-equipment to send a prompt signal to respond to the equipment position searching instruction. The gateway obtains the equipment position searching instruction containing the specified equipment identification, then compares the specified equipment identification with the equipment identification of the gateway, and triggers a prompt signal according to the comparison result to respond to the equipment position searching instruction, so that the position of the equipment can be rapidly determined, and the searching requirement of a user on the intelligent home equipment is met.

Referring to fig. 5, an apparatus 300 for searching a device location is provided in an embodiment of the present application, and operates on a gateway, where the apparatus 300 includes: an instruction fetch module 310, a detection module 320, and an instruction processing module 330.

The instruction obtaining module 310 is configured to obtain, by the gateway, an apparatus location search instruction, where the apparatus location search instruction includes an identifier of a specific apparatus, where the specific apparatus represents an apparatus whose location is to be determined.

A detecting module 320, configured to detect whether the specified device identifier is consistent with the device identifier of the gateway.

The designated device in the embodiment of the present application may be a gateway device, or may also be a controlled device, and the controlled device may be understood as a child device connected to a gateway. As a manner, if the detection module 320 detects that the specified device identifier is consistent with the device identifier of the gateway, in this case, it may be determined that the specified device is a gateway device; alternatively, if the detection module 320 detects that the specified device identifier is not consistent with the device identifier of the gateway, in this case, it can be determined that the specified device is a child device connected to the gateway.

The instruction processing module 330 is configured to trigger execution of the device location search instruction according to the detection result, so as to determine the location of the specified device according to the prompt signal after execution of the device location search instruction.

The designated device in this embodiment may be a gateway or a sub-device. If the designated device is a gateway, the alert signal may include: an indicator light prompt signal and/or a sound prompt signal; if the designated device is a child device, the alert signal may include: an indicator light cue signal, a sound cue signal, and/or a function cue signal. The above prompt signals are merely examples, and may include more prompt signals related to specifying device attributes or functions in actual implementation, and are not limited herein.

As one way, if the specified device identifier is consistent with the device identifier of the gateway, the instruction processing module 330 may be configured to trigger the gateway to send a prompt signal in response to the device location search instruction, so that the user may determine the location of the specified device according to the prompt signal of the gateway.

As another mode, if the specified device identifier is not consistent with the device identifier of the gateway, the instruction processing module 330 may be configured to instruct the gateway to send the device location search instruction to the corresponding connected sub-device, and instruct the sub-device to send a prompt signal in response to the device location search instruction, so that the user may determine the location of the specified device according to the prompt signal of the sub-device. It should be noted that the child device in the embodiment of the present application is a device corresponding to the specified device identifier.

It should be noted that, if the specified device identifier is not consistent with the device identifier of the gateway, the gateway may determine whether the sub-device is in an online state according to the specified device identifier as a way to avoid time waste before sending the device location search instruction to the corresponding connected sub-device. Optionally, when it is determined that the sub-device is in the online state, the device location search instruction may be sent to the correspondingly connected sub-device.

Optionally, if the specified device identifier is not consistent with the device identifier of the gateway, in an implementation manner, the instruction processing module 330 may obtain parameter values of an environment state where the sub device is located, where the environment state may include brightness and sound noise of an environment where the sub device is located (that is, the environment where the sub device is located may also be understood as the environment where the sub device is located), and then instruct the sub device to send a corresponding prompt signal to respond to the device location search instruction according to the parameter values of the environment state.

In one embodiment, when the brightness parameter value of the environment where the sub-device is located is acquired to be higher than the preset threshold, the sub-device may be instructed to emit an audio prompt signal and/or a functional prompt signal in response to the device location finding instruction. As another implementation manner, when the sound noisiness parameter value of the environment acquired by the sub-device is higher than the set threshold, the sub-device may be instructed to send an indicator light prompt signal and/or a function prompt signal in response to a device location search instruction. As another implementation, when the brightness parameter value of the environment where the sub device is located is higher than the preset threshold and the sound noise parameter value is higher than the set threshold, the sub device may be instructed to send a function prompt signal in response to a device position search instruction.

It is worth noting that if the light of the position where the sub-device is located is dark or noisy, it is difficult to quickly determine the position of the sub-device, and therefore, when the specified device is the sub-device (that is, the identifier of the specified device is inconsistent with the device identifier of the gateway), the gateway in the embodiment of the present application may also send a prompt signal to respond to the device position search instruction, so that the user may determine the position of the specified device according to the prompt signal of the sub-device and the prompt signal of the gateway, and by responding to the device position search instruction simultaneously through the sub-device and the gateway, the user may conveniently and quickly determine the position of the sub-device, and user experience is improved.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and modules may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, the coupling or direct coupling or communication connection between the modules shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or modules may be in an electrical, mechanical or other form.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

In summary, according to the method, the device and the gateway for searching the device location provided by the present application, a device location search instruction is obtained through the gateway, the device location search instruction includes a specified device identifier, and the specified device represents a device whose location is to be determined; detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not; and triggering an execution equipment position searching instruction according to the detection result so as to determine the position of the specified equipment according to the prompt signal after the execution of the equipment position searching instruction. The gateway obtains the equipment position searching instruction containing the specified equipment identification, then compares the specified equipment identification with the equipment identification of the gateway, and triggers a prompt signal according to the comparison result to respond to the equipment position searching instruction, so that the position of the equipment can be rapidly determined, and the searching requirement of a user on the intelligent home equipment is met.

A gateway provided by the present application will be described with reference to fig. 6.

Referring to fig. 6, a block diagram of a gateway 132 applicable to the embodiments of the present application is shown, where the gateway 132 may include a memory 132 and one or more processors 134, where the memory 132 and the processors 134 are coupled, and the memory 132 and the processors 134 are connected by communication lines.

The memory 132 may be used for storing software programs and modules, such as the method for controlling the device in the embodiment of the present application, and program instructions/modules corresponding to the apparatus, and the processor 134 executes various functional applications and data processing, such as the device location search method provided in the embodiment of the present application, by executing the software programs and modules stored in the memory 132.

The memory 132 may include high-speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. It will be appreciated that the configuration shown in fig. 6 is merely illustrative and that gateway 132 may include more or fewer components than shown in fig. 6 or have a different configuration than shown in fig. 6. The components shown in fig. 6 may be implemented in hardware, software, or a combination thereof.

Referring to fig. 7, a block diagram of a computer-readable storage medium according to an embodiment of the present application is shown. The computer-readable storage medium 400 has stored therein program code that can be called by a processor to execute the methods described in the above-described method embodiments.

The computer-readable storage medium 400 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Optionally, the computer-readable storage medium 400 includes a non-transitory computer-readable storage medium. The computer readable storage medium 400 has storage space for program code 410 for performing any of the method steps of the method described above. The program code can be read from or written to one or more computer program products. Program code 410 may be compressed, for example, in a suitable form.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (9)

1. A device location search method is applied to a gateway, and comprises the following steps:

the gateway acquires an equipment position searching instruction, wherein the equipment position searching instruction comprises a specified equipment identifier, and the specified equipment represents equipment of which the position is to be determined;

detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not;

triggering and executing the equipment position searching instruction according to the detection result so as to determine the position of the specified equipment according to a prompt signal after the equipment position searching instruction is executed;

the triggering and executing the device position searching instruction according to the detection result so as to determine the position of the specified device according to the prompt signal after executing the device position searching instruction comprises:

if the specified equipment identification is inconsistent with the equipment identification of the gateway, the gateway sends the equipment position searching instruction to the corresponding connected sub-equipment, wherein the sub-equipment is the equipment corresponding to the specified equipment identification;

instructing the sub-equipment to send a prompt signal to respond to the equipment position searching instruction so as to determine the position of the specified equipment according to the prompt signal of the sub-equipment;

the method further comprises the following steps:

if the specified equipment identification is not consistent with the equipment identification of the gateway, the gateway sends a prompt signal to respond to the equipment position searching instruction so as to determine the position of the specified equipment according to the prompt signal of the sub-equipment and the prompt signal of the gateway, wherein the gateway sends corresponding different prompt signals according to the types of the prompt signals sent by the sub-equipment.

2. The method of claim 1, wherein said detecting whether the specified device identification is consistent with a device identification of the gateway; the step of triggering and executing the equipment position searching instruction according to the detection result so as to determine the position of the specified equipment according to the prompt signal after the equipment position searching instruction is executed comprises the following steps:

if the specified equipment identification is consistent with the equipment identification of the gateway, the gateway sends a prompt signal to respond to the equipment position searching instruction so as to determine the position of the specified equipment according to the prompt signal of the gateway.

3. The method of claim 1, wherein the step of instructing the sub-device to issue a prompt signal in response to the device location finding instruction to determine the location of the designated device based on the prompt signal of the sub-device comprises:

acquiring parameter values of the environment state of the sub-equipment, wherein the environment state comprises the brightness and the sound noise degree of the environment in which the sub-equipment is located;

and instructing the sub-equipment to send a corresponding prompt signal to respond to the equipment position searching instruction according to the parameter value of the environment state.

4. The method of claim 3, wherein the step of instructing the sub-devices to issue corresponding alert signals in response to the device location finding instructions based on the parameter values of the environmental conditions comprises:

when the brightness parameter value of the environment where the sub-equipment is located is higher than a preset threshold value, indicating the sub-equipment to send out a sound prompt signal and/or a function prompt signal to respond to the equipment position searching instruction;

or when the sound noise parameter value of the environment where the sub-equipment is located is higher than a set threshold value, indicating the sub-equipment to send an indicator light prompt signal and/or a function prompt signal to respond to the equipment position searching instruction;

or when the brightness parameter value of the environment where the sub-equipment is located is higher than a preset threshold value and the sound noise parameter value is higher than a set threshold value, the sub-equipment is instructed to send a function prompt signal to respond to the equipment position searching instruction.

5. The method according to any of claims 1-4, wherein the step of the gateway sending the device location lookup instruction to the corresponding connected sub-device if the specified device identifier is not consistent with the device identifier of the gateway further comprises:

if the specified equipment identification is inconsistent with the equipment identification of the gateway, judging whether the sub-equipment is in an online state according to the specified equipment identification;

and when the sub-equipment is judged to be in the online state, executing the step of sending the equipment position searching instruction to the correspondingly connected sub-equipment.

6. The method of claim 1, wherein the method further comprises:

if the designated equipment is a gateway, the prompt signal comprises an indicator light prompt signal and/or a sound prompt signal;

if the designated equipment is the sub-equipment, the prompt signal comprises an indicator light prompt signal, a sound prompt signal and/or a function prompt signal.

7. An apparatus for locating a device, operating in a gateway, the apparatus comprising:

the gateway comprises an instruction acquisition module, a storage module and a processing module, wherein the instruction acquisition module is used for acquiring an equipment position searching instruction by the gateway, and the equipment position searching instruction comprises an appointed equipment identifier, wherein the appointed equipment represents equipment of which the position is to be determined;

the detection module is used for detecting whether the specified equipment identification is consistent with the equipment identification of the gateway or not by the gateway;

the instruction processing module is used for triggering and executing the equipment position searching instruction according to the detection result by the gateway so as to determine the position of the specified equipment according to a prompt signal after the equipment position searching instruction is executed;

the instruction processing module is configured to, when the gateway triggers execution of the device location search instruction according to the detection result, so as to determine the location of the designated device according to the prompt signal after execution of the device location search instruction:

if the specified equipment identification is inconsistent with the equipment identification of the gateway, the gateway sends the equipment position searching instruction to the corresponding connected sub-equipment, wherein the sub-equipment is the equipment corresponding to the specified equipment identification;

instructing the sub-equipment to send a prompt signal to respond to the equipment position searching instruction so as to determine the position of the specified equipment according to the prompt signal of the sub-equipment;

the instruction processing module is further configured to, if the specified device identifier is not consistent with the device identifier of the gateway, send a prompt signal by the gateway to respond to the device location search instruction, so as to determine the location of the specified device according to the prompt signal of the sub-device and the prompt signal of the gateway, where the gateway sends corresponding different prompt signals according to the type of the prompt signal sent by the sub-device.

8. A gateway comprising a memory, and one or more processors;

one or more programs stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the method of any of claims 1-6.

9. A computer-readable storage medium, having program code stored therein, wherein the program code when loaded and executed by a processor performs the method of any of claims 1-6.

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