CN116319236A

CN116319236A - Space configuration method, device, terminal equipment and storage medium

Info

Publication number: CN116319236A
Application number: CN202310292511.4A
Authority: CN
Inventors: 孟钰婧
Original assignee: Lumi United Technology Co Ltd
Current assignee: Lumi United Technology Co Ltd
Priority date: 2023-03-20
Filing date: 2023-03-20
Publication date: 2023-06-23

Abstract

The application relates to a space configuration method, a space configuration device, terminal equipment and a storage medium. The method comprises the following steps: displaying a space configuration page, wherein the space configuration page comprises a space region corresponding to a target space, and each added intelligent device displayed at a corresponding position is included in the space region; displaying the equipment control scheme in a scheme display area of the space configuration page; the equipment control scheme is generated based on the relation matching between the intelligent equipment in the target space; generating an intelligent space template based on each intelligent device and each device control scheme under the space area in response to a storage operation for the space configuration page; the intelligent space template is used for matching and applying the space matched with the target space. The method can effectively reduce configuration complexity and effectively improve configuration efficiency.

Description

Space configuration method, device, terminal equipment and storage medium

Technical Field

The present disclosure relates to the field of intelligent home technologies, and in particular, to a space configuration method, a device, a terminal device, and a storage medium.

Background

The intelligent equipment is widely applied to various scenes such as houses, and taking the intelligent houses as an example, one of the core functions of the intelligent houses is to automatically control the intelligent equipment, so that the purpose of the intelligent houses is realized, and the sense of life experience of the houses is improved.

The intelligent device needs to be configured with some control operations automatically executed, and a user can configure the intelligent device in bedrooms, living rooms and other spaces according to own habits, so that space configuration operation is realized. However, the existing method generally needs to configure the same or similar space separately, which results in high complexity and low configuration efficiency of intelligent space configuration.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a spatial configuration method, apparatus, terminal device, and storage medium that can reduce configuration complexity and improve configuration efficiency.

In a first aspect, an embodiment of the present application provides a spatial configuration method, where the method includes:

displaying a space configuration page; the space configuration page comprises a space region corresponding to the target space, wherein the space region comprises added intelligent devices displayed at corresponding positions;

displaying the generated equipment control scheme in a scheme display area of the space configuration page; the equipment control scheme is generated based on the relation matching between the intelligent equipment in the target space;

Generating an intelligent space template based on each intelligent device and each device control scheme under the space area in response to a storage operation for the space configuration page; the intelligent space template is used for matching and applying the space matched with the target space.

In a second aspect, an embodiment of the present application provides a spatial configuration apparatus, including:

the display module is configured to display a space configuration page, wherein the space configuration page comprises a space region corresponding to a target space, and each added intelligent device displayed at a corresponding position is included in the space region;

the control module is configured to generate an equipment control scheme and trigger the display module to display the equipment control scheme in a scheme display area of the space configuration page; the equipment control scheme is generated based on the relation matching between the intelligent equipment in the target space;

the processing module is used for responding to the storage operation of the space configuration page and generating an intelligent space template based on the intelligent devices and the device control schemes under the space area; the intelligent space template is used for matching and applying the space matched with the target space.

In some embodiments, the control module is configured to control the display module to display, on the spatial configuration page, a spatial region corresponding to the target space determined based on the region layout data; and the region layout data is obtained by processing the signals acquired by the target space through auxiliary identification equipment.

In some embodiments, the control module is configured to generate a custom region in response to any region selected in the spatial configuration page; determining the custom region as a space region corresponding to the target space; the spatial region includes at least one;

and the display module is configured to respond to the selected operation of the space region, and display a device control scheme corresponding to the selected space region in a scheme display region of the space configuration page based on the intelligent device bound under the target space.

In some embodiments, the spatial configuration apparatus further comprises a first acquisition module,

the first acquisition module is configured to acquire the position relationship between the target space and each intelligent device and the device relationship between each intelligent device;

and the control module is configured to generate equipment control schemes corresponding to the space areas according to the position relation and the equipment relation, and display the equipment control schemes in the scheme display area of the space configuration page.

In some embodiments, a first obtaining module is configured to obtain historical control data of each of the smart devices;

the control module is configured to determine trigger conditions and execution actions corresponding to the intelligent devices with linkage relations under the target space according to the position relations, the device relations and the history control data; and generating a device control scheme corresponding to each spatial region based on the triggering conditions and the execution actions corresponding to each intelligent device.

In some embodiments, the control module is configured to respond to an adjustment instruction for the equipment control scheme, and update the equipment control scheme according to control adjustment information corresponding to the adjustment instruction; and triggering a display module to display the updated equipment control scheme on the space configuration page.

In some embodiments, the spatial configuration apparatus further comprises a second acquisition module,

the second acquisition module is configured to acquire the geographic position corresponding to the target space;

the processing module is configured to share the intelligent space template into a space template set corresponding to the geographic position; and the space template set is used for pushing each intelligent space template in the space template set to the target terminal meeting the pushing condition based on the geographic position.

In some embodiments, the intelligent space template is used for recommending the template to the target terminal meeting the pushing condition according to the geographic position of the target space, so as to instruct the target terminal to display the intelligent space template recommended based on the current geographic position, and the intelligent space template is applied; each intelligent space template comprises a space region under a template space and an intelligent device adaptive device control scheme which can be deployed under the template space.

In a third aspect, an embodiment of the present application provides a terminal device, including a processor, a memory, and a computer program stored on the memory and executable by the processor, where the computer program when executed by the processor implements a space configuration method according to any one embodiment of the present application.

In a fourth aspect, embodiments of the present application provide a computer readable storage medium having a computer program stored thereon, the computer program, when executed by a processor, implementing a spatial configuration method according to any embodiment of the present application.

A computer program product or computer program comprising computer instructions stored in a computer readable storage medium; the processor of the computer device reads the computer instructions from the computer readable storage medium, and the processor when executing the computer instructions implements the steps in the spatial configuration method of the embodiments of the present application.

According to the space configuration method, the device, the terminal equipment and the storage medium, the space configuration page comprising the space region corresponding to the target space is displayed first, each added intelligent equipment displayed in the corresponding position is included in the space region, then the equipment control scheme generated based on the relation matching between the intelligent equipment in the target space is displayed in the scheme display region of the space configuration page, and the intelligent space template capable of carrying out matching application on the space matched with the target space is generated based on the intelligent equipment in the space region and the equipment control scheme, so that accurate matching among the space region corresponding to the target space, the intelligent equipment and the equipment control scheme can be realized, the intelligent space template corresponding to the target space is generated, the intelligent space template can be further applied to the space matched with the target space, multiple configuration of the same or similar space is avoided, the configuration complexity can be effectively reduced, and the configuration efficiency is effectively improved.

Drawings

FIG. 1 is an application environment diagram of a space allocation method in one embodiment;

FIG. 2 is a flow chart of a method of spatial configuration in one embodiment;

FIG. 3 is a schematic diagram of a configuration process of the intelligent space template in one embodiment;

FIG. 4 is a schematic diagram of an application process of the intelligent space template in one embodiment;

FIG. 5 is a schematic flow chart of a space configuration method in one embodiment;

FIG. 6 is a schematic diagram I of a space configuration page in one embodiment;

FIG. 7 is a second schematic diagram of a space configuration page in one embodiment;

FIG. 8 is a schematic diagram III of a space configuration page in one embodiment;

FIG. 9 is a diagram of a space configuration page in one embodiment;

FIG. 10 is a diagram fifth exemplary space configuration page in one embodiment;

FIG. 11 is a diagram six of a space configuration page in one embodiment;

FIG. 12 is a diagram seven of a space configuration page in one embodiment;

FIG. 13 is a block diagram of a space configuration device in one embodiment;

fig. 14 is an internal structural diagram of a terminal device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The spatial configuration method provided by the application can be applied to the application environment shown in fig. 1. The following describes an example of the application environment as an intelligent home system. Referring to fig. 1, the smart home system may include a server 10, a first terminal device 11, a smart device 12, and a second terminal device 13. An Application program (APP) may be installed on the first terminal device 11, where the Application program may be an intelligent home Application program, and when the intelligent home Application program is running, the space configuration page may be displayed, where each added intelligent device is displayed in a corresponding position, the space configuration page includes a device control scheme generated based on relationship matching between each intelligent device in the target space, and based on each intelligent device and each device control scheme in the space region, an intelligent space template may be generated, and then the intelligent space template may be sent to the server 10, and the server 10 may send the intelligent space template to the second terminal device 13, so that the second terminal device 13 may directly use the intelligent space template to perform space configuration, thereby effectively reducing complexity of space configuration and improving configuration efficiency.

The first terminal device 11 may be, but not limited to, various intelligent control panels, personal computers, notebook computers, smart phones, tablet devices, portable wearable devices, etc., and the smart device 12 may be a smart home device, for example, a smart home device may include an electric lamp, a television, and an air conditioner. For another example, the smart home devices may also include a burglarproof door lock, a speaker, a floor sweeping robot, a socket, a body fat scale, a desk lamp, an air purifier, a refrigerator, a washing machine, a water heater, a microwave oven, an electric cooker, a curtain, a fan, a television, a set-top box, a door and window, and the like. The server 10 may be a local server, a cloud server, or the like, and the specific server type may not be limited in the embodiment of the present application. The first terminal device 11 can interact with the server 10 in a wireless manner such as 2G/3G/4G/5G/WiFi. Of course, the connection manner between the first terminal device 11 and the server 10 may not be limited in the embodiment of the present application.

It is to be understood that the above application environments are merely exemplary descriptions for facilitating understanding of the following embodiments, and do not constitute any limitation on the application environments in which the embodiments of the present application may be actually implemented.

Referring to fig. 2, a space configuration method provided in an embodiment of the present application may be applied to an electronic device, where in this embodiment, the electronic device may be specifically exemplified by a terminal device shown in fig. 1, and the space configuration method includes the following steps:

step S101, a space configuration page is displayed; the space configuration page comprises a space region corresponding to the target space, and each added intelligent device displayed at the corresponding position is included in the space region.

The space configuration page refers to a user interface which can interact with a user to perform space template configuration. Thus, when the user wishes to perform space template configuration, the client is started and enters the user interface for space template configuration, namely the space configuration page is regarded as being displayed. The user can configure a space region corresponding to the target space, each intelligent device displayed at the corresponding position of the target space and a corresponding device control scheme on the space configuration page to generate a corresponding intelligent space template.

The target space is a space which needs to be configured with a space template at present, and the target space can be, but is not limited to, a home space or an office space such as a room, a family, a floor, a building and the like. The spatial region refers to an attribute of the target space, and is used to represent a distribution situation of the target space, including, but not limited to, a house type graph corresponding to the target space, and the like. If the space region is a house type diagram, the size and distribution of the space in the house type diagram corresponding to the target space need to correspond to the size and distribution of the target space. It will be appreciated that the spatial region corresponding to the target space may be generated by auxiliary recognition, or may be generated by a user manually configuring an arbitrary region, which is not particularly limited herein.

The intelligent equipment can be equipment capable of realizing automatic scene control, and can be intelligent household equipment such as electric lamps, televisions, air conditioners, curtains and fans. Each intelligent device in the target space corresponds to different positions, and a user can input an adding operation for the selected intelligent device in the space configuration page, so that the terminal device can add the selected intelligent device to the corresponding position in the space region according to the received adding operation, and further display the added intelligent device in the corresponding position. It will be appreciated that the intelligent devices may be manually added to the spatial region by the user or may be automatically generated based on the device information. The intelligent devices displayed in the space configuration page can be specifically device identifiers of the intelligent devices, the device identifiers can be device names and the like, and the device identifiers can be specifically identified through icons and/or characters.

Step S103, in the scheme display area of the space configuration page, displaying the generated equipment control scheme; the device control scheme is generated based on relation matching among the intelligent devices in the target space.

The device control scheme can be generated by matching based on the relation among the intelligent devices in the target space, and the generated device control scheme is displayed in a scheme display area of the space configuration page, so that a user can know and adjust in time. For example, the device control scheme may be "when the entrance door is opened, turn on the living room light" or the like.

Step S105, in response to the storage operation for the spatial configuration page, generating an intelligent spatial template based on each of the intelligent devices and each of the device control schemes under the spatial region; the intelligent space template is used for matching and applying the space matched with the target space.

The space configuration page and/or the terminal equipment can be provided with a storage key for triggering the storage space template, after the storage key is triggered, the terminal equipment correspondingly acquires the storage operation aiming at the space configuration page, and based on each intelligent equipment and each equipment control scheme in the space area, an intelligent space template which can be used for matching and applying the space matched with the target space is generated.

The intelligent space template is a space region corresponding to the target space by the pointer and a template pre-configured by equipment under the target space, and when the intelligent space template is applied to the space matched with the target space, the corresponding equipment under the space matched with the target space has various functions in the intelligent space template. The space adapted to the target space may specifically be a space with the same spatial region as the target space, such as a space with the same house type as the target space, and the like.

As shown in fig. 3, taking a target space as a home area, the space area is an area corresponding to a home type graph of a user, and the configuration process of the intelligent space template may mainly include: the method comprises the steps of building a digital family function house type area, storing a family house type graph, adding equipment in the family area, storing the family house type graph and equipment relation, adding automation relation among the equipment, storing the automation relation among the equipment, receiving storage operation, and storing the family house type graph, the family house type graph and equipment relation and the automation relation among the equipment as a callable space template. Through the operation, after the user configures one set of rooms, corresponding data can be pulled and stored as independently packaged template data according to the family type graph, the equipment position relation and the automatic configuration information configured in the intelligent system by the user, and when the user clicks a 'stored template' key, the configuration of the intelligent space template is completed.

In the embodiment of the application, the accurate matching among the space region corresponding to the target space, the intelligent equipment and the equipment control scheme can be realized, and the intelligent space template corresponding to the target space is generated, so that the intelligent space template can be further applied to the space adapted to the target space, multiple configurations of the same or similar space are avoided, the configuration complexity can be effectively reduced, and the configuration efficiency is effectively improved.

In some embodiments, a display space configuration page includes: displaying a space configuration page, wherein the space configuration page displays a space region corresponding to the target space, which is determined based on the region layout data; the regional layout data is obtained by processing the signals acquired by the target space through auxiliary identification equipment.

The region layout data refers to layout data of each region in the target space, and can be specifically used for describing the relative position and layout of each region in the target space. Taking a target space as an example of a set of residential houses, the corresponding region layout data may include the position of each room region included in the residential houses, the layout of each room region, and the like.

When the space region corresponding to the target space needs to be acquired, the user can acquire the target space by means of the auxiliary identification equipment to acquire region layout data, and then the space region corresponding to the target space is determined based on the region layout data.

It can be understood that the auxiliary recognition device can be set according to actual situation requirements, for example, the auxiliary recognition device can be a radar ranging sensor, a millimeter wave radar human body existence sensor, an image acquisition device and the like. Taking the example that the auxiliary recognition equipment comprises millimeter wave radar human body presence sensors, when a user walks in a target space according to the regional distribution of the target space, the millimeter wave radar human body presence sensors can be adopted to conduct human shape tracking on the user, collected signals are processed to obtain regional layout data, such as the position data of the target space under a radar coordinate system, and further the spatial region corresponding to the target space is determined based on the regional layout data.

In this embodiment, the auxiliary identification device acquires the region layout data of the target space, and determines the space region corresponding to the target space according to the region layout data, so that the space region corresponding to the target space can be accurately acquired, and meanwhile, the operation is convenient, and the configuration complexity is further reduced.

In some embodiments, the spatial configuration method further includes:

responding to any area selected in the space configuration page, and generating a custom area; determining the custom region as a space region corresponding to the target space; the spatial region includes at least one;

the solution display area of the space configuration page displays the generated equipment control solution, which comprises the following steps:

and responding to the selected operation of the space region, and displaying a device control scheme corresponding to the selected space region in a scheme display region of the space configuration page based on the intelligent device bound under the target space.

The space configuration page may provide a user with a function of customizing a space region corresponding to the target space, where the space region may include at least one space region, and the functions of each space region may be different, and taking the target space as a home, for example, the space region corresponding to the target space may include a bedroom, a living room, a kitchen, a bathroom, and other regions according to the functions. The terminal equipment responds to any area selected by a user in the space configuration page, generates a self-defined area, and determines the self-defined area as a space area corresponding to the target space.

It will be appreciated that the user may select only any one region in the spatial configuration page at a time, or may select a plurality of regions in the spatial configuration page at a time, which is not particularly limited herein. In addition, the manner of configuring the selected area of the page in the space by the user may be specifically that the user performs frame selection through an area selection frame, edits through a brush, and the like.

The functions corresponding to each space area may be different, for example, for a living room area, the intelligent devices may include televisions and curtains, and for a bathroom area, the intelligent devices may include intelligent toilets and exhaust fans, so that for each selected space area, the terminal device needs to determine the intelligent devices included in the selected space area based on the intelligent devices bound under the target space, then acquire the linkage relation between the intelligent devices included in the selected space area, namely, the device control scheme corresponding to the selected space area, and then display the device control scheme corresponding to the selected space area in the scheme display area of the space configuration page.

In this embodiment, based on the intelligent devices bound in the target space, the device control schemes corresponding to the selected space regions are displayed in the scheme display region of the space configuration page, so that a user can conveniently know the device control schemes corresponding to the space regions, and meanwhile, the device control schemes corresponding to the space regions can be conveniently adjusted, so that the configuration efficiency is further improved.

In some embodiments, in a solution display area of the spatial configuration page, displaying the generated device control solution includes:

acquiring the position relation between the target space and each intelligent device and the device relation between each intelligent device;

and generating equipment control schemes corresponding to the space areas according to the position relation and the equipment relation, and displaying the equipment control schemes in the scheme display area of the space configuration page.

It can be understood that the positional relationship between the target space and each intelligent device can be obtained according to the position shown by each intelligent device in the space region corresponding to the target space. The device relationship between the intelligent devices is used to indicate the conditions required by the intelligent devices to implement the automation control scene and the association relationship between the intelligent devices, including but not limited to the relationship between control and controlled, the relationship between sensing environment to determine whether the trigger condition is satisfied and the action is performed, etc. According to the position relation between the target space and each intelligent device, the intelligent device corresponding to each space region can be obtained, and according to the device relation between the intelligent devices, the device attribute of each intelligent device, such as a trigger device and a controlled device linked with the trigger device, can be obtained, so that according to the position relation and the device relation, the device attribute of the intelligent device included in each space region can be obtained, and further, based on the device attribute of the intelligent device included in each space region, the device control scheme corresponding to each space region can be generated, and the device control scheme is displayed in the scheme display region of the space configuration page.

The device control schemes corresponding to the space regions can be displayed in the scheme display region of the space configuration page, or only the device control scheme corresponding to a single space region can be displayed, and the device control schemes corresponding to other space regions can be hidden by default so that the hidden device control scheme can be displayed after being triggered, thereby avoiding occupying more display regions of the space configuration page.

In this embodiment, according to the positional relationship between the target space and each intelligent device and the device relationship between each intelligent device, the device control scheme corresponding to each spatial region is generated and displayed, so that the device control scheme corresponding to each spatial region can be accurately obtained, and meanwhile, the operation is simple, and the configuration complexity is further reduced.

In some embodiments, generating a device control scheme corresponding to each spatial region according to the position relationship and the device relationship includes:

acquiring historical control data of each intelligent device;

determining triggering conditions and executing actions corresponding to each intelligent device with linkage relation under a target space according to the position relation, the device relation and the history control data;

and generating a device control scheme corresponding to each space region based on the triggering conditions and the execution actions corresponding to each intelligent device.

The terminal device may acquire recorded history control data of each intelligent device from itself or a server, where the history control data refers to data generated or recorded by controlling the intelligent device by history, and may include data such as trigger time, trigger condition, execution action of each intelligent device. For example, taking a window curtain of a bedroom and a bedroom lamp as an example, if the history control data records that the bedroom door is opened, then the bedroom lamp is opened, then the window curtain of the bedroom will be opened usually after a short time, then the bedroom lamp and the window curtain of the bedroom can be considered to have a linkage relation, and the triggering condition of the bedroom lamp is that the bedroom door is opened, the execution action is to turn on, and the like.

Therefore, according to the position relation, the equipment relation and the history control data, the triggering conditions and the execution actions corresponding to the intelligent equipment with the linkage relation under the target space and the intelligent equipment corresponding to the space areas can be determined, and further, based on the triggering conditions and the execution actions corresponding to the intelligent equipment, the equipment control scheme corresponding to the space areas is generated by combining the intelligent equipment corresponding to the space areas. The triggering condition is a condition that the intelligent device needs to meet the execution action, and the execution action is a control instruction executed by the intelligent device when the triggering condition is met.

For example, for a device control scheme of "curtain open, light closed", there is a linkage relationship between the curtain and the like, the triggering condition of the light is that the curtain is open, and the corresponding execution action is that the light is on.

In the embodiment, by combining the historical control data of the intelligent device to generate the device control scheme corresponding to each space region, the device control scheme corresponding to each space region can be accurately acquired, the accuracy is high, the operation is convenient, the configuration complexity is further reduced, and the configuration efficiency is improved.

In some embodiments, the spatial configuration method further includes:

responding to an adjustment instruction for the equipment control scheme, and updating the equipment control scheme according to control adjustment information corresponding to the adjustment instruction;

and displaying the updated equipment control scheme on the space configuration page.

The user may need to adjust the device control scheme according to actual situations, such as own needs, and correspondingly may input an adjustment instruction for the device control scheme to the terminal device, where the terminal device responds to the adjustment instruction for the device control scheme, updates the device control scheme according to control adjustment information corresponding to the adjustment instruction, and displays the updated device control scheme on the space configuration page.

The user can make the terminal device enter a state of receiving the adjustment instruction by performing long-time pressing, double-click and other touch operations on the device control scheme displayed on the space configuration page. Alternatively, the space configuration page may include a key for adjusting the device control scheme, and when the key is triggered, the terminal device is brought into a state of receiving the adjustment instruction.

For example, taking an example that the equipment control scheme comprises an automatic control scheme, the automatic control scheme comprises a triggering condition and an execution action, if the automatic control scheme is that a door is opened, a living room lamp is started, if a user adjusts the execution action, an adjustment instruction input to the terminal equipment is that the living room lamp is changed into the passageway lamp, the updated automatic control scheme is that the door is opened, and the passageway lamp is started; if the user adjusts the triggering condition, the adjustment instruction input to the terminal equipment is to modify the door opening of the entrance into the door opening of the bedroom, and the updated automatic control scheme is that the door opening of the bedroom is, and the aisle lamp is started.

In this embodiment, the user may adaptively adjust the device control scheme according to the requirements, so that the device control scheme is more suitable for the user requirements, improving user experience and further improving configuration efficiency.

In some embodiments, the spatial configuration method further includes:

obtaining a geographic position corresponding to a target space;

sharing the intelligent space template into a space template set corresponding to the geographic position; and the space template set is used for pushing each intelligent space template in the space template set to the target terminal meeting the pushing conditions based on the geographic position.

The space template set refers to a set formed by a plurality of intelligent space templates with the same geographic position, and space areas corresponding to different intelligent space templates in the same space template set may be the same or different.

For example, taking a geographic location as an example of a cell name, the set of space templates corresponding to the cell name may include an intelligent space template of a house type a or an intelligent space template of a house type B. The terminal device obtains the geographic position corresponding to the target space, which can be that the terminal device collects the current geographic position through an installed navigation system such as a GPS system, a Beidou navigation system and the like under the condition of starting a positioning function, and determines the collected current geographic position as the geographic position corresponding to the target space. The terminal device may acquire the geographic position corresponding to the target space, or the terminal device may acquire the position input by the user and determine the position input by the user as the geographic position corresponding to the target space.

The geographic position can be used for indicating the position of the target space, and specifically can be longitude and latitude, and also can be the name of a district, a building, an office building and the like. The space template set can be stored in the cloud server, and accordingly, the terminal equipment shares the intelligent space template into the space template set corresponding to the geographic position, and the intelligent space template and the geographic position can be sent to the cloud server for the terminal equipment, so that after the cloud server receives the intelligent space template, the intelligent space template is stored into the space template set corresponding to the geographic position according to the geographic position.

The pushing conditions can be set according to actual situation requirements, for example, the geographic positions of the pushing conditions are the same or similar. For example, if the geographic location of the target terminal is the same as the geographic location corresponding to the target space, the intelligent space template may be pushed to the target terminal. Or if the geographic position of the target terminal is the same as the geographic position corresponding to the target space, and the spatial region corresponding to the space of the target terminal is the same as the spatial region corresponding to the target space, the intelligent spatial template can be pushed to the target terminal.

In this embodiment, by sharing the intelligent space templates of the target space to the space template set corresponding to the geographic position corresponding to the target space, each intelligent space template in the space template set can be pushed to the target terminal meeting the pushing condition based on the geographic position, so that quick calling and recommendation of the intelligent space templates are facilitated, and configuration efficiency is further improved.

In some embodiments, the intelligent space template is used for recommending the template to the target terminal meeting the pushing condition according to the geographic position of the target space, so as to instruct the target terminal to display the intelligent space template recommended based on the current geographic position, and apply the intelligent space template; each intelligent space template comprises a space region under the template space and an equipment control scheme which can be deployed under the template space and is suitable for intelligent equipment.

The target terminal is a terminal device needing to configure the intelligent device in the space, and the condition for pushing is that the geographic position of the target terminal or the geographic position of the target terminal is the same as the geographic position of the target space. The template space is a space which corresponds to each intelligent space template and can be adapted.

It can be understood that when a space template recommendation request carrying a current geographic position sent by a target terminal is obtained, the matching can be performed based on the geographic positions corresponding to the current geographic position and different intelligent space templates, so as to recommend the intelligent space templates matched with the current geographic position to the target terminal, and further enable the target terminal to display the intelligent space templates recommended based on the current geographic position, such as different intelligent space templates of a certain house or different intelligent space templates of a certain room.

After a user of a target terminal selects a required intelligent space template and executes application operation on the intelligent space template, the space region, the intelligent equipment information and the corresponding equipment control scheme under the intelligent space template are issued to an intelligent home system associated with the target terminal, so that space configuration is performed by using the intelligent space template in the intelligent home system associated with the target terminal, namely, intelligent equipment under the space of the same space region is configured by using the intelligent space template. Therefore, the intelligent space template can be repeatedly applied to the space adapted to the target space, space configuration operation is not required to be repeatedly executed, multiple configurations of the same or similar space are avoided, configuration complexity is effectively reduced, configuration efficiency is effectively improved, and application is convenient.

As shown in fig. 4, taking a target space as a home area and a space area as a house type map as an example, the application process of the intelligent space template mainly includes: clicking an application template, sequentially issuing a family type diagram, a device relation and an automation relation among devices, and applying the family type diagram, the device relation and the automation relation among devices to an intelligent family system. Here, after the front end, such as the operation interface of the user mobile phone, presents the related household pattern, the equipment relation and the intelligent related information contained in the intelligent space template, the user can select the needed intelligent household template according to the household condition, click the application template, and then send the household pattern, the equipment relation and the intelligent related information contained in the template to the current intelligent household system of the user so as to complete the application of the intelligent space target.

A specific manner of spatial configuration method is illustrated below with reference to fig. 1. Taking the target space as a living room and the space area as a house type diagram as an example, assuming that a user A uses a first terminal device 11 to perform space configuration on a living room a of the user A, after obtaining the house type diagram of the living room a, by matching the relations of all intelligent devices 12, an equipment control scheme of opening the door and closing the curtain after opening the television is generated, then based on the information, an intelligent space template of the living room a is generated, and the intelligent space template of the living room a is shared in a space template set corresponding to the geographical position of a cell of the user A in the server 10, if the user B in the same cell as the user A needs to perform space configuration on the living room B of the user A, a living room template recommendation request carrying the geographical position of the cell can be sent to the server 10 by using a second terminal device 13, after receiving the living room template recommendation request, the intelligent space template of the living room a can be pushed to the second terminal device 13, and the intelligent space template of the living room a is opened by the user B when the user B selects and uses the intelligent space template of the user A, and the intelligent space template of the user B does not need to be opened, and the intelligent space template of the user B is opened, so that the user B can be subjected to realize the effect of opening of the living room in the living room.

In order to enable a more systematic understanding of the spatial configuration method provided in the embodiments of the present application, a specific example will be described below, where a spatial region is taken as an example of a house type graph.

In general, three layers of data including house type relation, equipment and intelligent configuration are included in the intelligent home configuration, and the data information makes the intelligent home configuration have relatively high difficulty, and in particular, the current technology can gradually provide accurate home type data for the intelligent home system (such as providing home function area data by adopting millimeter wave radar, etc.), but is complex and time-consuming for the common home user to get up.

In order to provide a more convenient use scheme for users, based on the fact that the intelligent related data has the related real-time data storage capacity in the intelligent system, configured equipment, house function areas and intelligent related data can be stored as a template, the users can select one or more areas to be stored, click the one or more areas to be stored as the template, and then the equipment, house function areas and intelligent data contained in the space are generated into a space template for subsequent calling.

Referring to fig. 5, the spatial configuration method in the present application may specifically include the following steps:

Step S201, a family household pattern diagram is obtained.

There are various ways to obtain the family pattern diagram, including manual configuration, automatic configuration, etc.

And in the first mode, each room area in the family is manually configured to obtain a family household pattern diagram.

The user can acquire the position distribution relation between each room area in the home and the intelligent system through a series of auxiliary identification devices, and then a corresponding home type graph is established in the coordinate system of the intelligent system. For example, a millimeter wave radar human body presence sensor can be used for tracking human shapes in each room, and the position relation of each area of the room under radar coordinates is obtained, so that the house type diagram of each room is obtained.

Specifically, a millimeter wave radar can emit signals, then the capability of receiving echo signals tracks a target object, and then a house type diagram covered by radar coordinates is drawn and generated according to the motion track of the target object in each subspace and the position relationship of the entrance and the exit of each subspace.

As shown in fig. 6, taking the acquisition of the house type of the toilet as an example, when a user performs long-time pressing and/or moving in the space area of the space configuration interface through a finger, the configuration of the area of the toilet can be triggered, the human-shaped tracking is performed on the user walking in the toilet through the millimeter wave radar human body presence sensor, and the position relationship of each area of the toilet under the radar coordinates, such as the areas of the toilet, the bathroom and the like, is correspondingly acquired, so that the house type diagram of the toilet is generated.

The template after spatial position recognition is stored and applied, and the template comprises a house type graph provided by millimeter wave radar. Thus, all types of units provided by the units that can obtain the types of units can be used as the digital type provider, and are not listed here.

And generating a family household pattern diagram based on the household pattern file.

By importing the household type file into the household type map recognition system, the household type map recognition system can quickly convert the household type file into a digital household type map so as to automatically acquire the distribution condition of the household room area, namely the household type map, and can quickly generate the matching relationship between the intelligent system coordinate and the household environment of the user.

And thirdly, positioning the geographic position and generating a family household pattern diagram.

When a user uses or saves the house type map template, the intelligent system can automatically pull the geographical position information of the family where the template is located, and along with the increasing of family users, the intelligent system can acquire more and more house type maps with the geographical position information of the family. Specifically, family patterns can be classified according to geographic positions, the generated positions of the family patterns are compared with community distribution in a map system, similarity analysis is carried out on family pattern templates with similar geographic positions, then overlap analysis is carried out on family pattern templates with high similarity, a plurality of family pattern templates with high overlap ratio are used as standard family pattern templates of the communities, the standard family pattern templates of the same communities gradually tend to be perfect through continuous increase of the family pattern templates, and then family pattern templates corresponding to the geographic positions are formed, and further family patterns corresponding to the geographic positions can be obtained based on the geographic positions.

Step S203, the locations of the intelligent devices in the functional areas of the home are configured.

After the configuration of the family house type map is completed, the intelligent system can better recognize the family house type of the user, but has no effective recognition on the equipment conditions of all the functional areas of the family, and the family house type environment is perfected by marking the equipment and facility positions on the generated family house type map.

As shown in fig. 7, for example, a toilet is configured, and the toilet includes a toilet and a bathroom, device icons and/or facility icons related to the toilet, such as doors, curtains, toilets, lamps, bathtubs, etc., can be displayed on the space configuration interface, and a user can drag a certain device icon to a corresponding position in the toilet after selecting the device icon, so as to label the position of the device, specifically, the toilet can be labeled in the toilet, the bathtub can be labeled in the bathroom, etc.

After the equipment configuration operation is completed, the intelligent system can have more detailed digital cognition on the whole household environment of the user, and can obtain better household environment model reference when more intelligent service control is performed subsequently. For example, after a house type model is built based on a millimeter wave radar coordinate system, the specific positions of all devices in a room are obtained by utilizing the human body positioning capability and are fed into a household type graph, and then the intelligent system can obtain a complete household type graph with household device information.

Step S205, setting up a device control scheme of each area in the family.

After the family house type graph and the home environment (namely the equipment position) are obtained, equipment in the intelligent scene can be selected according to the needs of the family scene, and an area scene automation scheme of different family environments can be built, so that the intelligent system capacity is improved. In the process of configuring the space template or automatically generating the space template, a matched device control scheme can be automatically generated according to devices in a home scene.

As shown in fig. 8, taking an example of configuring a device control scheme of a toilet, a device control template may be provided on a space configuration interface, where the device control template may include a trigger device, a trigger mode, a controlled device, and the like, and the device control template is edited according to actual requirements, so that a corresponding device control scheme may be obtained.

For example, an equipment control scheme of "toilet door open, toilet lamp light, curtain close" may be set, the corresponding trigger equipment may be toilet door open, the trigger mode is toilet lamp and curtain open, the controlled equipment is toilet lamp and curtain, and the equipment control scheme of "human entering bathroom area, bathroom lamp light, toilet lamp off, curtain close" may be set, the corresponding trigger equipment may be human body detection sensor, the trigger mode is human body detection, the controlled equipment is bathroom lamp, toilet lamp and curtain.

Step S207, in response to the storage operation, generating a smart space template.

As shown in fig. 9, after the configuration is completed, the user clicks the storage space template control displayed by the space configuration interface to generate the intelligent space template. Meanwhile, after acquiring the corresponding home position information input by the user or authorizing the user to acquire the current position, the home environment household data containing the equipment information, the equipment control scheme and the home position information can be combined and stored as an intelligent space template, and the intelligent space template can be quickly called later.

Through the steps, the accurate intelligent space template can be obtained. For individual users, personal edited intelligent space templates which are more suitable for actual use conditions of families can be stored. For a system service provider, a user can be helped to quickly apply by pre-leading some standardized space templates, and meanwhile, intelligent implementation can be quickly performed in similar house types of the same community through the standardized space templates.

Step S209, recommending and applying the smart space template.

The system service provider can recommend some intelligent space templates which accord with the local community house types as standard templates by analyzing the house types of the areas where the users are located.

As shown in fig. 10, when a user needs to configure a living room, the user may request to a system service provider to recommend intelligent space templates based on a current position, and the system service provider may recommend intelligent space templates of a plurality of living rooms such as living room 1 and living room 2, which are matched with the current position of the user, to the user, so that the user may select different intelligent space templates of the recommended living room, and bring accurate space data such as a user-selected family pattern, device position information, device control scheme, etc. into the current account of the user, thereby facilitating the user to directly apply the selected intelligent space templates. Meanwhile, after the intelligent space template is applied, new editing can be performed to enable the intelligent space template to be more fit with a home environment.

The personal stored intelligent space template can log in the personal account to quickly look up, as shown in fig. 11, the intelligent space template of the selected and stored living room can be looked up. Here, the user can apply the stored intelligent space template, and after the intelligent space template is applied, the user can automatically bring the user pattern, the equipment position information and the equipment control scheme corresponding to the intelligent space template into the user pattern, the equipment position information and the equipment control scheme, and secondary setting is not needed.

The household types in the same community are usually fixed based on the current property development mode, so that all household types of the community can be covered only by building a plurality of household type templates, corresponding intelligent equipment positions and automatic configuration schemes can be designed based on the digital household types, and the information can be packaged into intelligent space templates.

The home position information can be attached to the digitalized intelligent space templates when the digitalized intelligent space templates are stored, so that the intelligent space templates can be classified and recommended to users of the digitalized intelligent system in the corresponding position area, and when the positioning information is acquired as a south mountain xx cell, different intelligent space templates corresponding to living rooms in the south mountain xx cell can be recommended to the users, so that the users can select the required intelligent space templates. Therefore, the standard intelligent space template based on the position recommendation has higher matching degree with the house type of the user, and the user can more efficiently select the intelligent space template matched with the house type of the user, so that the intelligent space template can be rapidly applied to establish an intelligent home system.

In this way, in the space configuration method provided in the above embodiment, the auxiliary identification device (such as millimeter wave radar) is used to precisely match the household type, device and intelligent configuration relationship in the smart home, and then template extraction and storage are performed to automatically generate the intelligent space template, so that multiple configurations of individuals or enterprise users on the same space in the home can be avoided, the complexity of intelligent space configuration is reduced, and meanwhile, the batch intelligent configuration efficiency of similar spaces is improved to a greater extent. Therefore, the spatial configuration method provided by the above embodiment has the following technical effects:

(1) The intelligent space templates of the household types are stored, the intelligent space templates corresponding to the user types can be quickly adjusted even if the equipment is switched to the installation space and the installation position, and the complex process of regional configuration is not required to be repeatedly executed;

(2) The template mechanism stored under the account can ensure that newly accessed equipment can quickly acquire the existing template without configuring a slave head, so that the application convenience is improved;

(3) When the number of family types is large in the projects such as communities, templates are adopted, repeated configuration of family type data and automation are not needed, and intelligent implementation is more convenient;

(4) The user house type templates in the same area are subjected to similarity matching, the house type of the area can be intelligently deduced, and further services conforming to the use environment are provided for users.

It should be understood that, although the steps in the flowchart of fig. 2 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in fig. 2 may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or other steps.

In one embodiment, as shown in fig. 13, there is provided a space configuration apparatus including: display module, control module and processing module, wherein:

the display module is configured to display a space configuration page, wherein the space configuration page comprises a space region corresponding to the target space, and each added intelligent device displayed at the corresponding position is included in the space region;

The control module is configured to generate an equipment control scheme and trigger the display module to display the equipment control scheme in a scheme display area of the space configuration page; the equipment control scheme is generated based on the relation matching among all intelligent equipment in the target space;

the processing module is configured to respond to the storage operation of the space configuration page and generate an intelligent space template based on each intelligent device and each device control scheme in the space region; the intelligent space template is used for matching and applying the space matched with the target space.

In some embodiments, the control module is configured to control the display module to display, on the spatial configuration page, a spatial region corresponding to the target space determined based on the region layout data; the regional layout data is obtained by processing the signals acquired by the target space through auxiliary identification equipment.

In some embodiments of the present invention, in some embodiments,

the control module is configured to respond to any area selected in the space configuration page and generate a custom area; determining the custom region as a space region corresponding to the target space; the spatial region includes at least one;

the display module is configured to respond to the selected operation of the space area, and display the equipment control scheme corresponding to the selected space area in the scheme display area of the space configuration page based on the intelligent equipment bound under the target space.

the control module is configured to generate equipment control schemes corresponding to the space areas according to the position relation and the equipment relation, and display the equipment control schemes in the scheme display areas of the space configuration pages.

In some embodiments of the present invention, in some embodiments,

the first acquisition module is configured to acquire historical control data of each intelligent device;

the control module is configured to determine trigger conditions and execution actions corresponding to the intelligent devices with linkage relations in the target space according to the position relations, the device relations and the history control data; and generating a device control scheme corresponding to each space region based on the triggering conditions and the execution actions corresponding to each intelligent device.

In some embodiments, the control module is configured to respond to an adjustment instruction for the device control scheme, and update the device control scheme according to control adjustment information corresponding to the adjustment instruction; triggering the display module to display the updated equipment control scheme on the space configuration page.

the second acquisition module is configured to acquire a geographic position corresponding to the target space;

the processing module is configured to share the intelligent space template into a space template set corresponding to the geographic position; and the space template set is used for pushing each intelligent space template in the space template set to the target terminal meeting the pushing conditions based on the geographic position.

For specific limitations of the spatial configuration means, reference may be made to the above limitation of the spatial configuration method, and no further description is given here. The respective modules in the above-described spatial configuration apparatus may be implemented in whole or in part by software, hardware, and combinations thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a terminal device is provided, the internal structure of which may be as shown in fig. 14. The terminal device comprises a processor, a memory, a network interface, a display screen and an input device which are connected through a system bus. Wherein the processor of the terminal device is adapted to provide computing and control capabilities. The memory of the terminal device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The network interface of the terminal device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a spatial configuration method. The display screen of the terminal equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the terminal equipment can be a touch layer covered on the display screen, can also be keys, a track ball or a touch pad arranged on the shell of the terminal equipment, and can also be an external keyboard, a touch pad or a mouse and the like.

It will be appreciated by those skilled in the art that the structure shown in fig. 14 is merely a block diagram of a portion of the structure associated with the present application and is not limiting of the terminal device to which the present application is applied, and that a particular terminal device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

In one embodiment, a computer readable storage medium is provided, on which a computer program is stored, where the computer program when executed by a processor implements the respective processes of the above-mentioned spatial configuration method embodiment, and the same technical effects can be achieved, and for avoiding repetition, a description is omitted here. Wherein, the computer readable storage medium is Read-only memory (ROM), random Access Memory (RAM), magnetic disk or optical disk, etc.

In one embodiment, a computer program product or computer program is provided that includes computer instructions stored in a computer readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions, so that the computer device performs the steps in the above-described method embodiments.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims

1. A method of spatial configuration, the method comprising:

2. The method of claim 1, wherein the presentation space configuration page comprises:

displaying a space configuration page, wherein the space configuration page displays a space region corresponding to the target space, which is determined based on the region layout data; and the region layout data is obtained by processing the signals acquired by the target space through auxiliary identification equipment.

3. The method according to claim 1, wherein the method further comprises:

4. The method according to claim 1, wherein the displaying the generated device control scheme in the scheme displaying area of the spatial configuration page includes:

5. The method of claim 4, wherein generating a device control scheme corresponding to each spatial region according to the location relationship and the device relationship comprises:

acquiring historical control data of each intelligent device;

determining triggering conditions and executing actions corresponding to the intelligent devices with linkage relations under the target space according to the position relations, the device relations and the history control data;

and generating a device control scheme corresponding to each spatial region based on the triggering conditions and the execution actions corresponding to each intelligent device.

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

7. The method according to any one of claims 1-6, further comprising:

obtaining a geographic position corresponding to the target space;

sharing the intelligent space template into a space template set corresponding to the geographic position; and the space template set is used for pushing each intelligent space template in the space template set to the target terminal meeting the pushing condition based on the geographic position.

8. The method according to any one of claims 1-6, wherein the intelligent space template is configured to perform template recommendation to a target terminal that meets a push condition according to a geographic location where the target space is located, so as to instruct the target terminal to display an intelligent space template recommended based on a current geographic location, so as to apply the intelligent space template; each intelligent space template comprises a space region under a template space and an intelligent device adaptive device control scheme which can be deployed under the template space.

9. A space configuration apparatus, the apparatus comprising:

a processing module configured to generate an intelligent space template based on each of the intelligent devices and each of the device control schemes under the space region in response to a storage operation for the space configuration page; the intelligent space template is used for matching and applying the space matched with the target space.

10. A terminal device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 8 when the computer program is executed.

11. A computer readable storage medium, characterized in that it has stored thereon a computer program which, when executed by a processor, implements the steps of the method according to any of claims 1 to 8.