CN113253621B - HomeMap-based equipment light source state visualization control method and device - Google Patents

Abstract

A HomeMap-based visual control method for equipment light source states comprises the following steps: the main control equipment builds a HomeMap according to the actual house type diagram and the position of the controlled equipment in the actual house type diagram; the main control equipment visually displays the light source state of the controlled equipment in the HomeMap; when detecting that a user performs region selection operation on a HomeMap and initiates a light source state control request to a selected region, the main control equipment determines controlled equipment to be responded to the light source state control request in the selected region; the main control equipment generates a control instruction for adjusting the light source state of the controlled equipment according to the light source state control request; the main control equipment executes control operation on the controlled equipment according to the control instruction; after the main control device executes the control operation on the controlled device, the current light source state of the controlled device is updated to HomeMap. The invention can realize the control of a plurality of controlled devices in a plurality of areas through the main control device, realize the remote control of the light source state of the controlled devices in the whole house by the user, and improve the experience of the user.

Description

HomeMap-based equipment light source state visualization control method and device

Technical Field

The invention relates to the technical field of intelligent equipment, in particular to a HomeMap-based equipment light source state visualization control method and device.

Background

Along with the rapid development of electronic technology, more and more devices develop towards the intelligent direction, and based on the advantages of convenient and fast operation, time saving, labor saving and the like, the application of intelligent devices in life, work, production and other scenes is more and more popular and important, wherein the use ratio of the intelligent devices in family life is highest, and the intelligent families become data-based and easy and controllable through the interactive linkage of the intelligent home and other devices.

The intelligent device is used in a household, the light source of the intelligent device is adjusted through the control of the intelligent device, such as the lighting state of the intelligent desk lamp and other devices is controlled, in actual life, the problem that when the light in a certain area of the household needs to be turned on or the brightness of the light in the certain area is adjusted, a user needs to master the on-off position of the device to realize the operation, namely, the user cannot remotely and comprehensively control the light source state of the intelligent device in the area, and therefore, the problem that the light source state of the lighting device in the area cannot be freely adjusted exists in the intelligent household process is solved.

Disclosure of Invention

Aiming at the defects in the background technology, the invention provides a device light source state visualization control method and device based on HomeMap, which can realize the control of a plurality of controlled devices in a plurality of areas through a main control device, realize the remote control of the light source state of the controlled devices in a whole house by a user and improve the experience of the user.

In order to solve the above problems, a first aspect of the present invention proposes a device light source state visualization control method based on HomeMap, the method comprising:

the main control equipment builds a HomeMap according to the actual house type diagram and the position of the controlled equipment in the actual house type diagram;

the main control equipment visually displays the light source state of the controlled equipment in a HomeMap;

when detecting that a user performs region selection operation on the HomeMap and initiates a light source state control request on a selected region, the main control equipment determines the controlled equipment to be responded to the light source state control request in the selected region;

the main control equipment generates a control instruction for adjusting the light source state of the controlled equipment according to the light source state control request;

the main control equipment executes control operation on the controlled equipment according to the control instruction;

After the main control equipment executes the control operation on the controlled equipment, the current light source state of the controlled equipment is updated to HomeMap.

As an optional implementation manner, in the first aspect of the present invention, the visually displaying, by the master device, the light source state of the controlled device in the HomeMap includes:

the main control equipment distinguishes and displays the light source state of the controlled equipment on the HomeMap through at least one or a plurality of combinations of images, characters, colors and sounds;

the control instruction includes:

turning on or off the light source of the controlled device and/or dimming or brightening the light source of the controlled device and/or changing the light color of the controlled device.

As an optional implementation manner, in the first aspect of the present invention, the performing, by the master device, a control operation on the controlled device according to the control instruction includes:

when the main control equipment performs the control operation of dimming or brightening the light source of the controlled equipment, the light comfort level of the controlled equipment in the preset area range is obtained;

judging whether the lamplight comfort level in the area range accords with a lamplight comfort zone, if not, generating a comfort level reminding instruction, and feeding back to the HomeMap; if yes, generating a completion instruction, and feeding back to the HomeMap

As an optional implementation manner, in the first aspect of the present invention, the determining, by the master device, the controlled device to be responsive to the light source control request in the selected area includes:

the main control equipment determines a selected area in the HomeMap, and acquires an actual area in an actual house type diagram according to the selected area;

the main control equipment acquires all controlled equipment to be responded to the light source state control request in the selected area, and generates a set of equipment to be controlled;

the master control equipment judges whether controlled equipment exists in the actual area, and if so, an actual controlled equipment set is generated according to all the current controlled equipment; if the controlled equipment does not exist, an empty set is generated, the main control equipment acquires the actual position of the controlled equipment in the equipment set to be controlled, the HomeMap is updated according to the actual position, and the main control equipment does not execute the control operation on the controlled equipment;

the master control equipment compares the equipment set to be controlled with the actual controlled equipment set;

if at least one controlled device in the device set to be controlled exists in the actual controlled device set, the main control device executes control operation on the existing controlled devices according to the control instruction;

If the controlled devices in the actual controlled device set do not exist in the device set to be controlled, the master control device updates the actual positions of all the controlled devices in the actual controlled device set to the HomeMap.

As an optional implementation manner, in the first aspect of the present invention, when a controlled device in the set of devices to be controlled exists in the actual set of controlled devices, the method includes:

acquiring a controlled device which does not exist in an actual controlled device set in a device set to be controlled, wherein the master control device acquires the actual position of the controlled device and updates the HomeMap according to the actual position;

and acquiring the controlled equipment which does not exist in the equipment to be controlled in the actual controlled equipment set, and updating the HomeMap by the main control equipment according to the actual position of the controlled equipment.

As an optional implementation manner, in the first aspect of the present invention, acquiring an actual area in the actual house type graph according to the selected area includes:

the main control equipment establishes a virtual coordinate system in the HomeMap;

the main control equipment establishes an actual coordinate system in the actual house type graph according to a virtual coordinate system, and all coordinate points of the virtual coordinate system and the actual coordinate system are mapped mutually;

The main control equipment acquires virtual coordinates of a plurality of virtual boundary points of the selected area in a virtual coordinate system;

acquiring actual coordinates which are mutually mapped with the virtual coordinates in an actual coordinate system;

and determining a plurality of actual boundary points according to actual coordinates, and connecting the actual boundary points to determine the actual area.

As an optional implementation manner, in the first aspect of the present invention, the performing, by the master device, a control operation on the controlled device according to the control instruction includes:

after the main control equipment executes the control operation on the controlled equipment according to the control instruction, judging whether the current light source state of the controlled equipment accords with the light source state required to be regulated in the control instruction; if yes, the main control equipment generates a completion instruction;

if not, the main control equipment generates an unfinished instruction, and the main control equipment executes the control operation on the controlled equipment again according to the control instruction;

when the main control equipment generates an unfinished instruction about the same controlled equipment for more than a preset number of times, the main control equipment marks the controlled equipment as a problem equipment and sends out a prompt.

The second aspect of the invention discloses a device light source state visualization control device based on HomeMap, which is applied to a main control device and comprises:

the building module is used for building a HomeMap according to the actual house type diagram and the position of the controlled equipment in the actual house type diagram;

the visual display module is used for visually displaying the light source state of the controlled equipment in the HomeMap;

the detection module is used for detecting whether a user performs region selection operation on the HomeMap or not and initiating a light source state control request on a selected region;

the determining module is used for determining the controlled equipment to be responded to the light source state control request in the selected area when the detecting module detects that the user performs the area selection operation on the HomeMap and initiates the light source state control request on the selected area;

the generation module is used for generating a control instruction for adjusting the light source state of the controlled equipment according to the light source state control request;

the execution module is used for executing control operation on the controlled equipment according to the control instruction;

and the updating module is used for updating the current light source state of the controlled equipment to HomeMap after the executing module executes the control operation on the controlled equipment.

As an optional implementation manner, in the second aspect of the present invention, the determining module includes:

the first determining submodule is used for determining a selected region in the HomeMap;

the first acquisition sub-module is used for acquiring an actual area in the actual house type graph according to the selected area;

the second acquisition submodule is used for acquiring all controlled devices to be responded to the light source state control request in the selected area and generating a set of the devices to be controlled;

the first judging submodule is used for judging whether controlled equipment exists in the actual area;

when judging that the controlled equipment exists in the actual area, the generating module generates an actual controlled equipment set according to all the current controlled equipment;

when judging that no controlled equipment exists in the actual area, the generating module generates an empty set;

the third acquisition sub-module is used for acquiring the actual position of the controlled equipment in the equipment set to be controlled when the generation module generates an empty set;

the first updating sub-module is used for updating the HomeMap according to the actual position when the third obtaining sub-module obtains the actual position of the controlled equipment in the equipment set to be controlled, and the executing module does not execute the control operation on the controlled equipment;

The second judging submodule is used for comparing the equipment set to be controlled with the actual controlled equipment set;

if the controlled equipment in the equipment set to be controlled exists in the actual controlled equipment set, the execution module executes the control operation of the existing controlled equipment according to the control instruction;

if the controlled devices in the actual controlled device set do not exist in the device set to be controlled, the first updating sub-module updates the actual positions of all the controlled devices in the actual controlled device set to HomeMap;

a third judging sub-module, configured to judge whether a controlled device in a to-be-controlled device set exists in an actual controlled device set, and if the controlled device does not exist in the actual controlled device set, the third obtaining sub-module obtains an actual position of the controlled device, and the first updating sub-module updates the HomeMap according to the actual position;

the third judging submodule is further used for judging whether the controlled equipment exists in the actual controlled equipment set or not when the controlled equipment exists in the actual controlled equipment set, and the controlled equipment does not exist in the controlled equipment set, if yes, the first updating submodule updates the HomeMap according to the actual position of the controlled equipment.

As an optional implementation manner, in the second aspect of the present invention, the first acquisition sub-module further includes:

the establishing subunit is used for establishing a virtual coordinate system in the HomeMap, and establishing an actual coordinate system in the actual house type graph according to the virtual coordinate system, wherein each coordinate point of the virtual coordinate system and each coordinate point of the actual coordinate system are mapped with each other;

an obtaining subunit, configured to obtain virtual coordinates of a plurality of virtual boundary points of a selected area in a virtual coordinate system, and obtain actual coordinates that are mapped with the virtual coordinates in an actual coordinate system;

a determining subunit, configured to determine a plurality of actual boundary points according to actual coordinates, and connect a plurality of the actual boundary points to determine the actual area;

as an alternative embodiment, in the second aspect of the present invention, the execution module further includes:

a fourth obtaining sub-module, configured to obtain light comfort level in a preset area where the controlled device is located after the main control device performs a control operation of dimming or brightening a light source of the controlled device;

the fourth judging submodule is used for judging whether the lamplight comfort level in the area range accords with the lamplight comfort zone or not;

When the lamplight comfort level does not accord with the lamplight comfort interval, the generating module generates a comfort level reminding instruction; when the lamplight comfort level accords with a lamplight comfort zone, the generating module generates a completion instruction;

a fifth judging sub-module, configured to judge whether a current light source state of the controlled device conforms to a light source state required to be adjusted in the control instruction after executing the control operation on the controlled device; if yes, the generating module generates a completion instruction;

if the control command is not met, the generation module generates an unfinished command, and the execution module executes the control operation of the controlled device according to the control command again;

a sixth judging sub-module, configured to judge whether the incomplete command generated by the generating module with respect to the same controlled device exceeds a preset number of times;

the reminding sub-module is used for marking the controlled equipment as problem equipment and sending out reminding when the generating module generates an unfinished instruction about the same controlled equipment for more than a preset number of times;

the third aspect of the invention discloses a device light source state visualization control device based on HomeMap, the device is applied to a main control device, and the device comprises:

A memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to execute part or all of the steps in the HomeMap-based device light source state visualization control method according to any one of the first aspect of the present invention.

A fourth aspect of the present invention discloses a computer storage medium storing computer instructions which, when invoked, are adapted to perform part or all of the steps of the HomeMap-based device light source state visualization control method of any one of the first aspects of the present invention.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

according to the invention, the light source state of the controlled equipment is displayed in the HomeMap in a visual effect, so that a user can clearly control the light source state of the controlled equipment in a whole house so as to control the light source state, and the controlled equipment in the circled area is initiated by circling the area in the HomeMap to determine the controlled equipment in the circled area, so that a control instruction is generated, and the light source state of the controlled equipment is controlled in the actual area corresponding to the circled area, so that the user can remotely control the light source state of the controlled equipment, and the experience of the user is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a HomeMap-based device light source state visualization control method in accordance with one embodiment of the present invention;

FIG. 2 is a flow chart of a master device determining the controlled devices within a selected area to be responsive to a light source control request in accordance with one embodiment of the present invention;

fig. 3 is a schematic flow chart of a master control device according to an embodiment of the present invention performing a control operation on the controlled device according to the control instruction;

FIG. 4 is a schematic diagram of a light comfort determination process in a preset area according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a device light source state visualization control apparatus based on HomeMap according to an embodiment of the present invention.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The invention discloses a device light source state visualization control method and device based on HomeMap, which can control the light source state of controlled devices in a relevant area by circling the relevant area on the HomeMap, can realize remote control of the controlled devices, freely and comprehensively adjust the light source state of the controlled devices in the selected area, improve the control force on the light source state of the controlled devices, and enhance the intelligent family experience of users on the controlled devices.

In order to better understand the HomeMap-based equipment light source state visualization control method and device described by the invention, an application scene to which the method described by the invention is applicable is described first. The intelligent equipment serving as the centralized control equipment can be understood as the master control equipment, other intelligent equipment capable of being controlled by the master control equipment can be understood as the controlled equipment, and one master control equipment can be used for realizing intelligent control on a plurality of controlled equipment. Optionally, the application scenario may be an application scenario in which a plurality of intelligent lighting devices exist, such as a home scenario, and further optionally, in the application scenario, the smart television may be used as a master control device, and the remaining smart lighting devices may be used as controlled devices, so that intelligent control of the smart television on the remaining smart lighting devices may be achieved, and still further optionally, the smart television may be a smart television with a touch screen.

The following describes a device light source state visualization control method and device based on HomeMap in detail.

Example 1

Referring to fig. 1, fig. 1 is a schematic flow chart of a device light source state visualization control method based on HomeMap according to an embodiment of the present invention. The method described in fig. 1 may be applied to a master control device, where the master control device may be capable of controlling a plurality of controlled devices, and further optionally, the master control device may be one of a plurality of smart home devices and may be capable of controlling some or all of other smart home devices with lighting functions, or the master control device may be an intelligent terminal device with an operable screen. As shown in fig. 1, the device light source state visualization control method based on HomeMap may include the following operations:

101. the main control equipment builds a HomeMap according to the actual house type diagram and the position of the controlled equipment in the actual house type diagram;

in the embodiment of the invention, the HomeMap establishes a spatial distribution diagram by acquiring a house type diagram of a designated space, and displays the identification of each controlled device for the position of each controlled device in the spatial distribution diagram.

There are various methods for establishing the spatial distribution map, for example, the spatial distribution map is constructed by intelligent equipment with path planning, such as a sweeping robot; or obtaining a house type graph through a third party such as a house manufacturer, and then constructing a space distribution graph according to the house type graph; or, the user photographs the appointed space, and the main control equipment constructs a space distribution diagram according to the contents of the photograph; or the user builds the spatial distribution diagram on the main control equipment by utilizing a database preset in the main control equipment, wherein the database preset in the main control equipment refers to a house type diagram, a room three-dimensional model and the like stored in the main control equipment.

The HomeMap is used in the existing screen equipment, such as mobile phones, computers, home equipment and the like, and the home equipment can be a refrigerator, a television and the like;

it should be noted that, the HomeMap mentioned in the present invention may be a 2D planar HomeMap, for example, a house pattern map that is divided into different area blocks to represent different house structures of a whole house, or may be a 3D three-dimensional HomeMap, which represents a house pattern map of different house structures of a whole house in a three-dimensional model form.

102. The main control equipment visually displays the light source state of the controlled equipment in a HomeMap;

In the embodiment of the invention, the light source state of the controlled device can be understood as a light-off state, a light-on state with different brightness, a light-on state with different color differences and the like of the controlled device, for example, when the controlled device is understood as an intelligent desk lamp, the light source state of the intelligent desk lamp can be a light-off state, a light-on state, a first-gear brightness state, a second-gear brightness state, a yellow light-on state or a white light-on state and the like;

in an optional embodiment, the main control device visually displaying the light source state of the controlled device in the HomeMap includes:

the main control equipment distinguishes and displays the light source state of the controlled equipment on the HomeMap through at least one or a plurality of combinations of images, characters, colors and sounds;

for example, in the HomeMap, the controlled devices a and B are in a light-on state, and the controlled device B is in a light-off state, so that the controlled device a can be displayed with the text "light" at its position and the controlled device B can be displayed with "light off" at its position; the position of the controlled device A can be displayed with a picture capable of clearly showing that the controlled device A is in a lighting state, and the position of the controlled device B can be displayed with a picture capable of clearly showing that the controlled device B is in a lighting state; the method can also be that the red is used for indicating "lighting" and the green is used for indicating "turning off", and in the HomeMap, the positions of the controlled devices A and B are marked and displayed in corresponding colors; further, the user may also touch the controlled devices a and B in the HomeMap respectively to make different sounds (may be representative sounds such as voice and songs) so as to distinguish and display that the controlled devices a and B are in different light source states;

In one embodiment of the present invention, the manner for visualizing the controlled device is not limited to the above-mentioned several manners, and the manner for visualizing the light source state of the controlled device may be a single manner or may be a combination of a plurality of manners;

the light source state of the controlled equipment is displayed in the HomeMap in a visual mode, so that a user can clearly know the light condition of the intelligent equipment with the lighting function in the whole house, and meanwhile, the light source state of the whole house is controlled by the palm grip.

103. Detecting whether a user performs region selection operation on the HomeMap or not and initiating a light source state control request on the selected region;

104. if yes, the master control equipment determines the controlled equipment to be responded to the light source state control request in the selected area;

in the embodiment of the present invention, the region selection operation may be understood as an operation of a user to select different regions on the HomeMap, for example, when the HomeMap is a 2D plan, that is, different region blocks are used to represent different inter-room structures of a whole house, and different region blocks are selected to represent selection of different rooms; further, the step of initiating a light source state control request for the selected area may be understood as that after the user circles the corresponding area on the HomeMap, initiating a light source state control request for the controlled device in the area, for example, after the user circles the area a, initiating a control request for the light source state of the controlled device A1 and/or A2 in the area a, where the control request may be a request for turning off the light of the controlled device A1 or a request for turning on the light of the controlled device A2;

In the embodiment of the present invention, when the master control device detects that a user performs an area selection operation on a HomeMap and initiates a light source state control request on a selected area, a controlled device to be responded to the light source state control request in the selected area is further determined, which can be understood herein that the master control device needs to determine whether a controlled device exists in the area selected by the user, and if the controlled device exists, whether the controlled device is a controlled device to be responded to the light source state control request is also determined; namely, whether an object exists in the selected area or not is determined, and whether the existing object needs to respond to the light source state control request or not;

105. the main control equipment generates a control instruction for adjusting the light source state of the controlled equipment according to the light source state control request;

in the embodiment of the present invention, the control instruction may be understood as a control instruction for a specific controlled device in the selected area or all the controlled devices in the selected area, and the control instruction may be to adjust a light source state of the controlled device, for example, to adjust the light source state of the controlled device from a light-on state to a light-off state, to adjust the light source state of the controlled device from a first-gear brightness state to a second-gear brightness state, and so on;

106. And the main control equipment executes control operation on the controlled equipment according to the control instruction.

It should be noted that, the master control device performs a control operation on the controlled device, which may be that the master control device controls the controlled device in a direct manner, and the controlled device performs a corresponding operation, where the direct manner may be understood that the master control device directly sends information to the controlled device, and the information sent by the master control device does not need to be transmitted through relay conversion; further, the master device may control the controlled device in a relay manner, and the controlled device performs the corresponding operation, and the relay manner may be from the master device to a relay device and from the relay device to the controlled device, where the relay device is implemented as a part of the master device.

107. After the main control equipment executes the control operation on the controlled equipment, the current light source state of the controlled equipment is updated to HomeMap.

After the light source state of the controlled equipment is changed each time, the changed light source state of the controlled equipment needs to be updated to the HomeMap in time, so that the real-time update is realized, and the user can conveniently and accurately control the light source state of the whole house.

Referring to fig. 4, fig. 4 is a schematic flow chart of judging light comfort level in a preset area after executing a control instruction in a device light source state visualization control method based on HomeMap according to an embodiment of the present invention;

the method for judging the light comfort level in the preset area range comprises the following steps:

when the main control equipment performs the control operation of dimming or brightening the light source of the controlled equipment, the light comfort level of the controlled equipment in the preset area range is obtained;

judging whether the lamplight comfort level in the area range accords with a lamplight comfort zone, if not, generating a comfort level reminding instruction, and feeding back to the HomeMap; if yes, a completion instruction is generated and fed back to the HomeMap.

In the embodiment of the invention, when the control instruction is to dim or lighten the light source state of the controlled device, the main control device acquires the light comfort level in the preset area range of the controlled device after executing the operation, the preset area range can be understood as the area range which is set by a user and is divided by taking the controlled device as the center, the light comfort level can be understood as the optimal visual light brightness of the user in the preset area range, the optimal visual light brightness of the user is limited up and down, the upper and lower limits form the light comfort zone, when the light is too dark or too bright, the detected light comfort level exceeds the light comfort zone, a comfort level reminding instruction is generated at the moment and is used for reminding the user that the light brightness in the current preset area range is abnormal, and the situation that the user excessively adjusts the light of the controlled device to cause damage to the visual field of the user can be avoided through the operation; it should be noted that, detection of the light comfort level can be achieved by setting detection tools such as a luminance meter in a preset area, and the main control device obtains detected luminance data and obtains the light comfort level according to the luminance data.

Referring to fig. 2, fig. 2 is a schematic flow chart of a device light source state visualization control method based on HomeMap according to an embodiment of the present invention, wherein the device to be responded to a light source control request in a selected area is determined by a master control device. The method described in fig. 2 may be applied to a master control device, where the master control device may be capable of controlling a plurality of controlled devices, and further optionally, the master control device may be one of a plurality of smart home devices and may be capable of controlling some or all of other smart home devices with lighting functions, or the master control device may be an intelligent terminal device with an operable screen. As shown in fig. 2, the method for determining, by a master device, the controlled device to be responsive to a light source control request in a selected area may include the following operations:

as an optional implementation manner, in a first embodiment of the present invention, the determining, by the master device, the controlled device to be responsive to the light source control request in the selected area includes:

the main control equipment determines a selected area in the HomeMap, and acquires an actual area in an actual house type diagram according to the selected area;

The specific implementation mode is as follows:

the main control equipment establishes a virtual coordinate system in the HomeMap;

the main control equipment establishes an actual coordinate system in the actual house type graph according to a virtual coordinate system, and all coordinate points of the virtual coordinate system and the actual coordinate system are mapped mutually;

the main control equipment acquires virtual coordinates of a plurality of virtual boundary points of the selected area in a virtual coordinate system;

acquiring actual coordinates which are mutually mapped with the virtual coordinates in an actual coordinate system;

and determining a plurality of actual boundary points according to actual coordinates, and connecting the actual boundary points to determine the actual area.

In this embodiment, the master control device establishes a HomeMap into a virtual coordinate system and establishes an actual house type map into an actual coordinate system, and it should be noted that each coordinate point of the virtual coordinate system and each coordinate point of the actual coordinate system are mapped with each other and are in one-to-one correspondence;

after establishing a virtual coordinate system, acquiring virtual coordinates of a plurality of virtual boundary points of a selected area in the virtual coordinate system, then in an actual coordinate system, finding actual coordinates of actual boundary points according to a mutual mapping relation, and connecting the plurality of actual boundary points to determine an actual area, wherein the more and more densely the virtual boundary points are, the more accurately the obtained actual boundary points are;

The main control equipment acquires all controlled equipment to be responded to the light source state control request in the selected area, and generates a set of equipment to be controlled;

after the user initiates the light source state control request, the main control device needs to determine all the controlled devices in the selected area to respond to the light source state control request, and generates a device set to be controlled by taking all the controlled devices as elements;

the master control equipment judges whether controlled equipment exists in the actual area, and if so, an actual controlled equipment set is generated according to all the current controlled equipment;

after determining an actual area according to a selected area, determining whether a controlled device exists in the actual area in advance is needed to be clear, and whether the controlled device exists in the actual area can be determined by detecting whether the controlled device exists in the actual area through a sensor or not, or can be in other modes;

when the controlled devices exist in the actual area, generating an actual controlled device set by taking all the current controlled devices as elements; further, the actual area presence controlled device includes the following cases: when the controlled devices to be responded to the light source state control request in the area selected by the HomeMap are a and B, the controlled devices existing in the actual area may be only the controlled device a or only the controlled device B, may be the controlled device a and the controlled device B coexist, may be the controlled devices A, B and C, and may be the controlled device C altogether 5 cases;

If the controlled equipment does not exist, an empty set is generated, the main control equipment acquires the actual position of the controlled equipment in the equipment set to be controlled, the HomeMap is updated according to the actual position, and the main control equipment does not execute the control operation on the controlled equipment;

further, the absence of a controlled device in the actual area includes the following cases: no controlled equipment exists in the actual area, namely when the controlled equipment to be responded to the light source state control request in the area selected by the HomeMap is A and B, the controlled equipment does not exist in the actual area; at this time, the controlled device which is to be responded to the light source state control request is not in the actual area determined by the selected area of the HomeMap, which can be understood as the controlled device which is originally in the actual area and can be corresponding to the light source state control request, but the controlled device is migrated, and the HomeMap is not updated, so that the information deviation occurs, therefore, the actual position of the controlled device which is to be responded to the light source state control request in the set of the controlled devices to be controlled needs to be acquired, the actual position is updated to the HomeMap, and no control operation is executed because no controlled device is in the actual area to respond to the light source state control request;

The master control equipment compares the equipment set to be controlled with the actual controlled equipment set;

when the controlled devices exist in the actual area, namely, 5 conditions appear in the above, whether the controlled devices in the to-be-controlled device set and the actual controlled device set have differences or not needs to be further compared so as to determine whether the control operation can be executed in the actual controlled devices or not;

if at least one controlled device in the device set to be controlled exists in the actual controlled device set, the main control device executes control operation on the existing controlled devices according to the control instruction;

in the embodiment of the present invention, the controlled devices to be responded to the light source state control request in the to-be-controlled device set exist in the actual controlled device set, which can be understood as 4 cases in the above 5 cases, that is, when the controlled devices to be responded to the light source state control request in the area selected by the HomeMap are a and B, the existing controlled devices in the actual area may be only the controlled device a or only the controlled device B, may be the controlled device a and the controlled device B coexist, and may also be the controlled devices A, B and C; in these four cases, the controlled devices a and/or B exist in the actual controlled device set to execute the light source state control operation of the controlled devices a and B in the device set to be controlled.

If the controlled devices in the actual controlled device set do not exist in the device set to be controlled, the master control device updates the actual positions of all the controlled devices in the actual controlled device set to the HomeMap.

Further, the controlled devices to be responded to the light source state control request in the set of to-be-controlled devices do not exist in the actual set of controlled devices, which can be understood as the last of the 5 situations that occur above, namely, when the controlled devices to be responded to the light source state control request in the selected area of the HomeMap are a and B, the controlled device C exists in the actual set of controlled devices, but the controlled device C obviously cannot respond to the light source state control request of the controlled device a or B, so that in this situation, even if the controlled devices exist in the actual set of controlled devices, the controlled device C cannot respond, and therefore, the actual positions of all the controlled devices in the actual set of controlled devices need to be updated to the HomeMap, that is, the actual positions of the controlled device C need to be updated to the HomeMap, and the actual positions of the controlled device C do not need to be found any more because the actual positions of the controlled device C are already clear as the actual areas;

as an optional implementation manner, in the first embodiment of the present invention, when a controlled device in a set of devices to be controlled exists in an actual set of controlled devices, the method includes:

Acquiring a controlled device which does not exist in an actual controlled device set in a device set to be controlled, wherein the master control device acquires the actual position of the controlled device and updates the HomeMap according to the actual position;

further, it can be understood herein that the first and second of the above 5 cases, that is, when the controlled devices to be responded to the light source state control request in the area selected by the HomeMap are a and B, the controlled devices existing in the actual area may be only the controlled device a or only the controlled device B; in both cases, the actual position of the controlled device a or the controlled device B needs to be found and updated to the HomeMap;

and acquiring the controlled equipment which does not exist in the equipment to be controlled in the actual controlled equipment set, and updating the HomeMap by the main control equipment according to the actual position of the controlled equipment.

Further, it can be understood here that the 4 th of the above 5 cases, that is, when the controlled devices to be responded to the light source state control request in the area selected by the HomeMap are a and B, the controlled devices existing in the actual area are controlled devices A, B and C; it can be seen that the controlled device C is unable to respond to the light source state control requests of the controlled devices a and B, and thus the actual position of the controlled device C needs to be updated into the HomeMap.

Referring to fig. 3, fig. 3 is a schematic flow chart of a control operation performed on a controlled device by a master control device according to the control instruction in a device light source state visualization control method based on HomeMap according to an embodiment of the present invention. The method described in fig. 3 may be applied to a master control device, where the master control device may be capable of controlling a plurality of controlled devices, and further optionally, the master control device may be one of a plurality of smart home devices and may be capable of controlling some or all of other smart home devices with lighting functions, or the master control device may be an intelligent terminal device with an operable screen. As shown in fig. 3, the method for the master device to perform the control operation on the controlled device according to the control instruction may include the following operations:

as an optional implementation manner, in a first embodiment of the present invention, the performing, by the master device, a control operation on the controlled device according to the control instruction includes:

after the main control equipment executes the control operation on the controlled equipment according to the control instruction, judging whether the current light source state of the controlled equipment accords with the light source state required to be regulated in the control instruction; if yes, the main control equipment generates a completion instruction;

In the embodiment of the invention, after the main control equipment performs the control operation on the controlled equipment according to the control instruction, the current light source state of the controlled equipment is in accordance with the light source state required to be regulated in the control instruction under normal conditions, so that the main control equipment can be judged to be in a normal state when the current light source state is in accordance with the light source state required to be regulated in the control instruction, and the main control equipment generates a completion instruction;

if not, the main control equipment generates an unfinished instruction, and the main control equipment executes the control operation on the controlled equipment again according to the control instruction;

under abnormal conditions, the current light source state of the controlled equipment does not accord with the light source state required to be regulated in the control instruction, if the control instruction requires the controlled equipment to regulate first-gear brightness, and after the controlled equipment executes control operation, the light source state is in a second-gear brightness state, at the moment, the controlled equipment is indicated to be abnormal, and the main control equipment generates an unfinished instruction;

when the main control equipment generates an unfinished instruction about the same controlled equipment for more than a preset number of times, the main control equipment marks the controlled equipment as a problem equipment and sends out a prompt.

Further, when the same controlled device does not adjust the state of the light source for a plurality of times according to the requirement of the control instruction, the main control device generates unfinished instructions for a plurality of times, and once the number of times of generating unfinished control instructions for the same controlled device exceeds the preset number of times, the controlled device is marked as a problem device and a reminder is sent to a user.

Example two

Referring to fig. 5, fig. 5 is a system schematic diagram of a device light source state visualization control device based on HomeMap according to an embodiment of the present invention. The apparatus described in fig. 5 may be applied to a master control device, where the master control device may be capable of controlling a plurality of controlled devices, and further optionally, the master control device may be one of a plurality of smart home devices and may be capable of controlling some or all of the other smart home devices with lighting functions, or the master control device may be an intelligent terminal device with an operable screen. As shown in fig. 4, the apparatus may include the following operations:

the building module is used for building a HomeMap according to the actual house type diagram and the position of the controlled equipment in the actual house type diagram;

the visual display module is used for visually displaying the light source state of the controlled equipment in the HomeMap;

the detection module is used for detecting whether a user performs region selection operation on the HomeMap or not and initiating a light source state control request on a selected region;

the determining module is used for determining the controlled equipment to be responded to the light source state control request in the selected area when the detecting module detects that the user performs the area selection operation on the HomeMap and initiates the light source state control request on the selected area;

The generation module is used for generating a control instruction for adjusting the light source state of the controlled equipment according to the light source state control request;

the execution module is used for executing control operation on the controlled equipment according to the control instruction;

and the updating module is used for updating the current light source state of the controlled equipment to HomeMap after the executing module executes the control operation on the controlled equipment.

In an alternative embodiment, the determining module includes:

the first determining submodule is used for determining a selected region in the HomeMap;

the first acquisition sub-module is used for acquiring an actual area in the actual house type graph according to the selected area;

the second acquisition submodule is used for acquiring all controlled devices to be responded to the light source state control request in the selected area and generating a set of the devices to be controlled;

the first judging submodule is used for judging whether controlled equipment exists in the actual area;

when judging that the controlled equipment exists in the actual area, the generating module generates an actual controlled equipment set according to all the current controlled equipment;

when judging that no controlled equipment exists in the actual area, the generating module generates an empty set;

the third acquisition sub-module is used for acquiring the actual position of the controlled equipment in the equipment set to be controlled when the generation module generates an empty set;

The first updating sub-module is used for updating the HomeMap according to the actual position when the third obtaining sub-module obtains the actual position of the controlled equipment in the equipment set to be controlled, and the executing module does not execute the control operation on the controlled equipment;

the second judging submodule is used for comparing the equipment set to be controlled with the actual controlled equipment set;

if the controlled equipment in the equipment set to be controlled exists in the actual controlled equipment set, the execution module executes the control operation of the existing controlled equipment according to the control instruction;

if the controlled devices in the actual controlled device set do not exist in the device set to be controlled, the first updating sub-module updates the actual positions of all the controlled devices in the actual controlled device set to HomeMap;

a third judging sub-module, configured to judge whether a controlled device in a to-be-controlled device set exists in an actual controlled device set, and if the controlled device does not exist in the actual controlled device set, the third obtaining sub-module obtains an actual position of the controlled device, and the first updating sub-module updates the HomeMap according to the actual position;

The third judging submodule is further used for judging whether the controlled equipment exists in the actual controlled equipment set or not when the controlled equipment exists in the actual controlled equipment set, and the controlled equipment does not exist in the controlled equipment set, if yes, the first updating submodule updates the HomeMap according to the actual position of the controlled equipment.

As an optional implementation manner, the first acquisition sub-module further includes:

the establishing subunit is used for establishing a virtual coordinate system in the HomeMap, and establishing an actual coordinate system in the actual house type graph according to the virtual coordinate system, wherein each coordinate point of the virtual coordinate system and each coordinate point of the actual coordinate system are mapped with each other;

an obtaining subunit, configured to obtain virtual coordinates of a plurality of virtual boundary points of a selected area in a virtual coordinate system, and obtain actual coordinates that are mapped with the virtual coordinates in an actual coordinate system;

a determining subunit, configured to determine a plurality of actual boundary points according to actual coordinates, and connect a plurality of the actual boundary points to determine the actual area;

as an alternative embodiment, the execution module further includes:

a fourth obtaining sub-module, configured to obtain light comfort level in a preset area where the controlled device is located after the main control device performs a control operation of dimming or brightening a light source of the controlled device;

The fourth judging submodule is used for judging whether the lamplight comfort level in the area range accords with the lamplight comfort zone or not;

when the lamplight comfort level does not accord with the lamplight comfort interval, the generating module generates a comfort level reminding instruction; when the lamplight comfort level accords with a lamplight comfort zone, the generating module generates a completion instruction;

a fifth judging sub-module, configured to judge whether a current light source state of the controlled device conforms to a light source state required to be adjusted in the control instruction after executing the control operation on the controlled device; if yes, the generating module generates a completion instruction;

if the control command is not met, the generation module generates an unfinished command, and the execution module executes the control operation of the controlled device according to the control command again;

a sixth judging sub-module, configured to judge whether the incomplete command generated by the generating module with respect to the same controlled device exceeds a preset number of times;

the reminding sub-module is used for marking the controlled equipment as problem equipment and sending out reminding when the generating module generates an unfinished instruction about the same controlled equipment for more than a preset number of times;

as an alternative embodiment, the execution module further includes:

And the second updating sub-module is used for updating the current light source states of all the controlled devices which execute the control operation to the HomeMap after executing the control operation on the controlled devices.

Example III

The third aspect of the invention discloses a device light source state visualization control device based on HomeMap, the device is applied to a main control device, and the device comprises:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to execute part or all of the steps in the HomeMap-based device light source state visualization control method according to any one of the first aspect of the present invention.

The embodiment of the invention discloses an intelligent device which can be used for executing part or all of the steps in the HomeMap-based device light source state visualization control method disclosed in the first embodiment, or can comprise any HomeMap-based device light source state visualization control device disclosed in the second embodiment. It should be noted that, for the detailed description of the steps executed by the intelligent device or the modules, devices and the like included in the intelligent device, reference is made to the above embodiments, and the embodiments of the present invention are not repeated. Further, the intelligent device can be a smart phone or a smart television, and further can be intelligent with a touchable screen.

Example IV

The embodiment of the invention discloses a computer storage medium which stores computer instructions for executing part or all of the steps of the HomeMap-based device light source state visualization control method according to any one of the embodiments of the invention when the computer instructions are called.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (6)

1. The HomeMap-based equipment light source state visualization control method is characterized by comprising the following steps of:

the main control equipment builds a HomeMap according to the actual house type diagram and the position of the controlled equipment in the actual house type diagram;

the main control equipment visually displays the light source state of the controlled equipment in a HomeMap;

when detecting that a user performs an area selection operation on the HomeMap and initiates a light source state control request to a selected area, the master control device determines the controlled device to be responsive to the light source state control request in the selected area, including:

the main control equipment determines a selected area in the HomeMap, and acquires an actual area in an actual house type diagram according to the selected area;

the main control equipment acquires all controlled equipment to be responded to the light source state control request in the selected area, and generates a set of equipment to be controlled;

The master control equipment judges whether controlled equipment exists in the actual area, and if so, an actual controlled equipment set is generated according to all the current controlled equipment; if the controlled equipment does not exist, an empty set is generated, the main control equipment acquires the actual position of the controlled equipment in the equipment set to be controlled, the HomeMap is updated according to the actual position, and the main control equipment does not execute the control operation on the controlled equipment;

the master control equipment compares the equipment set to be controlled with the actual controlled equipment set;

if at least one controlled device in the device set to be controlled exists in the actual controlled device set, the main control device executes control operation on the existing controlled devices according to the control instruction;

if the controlled devices in the actual controlled device set do not exist in the device set to be controlled, the main control device updates the actual positions of all the controlled devices in the actual controlled device set to HomeMap;

the main control equipment generates a control instruction for adjusting the light source state of the controlled equipment according to the light source state control request;

the main control equipment executes control operation on the controlled equipment according to the control instruction;

after the main control equipment executes the control operation on the controlled equipment, the current light source state of the controlled equipment is updated to HomeMap.

2. The device light source state visualization control method based on HomeMap according to claim 1, wherein the main control device performs visualization display on the light source state of the controlled device in HomeMap, comprising:

the main control equipment distinguishes and displays the light source state of the controlled equipment on the HomeMap through at least one or a plurality of combinations of images, characters, colors and sounds;

the control instruction includes:

turning on or off the light source of the controlled device and/or dimming or brightening the light source of the controlled device and/or changing the light color of the controlled device.

3. The HomeMap-based device light source state visualization control method according to claim 1, wherein the master control device performing a control operation on the controlled device according to the control instruction comprises:

when the main control equipment performs the control operation of dimming or brightening the light source of the controlled equipment, the light comfort level of the controlled equipment in the preset area range is obtained;

judging whether the lamplight comfort level in the preset area range accords with the lamplight comfort zone, if not, generating a comfort level reminding instruction, and feeding back to the HomeMap; if yes, a completion instruction is generated and fed back to the HomeMap.

4. The device light source state visualization control method based on HomeMap according to claim 1, wherein when the controlled device in the device set to be controlled exists in the actual controlled device set, the method comprises:

acquiring a controlled device which does not exist in an actual controlled device set in a device set to be controlled, wherein the master control device acquires the actual position of the controlled device and updates the HomeMap according to the actual position;

and acquiring the controlled equipment which does not exist in the equipment to be controlled in the actual controlled equipment set, and updating the HomeMap by the main control equipment according to the actual position of the controlled equipment.

5. The method for visualizing and controlling the state of a light source of a device based on HomeMap according to claim 1, wherein the step of obtaining the actual area in the actual house type map according to the selected area comprises the steps of:

the main control equipment establishes a virtual coordinate system in the HomeMap;

the main control equipment establishes an actual coordinate system in the actual house type graph according to a virtual coordinate system, and all coordinate points of the virtual coordinate system and the actual coordinate system are mapped mutually;

the main control equipment acquires virtual coordinates of a plurality of virtual boundary points of the selected area in a virtual coordinate system;

Acquiring actual coordinates which are mutually mapped with the virtual coordinates in an actual coordinate system;

and determining a plurality of actual boundary points according to actual coordinates, and connecting the actual boundary points to determine the actual area.

6. The HomeMap-based device light source state visualization control method according to claim 1, wherein the master control device performing a control operation on the controlled device according to the control instruction comprises:

after the main control equipment executes the control operation on the controlled equipment according to the control instruction, judging whether the current light source state of the controlled equipment accords with the light source state required to be regulated in the control instruction; if yes, the main control equipment generates a completion instruction;

if not, the main control equipment generates an unfinished instruction, and the main control equipment executes the control operation on the controlled equipment again according to the control instruction;

when the main control equipment generates an unfinished instruction about the same controlled equipment for more than a preset number of times, the main control equipment marks the controlled equipment as a problem equipment and sends out a prompt.