CN111262763A - Intelligent household equipment control system and method based on live-action picture - Google Patents

Abstract

The invention belongs to the technical field of intelligent household equipment, and particularly relates to an intelligent household equipment control system and method based on a live-action picture. The system comprises intelligent equipment, an image shooting module and an APP control module; the intelligent equipment and the image shooting module are respectively connected with the APP control module, and the image shooting module is used for acquiring an intelligent equipment live-action image in a control scene and uploading the intelligent equipment live-action image to the APP control module; the APP control module identifies the intelligent device graph in the live-action picture, sets a control point icon on the identified intelligent device graph, associates the control point icon with the real intelligent device in the control scene, and controls the corresponding real intelligent device in the control scene by clicking the control point icon. The invention enables the control of the intelligent equipment on the intelligent terminal to be more intuitive and simple and convenient, and improves the use experience of users.

Description

Intelligent household equipment control system and method based on live-action picture

Technical Field

The invention relates to the technical field of intelligent home systems, in particular to an intelligent home equipment control system and method based on a live-action picture.

Background

With the popularization of smart home devices, more and more needs depend on mobile intelligent terminals for control. It is generally desirable for a user to use an APP to manage as many smart devices as possible, including smart lights, smart dimmers, smart switches, smart sockets, smart curtains, smart door locks, smart appliances, and the like. When a plurality of similar intelligent devices exist in the same space, selecting a control device on an APP to be similar to an embedded multi-position wall surface mechanical switch, and generally remembering which mechanical switch (which button on the APP) controls which device or devices; or by trying an error method to determine which mechanical switch (which button on APP) controls which device or devices, i.e. flipping each switch (clicking on each button on APP) until it happens to get the desired result. This is very unfriendly to people who do not use computers often and to the elderly who are confused by new technology, and the use experience is poor.

Patent No. 201080034548.8, "virtual room-based luminaire and device control" discloses a technical solution, "the selection of the particular substantially photo-realistic visual depiction of a device issues a control command that, when implemented, changes the state of the particular device; and updating an appearance of the particular virtual room such that the substantially photo-realistic visual depiction of the particular device reflects the changed state of the particular device. "i.e. by directly controlling the device on the photo with the live action photo and then feeding back the status of the device with the live action photo. The disadvantage of this solution is that the device status is fed back by live-action photos, as shown in fig. 1, assuming that the space includes 2 vertical lamps, 3 wall lamps, 1 ceiling lamp, 3 special lamps, 1 tv and 1 curtain for a total of 11 smart devices, 2048 photos are needed to realistically feed back all the device status combinations only considering two states of the switch. If it is considered that a smart device can exhibit more than just two states, such as a smart light, in a variety of different colors, it becomes impossible to feedback all device state combinations photo-realistically.

Another patent "real feedback lamp control method and control system" with patent number 201710076413.1 discloses a technical solution that requires the end user to make a house-type diagram in advance and set and draw a lamp pattern on the house-type diagram, which is also a great challenge for the user, and the method of feeding back the status of the device through the sensor has a great limitation in practical use.

Another patent 201110129578.3, "an intelligent home control system and method combined with house type diagram", discloses a technical solution, which requires the end user to make and display the house type diagram and control the house type diagram in advance, and needs to allocate a network address to each device, which is more cumbersome and inconvenient to operate.

Disclosure of Invention

The invention provides an intelligent household equipment control system and method based on a live-action picture, and aims to solve at least one of the technical problems in the prior art to a certain extent.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an intelligent household equipment control system based on a live-action picture comprises intelligent equipment, an image shooting module and an APP control module; the intelligent equipment and the image shooting module are respectively connected with the APP control module, and the image shooting module is used for acquiring an intelligent equipment live-action image in a control scene and uploading the intelligent equipment live-action image to the APP control module; the APP control module identifies the intelligent device graph in the live-action picture, sets a control point icon on the identified intelligent device graph, associates the control point icon with the real intelligent device in the control scene, and controls the corresponding real intelligent device in the control scene by clicking the control point icon.

The technical scheme adopted by the embodiment of the invention also comprises the following steps: the intelligent equipment comprises an equipment driving unit, the equipment driving unit further comprises a power supply driving submodule and a wireless communication submodule, the wireless communication submodule receives a control instruction sent by the APP control module and converts the control instruction into a power supply control instruction, and then the power supply driving submodule controls the intelligent equipment.

The technical scheme adopted by the embodiment of the invention also comprises the following steps: the control mode for controlling the intelligent equipment comprises clicking a control point icon.

The technical scheme adopted by the embodiment of the invention also comprises the following steps: the control mode for controlling the intelligent equipment comprises a sliding control bar.

The technical scheme adopted by the embodiment of the invention also comprises the following steps: the control mode for controlling the intelligent equipment comprises long-time pressing of a control point icon to trigger an operation interface.

The technical scheme adopted by the embodiment of the invention also comprises the following steps: the APP control module also comprises a state rendering submodule, and the state rendering submodule is used for performing layer masking on the control point pattern according to the control state of the real intelligent equipment; the mask is specifically as follows: when the intelligent equipment is controlled to be in an opening state, the control point image mask is in an opaque state; when the intelligent equipment is controlled to be in a closed state, marking the control point map mask to be in a transparent state; and adjusting the transparency of the mask according to the starting mode of the intelligent equipment.

The technical scheme adopted by the embodiment of the invention also comprises the following steps: APP control module installs on intelligent terminal, the connected mode between image shooting module and the APP control module includes wired or wireless, APP control module and smart machine's connected mode includes WIFI, bluetooth, zigBee or other wireless communication modes.

The embodiment of the invention adopts another technical scheme that: a smart home equipment control method based on a live-action picture comprises the following steps:

step a: acquiring an intelligent equipment live-action image in a control scene;

step b: identifying the intelligent equipment graph in the live-action picture, setting a control point icon on the identified intelligent equipment graph, and associating the control point icon with the real intelligent equipment in the control scene:

step c: and clicking the control point icon to control the corresponding real intelligent equipment in the control scene.

Compared with the prior art, the invention has the beneficial effects that: the intelligent household equipment control system and method based on the live-action picture recognize the intelligent equipment picture in the live-action picture, set the control point icon on the recognized intelligent equipment picture, associate the control point icon with the real intelligent equipment in the control scene, and control the corresponding intelligent equipment by clicking the control point icon by a user. The invention enables the control of the intelligent equipment on the intelligent terminal to be more intuitive and simpler, and solves the defect of poor use experience of the existing APP control equipment.

Drawings

FIG. 1 is a schematic diagram of an existing intelligent light fixture APP control interface;

fig. 2 is a schematic structural diagram of an intelligent home device control system based on a live-action diagram according to an embodiment of the present invention;

FIG. 3 is a live-action view after control point icons are superimposed according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating the rendering effect of the device status rendering module according to an embodiment of the present invention;

fig. 5 is a flowchart of a method for controlling smart home devices based on a live-action diagram according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 is a schematic structural diagram of an intelligent home device control system based on a live-action diagram according to an embodiment of the present invention. The intelligent household equipment control system based on the live-action picture comprises intelligent equipment, an image shooting module and an APP control module. The intelligent equipment and the image shooting module are respectively connected with the APP control module, and the image shooting module is used for acquiring an intelligent equipment live-action image in a control scene and uploading the intelligent equipment live-action image to the APP control module; after the APP control module receives the live-action image uploaded by the intelligent equipment, the intelligent equipment image in the live-action image is firstly identified, the control point icon is arranged on the identified intelligent equipment image and is associated with the real intelligent equipment in the control scene, and therefore a user can control the corresponding real intelligent equipment by clicking the control point icon in the APP control module.

Specifically, the image shooting module comprises an intelligent terminal such as a camera, a mobile phone and a tablet personal computer, the live-action picture can be shot or imported in real time, and can also be shot in advance and stored in an album for uploading when in use; each live-action picture comprises at least one intelligent device. The live-action figure can be any intuitive and easily recognized device figure, such as a drawing of a smart device figure, a house-type figure and the like.

The intelligent equipment comprises an intelligent lamp, an intelligent dimmer, an intelligent switch, an intelligent socket, an intelligent curtain, an intelligent door lock, an intelligent household appliance and the like; the intelligent equipment comprises an equipment driving unit, the equipment driving unit further comprises a power supply driving submodule and a wireless communication submodule, the intelligent equipment is connected with an intelligent terminal provided with an APP control module, the wireless communication submodule receives a control instruction sent by the APP control module, and the control instruction is converted into the power supply control instruction and then is controlled through the power supply driving submodule to the states of the intelligent equipment, such as on-off state, brightness state and the like.

APP control module installs on intelligent terminal such as cell-phone, panel computer, APP control module is after receiving smart machine's outdoor scene graph, discerns the smart machine figure in the outdoor scene graph, sets up the control point icon on the smart machine figure that discerns to carry out the relevance with the true smart machine in the control scene, with traditional shift knob has been replaced to this control point icon, the user can control corresponding smart machine in the control scene through clicking the control point icon on the smart machine. The real scene graph after the control point icons are superimposed is specifically shown in fig. 3, and it can be understood that the control point icons are only set to be in the shape of circles, and in specific applications, the size, color, shape and the like of the control point icons can be set according to actual requirements.

In the embodiment of the invention, the on and off of the intelligent device are not limited to be controlled, and other complex state operations of the intelligent device can be controlled, wherein the control modes include but are not limited to clicking a control point icon, sliding a control bar, long-clicking a control point icon to pop up an operation interface and the like. Taking an intelligent device as an intelligent lamp as an example, the lamp can be turned on and off by clicking the control point icon; the brightness of the lamp can be adjusted by touching the control point and then sliding left and right, dimming left and brightening right; the color temperature of the lamp can be adjusted by touching the control point and then moving up and down, so that the lamp can be cooled upwards and heated downwards; the long-time pressing control point pops up an operation interface, and can turn on and off the lamp, adjust the brightness of the lamp and adjust the color temperature or color of the lamp; or the operation interface is triggered by long-time pressing of the control point icon, more detailed function control is carried out, and user-defined setting can be carried out according to user requirements.

In the embodiment of the invention, the APP control module is also provided with a state rendering submodule, and the state rendering submodule is used for performing layer masking on the control point pattern according to the control state of the real intelligent equipment; for example, when the intelligent device is controlled to be in an on state, the control point map mask is in an opaque state; and when the intelligent equipment is controlled to be in the closed state, marking the control point image mask to be in a transparent state. The color and transparency of the mask can also be set according to the start mode of the intelligent device. Taking an intelligent lamp as an example, the brightness of the lamp corresponds to the transparency of the mask, and the mask is linearly changed from transparent to opaque when the brightness is from the lowest to the highest; in the white light state, the color temperature of the light changes from cold white to warm white, and the mask changes from white to light yellow; the color light state is rendered by the corresponding color mask. The state rendering effect of the device state rendering module is shown in fig. 4. And specifically, the user can also perform custom setting according to the user requirements.

In the embodiment of the invention, the connection modes among the image shooting module, the intelligent lamp and the APP control module comprise wired or wireless connection modes, and the wireless connection mode comprises but is not limited to WIFI, 4G, Bluetooth or ZigBee. Use smart machine as intelligent lamps and lanterns as an example, APP control module accessible bluetooth and bluetooth intelligent lamp are connected communication. The intelligent lamp is connected with the Wi-Fi intelligent lamp through Wi-Fi and is communicated with the Wi-Fi intelligent lamp, or is connected with the Zigbee gateway through Wi-Fi and is used for controlling the ZigBee intelligent lamp.

Please refer to fig. 5, which is a flowchart of a method for controlling an intelligent home device based on a live-action diagram according to an embodiment of the present invention. The intelligent household equipment control method based on the live-action picture comprises the following steps:

s1: acquiring an intelligent equipment live-action image in a control scene, and uploading the intelligent equipment live-action image to an APP control module;

s2: after receiving the live-action picture uploaded by the intelligent equipment, the APP control module firstly identifies the intelligent equipment graph in the live-action picture, sets a control point icon on the identified intelligent equipment graph, and associates the control point icon with the real intelligent equipment in the control scene;

s3: and clicking the control point icon to control the corresponding real intelligent equipment.

The intelligent household equipment control system and method based on the live-action picture recognize the intelligent equipment picture in the live-action picture, set the control point icon on the recognized intelligent equipment picture, associate the control point icon with the real intelligent equipment in the control scene, and control the corresponding intelligent equipment by clicking the control point icon by a user. The invention enables the control of the intelligent equipment on the intelligent terminal to be more intuitive and simpler, and solves the defect of poor use experience of the existing APP control equipment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. An intelligent household equipment control system based on a live-action picture is characterized by comprising intelligent equipment, an image shooting module and an APP control module; the intelligent equipment and the image shooting module are respectively connected with the APP control module, and the image shooting module is used for acquiring an intelligent equipment live-action image in a control scene and uploading the intelligent equipment live-action image to the APP control module; the APP control module identifies the intelligent device graph in the live-action picture, sets a control point icon on the identified intelligent device graph, associates the control point icon with the real intelligent device in the control scene, and controls the corresponding real intelligent device in the control scene by clicking the control point icon.

2. The intelligent household equipment control system based on the live-action picture of claim 1, wherein the intelligent equipment comprises an equipment driving unit, the equipment driving unit further comprises a power supply driving submodule and a wireless communication submodule, the wireless communication submodule receives a control instruction sent by the APP control module, and the control instruction is converted into the power supply control instruction and then is controlled by the power supply driving submodule.

3. The smart home device control system based on the live-action map according to claim 2, wherein the control manner for controlling the smart device includes clicking a control point icon.

4. The smart home device control system based on the live-action map according to claim 2, wherein the control manner for controlling the smart device includes a sliding control bar.

5. The intelligent home equipment control system based on the live-action map according to claim 2, wherein the control mode for controlling the intelligent equipment comprises long-time pressing of a control point icon to trigger an operation interface.

6. The smart home device control system based on the live-action map according to claim 1, wherein the APP control module further comprises a state rendering submodule, and the state rendering submodule is used for performing layer masking on the control point pattern according to the control state of the real smart device; the mask is specifically as follows: when the intelligent equipment is controlled to be in an opening state, the control point image mask is in an opaque state; when the intelligent equipment is controlled to be in a closed state, marking the control point map mask to be in a transparent state; and adjusting the transparency of the mask according to the starting mode of the intelligent equipment.

7. The intelligent household equipment control system based on the live-action map as claimed in any one of claims 1 to 4, wherein the APP control module is installed on the intelligent terminal, the connection mode between the image shooting module and the APP control module comprises wired or wireless, and the connection mode between the APP control module and the intelligent equipment comprises WIFI, Bluetooth, ZigBee or other wireless communication modes.

8. A smart home equipment control method based on a live-action picture is characterized by comprising the following steps:

step a: acquiring an intelligent equipment live-action image in a control scene;

step b: identifying the intelligent equipment graph in the live-action picture, setting a control point icon on the identified intelligent equipment graph, and associating the control point icon with the real intelligent equipment in the control scene:

step c: and clicking the control point icon to control the corresponding real intelligent equipment in the control scene.

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