CN117793150A - Intelligent lamp, environment sensing data sensing method, device and product - Google Patents

Abstract

The application relates to an intelligent lamp, an environment sensing data sensing method, an environment sensing device and a product, wherein the method is applied to a control unit of the intelligent lamp and comprises the following steps: acquiring a remote data message, analyzing and extracting equipment characteristics of sensing equipment and environmental sensing data detected by the sensing equipment; determining a lamp effect description template corresponding to the sensing equipment according to the equipment characteristics; determining light effect control data corresponding to the environment sensing data based on the light effect description template; and driving a light component of the intelligent lamp to play a corresponding light effect according to the light effect control data. According to the intelligent lamp, the information display is realized by converting the environmental sensing data into the lamp effect of the intelligent lamp, the user experience of using the intelligent lamp can be comprehensively improved, and the popularization of the intelligent lamp can be promoted.

Description

Intelligent lamp, environment sensing data sensing method, device and product

Technical Field

The application relates to the technical field of lamp control, in particular to an intelligent lamp, an environment sensing data sensing method, an environment sensing data sensing device and an environment sensing data sensing product.

Background

The intelligent lamp can play a role in decorating indoor space effects and displaying information, and is generally limited by the role. The intelligent lamp has various forms, but is not changed in all aspects, and comprises a lamp light assembly serving as a control unit and playing a role in display, wherein the lamp light assembly comprises a large number of light-emitting units commonly called lamp beads, and each light-emitting unit is usually provided with a corresponding control chip so as to control light-emitting elements in the light-emitting units to emit corresponding light according to control data provided by the control unit.

On the one hand, along with the promotion of people's economic level, intelligent lamps and lanterns are becoming more and more popular, therefore, how to further extend the usage of intelligent lamps and lanterns, excavate its product potential, promote the product and use experience, become the bottleneck of intelligent lamps and lanterns popularization in-process. For example, intelligent lamps are often installed in indoor environments, and when they are used to display information, the corresponding information is usually static information unrelated to the scene, or is related to the scene, but only plays a role of rendering an atmosphere, such as rendering a light atmosphere of the indoor space according to a game screen.

On the other hand, with the development of internet of things, hygrothermograph, air quality detector and the like are increasingly widely used, and these devices are sequentially connected to a network, and detect various relevant parameters in ambient air through built-in sensors to become ambient sensing data, and generally interact with users through terminal devices. This interaction method lacks immediacy and information presentation efficiency is low. For example, in a large villa where it is desirable to know the water temperature of the swimming pool of the villa on-the-fly, in a farm where it is desirable to know the temperature, humidity, air quality, etc. of the henhouse on-the-fly, it is necessarily quite inefficient if complex equipment is required to know the relevant environmental sensor data, for example.

According to the above analysis, it is easy to understand that in the prior art, there is a further expanding space for information display capability of the intelligent lamp, and various display modes of environmental sensing data are still to be improved, so the applicant hopes to realize organic integration between requirements and products by technical improvement, so that the product use experience of the intelligent lamp can be comprehensively improved while meeting the requirements of specific applications.

Disclosure of Invention

The application aims to provide an intelligent lamp, an environment sensing data sensing method, an environment sensing data sensing device and an environment sensing data sensing product.

According to one aspect of the present application, there is provided an environmental sensing data sensing method applied to a control unit of an intelligent light fixture, including:

acquiring a remote data message, analyzing and extracting equipment characteristics of sensing equipment and environmental sensing data detected by the sensing equipment;

determining a lamp effect description template corresponding to the sensing equipment according to the equipment characteristics;

determining light effect control data corresponding to the environment sensing data based on the light effect description template;

and driving a light component of the intelligent lamp to play a corresponding light effect according to the light effect control data.

According to another aspect of the present application, there is provided an environmental sensing data sensing device, applied to a control unit of an intelligent light fixture, including:

The data acquisition module is used for acquiring a remote data message, analyzing and extracting equipment characteristics of the sensing equipment and environment sensing data detected by the sensing equipment;

the template determining module is used for determining a lamp effect description template corresponding to the sensing equipment according to the equipment characteristics;

a light effect determining module configured to determine light effect control data corresponding to the environmental sensing data based on the light effect description template;

and the light effect playing module is used for driving the light assembly of the intelligent lamp to play the corresponding light effect according to the light effect control data.

Relative position coding identification according to another aspect of the present application, an intelligent luminaire is provided, comprising a control unit and a light assembly, wherein the control unit is configured to drive the light assembly to cooperatively play a light effect according to light effect control data, and the control unit is configured to execute steps in the environmental sensing data sensing method.

According to another aspect of the present application, a computer program product is provided, comprising computer programs/instructions which, when executed by a processor, perform the steps comprised by the method of environmental sensory data awareness.

The present application has various technical advantages over the prior art, including but not limited to:

firstly, the remote sensing of the environmental sensing data is realized based on the equipment characteristics and the environmental sensing data of the sensing equipment obtained by the remote data message, the application range of the intelligent lamp in the entity space is enlarged, furthermore, the matched lamp effect description template is determined according to the equipment characteristics of the sensing equipment, then the lamp effect control data corresponding to the environmental sensing data is generated based on the lamp effect description template, and the lamp assembly in the intelligent lamp is controlled to play the corresponding lamp effect according to the lamp effect control data.

Secondly, the intelligent lamp acquires environment sensing data based on a remote data message and performs a lamp effect display mode according to the environment sensing data, information display distances of various sensing devices are actually pulled out, for example, environment sensing data detected by outdoor distributed sensing devices can be represented through the lamp effect of the indoor intelligent lamp, a plurality of sensing devices and the intelligent lamp are conveniently deployed in a specific scene, the environment sensing data can be effectively detected through the sensing devices, and related environment sensing data can be effectively and timely displayed through the intelligent lamp, so that the intelligent lamp can play a role of group control display of information such as the environment sensing data, and a user can feel more easily.

In addition, in summary, the information display is realized by converting the environmental sensing data into the light effect of the intelligent lamp, the functions of the intelligent lamp in the aspect of information display are enriched, and meanwhile, the problem that a user instantly and conveniently knows the environmental sensing data detected by various scattered sensing devices is solved, so that the user experience of using the intelligent lamp can be comprehensively improved, and the popularization of the intelligent lamp can be promoted.

Drawings

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

Fig. 1 is a schematic diagram of an electrical structure of an intelligent lamp in an embodiment of the present application;

fig. 2 is an electrical schematic diagram of a window shade lamp apparatus according to an embodiment of the present disclosure;

fig. 3 is an electrical schematic diagram of a spliced lamp in an embodiment of the application;

FIG. 4 is a flow chart of an environmental sensing data sensing method according to an embodiment of the present application;

FIG. 5 is a flow chart of modifying specific lighting properties of a light effect according to environmental sensing data to determine light effect control data according to an embodiment of the present application;

FIG. 6 is a flow chart of modifying specific description attributes of a light effect description template according to environmental sensing data to determine light effect control data in an embodiment of the present application;

fig. 7 is a schematic flow chart of playing the light effect corresponding to each environmental sensing data in a partition under the condition of the multi-sensing device in the embodiment of the present application;

FIG. 8 is a schematic flow chart of the synchronous lighting effect of the current intelligent lighting fixture and the external intelligent lighting fixture in the embodiment of the application;

FIG. 9 is a schematic structural diagram of an environmental sensing data sensing device according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of a computer device in an embodiment of the present application.

Detailed Description

The intelligent lamp can play the effect of dressing point space atmosphere, and referring to fig. 1, the intelligent lamp generally comprises a control unit and a light assembly. The control unit of the intelligent lamp is internally provided with a control chip which is provided with a corresponding communication component so as to communicate with external terminal equipment or external intelligent lamps and receive external data transmitted by the terminal equipment. According to different working modes of the communication assembly, a control chip of the control unit can work in different equipment states, such as a master equipment state and a slave equipment state, in the master equipment state, the intelligent lamp can group a plurality of intelligent lamps working in the slave equipment state by executing the environment sensing data sensing method so as to construct a lamp array, and the lamp effect control data of the lamp effect are synchronized into all intelligent lamps of the lamp array so as to synchronously play the same lamp effect; under the slave device state, the intelligent lamp can be controlled by the intelligent lamp working under the master device state, and the lamp effect control data transmitted by the intelligent lamp is received to play the corresponding lamp effect content. The control unit in the intelligent lamp can send the lamp effect control data which is responsible for playing to the lamp assembly so as to control the lamp assembly to play the corresponding lamp effect.

The light assembly in the intelligent lamp generally comprises one or more lamp strips or lamp blocks forming integral units, each integral unit comprises a plurality of light-emitting units commonly called lamp beads, each light-emitting unit is also internally provided with a control chip, and the control chip is responsible for receiving the light effect control data transmitted by the control unit and controlling the light-emitting element of the control unit to emit corresponding color light according to the control data of the control chip. In some embodiments, each integral unit may also be built with a control chip, for implementing centralized control of command and data communication between the control chip of each lighting unit in the integral unit and the control unit of the current intelligent lamp.

The control Chip of the control unit, the light assembly and the control Chip of the light emitting unit can be implemented by various embedded chips, such as any of various types of chips including Bluetooth SoC (System on Chip), wiFi SoC, DSP (Digital Signal Processing ), MCU (Micro Controller Unit, micro control unit, commonly known as singlechip) and the like. The control chip can prioritize Bluetooth SoC or WiFi SoC according to the condition that the control unit needs to adapt to the communication component. The control chip of the light assembly is preferably MCU or DSP for economic advantage. In this regard, flexible choice is possible without affecting the inventive spirit of the present application.

The control chip generally comprises a central processing unit and a memory, wherein the memory and the central processing unit are respectively used for storing and executing program instructions to realize corresponding functions. The communication component in the control chip can be used for communication with an external device, for example, a personal computer or various intelligent terminal devices, so that after a user has implemented various controls via his terminal device, the control chip can be received and used further accordingly via the communication component.

The communication component carried by the control unit, as disclosed above, not only can be a communication component supporting a WiFi or bluetooth wireless communication mode, but also can be a communication component supporting wireless communication modes such as Zigbee, infrared communication, RFID and the like, and the communication component can be adopted according to actual requirements. It will be appreciated that data communication may be performed by the same wireless communication protocol between individual intelligent luminaires equipped with the same communication components.

The control unit can also be provided with power adapter, control panel, display screen, etc. components as required. The power adapter is mainly used for converting commercial power into direct current so as to supply power for the whole intelligent lamp. The control panel typically provides one or more keys for performing switching control, device mode switching, etc. of the control unit. The display screen can be used for displaying various control state information so as to be matched with keys in the control panel and support the realization of man-machine interaction functions. In some embodiments, the control panel and the display screen may be integrated into the same touch display screen.

The light assembly is generally formed by connecting a plurality of light emitting units, and each light emitting unit can independently control light emission, so that besides the control chip which is communicated with the control unit is arranged in the light assembly, each light emitting unit is also generally provided with a corresponding control chip, and the control chip which has a communication function of the light assembly can transmit control data according to a light effect to the control chip of each light emitting unit according to a preset communication protocol so as to control the control chip of each light emitting unit to control the light emitting element of the light assembly to emit light according to the control data corresponding to the control chip of the light effect in the control data of the light effect.

The intelligent lamp can be designed into specific equipment with different forms in the form of products, such as curtain lamp equipment, spliced lamps, panel lamps and the like.

The product form of the exemplary window covering lamp apparatus is shown in fig. 2, in which the light assembly of the window covering lamp apparatus is implemented as a window covering lamp form, and the window covering lamp 2 includes a plurality of light emitting lamp strips 21 connected to a bus of the access control unit, each light emitting lamp strip 21 can be regarded as an integral unit, and includes a plurality of light emitting units formed by connecting light beads 210 in series, and the light emitting lamp strips 21 are generally identical in number and are arranged at equal intervals. When the curtain lamp 2 is used, the light-emitting lamp strips 21 are usually unfolded according to the layout shown in fig. 2, so that all the lamp beads in all the light-emitting lamp strips 21 are laid out in an array mode to form a lamp bead matrix structure, and as the picture effect can be provided when all the lamp beads emit light cooperatively, the surface where the whole lamp bead matrix structure is located forms an area array, when the lamp effect is played, a certain picture-text effect can be formed in the area array, the static lamp effect is formed when a single picture-text is displayed statically, and the dynamic lamp effect can be formed when the picture-text is switched according to time sequence.

Each light-emitting lamp strip 21 can be formed by connecting a plurality of lamp beads 210 in series, each lamp bead 210 in the same light-emitting lamp strip 21 transmits working current by the same group of cables connected to a bus, and the lamp beads 210 in the same light-emitting lamp strip 21 can be connected in parallel in an electrical connection relationship. In one embodiment, the light-emitting light strips 21 in the same light-strip matrix structure may be arranged at equal intervals along the bus direction, and the light-strips 210 of the light-strip 21 are correspondingly arranged in number and position, so that the area array 4 formed by the whole display frame plays a role similar to a screen when the light-emitting effect is watched at a long distance, and can form a pattern effect visually.

The light component of the curtain light device can be provided with a control chip with a centralized control function and is used for communicating with the control unit, the light effect control data transmitted by the control unit are sent to each light-emitting unit, and correspondingly, each light-emitting unit is also provided with a corresponding control chip and is used for controlling the light-emitting elements in the interior to emit light according to the control data of the corresponding light-emitting unit in the light effect control data.

The product form of the exemplary spliced lamp is shown in fig. 3, the light component of the spliced lamp is formed by adjacently splicing a plurality of lamp blocks, the spliced lamp is formed into an area array by adjacently splicing the plurality of lamp blocks, the whole area array is electrically connected with a control unit of the spliced lamp, and the control unit centrally controls the whole area array 2 'to play the light effect, so that the control unit 1' is responsible for not only controlling the power supply of each lamp block in the whole area array, but also controlling the instruction of each lamp block, and also transmitting data to each lamp block. The lamp blocks have various product forms, and the same spliced lamp can be spliced by adopting the lamp blocks with different forms according to the shape of the lamp blocks and the characteristics of the splicing relationship of the lamp blocks. Alternative forms include any polygonal shape such as a triangle, a quadrilateral, a pentagon, a hexagon, etc., or a radial shape formed by any number of lines, etc., which are adapted to be spliced adjacent to form a layout shape on the same plane.

Each lamp block of the spliced lamp can be regarded as an independent integral unit, wherein a control chip which is communicated with the control unit is arranged as described above, in addition, each lamp block comprises a plurality of light-emitting units, each light-emitting unit can also be provided with a corresponding control chip which is used for generating corresponding light-emitting control signals corresponding to own control data, and the light-emitting elements in the corresponding light-emitting units are controlled to emit light according to specific light-emitting parameters through the light-emitting control signals. The lamp block is responsible for the control chip in communication with the control unit, and can transmit corresponding lamp effect control data to the control chip of each light-emitting unit to achieve the aim of centralized control, so that a centralized control unit is formed.

The board lamp is a specific implementation form of the intelligent lamp, the board lamp comprises a base plate, a lamp shade and a light assembly, the lamp shade and the base plate are covered to form a containing space, the light assembly is arranged in the containing space, all integral units of the light assembly are installed in the containing space in a partitioning mode, the integral units can be implemented according to the luminous lamp strip disclosed in the introduction, and the lamp block disclosed in the introduction can also be implemented according to the lamp block disclosed in the introduction, so that the board lamp is flexible. As regards the control unit and other necessary electrical components of the panel light, it can be integrated together on the substrate. The panel light structure is succinct, and light display area is comparatively concentrated, and the convenience is installed on the facade or the top surface in space, has the advantage of deployment convenience.

On the basis of disclosing the overall structure and the electrical principle of the intelligent lamp, the application further discloses an environmental sensing data sensing method adopting the application, referring to fig. 4, in one embodiment, the environmental sensing data sensing method is executed by a control unit in the intelligent lamp, and includes:

step S5100, acquiring a remote data message, analyzing and extracting equipment characteristics of sensing equipment and environmental sensing data detected by the sensing equipment;

generally, the intelligent lamp and each sensing device are deployed in the same large space range and are distributed in a plurality of positions in the space range, and communication is carried out between the intelligent lamp and each sensing device in the form of data messages.

The intelligent lamp is internally provided with the communication component, can access the Internet, and performs communication interaction with a cloud server based on a corresponding communication protocol. For example, the remote data message may be acquired based on the UDP protocol. The intelligent lamp can control the playing of the lamp effect according to the environmental sensing data detected by the sensing equipment which is far away from the intelligent lamp in space. The sensing device also carries a communication component which can access the internet to communicate and interact with the server. According to the architecture, the environmental sensing data detected by the sensing equipment can be related to the equipment characteristics of the sensing equipment and submitted to a server in the form of data messages, and the server can forward the data messages to the intelligent lamp.

In one of the exemplary application scenarios, the sensing device may be installed in an outdoor space for detecting environmental sensing data, and the intelligent light fixture may be installed in an indoor space, so that when the intelligent light fixture plays a corresponding light effect according to the environmental sensing data in the remote data message acquired from the server, a user can intuitively sense the environmental change of the outdoor space through the light effect, and thus, the user can conveniently grasp the outdoor environmental condition at a long distance.

In another exemplary application scenario, the sensing device is installed in a henhouse of a farm for detecting environmental sensing data, and the intelligent lamp is installed in an office environment, when the intelligent lamp plays corresponding light effects according to the environmental sensing data in a remote data message acquired from the server, a user can intuitively sense environmental changes in the henhouse through the light effects of the intelligent lamp in the office environment, and response processing is convenient to be performed remotely.

The sensing device can be any device which can convert an environmental factor in a certain aspect into corresponding environmental sensing data in an electromechanical way, for example, the sensing device can be used for detecting air temperature and/or humidity and generating corresponding air temperature and humidity parameters as a hygrothermograph of the environmental sensing data; for example, the air quality detector can be used for detecting air quality indexes such as PM2.5 and the like to obtain corresponding data as environment sensing data. The sensing devices are all internally provided with communication components so as to submit environment sensing data carrying the device characteristics to the server in the form of data messages at regular or irregular time, and finally the environment sensing data is sent to the intelligent lamp by the server.

The device characteristics of the sensing device are usually unique characteristic codes of the sensing device, or any other identifier with a unique distinguishing function, for example, UUIDs written in the sensing device when leaving the factory or network card addresses thereof, and the like, can be used as the device characteristics.

The specific content of the generated environmental sensing data is different according to the type of the sensing device, for example, the environmental sensing data can comprise the environmental temperature and/or the environmental humidity for a hygrothermograph, and the environmental sensing data can comprise the corresponding value of PM2.5 for an air quality detector. And the sensing devices with different functions are used for detecting the environment sensing data corresponding to different environment factors, and the data attributes of the obtained environment sensing data are correspondingly different, so that the sensing devices can be used for controlling the playing of the lamp effect in the application.

After the intelligent lamp enters the working state, communication connection can be maintained between the intelligent lamp and the server. When the server receives the data message submitted by the sensing equipment, the data message can be used as a remote data message to be pushed to the intelligent lamp, the intelligent lamp receives the remote data message, and after the remote data message is analyzed according to a corresponding communication protocol, the equipment characteristics and the environment sensing data carried in the remote data message can be extracted.

In one embodiment, the intelligent lamp of the application is allowed to concurrently receive remote data messages of a plurality of sensing devices, corresponding light effect description templates are called according to the remote data messages of different sensing devices to generate corresponding light effect control data according to steps of a method of the application, and the intelligent lamp of the application is controlled to play corresponding light effects according to a time-sharing or partition mode, so that a single intelligent lamp can serve the display of environment sensing data of a plurality of sensing devices at the same time.

Step S5200, determining a lamp effect description template corresponding to the sensing equipment according to the equipment characteristics;

the user can set the mapping relation between each sensing device and the lamp effect description template used by the sensing device in advance by means of the configuration function provided by the terminal device or the intelligent lamp, and write the mapping relation into the intelligent lamp or a server storage space readable by the intelligent lamp.

In one embodiment, a user can set a usage scenario corresponding to each device feature through a graphical user interface provided by a configuration function, the background determines the scenario type of the usage scenario, the graphical user interface further provides each applicable light effect description template under the usage scenario of the corresponding scenario type in response to the device of the usage scenario, and the user selects one of the light effect description templates to be associated with the device feature, thereby forming mapping relation data among the device feature, the scenario type and the light effect description template, and the mapping relation data can be stored for later use. After the device characteristics of the sensing device submitting the remote data message are determined from the remote data message, the lamp effect description template used by the corresponding device characteristics can be queried according to the mapping relation data.

Step S5300, determining light effect control data corresponding to the environment sensing data based on the light effect description template;

the light effect description template can describe a light effect movement flow in a script or protocol format text mode. When describing the motion flow of the light effect by the script, the script can be used for describing the motion information and the luminous information of the light effect, wherein the motion information can comprise motion modes such as pattern translation, color gradual change, outward radiation, inward gathering and the like, can also comprise motion speed, and the like, can be defined in a mode of describing attributes and is assigned with default values. The light emission information mainly includes one or more light emission colors, for example, two light emission colors for defining color gradation, two light emission colors for defining a mixed color, and the like, and can be defined in such a manner as to describe attributes. It is to be appreciated that the light effect description template is a resolvable text that can be analyzed and executed by the intelligent lamp from macroscopic view to a light effect movement flow.

According to the intelligent lamp, after the lamp effect description template is analyzed, corresponding lamp effect control data can be generated, the lamp effect control data are control data sets generated by comparing the control data of the light emitting units in all integral units of the intelligent lamp, and the lamp effect description template is converted into frame-division control data corresponding to the light assembly of the intelligent lamp under a plurality of frames, so that each frame-division control data comprises the control data corresponding to each light emitting unit in the intelligent lamp, and the corresponding lamp effect control data can be generated. In the light efficiency control data, the control data corresponding to each light emitting unit is mainly described by a light emitting parameter value corresponding to a light emitting attribute, for example, for a color light to be emitted by one light emitting unit, a color light emitting attribute may be set, and the corresponding color value may be used as the light emitting parameter value.

It should be understood that the light effect is presented according to the control of the light effect control data, but the light effect control data can be generated according to the light effect description template, so that the light effect motion flow originally described by the light effect description template can be changed by modifying specific data of any one of the light effect description template and the light effect control data, and the light effect different from the original light effect motion flow can be played.

In this application, considering the requirement that the environmental sensing data is reflected by the light effect that the intelligent light fixture finally plays, in one embodiment, the method can be implemented by modifying the original value of one or more specific description attributes in the description attributes of the light effect description template; in another embodiment, this may be achieved by modifying the original value of one or more specific ones of the light emission properties of the light effect control data generated from the light effect description template. In short, the corresponding conversion relation between the environment sensing data and the specific description attributes or the specific luminous attributes in numerical value is established in advance, so that the change of the environment sensing data can be mapped into the final light effect control data, the light effect control data can reflect the change of the environment sensing data corresponding to the same equipment characteristic, and finally the change relation is reflected into the light effect played by the intelligent lamp.

For the visual example, in one embodiment, the change in the environmental sensing data may be converted into a change in the movement speed of the light effect; in another embodiment, the change in the environmental sensing data may be converted into a change in the color of the light effect; in yet another embodiment, changes in the environmental sensing data may be converted to changes in the pattern. Such as this, the method can be flexibly implemented, and the corresponding relation between the change of the light effect control data and the environment sensing data can be grasped.

And S5400, driving a light assembly of the intelligent lamp to play a corresponding light effect according to the light effect control data.

After the control unit of the intelligent lamp determines the light effect control data corresponding to the environment sensing data, the light effect control data can be sent to the light assembly of the intelligent lamp, each light emitting unit in the light assembly can extract the control data corresponding to the light effect control data after receiving the light effect control data, and then the light emitting elements of the intelligent lamp are controlled to emit corresponding light according to the light emitting parameter values corresponding to various light emitting attributes in the control data. When the light assembly performs centralized control on a plurality of light emitting units according to the integral units, corresponding control chips for performing centralized control can be arranged in the integral units, the light effect control data corresponding to the current integral unit part in the light effect control data are firstly extracted, then the control of each light emitting unit is performed, and the rest light effect control data are forwarded to other integral units to perform the same treatment. It is easy to understand that in the intelligent lamp, each lighting unit performs lighting control according to the service logic, so that the whole intelligent lamp can cooperatively play the corresponding lamp effect.

In some embodiments, corresponding to a plurality of sensing devices, the light effects corresponding to the environmental sensing data corresponding to each sensing device can be played in a time-sharing manner, in this case, the light effects corresponding to different usage scenarios of different sensing devices are kept, and a user can conveniently distinguish the sensing devices corresponding to each light effect.

In other embodiments, a plurality of integral units exist in the intelligent lamp, when a plurality of sensing devices are corresponding, the lamp effect control data corresponding to the environment sensing data corresponding to different sensing devices can be output to the different integral units for playing according to a partition mode, so that the intelligent lamp synchronously reflects the change of the environment sensing data of the different sensing devices through the plurality of partitions, and the intelligent lamp is more efficient.

As can be appreciated from the above embodiments, the present application has various technical advantages, including but not limited to:

firstly, the remote sensing of the environmental sensing data is realized based on the equipment characteristics and the environmental sensing data of the sensing equipment obtained by the remote data message, the application range of the intelligent lamp in the entity space is enlarged, furthermore, the matched lamp effect description template is determined according to the equipment characteristics of the sensing equipment, then the lamp effect control data corresponding to the environmental sensing data is generated based on the lamp effect description template, and the lamp assembly in the intelligent lamp is controlled to play the corresponding lamp effect according to the lamp effect control data.

Secondly, the intelligent lamp acquires environment sensing data based on a remote data message and performs a lamp effect display mode according to the environment sensing data, information display distances of various sensing devices are actually pulled out, for example, environment sensing data detected by outdoor distributed sensing devices can be represented through the lamp effect of the indoor intelligent lamp, a plurality of sensing devices and the intelligent lamp are conveniently deployed in a specific scene, the environment sensing data can be effectively detected through the sensing devices, and related environment sensing data can be effectively and timely displayed through the intelligent lamp, so that the intelligent lamp can play a role of group control display of information such as the environment sensing data, and a user can feel more easily.

In addition, in summary, the information display is realized by converting the environmental sensing data into the light effect of the intelligent lamp, the functions of the intelligent lamp in the aspect of information display are enriched, and meanwhile, the problem that a user instantly and conveniently knows the environmental sensing data detected by various scattered sensing devices is solved, so that the user experience of using the intelligent lamp can be comprehensively improved, and the popularization of the intelligent lamp can be promoted.

On the basis of any embodiment of the method, before obtaining the remote data message, the method comprises the following steps:

Step S4100, establishing communication connection with a server;

after the intelligent lamp is started, the intelligent lamp can be connected to the Internet according to the prior network configuration, communication connection with the server is established, and online communication between the intelligent lamp and the server is maintained in a long connection mode so as to continuously carry out communication interaction with the server.

Step S4200, obtaining a sensing device list from a server, where the sensing device list includes mapping relationship data corresponding to a device feature of at least one sensing device and a scene type of a scene where the sensing device is located;

the user binds one or more sensing devices with the intelligent lamp in the application in advance, organizes the binding relationship into a sensing device list and stores the sensing device list into the server. The list of sensing devices generally includes device characteristics of the sensing devices. In addition, in order to conveniently determine the corresponding light effect description template, when the user implements binding, a corresponding use scene of each sensing device, that is, a scene where the sensing device is located, for example, a cultivation scene, a swimming pool scene, a soil scene, etc., may be designated for each sensing device, so when the sensing device list is constructed, the device characteristics of each sensing device are associated, and the corresponding scene type of the sensing device is set, so that mapping relationship data is formed between the device characteristics and the scene types. After the intelligent lamp is started and communication connection is established with the server, the sensing equipment list can be acquired to the local area from the server, so that the lamp effect playing work can be implemented according to the latest sensing equipment list.

Step S4300, based on each scene type in the sensing device list, downloading the light effect description templates corresponding to each scene type from the server and storing the light effect description templates in the memory.

In addition, the light effect description template can be customized in advance and stored in the server, the maintenance user can update the light effect description template regularly or irregularly, and after the intelligent lamp acquires the sensing equipment list, the light effect description template corresponding to each scene type can be downloaded from the server according to each scene type contained in the sensing equipment list and stored in the local memory so as to ensure that the light effect description template used by the intelligent lamp is latest. And directly covering the historical light effect description templates of the same scene type.

According to the above embodiment, a user can perform initialization configuration on one or more sensing devices served by the intelligent lamp and the lamp effect description templates thereof by means of the terminal device or any other means, the intelligent lamp directly communicates with the server and acquires the corresponding sensing device list, so that the configuration of the lamp effect of the intelligent lamp can be completed, the intelligent lamp can perform lamp effect playing work in the latest configuration, the user can conveniently perform centralized maintenance on the playing function and the playing effect of the intelligent lamp, and the method has convenient and efficient user experience.

On the basis of any embodiment of the method, before obtaining the remote data message, the method comprises the following steps:

step S3100, responding to the device adding instruction, and acquiring the device characteristics of the sensing device set by the user and the scene type of the scene in which the device characteristics are located;

the user can also configure the sensing equipment served by the intelligent lamp in real time. Accordingly, a user can set the equipment characteristics of the sensing equipment which needs to be served by the intelligent lamp through the configuration function provided by the terminal equipment in communication connection with the intelligent lamp or through the configuration function opened by the control panel of the intelligent lamp, and specify the scene type corresponding to the scene where the sensing equipment is located, and accordingly, an equipment adding instruction is issued to the control unit of the intelligent lamp, wherein the equipment adding instruction comprises the equipment characteristics and the scene type. Therefore, the control unit of the intelligent lamp can respond to the equipment adding instruction, and the equipment characteristics and the scene types can be extracted from the instruction.

Step S3200, submitting a light effect matching request carrying the scene type to a server, and acquiring a light effect description template returned by the server according to the matching of the request;

the control unit of the intelligent lamp can further inquire whether a lamp effect description template corresponding to the scene type exists in the local memory, if so, the lamp effect description template can be directly used, otherwise, the lamp effect description template corresponding to the scene type can be downloaded to the server. Alternatively, the light effect description template can be downloaded directly to the server, whether or not the light effect description template is contained in the local area.

When the lamp effect description template corresponding to the scene type needs to be downloaded to the server, the control unit of the intelligent lamp constructs a lamp effect matching request carrying the scene type and sends the lamp effect matching request to the server, the server responds to the lamp effect matching request, a download link of the corresponding lamp effect description template is matched according to the scene type in the request, the download link is pushed to the intelligent lamp, and the intelligent lamp downloads the corresponding lamp effect description template according to the download link.

And step S3300, storing the mapping relation data formed by associating the scene type and the equipment characteristic with the light effect description template into a local memory.

After the lamp effect description template corresponding to the scene type is downloaded to the local, the control unit of the intelligent lamp associates the lamp effect description template with the scene type and the equipment characteristics to form mapping relation data, and the mapping relation data is stored in the local memory, so that corresponding calling can be carried out according to the equipment characteristics later.

According to the embodiment, a user can conveniently add sensing equipment for the intelligent lamp at any time, the intelligent lamp can be mutually matched with the server, background processing is automatically completed, corresponding lamp effect description templates are obtained, the corresponding relation between equipment characteristics and the lamp effect description templates is established, the user does not need to carry out complex processing during the process, the intelligent lamp is very efficient, and the use experience when the user configures the intelligent lamp can be optimized.

On the basis of any embodiment of the method of the present application, referring to fig. 5, determining, based on the light effect description template, light effect control data corresponding to the environmental sensing data includes:

step S5311, generating original control data corresponding to the light effect of a light component for controlling the intelligent lamp according to the light effect movement flow described by the light effect description template;

as disclosed in the foregoing, in the light effect description template, the light effect motion flow is defined by a plurality of description attributes, so that the light effect control data corresponding to the light component of the intelligent lamp in the application, which is called as the original control data in the embodiment, can be generated according to the light effect description template by the business logic according to the pre-protocol. When the original control data is sent to the light assembly, the light assembly can play the corresponding light effect according to the original control data.

Step S5312, converting the environmental sensing data into luminous parameter values of corresponding specific luminous attributes in the original control data;

when the corresponding luminous efficacy is expected to reflect the environmental sensing data, the corresponding conversion relation between the environmental sensing data and the specific luminous attribute which is suitable for being modified is realized in advance in the control unit of the intelligent lamp, for example, when the environmental sensing data is temperature data, the color value of the specific luminous attribute corresponding to each luminous unit in the original control data is added with a value of 10 units on the basis of the original value every 1 ℃ when the environmental sensing data is raised, and the environmental sensing data can be converted into the luminous parameter value of the corresponding specific luminous attribute in the original control data according to the corresponding conversion relation.

Step S5313, replacing the original value of the specific light emitting attribute with the light emitting parameter value to convert the original control data into light effect control data.

After the new light emitting parameter value is determined, the new light emitting parameter value is substituted for the original value of the specific light emitting attribute in the original control data, so that substitution is realized, and the original control data is converted into the light effect control data.

It can be seen that, in this embodiment, for the light effect description template, the light effect motion flow is firstly converted into the original control data, and then, based on the original control data, the environmental sensing data is used to determine the light emitting parameter values corresponding to each specific light emitting attribute, so that the corresponding relationship between the environmental sensing data and the light emitting parameter values is maintained, and therefore, the change of the light emitting parameter values can reflect the change of the environmental sensing data. The numerical value of the specific luminous attribute in the original control data is modified, so that the method is direct and efficient, and the change of the environment sensing data is reflected to be the final expression form of the lamp effect, so that the method is more visual.

On the basis of any embodiment of the method of the present application, referring to fig. 6, determining, based on the light effect description template, light effect control data corresponding to the environmental sensing data includes:

Step S5321, converting the environmental sensing data into attribute data describing specific description attributes of the light effect motion flow in the light effect description template;

as disclosed in the foregoing, in the light effect description template, a light effect movement flow is defined by a plurality of description attributes, and the light effect movement flow can be modified correspondingly by modifying the original values of the description attributes. For example, the modification of the light effect movement flow can be achieved by modifying the description attribute corresponding to the movement speed, or modifying the numerical value corresponding to one or a plurality of description attributes such as the description attribute corresponding to the light effect pattern. Therefore, in this embodiment, a mapping relationship between the environmental sensing data and the attribute data of one or several specific description attributes may be pre-constructed, and after the environmental sensing data in the remote data packet is extracted, the environmental sensing data is converted into the attribute data of the corresponding specific description attribute according to the mapping relationship. For example, the environmental sensing data is a temperature value, and correspondingly, the temperature value can be converted into attribute data of a specific description attribute corresponding to the movement speed, namely, the temperature value is converted into the movement speed value, so that the corresponding conversion of the environmental sensing data is realized, and the change of the attribute data of the specific description attribute reflects the change of the value of the environmental sensing data. From this, the environmental sensing data can be used to modify the light effect description template and update its light effect movement flow.

Step S5322, replacing the corresponding original value of the specific description attribute with the attribute data to obtain a light effect description instance;

when the attribute data corresponding to the specific description attribute is determined according to the environment sensing data, the attribute data can be directly replaced with the original value of the corresponding specific description attribute in the light effect description template, so that the description information of the light effect description template is a new light effect description instance, and the light effect description instance can be used for generating corresponding light effect control data.

Step S5323, generating light effect control data corresponding to the light effect of the light component for controlling the intelligent lamp according to the light effect movement flow described by the light effect description example.

After the light effect description example corresponding to the environment sensing data is determined, according to the business logic disclosed in the foregoing, according to the light effect motion flow described by each description attribute in the light effect description example, control data corresponding to each light emitting unit in the light assembly in the intelligent lamp is generated, so as to form the light effect control data. The light effect control data can be directly sent to the light assembly to control each light emitting unit to emit corresponding light, so that corresponding light effect is played, a corresponding light effect movement flow is displayed through the light effect, and a user can sense the change of environment sensing data through the light effect movement flow.

In this embodiment, the attribute data of the description attribute in the light effect description template is directly modified according to the environment sensing data, so that the modification of the light effect is realized on the macroscopic description level of the light effect movement process, and a larger degree of freedom of editing the light effect can be obtained, so that the light effect reflects the environment sensing data in a richer manner, for example, the change of the environment sensing data can be reflected into the change of the movement speed, the movement mode and the pattern content of the light effect, and the control manner and the control effect are rich and various, and the product characteristics and advantages of the intelligent lamp for displaying the environment sensing data in a manner of rendering the light atmosphere can be more embodied.

On the basis of any embodiment of the method of the present application, referring to fig. 7, driving a light assembly of the intelligent lamp to play a corresponding light effect according to the light effect control data includes:

step S5411, when there are a plurality of lamp effect control data corresponding to the device characteristics, determining a target partition of the corresponding sensing device in a display frame of a light assembly of the intelligent lamp according to the device characteristics;

in this embodiment, for the case that the intelligent lamp of the present application synchronously serves environment sensing data corresponding to a plurality of sensing devices, after environment sensing data corresponding to each sensing device is obtained through remote data messages of the plurality of sensing devices and respective corresponding light effect control data are generated according to each environment sensing data, each light effect control data may be sent to a target partition corresponding to each sensing device according to a partition mapping manner.

Accordingly, the partition information in the display picture formed by each light emitting unit in the light assembly of the intelligent lamp is obtained in advance through self-checking or a user setting mode, for example, each whole unit in the intelligent lamp can be used as a corresponding partition, so that the partition information is formed. On the basis, when the corresponding relation between the intelligent lamp and the sensing equipment is configured, the mapping relation between the equipment characteristics of each sensing equipment and the corresponding subareas is preset. When each light effect control data corresponding to each device feature is determined in this embodiment, a target partition corresponding to each device feature may be determined, and a correspondence between each light effect control data and each target partition is established.

Step S5412, converting the lamp efficiency control data corresponding to each device characteristic into partition control data of a corresponding target partition;

since each light effect control data is generated corresponding to the display frame of the intelligent lamp by default and includes the control data corresponding to each lighting unit, the target partition determined in this embodiment is generally only formed by a part of the lighting units in the whole display frame, in this case, in order to ensure that each light effect control data can be correctly played in its corresponding target partition, each light effect control data needs to be subjected to data compression corresponding to the layout relationship of the lighting units in its corresponding target partition, so as to realize conversion of the light effect control data originally corresponding to the whole display frame into partition control data corresponding to the layout relationship of its target partition.

For example, the whole display frame of the intelligent lamp is a light bead matrix structure formed by 320×320 light emitting units, the whole display frame is divided into four partitions for corresponding to four sensing devices, the layout relation of the light emitting units of each partition is 160×160 light emitting units, accordingly, for the light effect control data corresponding to each target partition, data compression is carried out on the light effect control data corresponding to 320×320 pixels from the original layout, one light emitting unit (pixel) in the target partition corresponds to four adjacent light emitting units (pixels) in the light effect control data, and the average value of the light emitting parameter values of the light emitting attributes of the four pixels in the target partition is taken as the light emitting parameter value of the corresponding light emitting attribute of the corresponding pixel in the target partition, so that conversion from the light effect control data to the partition control data can be realized. Of course, the examples are given here only, and the conversion for this purpose can also be achieved in any other way, which is not exhaustive.

And S5413, reconstructing partition control data of all target partitions into light effect control data, and sending the light effect control data to a light assembly of the intelligent lamp, and driving the light assembly to synchronously play light effects corresponding to each equipment characteristic according to the partitions.

After determining the partition control data corresponding to each target partition, in order to facilitate uniform control of the light assemblies of the intelligent lamp to cooperatively play the light effects corresponding to each sensing device, each partition control data of each playing frame can be combined according to different partitions of the same frame rate, each partition control data of each playing frame is reconstructed and assembled into the light effect control data of the same playing frame, each light effect control data is sent to the light assemblies of the intelligent lamp according to the corresponding time slots of each playing frame, after the light assemblies receive each light effect control data, the corresponding light emitting units are controlled to emit light according to each control data in the light assemblies, the corresponding light effects of each playing frame can be cooperatively played, and the corresponding light effects of each sensing device can be presented through playing of a plurality of playing frames.

According to the embodiment, it can be known that the intelligent lamp can convert the light effect control data of each sensing device into data corresponding to the corresponding target partition of the sensing device through the partition corresponding to different sensing devices, reconstruct the light effect control data of the playing frames of the light effect sets corresponding to all the sensing devices, realize synchronous playing of the light effect corresponding to each sensing device in the intelligent lamp through the light effect control data corresponding to a plurality of playing frames, ensure that the visual change of each light effect can reflect the change of the environmental sensing data of the corresponding sensing device, enrich the capability of the intelligent lamp of the application for serving a plurality of sensing devices, enable the environmental sensing data of a plurality of sensing devices to be presented through the light effect of different partitions of the same intelligent lamp, enable the situation of the environmental sensing data detected by each sensing device in discrete distribution to be clear at a glance, and promote the comprehensive experience of users using products.

On the basis of any embodiment of the method of the present application, referring to fig. 8, driving a light assembly of the intelligent lamp to play a corresponding light effect according to the light effect control data includes:

step S5421, determining an external intelligent lamp which can be reached by the current intelligent lamp in a communication way;

the intelligent lamp executing the method can be used as a current intelligent lamp, a plurality of external intelligent lamps are assembled to form a lamp array, the lamp array comprises the current intelligent lamp and each external intelligent lamp, and the same lamp effect can be played based on the lamp array. The current intelligent lamp and the external intelligent lamp can be in wireless communication through the communication components, and under the centralized control of the current intelligent lamp, each intelligent lamp in the lamp array can cooperatively play the same target lamp effect.

After the current intelligent lamp determines all external intelligent lamps, the external intelligent lamps are the external intelligent lamps which can be reached by the current intelligent lamp in a communication way. Each intelligent lamp in the lamp array comprises each external intelligent lamp and the current intelligent lamp, the identity information and the relative position code identification of each intelligent lamp are stored in the array description information of the lamp array, and each external intelligent lamp which can be reached by the current intelligent lamp in a communication manner can be determined through the array description information, so that the current intelligent lamp can be conveniently communicated with each external intelligent lamp.

Step S5422, synchronizing the lamp efficiency control data associated starting time stamp to the external intelligent lamp to obtain the confirmation information replied by any external intelligent lamp;

in order to enable a plurality of intelligent lamps to synchronously present the corresponding light effect of the environmental sensing data, users in the same space range can more easily know the environmental sensing data detected by each sensing device in time through one intelligent lamp. For example, the intelligent lamps are installed on the floors above and below the same villa, and the intelligent lamps are expected to synchronously play the lamp effect corresponding to the environmental sensing data detected by the sensing equipment. In this case, the current intelligent lamps can correlate the light effect control data with the same starting time stamp and synchronously send the light effect control data to all external intelligent lamps in the lamp array, for example, the intelligent lamps of one floor can correlate the light effect control data with the starting time stamp and then send the light effect control data to the intelligent lamps of other floors, so that the current intelligent lamps actually play a role of group control, other external intelligent lamps can all receive the same light effect control data, and the synchronization of light effect playing can be realized based on the corresponding starting time stamp.

After each external intelligent lamp finishes receiving the lamp effect control data, the external intelligent lamp sends back confirmation information to the current intelligent lamp, and after the current intelligent lamp receives the confirmation information, the lamp effect of the current lamp can be controlled and played according to preset business logic; if the confirmation information of one or a plurality of external intelligent lamps cannot be received within a limited time, the corresponding external intelligent lamps can be written into the log data so as to inform a maintenance user of troubleshooting. It should be noted that, whether or not the confirmation information of one or more external intelligent lamps can be received, the current intelligent lamps can utilize the light effect control data path to control the light assembly of the current intelligent lamps to play the corresponding light effect according to the service logic of the current intelligent lamps.

And step S5423, when the starting time stamp arrives, synchronizing with the external intelligent lamp, and controlling the self light assembly to play the corresponding light effect according to the light effect control data.

The starting time stamp is generally slightly delayed relative to the moment of sending the light effect control data, so as to ensure that each external intelligent lamp can receive the light effect control data earlier than the starting time stamp, according to the preset service logic of the current intelligent lamp or other external intelligent lamps, after the starting time stamp and the corresponding light effect control data are determined, the corresponding light effect control data can be sent to each light assembly at the moment when the starting time stamp arrives, and each light assembly is driven to play the corresponding light effect according to the service logic disclosed in the foregoing. Because each intelligent lamp in the whole lamp array controls the playing of the lamp effect according to the same service logic and the same starting time stamp, the same lamp effect played by each intelligent lamp has no time difference and is completely synchronous in theory.

According to the embodiment, the intelligent lamp can further play a group control role, the lamp effect control data corresponding to the same lamp effect are synchronously transmitted to other external intelligent lamps which can reach through communication, the same lamp effect is synchronously played through all intelligent lamps so as to reflect the same environment sensing data, the fact that a user can quickly master the change of the corresponding environment sensing data through any intelligent lamp is ensured, for an application scene with a large space range, the intelligent lamp has the advantage of efficient networking, the corresponding environment information of the environment sensing data is conveniently and effectively displayed through a group control mechanism, and the information transmission efficiency is high.

On the basis of any embodiment of the method, the intelligent lamp can be used as a current intelligent lamp, the initialization configuration is carried out in advance, the following array forming process is carried out, so that all external intelligent lamps which can be reached by the current intelligent lamp in a communication mode can be determined, the current intelligent lamp and all external intelligent lamps are constructed into a lamp array, the initialization configuration of the whole lamp array is completed, array description information corresponding to the lamp array is obtained, and the current intelligent lamp can communicate with all external intelligent lamps based on the array description information. Accordingly, the array process comprises the steps of:

Step S2100, determining an external intelligent lamp in the working state of the slave device by the current intelligent lamp in the working state of the master device;

generally, an intelligent lamp can provide a function of switching and controlling the working state of equipment of the intelligent lamp by a user, and the user can set the working state of the equipment of the intelligent lamp through terminal equipment connected with the intelligent lamp or through a man-machine interaction function provided by a control panel of the intelligent lamp. Accordingly, a user can set any one of the plurality of intelligent lamps as a master device working state to be the current intelligent lamp, and set other intelligent lamps as slave devices working states to be external intelligent lamps of the current intelligent lamp.

When the front intelligent lamp is in the working state of the main equipment, the identity information of each external intelligent lamp can be acquired so as to confirm other identifiable intelligent lamps existing around the front intelligent lamp, an external lamp list containing each external intelligent lamp in the working state of the auxiliary equipment is obtained, the identity information of each external intelligent lamp is contained in the external lamp list, and each corresponding external intelligent lamp can be identified through the identity information in each subsequent step. The function of identifying the identity information of each external intelligent lamp to obtain a corresponding external lamp list can be implemented by external terminal equipment or by the current intelligent lamp.

Each external intelligent lamp in the working state of the slave device radiates a broadcast signal into the air, and the broadcast signal contains the unique feature code of the external intelligent lamp as identity information. When the identity information of each external intelligent lamp needs to be identified, the equipment responsible for generating the external lamp list, namely the current intelligent lamp or external terminal equipment, extracts the unique feature code from the broadcast signals of each external intelligent lamp as the identity information by receiving the broadcast signals of each external intelligent lamp, and can construct the external lamp list based on the identity information of each external intelligent lamp.

Step S2200, determining the space azimuth information from the external intelligent lamp to the current intelligent lamp by the current intelligent lamp according to the signal intensity information of the external intelligent lamp;

in any known wireless communication manner, when a receiving end receives a wireless signal sent by a sending end, the receiving end can determine corresponding signal strength information, and the signal strength information is usually packaged into an RSSI (received signal strength indication) parameter, and according to the signal strength information, distance information from the sending end to the receiving end can also be determined to form space orientation information.

Some wireless communication methods may further determine directional information to enrich the spatial orientation information. For example, after the bluetooth communication protocol is in version 5.1, the AOA (angle of arrival)/AOD (angle of departure) indoor positioning technology is further deduced, and by arranging a plurality of antennas in the receiving end or the transmitting end, not only the distance information between the transmitting end and the receiving end can be determined, but also the direction information relative to the receiving end can be determined, and the distance information and the direction information can form another kind of spatial orientation information.

Therefore, the current intelligent lamp can determine corresponding signal strength information of each external intelligent lamp according to wireless signals transmitted by each external intelligent lamp on the basis of knowing identity information of each external intelligent lamp, and then determine corresponding space azimuth information of each external intelligent lamp by applying a known corresponding positioning technology, so that the position of each external intelligent lamp in an entity space relative to the current intelligent lamp is determined. Although there is some error in this location, this error is essentially negligible because it is small and this location is primarily for determining the relative position-coded identity between the individual intelligent luminaires.

With the increase of the actual transmission distance, the error of the spatial azimuth information determined according to the signal strength information may also increase, for this case, in some embodiments, a distance threshold may be preset, and it is detected whether the distance information in the spatial azimuth information of each external intelligent light fixture is greater than the distance threshold, and when the distance information is greater than the distance threshold, the external intelligent light fixture is deleted from the external light fixture list, and does not participate in the subsequent array, so as to improve the reliability of communication between the intelligent light fixtures in the light fixture array formed by the subsequent array.

Step S2300, combining each intelligent lamp into a lamp array by the current intelligent lamp, determining a relative position code identifier of the intelligent lamp in the lamp array according to the spatial azimuth information of each intelligent lamp, and storing the identity information and the relative position code identifier of each intelligent lamp in the lamp array in an associated manner as array description information of the lamp array;

for each external intelligent luminaire that has successfully identified identity information and exists in the external luminaire list, the current intelligent luminaire can combine these external intelligent luminaires together with itself into a luminaire array so that all intelligent luminaires in the luminaire array are centralized by the current intelligent luminaire as an overall management unit.

As disclosed above, the spatial orientation information of each external intelligent light fixture in the external light fixture list is determined in advance, and the current intelligent light fixture itself does not need to determine the spatial orientation information, so that the spatial orientation information of the current intelligent light fixture can be defaulted to be the origin of coordinates for processing. Therefore, for each intelligent lamp in the lamp array, including the current intelligent lamp and each external intelligent lamp existing in the external lamp list, the sequence of each intelligent lamp reaching the current intelligent lamp can be determined according to the space azimuth information of each intelligent lamp, so that the relative position code identification of each intelligent lamp in the lamp array is determined, and the sequential position codes of each intelligent lamp are determined according to the fact that each intelligent lamp is far from the current intelligent lamp in azimuth.

For example, a user may arrange a current intelligent lamp in the plurality of intelligent lamps at one end, and arrange other external intelligent lamps on the same side of the current intelligent lamp in sequence, so that distance information that each external intelligent lamp reaches the current intelligent lamp is represented by corresponding spatial azimuth information, according to the above manner, the current intelligent lamp may start from the current intelligent lamp, and give each intelligent lamp a corresponding relative position code identifier, for example, set the relative position code identifier of the current intelligent lamp to 0, and then set the relative position code identifier of each external intelligent lamp to 1, 2, 3 … … and so on according to the sequence from near to far. It can be seen that in this example, the spatial orientation information need only provide distance information sufficient to enable determination of the relative position-coded identification of the individual intelligent luminaires.

For another example, the user may center the current intelligent lamps among the plurality of intelligent lamps and sequentially arrange other external intelligent lamps on two sides of the current intelligent lamps, so that the current intelligent lamps can identify each external intelligent lamp in the left and right directions by using the spatial position information including the distance information and the direction information, then consider all intelligent lamps including the current intelligent lamps as a plurality of intelligent lamps arranged in the same direction, and determine the relative position code identifiers of each intelligent lamp from near to far according to the distances of the intelligent lamps, for example, 3 external intelligent lamps are respectively arranged on the left and right sides of the current intelligent lamps, and the relative position code identifiers of the current intelligent lamps are 3, so that the numbers of all intelligent lamps are 0-6.

In order to facilitate subsequent calling, the identity information of each intelligent lamp can be associated with the corresponding relative position code identifier thereof to be stored as mapping relation data in a lasting mode, and when a user finds that the association relation has errors, the persistently stored mapping relation data can be opened to the user for editing and modifying so as to improve the accuracy of the array. Correspondingly, the mapping relation data also actually forms the group array description information of the lamp array.

Step 2400, the current intelligent lamp sends the corresponding relative position code identification of the intelligent lamp to each intelligent lamp.

The relative position code identifier can be used for realizing the internal identity identification of the intelligent lamp, so that after the relative position code identifier of each intelligent lamp in the lamp array is determined by the current intelligent lamp, the relative position code identifier of each intelligent lamp is also sent to the corresponding external intelligent lamp, and the external intelligent lamp writes the relative position code identifier into the memory after receiving the relative position code identifier. Subsequently, the relative position code identifier can be added into the data sent by the user, or the data corresponding to the relative position code identifier can be identified from the received data for processing, so that the effect of internal identity recognition is realized. The relative position code identification of the external intelligent lamp can be sent through a wireless signal, and the relative position code identification of the current intelligent lamp is directly written into a memory.

By the above process, it is easy to understand that the current intelligent lamp realizes the array of a plurality of intelligent lamps including the current intelligent lamp, and a lamp array is obtained and expressed as array description information. And then, based on the group array description information, the light effect description data corresponding to the target light effect can be sent to one or more external intelligent lamps, and the external intelligent lamps are controlled to cooperatively play the corresponding target light effect in a centralized manner.

Of course, no matter how the method is implemented, when the current intelligent lamp sends any data to each intelligent lamp in the lamp array, the relative position coding identification of the intelligent lamp to be received can be specified for part or all of the data in the current intelligent lamp, when each intelligent lamp receives any data, the data corresponding to the part of the relative position coding identification specified in the intelligent lamp is extracted, and the playing lamp effect of the intelligent lamp is controlled according to the part of the data.

According to the embodiment, in the application, the current lamp determines each external intelligent lamp in the working state of the slave device in the state of the master device, the space azimuth information of each external intelligent lamp is determined through the broadcast signals of each external intelligent lamp, then a lamp array comprising the external intelligent lamps and the current lamp is created, the space azimuth information of each intelligent lamp in the lamp array determines the relative position coding identification of each intelligent lamp, the position coding of each intelligent lamp in the lamp array is completed, the relative position coding identification of each intelligent lamp is synchronized with each intelligent lamp, the layout relation of each intelligent lamp in the entity space is substantially determined, the corresponding relative position coding identification is transmitted to each intelligent lamp for the completion of the self-identification, the initialization setting of each intelligent lamp in the whole lamp array is realized, the group control of multiple intelligent lamps is completed, the group control of all intelligent lamps can be realized, the functions of the intelligent lamps are expanded, the group control mode of multiple intelligent lamps is opened for users, the group control of multiple intelligent lamps is enhanced, the intelligent lamps are used for the combination, the supporting capacity of environment sensing data is enriched, and the intelligent playing and the product is fully used.

Referring to fig. 9, another embodiment of the present application further provides an environmental sensing data sensing device, which includes a data obtaining module 5100, a template determining module 5200, a light effect determining module 5300, and a light effect playing module 5400, wherein the data obtaining module 5100 is configured to obtain a remote data message, analyze and extract device characteristics of a sensing device and environmental sensing data detected by the sensing device; the template determining module 5200 is configured to determine a light effect description template corresponding to the sensing device according to the device characteristics; the light effect determining module 5300 is configured to determine light effect control data corresponding to the environmental sensing data based on the light effect description template; the light effect playing module 5400 is configured to drive the light assembly of the intelligent lamp to play the corresponding light effect according to the light effect control data.

On the basis of any embodiment of the apparatus of the present application, before obtaining the remote data packet, the method includes: a communication connection module configured to establish a communication connection with a server; the list acquisition module is used for acquiring a sensing equipment list from the server, wherein the sensing equipment list comprises mapping relation data of equipment characteristics of at least one sensing equipment corresponding to scene types of scenes where the sensing equipment is located; and the template downloading module is used for downloading the lamp effect description templates corresponding to the scene types from the server based on the scene types in the sensing equipment list and storing the lamp effect description templates into the memory.

On the basis of any embodiment of the apparatus of the present application, before obtaining the remote data packet, the method includes: the instruction response module is used for responding to the equipment adding instruction and acquiring the equipment characteristics of the sensing equipment set by the user and the scene type of the scene where the equipment characteristics are located; the template matching module is used for submitting a lamp effect matching request carrying the scene type to the server and acquiring a lamp effect description template returned by the server according to the matching request; and the template storage module is used for storing the mapping relation data formed by associating the scene type and the equipment characteristic with the light effect description template into a local memory.

On the basis of any embodiment of the apparatus of the present application, the light effect determining module 5300 includes: the template conversion module is used for generating original control data corresponding to the light effect of the light component for controlling the intelligent lamp according to the light effect motion flow described by the light effect description template; the parameter conversion module is used for converting the environment sensing data into luminous parameter values of corresponding specific luminous attributes in the original control data; and the data replacement module is used for replacing the corresponding original value of the specific light emitting attribute with the light emitting parameter value so as to convert the original control data into the light effect control data.

On the basis of any embodiment of the apparatus of the present application, the light effect determining module 5300 includes: the data conversion module is used for converting the environment sensing data into attribute data of specific description attributes describing the light effect movement flow in the light effect description template; the example construction module is used for replacing the corresponding original value of the specific description attribute with the attribute data to obtain a lamp effect description example; the data generation module is arranged for generating the light effect control data which is used for controlling the light assembly of the intelligent lamp to present the corresponding light effect according to the light effect movement flow described by the light effect description example.

On the basis of any embodiment of the apparatus of the present application, the light effect playing module 5400 includes: the device partition module is used for determining a target partition of corresponding sensing devices in a display frame of a light assembly of the intelligent lamp according to the device characteristics when the lamp effect control data corresponding to the device characteristics exist; the partition conversion module is used for converting the lamp efficiency control data corresponding to each equipment characteristic into partition control data of a corresponding target partition; the playing control module is used for reconstructing partition control data of all target partitions into light effect control data and sending the light effect control data to the light assembly of the intelligent lamp, and driving the light assembly to synchronously play the light effect corresponding to each equipment characteristic according to the partitions.

On the basis of any embodiment of the apparatus of the present application, the light effect playing module 5400 includes: the group control determining module is used for determining external intelligent lamps which can reach the current intelligent lamps in a communication way; the group control synchronization module is used for synchronizing the lamp effect control data associated starting time stamp to the external intelligent lamp to obtain the confirmation information replied by any external intelligent lamp; and the group control playing module is set to synchronously control the light assembly of the group control playing module to play corresponding light effects according to the light effect control data with the external intelligent lamp at the moment when the starting time stamp arrives.

On the basis of any embodiment of the apparatus of the present application, prior to the operation of the data acquisition module 5100, the environmental sensing data sensing apparatus of the present application further includes: the lamp scanning module is used for determining an external intelligent lamp in the working state of the slave device when the current intelligent lamp is in the working state of the master device; the azimuth determining module is used for determining the spatial azimuth information from the external intelligent lamp to the current intelligent lamp according to the signal intensity information of the external intelligent lamp by the current intelligent lamp; the array construction module is used for combining each intelligent lamp into a lamp array by the current intelligent lamp, determining the relative position code identification of the intelligent lamp in the lamp array according to the space azimuth information of each intelligent lamp, and storing the identity information and the relative position code identification of each intelligent lamp in the lamp array in an associated manner as array description information of the lamp array; the code writing module is set to send the corresponding relative position code identification of the intelligent lamp to each intelligent lamp by the current intelligent lamp.

On the basis of any embodiment of the present application, referring to fig. 10, another embodiment of the present application further provides a computer device, which may be used as a control unit in a smart lamp, as shown in fig. 10, and an internal structure schematic diagram of the computer device is shown. The computer device includes a processor, a computer readable storage medium, a memory, and a network interface connected by a system bus. The computer readable storage medium of the computer device stores an operating system, a database and a computer program encapsulated with computer readable instructions, the database can store a control information sequence, and the computer readable instructions can enable the processor to realize an environment sensing data sensing method when the computer readable instructions are executed by the processor. The processor of the computer device is used to provide computing and control capabilities, supporting the operation of the entire computer device. The memory of the computer device may have stored therein computer readable instructions that, when executed by the processor, may cause the processor to perform the environmental sensory data awareness method of the present application. The network interface of the computer device is for communicating with a terminal connection. It will be appreciated by those skilled in the art that the structure shown in fig. 10 is merely a block diagram of some of the structures associated with the present application and is not limiting of the computer device to which the present application may be applied, and that a particular computer device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

The processor in this embodiment is configured to execute specific functions of each module and its sub-modules in fig. 9, and the memory stores program codes and various types of data required for executing the above modules or sub-modules. The network interface is used for data transmission between the user terminal or the server. The memory in this embodiment stores program codes and data required for executing all modules/sub-modules in the environment sensing data sensing device of the present application, and the server can call the program codes and data of the server to execute the functions of all sub-modules.

The present application also provides a storage medium storing computer readable instructions that, when executed by one or more processors, cause the one or more processors to perform the steps of the environmental sensory data awareness method according to any of the embodiments of the present application.

The present application also provides a computer program product comprising computer programs/instructions which, when executed by one or more processors, implement the steps of the environmental sensory data awareness method of any of the embodiments of the present application.

Those skilled in the art will appreciate that implementing all or part of the above-described methods of embodiments of the present application may be accomplished by way of a computer program stored on a computer readable storage medium, which when executed, may comprise the steps of embodiments of the methods described above. The storage medium may be a computer readable storage medium such as a magnetic disk, an optical disk, a Read-Only Memory (ROM), or a random access Memory (Random Access Memory, RAM).

The foregoing is only a partial embodiment of the present application, and it should be noted that, for a person skilled in the art, several improvements and modifications can be made without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

To sum up, the information display is realized by converting the environmental sensing data into the light effect of the intelligent lamp, the functions of the intelligent lamp in the aspect of information display are enriched, and meanwhile, the problem that a user instantly and conveniently knows the environmental sensing data detected by various scattered sensing devices is solved, so that the user experience of using the intelligent lamp can be comprehensively improved, and the popularization of the intelligent lamp can be boosted.

Claims (10)

1. The environment sensing data sensing method is characterized by being applied to a control unit of an intelligent lamp and comprising the following steps of:

acquiring a remote data message, analyzing and extracting equipment characteristics of sensing equipment and environmental sensing data detected by the sensing equipment;

determining a lamp effect description template corresponding to the sensing equipment according to the equipment characteristics;

determining light effect control data corresponding to the environment sensing data based on the light effect description template;

And driving a light component of the intelligent lamp to play a corresponding light effect according to the light effect control data.

2. The method of claim 1, wherein prior to obtaining the remote data message, comprising:

establishing a communication connection with a server;

acquiring a sensing equipment list from a server, wherein the sensing equipment list comprises mapping relation data of equipment characteristics of at least one sensing equipment corresponding to scene types of scenes where the sensing equipment is located;

and downloading the lamp effect description templates corresponding to the scene types from the server based on the scene types in the sensing equipment list, and storing the lamp effect description templates in the memory.

3. The method of claim 1, wherein prior to obtaining the remote data message, comprising:

responding to the equipment adding instruction, and acquiring equipment characteristics of the sensing equipment set by a user and scene types of scenes where the equipment characteristics are located;

submitting a light effect matching request carrying the scene type to a server, and acquiring a light effect description template returned by the server according to the matching of the request;

and storing the mapping relation data formed by associating the scene type with the equipment characteristic by the light effect description template into a local memory.

4. The environmental sensing data sensing method of claim 1, wherein determining light effect control data corresponding to the environmental sensing data based on the light effect description template comprises:

generating original control data corresponding to the light effect of a light component used for controlling the intelligent lamp according to the light effect movement flow described by the light effect description template;

converting the environmental sensing data into luminous parameter values of corresponding specific luminous attributes in the original control data;

and replacing the original value of the corresponding specific light emitting attribute with the light emitting parameter value to convert the original control data into light effect control data.

5. The environmental sensing data sensing method of claim 1, wherein determining light effect control data corresponding to the environmental sensing data based on the light effect description template comprises:

converting the environment sensing data into attribute data of specific description attributes describing the light effect motion flow in the light effect description template;

replacing the corresponding original value of the specific description attribute with the attribute data to obtain a lamp effect description instance;

and generating light effect control data corresponding to the light effect of the light component for controlling the intelligent lamp according to the light effect movement flow described by the light effect description example.

6. The method of any one of claims 1 to 5, wherein driving the light assembly of the intelligent light fixture with the light effect control data plays a corresponding light effect, comprising:

when the lamp efficiency control data corresponding to the equipment characteristics exist, determining a target partition of corresponding sensing equipment in a display picture of a light component of the intelligent lamp according to the equipment characteristics;

converting the lamp efficiency control data corresponding to each equipment characteristic into partition control data of a corresponding target partition;

and reconstructing the partition control data of all the target partitions into light effect control data, and sending the light effect control data to a light assembly of the intelligent lamp, and driving the light assembly to synchronously play the light effect corresponding to each equipment characteristic according to the partitions.

7. The method of any one of claims 1 to 5, wherein driving the light assembly of the intelligent light fixture with the light effect control data plays a corresponding light effect, comprising:

determining an external intelligent lamp which can be reached by the current intelligent lamp in a communication way;

synchronizing the lamp effect control data associated starting time stamp to the external intelligent lamp to obtain confirmation information replied by any external intelligent lamp;

And at the moment when the starting time stamp arrives, the external intelligent lamp is synchronized with the external intelligent lamp, and the lamp assembly of the external intelligent lamp is controlled to play the corresponding lamp according to the lamp control data.

8. The utility model provides an environment sensing data perception device which characterized in that is applied to the control unit of intelligent lamps and lanterns, includes:

the data acquisition module is used for acquiring a remote data message, analyzing and extracting equipment characteristics of the sensing equipment and environment sensing data detected by the sensing equipment;

the template determining module is used for determining a lamp effect description template corresponding to the sensing equipment according to the equipment characteristics;

a light effect determining module configured to determine light effect control data corresponding to the environmental sensing data based on the light effect description template;

and the light effect playing module is used for driving the light assembly of the intelligent lamp to play the corresponding light effect according to the light effect control data.

9. An intelligent light fixture comprising a control unit, a light assembly, the control unit being arranged to drive the light assembly to co-play a light effect in accordance with light effect control data, characterized in that the control unit is arranged to perform the steps of the environmental sensing data perception method according to any one of claims 1 to 7.

10. A computer program product comprising computer programs/instructions which, when executed by a processor, perform the steps of the method of any of claims 1 to 7.