A lamp (100), comprising a lamp housing (10) and a lamp panel (20) arranged in the lamp housing (10). A replaceable lighting effect assembly is arranged on the lamp panel (20). The replaceable lighting effect assembly comprises a cover plate (30), the cover plate (30) is arranged on the lamp panel (20), and the cover plate (30) is provided with a light-transmitting area (301) and a non-light-transmitting area (302). By providing the light-transmitting area (301) and the non-light-transmitting area (302) on the cover plate (30), different cover plates (30) have different light guide effects, and a replaceable cover plate (30) is arranged on the lamp panel (20), so that when a user needs to change the lighting effect of the lamp (100), only the cover plate (30) in the lamp (100) is replaced, to achieve the purpose of displaying different lighting effects of the lamp.
F21V 17/10 - Fastening of component parts of lighting devices, e.g. shades, globes, refractors, reflectors, filters, screens, grids or protective cages characterised by specific fastening means or way of fastening
The present application relates to a modular lighting fixture and a controller therefor, a lighting effect signal generation method, and a lighting effect playing method. The lighting effect signal generation method comprises: acquiring a lighting effect application package, which comprises lighting effect control parameters corresponding to a plurality of layers; on the basis of a topological order relationship represented by a light-emission unit mapping table, converting the lighting effect control parameter of each layer into timing control data; and outputting the timing control data to each lamp block of the modular lighting fixture, so as to generate a light emission signal.
The present application relates to a light effect configuration method and apparatus and light effect playback method and apparatus for an assembled lamp, a device, and a medium. The light effect configuration method comprises: displaying a planar composition of an assembled lamp; acquiring a starting base point set for the planar composition; identifying a position distribution feature of the starting base point relative to the planar composition, and determining a lamp effect motion mode on the basis of the position distribution feature; and adding the starting base point and the lamp effect motion mode to a lamp effect application package, and pushing the lamp effect application package to the assembled lamp, so as to configure a motion path of a lamp effect relative to the starting base point.
A splicing-lamp lighting-effect application method includes displaying a plane composition of a target splicing-lamp, which includes form patterns corresponding to multiple lamp blocks of the target splicing-lamp and each form pattern includes multiple light-emitting areas; loading effect configuration information corresponding to each layer described in a lighting-effect template into a lighting-effect editing area for display; in response to a layer on-top event, marking the effective light-emitting area in the form pattern of each lamp block according to the area information of a current layer set-on-top, obtaining a plane topological pattern corresponding to the current layer, and applying the lighting-effect information of the current layer to the plane topological pattern to display a preview lighting effect of the current layer; and responding to a lighting-effect application instruction, encapsulating edited effect configuration information of each layer in a lighting-effect application package, and pushing it to the target splicing-lamp.
A segmentation method includes displaying a setting interface for segment setting, the setting interface including a plurality of segment areas, the plurality of segment areas including a plurality of lighting areas, and the plurality of lighting areas one-to-one corresponding to a plurality of light-emitting units included in a lamp. The method also includes: in response to a user's modification operation on the plurality of segment areas, displaying a modified segment area, the modification operation being an operation by a user to modify the number of the segment areas and/or the number of lighting areas included in a segment area; in response to a user's save operation on the modified segment area, saving the modified segment area; and sending segmentation information of the modified segment area to the lamp, for the lamp to control the plurality of light-emitting units to display corresponding lighting effect.
A control method is provided for a lamp. The lamp includes a plurality of light-emitting units, and the method includes: receiving target RGB data from a client terminal; and when the target RGB data exists in a correspondence relationship between RGB data and color temperature values, determining a target color temperature value corresponding to the target RGB data based on the correspondence relationship. The correspondence relationship between the RGB data and color temperature values is used to convert color temperature data into corresponding RGB data when an original Tuya protocol does not support color temperature data transmission. The method also includes controlling the plurality of light-emitting units to display corresponding lighting effect according to the target color temperature value.
An instruction transmission method is provided for an ambient lamp. The method includes: sequentially obtaining a playback frame from a playback frame sequence as a current playback frame; determining a target encoding scheme of the current playback frame based on a frame type of the current playback frame; determining effective data and a data type of the effective data of the current playback frame according to the target encoding scheme, and encoding the effective data into playback encoded data; and encapsulating the playback encoded data of the current playback frame and the data type of the effective data into a lighting-effect playback instruction, and transmitting the lighting-effect playback instruction to a control chip of a lighting component of the ambient lamp for execution.
H05B 47/105 - Controlling the light source in response to determined parameters
H04L 67/12 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
14.
Ambient lighting device and lighting control method thereof, and storage medium
A lighting control method is provided for an ambient lighting device having an ambient lamp including at least one lighting strip, which includes a plurality of lamp beads arranged into a display frame. The method includes starting the ambient lamp and a camera; reading preset frame configuration information, and dividing the display frame into a plurality of unit frames according to the frame configuration information; reading an environment reference image captured by the camera, and dividing the environment reference image into a plurality of regional images corresponding to the plurality of unit frames according to the frame configuration information; and generating a lighting color value corresponding to each lamp bead in each unit frame, based on a main color tone of the regional image corresponding to the unit frame, and controlling the corresponding lamp beads covered by the unit frame with the lighting color value to emit light.
H05B 47/00 - Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
F21S 4/20 - Lighting devices or systems using a string or strip of light sources with light sources held by or within elongate supports
F21V 33/00 - Structural combinations of lighting devices with other articles, not otherwise provided for
G09G 3/34 - Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix by control of light from an independent source
H05B 47/11 - Controlling the light source in response to determined parameters by determining the brightness or colour temperature of ambient light
H05B 47/155 - Coordinated control of two or more light sources
H05B 47/165 - Controlling the light source following a pre-assigned programmed sequenceLogic control [LC]
H05B 47/17 - Operational modes, e.g. switching from manual to automatic mode or prohibiting specific operations
H05B 47/19 - Controlling the light source by remote control via wireless transmission
15.
Lamp and controller thereof, and lighting effect coordinated playback method and device
A lighting-effect coordinated playback method for an ambient lamp includes: obtaining a target lighting-effect including at least one sub-frame lighting-effect to be played by multiple light strips, and determining a lighting-effect coordination mode and a sub-frame duration of the target lighting-effect; determining a light strip group to which each light strip belongs according to the lighting-effect coordination mode, and determining a refresh time slot of each light strip relative to the sub-frame duration according to a total number of lighting units of the light strip contained in each light strip group; and according to the corresponding refresh time slot of each light strip, sending frame-slice control data of each frame slice of the light strip corresponding to the frame lighting-effect to the corresponding light strip at intervals, so as to control the light units of each corresponding light strip to coordinately complete playback of the sub-frame lighting-effect.
A lighting effect generation method and apparatus, a lighting effect control method and a medium. The lighting effect generation method comprises the following steps: acquiring light-emitting unit layout information of a light, and generating on a drawing interface a plurality of light layout layers; acquiring sub-special effect information respectively generated in the light layout layers by the drawing interface receiving an external editing instruction, synthesizing the multiple pieces of sub-special effect information into lighting special effect information, and packaging the lighting special effect information into a lighting effect control instruction; and transmitting the lighting effect control instruction to a controller of the light so as to control the light to display a lighting special effect defined by the lighting special effect information.
The present application relates to a lighting effect control method, apparatus and device for a tiled lamp, and a medium. The method comprises: displaying, in an effect editing region of a graphical user interface, a spatial topological graph of a tiled lamp, wherein the spatial topological graph represents the spatial position layout, in a physical space, of lamp body units in the tiled lamp; displaying, in an initialized manner and in the effect editing region, a visual mark of a movement base point of the tiled lamp; in response to a relocation instruction that acts on the visual mark, updating the movement base point according to the latest position of the visual mark relative to the spatial topological graph; and by using a lighting effect playing instruction generated on the basis of the movement base point, driving the tiled lamp to play a lighting effect, such that the mapping position of the movement base point in the physical space serves as a base reference point of the movement process of the lighting effect.
G06F 30/12 - Geometric CAD characterised by design entry means specially adapted for CAD, e.g. graphical user interfaces [GUI] specially adapted for CAD
A location determination method is provided for a terminal device. The method includes obtaining at least two state images of a lighting system; determining profile information of the lighting system based on state changes of the lighting system in the at least two state images; based on configuration information of the lighting system, dividing the profile information to determine a location distribution of each lighting unit in the profile information; and displaying the profile information and the location distribution of the lighting units on a control interface of the terminal device. The configuration information includes at least one of a setting number of lighting units of the lighting system, a setting length of the lighting units, a setting shape of the lighting units, and a setting size of the lighting units.
This disclosure discloses a light-emitting device control method. A terminal device obtains and displays a target splicing shape on a control interface; records the configuration parameters of the virtual control in response to a configuring operation of a selected virtual control in the target splicing shape; determines a sorting value of the virtual control in the target splicing shape; obtains the control information according to the configuration parameters and sorting value, and sends the control information to the controller. The controller receives the control information sent by the terminal device, and controls the lighting of the target light-emitting module according to the control information. The control method provided by this disclosure can avoid the operation of establishing communication connections between all light-emitting modules and the terminal device, improving control efficiency and reducing production costs at the same time.
H05B 47/175 - Controlling the light source by remote control
G06F 3/0481 - Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
G06F 3/04847 - Interaction techniques to control parameter settings, e.g. interaction with sliders or dials
This disclosure discloses a lighting-effect control method, apparatus, lighting device, electronic device, and storage medium. The lighting-effect control method is applied to a controller. The controller is connected to a plurality of lighting units and a detection sensor respectively. The method includes: determining a state of the lighting device; when the state of the lighting device is a motion state, determining a target color area according to detection data of the detection sensor; determining a target color value corresponding to each lighting unit according to the target color area; and controlling each lighting unit to display a corresponding target color value, thereby dynamically adjusting the target color value displayed by each lighting unit according to changes in the state of the lighting device and the detection data, and enriching lighting-effect control methods.
A method for controlling light-emitting devices includes: receiving broadcast signals broadcasted by light-emitting devices; obtaining a lighting video collected during lighting state switching of a light-emitting device; performing lighting state identification based on the lighting video, and determining a second lighting switching instruction message for switching the lighting state of each light-emitting device in the lighting video; matching the first lighting switching instruction message indicated by the broadcast signal with the second lighting switching instruction message corresponding to each light-emitting device in the lighting video to determine a broadcast signal corresponding to each light-emitting device in the lighting video; determining a network address of each light-emitting device in the lighting video based on the determined broadcast signal corresponding to each light-emitting device in the lighting video; and according to the network address of each light-emitting device in the lighting video, controlling a corresponding light-emitting device.
The present disclosure discloses a communication method, system, intelligent terminal, communication device, equipment, and storage medium. The method includes: determining a first device, the first device being one of a plurality of communication devices around the intelligent terminal; connecting to the first device; and sending a control instruction to the first device, wherein the control instruction is used to instruct the first device to be used as a relay node to relay the control instruction to a target communication device. Through the communication devices forwarding the control instruction, each communication device can quickly receive the control instruction, improving the real-time nature of communication and, through forwarding, communication devices further away can also receive the control instruction, extending the communication distance.
A game lighting-effect control method includes: acquiring each game screen image presented in a continuous timing sequence, and performing target detection on game action icons in each game screen image to determine that a game-action icon is in a triggered state, wherein the game action icons include game skill icons, the game skill icons have frame content; identifying the frame content corresponding to the game action icon in the triggered state based on a preset game-action recognition model, the frame content representing game actions corresponding to each game character; determining a corresponding lighting effect type based on a color-change recognition result of the frame content corresponding to the game action icon; and generating a corresponding lighting-effect control instruction based on the lighting effect type, and inputting the lighting-effect control instruction to a lighting-effect control circuit to display game lighting-effect corresponding to the lighting effect type.
A63F 13/52 - Controlling the output signals based on the game progress involving aspects of the displayed game scene
A63F 13/537 - Controlling the output signals based on the game progress involving additional visual information provided to the game scene, e.g. by overlay to simulate a head-up display [HUD] or displaying a laser sight in a shooting game using indicators, e.g. showing the condition of a game character on screen
A panel light (100) and a panel light apparatus (200). The panel light (100) comprises a light guide plate module (30), a light-transmitting housing (10), and a light source module (50). The light guide plate module (30) comprises at least two light guide plates (32) spaced apart from each other, a light guide gap (301) is formed between a pair of adjacent light guide plates (32), and the light guide plates (32) each comprise a light incident surface (321) and a light emergent surface (323). The light-transmitting housing (10) is provided with an accommodating cavity (101), and the light guide plate module (30) is arranged in the accommodating cavity (101); the light-transmitting housing (10) comprises a light guide panel (12) and at least one first light guide side edge (14), the light guide panel (12) covering the light emergent surfaces (323) of the light guide plate module (30), and the first light guide side edge (14) being arranged on the side of the light guide panel (12) facing the accommodating cavity (101) and located at the light guide gap (301). The light source module (50) comprises a first light source (52) and a second light source (54); the first light source (52) is arranged opposite the light incident surfaces (321) of the light guide plates (32); light emitted by the first light source (52) enters into the light guide plates (32) via the light incident surface (321) and is emitted out via the light emergent surfaces (323) and the light guide panel (12). Light of the second light source (54) is emitted via the first light guide side edge (14). The panel light (100) achieves abundant lighting.
A panel light (100) and a panel light apparatus (200). The panel light (100) comprises a light guide plate module (30), a light-transmitting housing (10), and a light source module (50). The light guide plate module comprises a light guide plate, and the light guide plate (32) comprises a light incident surface (321) and a light emergent surface (322). The light-transmitting housing (10) is provided with an accommodating cavity (101), and the light guide plate module is arranged in the accommodating cavity (101); the light-transmitting housing (10) comprises a light guide panel (12) and a plurality of light guide side edges (16), the light guide panel (12) covering the light emergent surface (322), and the light guide side edges (16) being arranged at the periphery of the light guide plate module (30). The light source module (50) comprises a first light source (52) and a second light source (56); the first light source (52) is arranged opposite the light incident surface of the light guide plate; light emitted by the first light source (52) enters into the light guide plate via the light incident surface (321) and is emitted out via the light emergent surface and the light guide panel (12); and light of the second light source (56) is emitted out via the light guide side edges (16). The panel light (100) achieves abundant lighting.
A lamp includes a cover plate, a housing, and a light source assembly. At least one side wall of the housing is a light-emitting surface; the cover plate and the housing are enclosed to form an accommodating space; the light source assembly is arranged in the accommodating space; and the light source assembly emits light toward the cover plate.
A dimming control method includes: receiving a dimming instruction, and determining a plurality of serial signals each corresponding to one of a plurality of output ports in a serial peripheral interface according to the dimming instruction, a serial signal including a plurality of dimming signals arranged in a sequence; outputting each serial signal through a corresponding output port according to a different time slot, so as to send the serial signal to the multiple control chips connected in series in the light strip link electrically connected to the corresponding output port; and causing each control chip in the multiple control chips to respond to the dimming signal corresponding to the time slot of the control chip in the received serial signal, and to control a light-emitting element electrically connected to the control chip to change a light-emitting state.
H05B 45/10 - Controlling the intensity of the light
H05B 45/48 - Details of LED load circuits with an active control inside an LED matrix having LEDs organised in strings and incorporating parallel shunting devices
A lighting color-adjustment control method is provided for a lamp containing at least one light-emitting unit, each having a plurality of color-light elements. The method includes: in response to a lighting color-adjustment instruction, determining a target color parameter including color values corresponding to the plurality of color-light elements; according to the target color parameter and a current color parameter, determining a first color-adjustment ratio coefficient of each color-light element; determining a unit color-adjustment value of each color-light element, the unit color-adjustment value of each color-light element being a result of a preset color-adjustment step length matched with a corresponding weight, and the weight including the first color-adjustment ratio coefficient; and synchronously controlling each color-light element to implement at least one color adjustment with the respective unit color-adjustment value to adjust each color-light element to emit a color light corresponding to the target color parameter.
A point light-source includes a housing and a light-emitting circuit packaged in the housing. The housing includes an upper housing and a lower housing, and the light-emitting circuit includes a constant-current control chip and a plurality of single-color light strings. Each single-color light string is composed of a plurality of light-emitting elements connected in series. The constant-current control chip is configured to, in response to an external serial signal, generate pulse signals transmitted to each single-color light string so as to change a luminous brightness of each single-color light string correspondingly through each of the pulse signals.
A light-emitting data transmission method includes obtaining display layout information of a lamp, and generating a dot matrix drawing interface on a display interface corresponding to the display layout information. The lamp includes a plurality of light-emitting units, and each curtain light is mapped to a coordinate point in the dot matrix drawing interface. The method also includes obtaining bitmap graphic data generated by receiving an external editing instruction from the dot matrix drawing interface, converting the bitmap graphic data into bitmap image data in a predetermined image format, and outputting the bitmap image data to a controller, so that the controller parses the bitmap image data into the light-emitting information corresponding to each light-emitting unit. The light-emitting information is used to control the corresponding light-emitting unit to emit light, such that light emitted by the plurality of light-emitting units are combined to form a predetermined light effect.
A lighting control method includes: receiving light-emitting color data, the light-emitting color data including color values corresponding to a plurality of preset light-emitting channels; determining at least one additional light-emitting channel other than the plurality of preset light-emitting channels among the actual light-emitting channels of a lighting device; generating a color value of the additional light-emitting channel according to color values of the plurality of preset light-emitting channels in the light-emitting color data, and using the color values corresponding to the plurality of preset light-emitting channels and the additional light-emitting channel as target light-emitting color data; and transmitting the target light-emitting color data to each lamp bead chip in the lighting device to control corresponding lamp beads to emit light according to the color values corresponding to the actual light-emitting channel to which the lamp beads belong.
An audio beat detection method, comprising: determining a plurality of feature points of an audio signal to be detected in a time domain; if the current feature point in the plurality of feature points is a wave crest point, searching for a historical feature point which is closest to the current feature point and is a wave trough point; determining an evaluation value corresponding to the current feature point, wherein the evaluation value corresponding to the current feature point represents the degree of jump of the current feature point relative to the historical feature point; and determining whether the current feature point is a beat point of the audio signal to be detected.
A lighting lamp includes a first lamp-assembly structure, at least one second lamp-assembly structure, and a control structure. The first lamp-assembly structure includes a first lamp body and a first lamp column used to scatter light generated by the first lamp body. A first end of the first lamp column is fixedly connected with a first end of the first lamp body. The second lamp-assembly structure includes a second lamp body, a first end of the second lamp body being connected to a second end of the first lamp column, and a second lamp column fixedly connected to a second end of the second lamp body and used to scatter the light generated by the second lamp body. The control structure is arranged in the first lamp body and/or the second lamp body, and is electrically connected with the first lamp body and the second lamp body.
F21V 23/00 - Arrangement of electric circuit elements in or on lighting devices
F21V 15/01 - Housings, e.g. material or assembling of housing parts
F21V 17/06 - Fastening of component parts of lighting devices, e.g. shades, globes, refractors, reflectors, filters, screens, grids or protective cages onto or by the lamp holder
F21V 31/00 - Gas-tight or water-tight arrangements
Disclosed in the present application are a lighting device and system, and a connection method. An input module is used for receiving a lighting control signal sent by a controller, and is also used for sending a switch control signal to another lighting device so as to receive a lighting control signal transmitted by the another lighting device, wherein the lighting control signal is generated by the controller; a lighting module is connected to the input module and is used for receiving the lighting control signal; an output module is connected to the lighting module, and the output module is used for transmitting the lighting control signal and a switch control signal; the switch module is used for controlling the output module to transmit the lighting control signal to the another lighting device when the switch control signal sent by the another lighting device is received. Therefore, when the lighting device is connected to another lighting device, a lighting control signal can be transmitted between the lighting devices, a controller does not need to be independently arranged, the interference to the lighting control signal can be effectively reduced, and the use experience of a user is improved.
A lighting effect control method includes: obtaining a video frame image sequence by dividing frames of a to-be-tested video stream; sequentially acquiring one of untraversed video frame images in the video frame image sequence as a testing video frame image; according to a recognition result of the testing video frame image, determining that there is at least one target virtual object in the testing video frame image, and determining state information of the target virtual object in the testing video frame image, wherein the recognition result of the testing video frame image is obtained by performing an image recognition process on the testing video frame image; and controlling the lighting effect of a lighting device based on the state information.
A lamp effect control method and apparatus, an illumination device, an electronic device, and a storage medium. The lamp effect control method is applied to a controller. The controller is separately connected to a plurality of lamp units and a detection sensor. The method comprises: determining the state of a lamp (210); if the state of the lamp is a motion state, determining a target color area according to detection data of a detection sensor (220); determining a target color value corresponding to each lamp unit according to the target color area (230); and controlling each lamp unit to display the corresponding target color value (240). Thus, the target color value displayed by each lamp unit is dynamically adjusted according to the changes of the state of the lamp and of the detection data, thereby enriching the control mode of the lamp effect.
The present application discloses a control method for a light emitting device. A terminal device obtains and displays a target splicing shape in a control interface, records, in response to a setting operation on a selected virtual control in the target splicing shape, setting parameters of the virtual control, determines a sorting value of the virtual control in the target splicing shape, and then obtains control information according to the setting parameters and the sorting value and sends the control information to a controller. The controller receives the control information sent by the terminal device, and perform light emitting control on a target light emitting module according to the control information. According to the control method provided in the present application, an operation that all light emitting modules establish a communication connection with the terminal device can be avoided, the control efficiency is improved, and the production cost is reduced.
G06F 3/0488 - Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
92.
METHOD FOR CONTROLLING LIGHT EMITTING DEVICES AND RELATED DEVICE
The present application relates to the technical field of smart homes; specifically disclosed are a method for controlling light emitting devices and a related device, the method comprising: receiving a broadcast signal broadcast by light emitting devices; acquiring a lighting video collected during switching of the lighting state of the light emitting devices; on the basis of the lighting video, implementing lighting state identification to determine second lighting switching indication information for switching the lighting state of each light emitting device in the lighting video; on the basis of first lighting switching indication information indicated by the broadcast signals and the second lighting switching indication information corresponding to each light emitting device in the lighting video, performing matching to determine a broadcast signal corresponding to each light emitting device in the lighting video; on the basis of the determined broadcast signal corresponding to each light emitting device in the lighting video, determining the network address of each light emitting device; and, on the basis of the network address of each light emitting device in the lighting video, controlling the corresponding light emitting device; the present solution increases the efficiency of controlling the light emitting devices.
The present application discloses communication methods and a system, a smart terminal, communication sub-devices, a device, and a medium. The method comprises: determining a first device, the first device being one communication sub-device among a plurality of communication sub-devices around a smart terminal; and sending a control instruction to the first device, the control instruction being used to instruct to relay, by using the first device as a transit node, the control instruction to a target communication sub-device. The control instruction is forwarded by the communication sub-devices, such that each communication sub-device may quickly receive the control instruction, thus improving the real-time performance of communication; in addition, by means of forwarding, communication sub-devices that are further away may also receive the control instruction, thus prolonging the communication distance.
patents
