A lighting assembly includes a photographic lamp. The photographic lamp includes a lamp body, a first supporting arm and a second supporting arm. The first supporting arm is rotatably connected to a sidewall of the lamp body and capable of rotating around a rotation axis perpendicular to the sidewall of the lamp body. The second supporting arm is rotatably connected to the first supporting arm and capable of rotating around a rotation axis extending along a width direction of the first supporting arm. The rotation axis of the second supporting arm is perpendicular to the rotation axis of the first supporting arm. The second supporting arm includes a first rod and a second rod, the first rod being movable relative to the second rod to realize closing or opening of the second supporting arm.

An extension photoflash light and a camera system using the same are provided in the present invention. The extension photoflash light is for assisting a mobile device with camera function. The extension photoflash light includes a HID, a mounting mechanism, a touch simulation device and a control circuit. The mounting mechanism is for mounting the extension photoflash light on the mobile device. The touch simulation device is disposed on the mounting mechanism. The control circuit is coupled to the HID and the touch simulation device. When the mounting device of the extension photoflash light contacts the surface of the flat panel display of the mobile device, the mobile device acquire the position information of the extension photoflash light according to the touch simulation device.

A method for capturing and consolidating multi-spectral image data for regions of interest using one or more spectral boost mechanisms or techniques is disclosed. A first multi-spectral or hyperspectral workflow comprising time-stamped two-dimensional pixelated images of a region of interest is obtained by a first computer-enabled imaging device. Each of the images corresponds to image data captured for a respective frequency band of a plurality of frequency bands. First meta data is associated with the images of the first workflow and includes: a plurality of first positions and first orientations of the first imaging device indicating first positional and orientation data for the first imaging device, and indications of a respective frequency band for each of the images of the first workflow. A consolidated multi-spectral workflow for the region of interest is generated, which includes spectrally and spatially consolidating the images of the first workflow using the first meta data.

Embodiments of this application provide an illuminator control method, an illuminator fitting, and an electronic device. The method may be applied to an electronic device, and the electronic device includes an image-shooting apparatus. The method includes: after obtaining an image-shooting start instruction, determining whether there is an available illuminator fitting, where the illuminator fitting includes an illuminator; and after determining that there is the available illuminator fitting, starting the image-shooting apparatus, and controlling to turn on the illuminator. This improves flexibility for controlling the illuminator.

A lighting assembly includes a photographic lamp. The photographic lamp includes a lamp body, a first supporting arm and a second supporting arm. The first supporting arm is rotatably connected to a sidewall of the lamp body and capable of rotating around a rotation axis perpendicular to the sidewall of the lamp body. The second supporting arm is rotatably connected to the first supporting arm and capable of rotating around a rotation axis extending along a width direction of the first supporting arm. The rotation axis of the second supporting arm is perpendicular to the rotation axis of the first supporting arm. The second supporting arm includes a first rod and a second rod, the first rod being movable relative to the second rod to realize closing or opening of the second supporting arm.

The present disclosure discloses a method for generating texture maps through multi-angle lighting photographing, comprising: constructing a multi-angle lighting photographing environment; photographing color chart images for color correction matrix; photographing white paper images for light intensity correction coefficient; capturing calibration images for transparency calculation; photographing object images for color correction and light intensity correction, including images without backlighting and images with backlighting; generating base color maps, normal maps, metallic maps, roughness maps, and transparency maps. The present disclosure also discloses a storage medium, wherein a computer program is stored, and the computer program is configured to be executed at runtime to perform the above-mentioned method. The present disclosure further discloses an electronic device comprising a memory and a processor, wherein the memory stores a computer program, and the processor is configured to run the computer program to execute the above-mentioned method.

An edge light device of the present disclosure creates edge light effects, such as spectral highlight or artistic effect, on a subject. The edge light device emits light to provide an illumination zone which can be generally out of the field of view of the camera. The edge light device includes a housing having features for controlling light to create edge light effects on a subject. In certain examples, the housing provides a light blocker for concentrating light toward the subject and blocking the light from illuminating the other areas, such as the camera, in the photography station. The housing further includes at least one aperture that cooperates with the light blocker and defines a light passage through which the light is directed toward the subject.

The application provides a shooting device with slide rails, comprising a support component, a tabletop arranged on the support component, a display screen arranged on one side of the tabletop, and a shooting rotational station arranged on the other side of the tabletop; a fill light arranged between the shooting rotational station and the tabletop; a slide rail component used for loading the shooting rotational station and the fill light, and a rotating component installed on the support component; the rotating component is rotatably installed on the support component, the display screen is arranged on one end of the rotating component, the slide rail component is arranged on the other end of the rotating component, the shooting rotational station and the fill light are slidably installed on the slide rail component, and the slide rail component is flippable relative to the rotating component.

A portable selfie stick, including a multi-stage telescopic rod (1), and a bracket assembly (2) and a handle (3) respectively arranged at a head end and a tail end of the multi-stage telescopic rod. The portable selfie stick further includes a wireless charging device (4), the wireless charging device (4) includes a wireless charging coil (41) and an electromagnetic power converter arranged at the bracket assembly (2), a power line arranged in the multi-stage telescopic rod (1) in a penetrating manner, and a mobile power source (42) arranged in the handle (3); both ends of the power line are in electric connected with the mobile power source (42) and the electromagnetic power converter, respectively; and the electromagnetic power converter is electrically connected with the wireless charging coil (41).

An edge light device of the present disclosure creates edge light effects, such as spectral highlight or artistic effect, on a subject. The edge light device emits light to provide an illumination zone which can be generally out of the field of view of the camera. The edge light device includes a housing having features for controlling light to create edge light effects on a subject. In certain examples, the housing provides a light blocker for concentrating light toward the subject and blocking the light from illuminating the other areas, such as the camera, in the photography station. The housing further includes at least one aperture that cooperates with the light blocker and defines a light passage through which the light is directed toward the subject.