Vertaling van "light source control unit" in Japans
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光源制御部
光源制御装置
This imaging device is provided with a light source capable of emitting multiple types of illumination light, an imaging unit having an imaging element driven according to rolling shutter method, a light source control unit, a frame image control unit, and an image generation unit.
A light source control unit (107) uses the layout information and category information expressing a prescribed category from among categories for the elements of the structured information, to control the lighting state of a plurality of light sources which illuminate the display screen.
A photoreaction unit (1A) for irradiating a reaction chamber (S) with a pulse beam emitted from a laser beam source (10) to produce a photoreaction in an object of reaction in the reaction chamber (S), comprising a reaction evaluating unit (20), a controlling unit (30), and a light source control unit (35).
The light source control unit (35) controls the relation between a phase velocity and a group velocity in the resonator of the laser beam source (10) based on the determined control conditions to regulate the CEP of a pulse beam.
A light source control unit performs control so that the luminance reaches a set luminance after the completion of the liquid crystal response (time t1) and before the lighting switching time (time t2) of the linear light emitting areas.
Further, the light source is equipped with backlight control unit (light source control unit) (160) capable of changing the variety of light emitting element to be lighted so as to decrease the above color difference in the indicated images when the luminance of indicated images on the liquid crystal display panel is increased.
This imaging device is provided with a light source which is pulse-driven to emit light, a light source control unit which drives the light source through pulse modulation to control the amount of light emitted, and an imaging which has an imaging element comprising a plurality of pixels arrayed in the horizontal direction and the vertical direction, and which performs imaging by driving the imaging element by the rolling shutter method.
A game device comprises: a light source control unit (112) for, in a game field in which an object is disposed, changing the position of a light source or an irradiation direction of light irradiated from the light source according to a player's operation instruction; a shadow drawing unit (116) for drawing a shadow of the object, which is projected by the light irradiated from the light source, on a projection plane provided in the game field; and a character control unit (118) for moving a character along the shadow of the object.
A fluorescence detection device is characterized by comprising a laser light source unit which irradiates an object to be measured with laser light, a light receiving unit which outputs a fluorescence signal of fluorescence generated by the object to be measured irradiated with the laser light, a light source control unit which generates a modulation signal for time-modulating the intensity of the laser light emitted by the laser light source by at least two frequency components, and a processing unit which finds the fluorescence relaxation time of the fluorescence of the object to be measured using the fluorescence signal outputted by the light receiving unit and the modulation signal, wherein the processing unit finds the phase lag of the fluorescence signal with respect to the modulation signal in each of the at least two frequency components, finds the fluorescence relaxation time in each of the frequency components using the phase lag, and finds the average fluorescence relaxation time by weighted averaging of the fluorescence relaxation times.
This light source control device is provided with: a light source unit that outputs parallel light rays along a second axial direction orthogonal to a first axial direction from any position; a light source control unit that controls the output position of the parallel light rays of the light source unit; one or more deflecting elements that deflect the parallel light rays output by the light source unit; and a first diffusing element that diffuses the light rays deflected by the deflecting element in a third direction orthogonal to the first axial direction and second axial direction.
This communication draw-in system is mounted in a robot that communicates with a subject, and is provided with: a human specification unit (200) that specifies the position of the subject; a light source control unit (201) that causes a light to move towards the specified position of the subject; a draw-in control unit (203) that instructs the robot the execute a draw-in operation for causing the subject to recognize the direction of the robot; and a human recognition specification unit (204) that determines whether the subject has recognized the robot.
The frame image control unit controls the light source control unit and the imaging unit such that output is produced with one period comprising a frame group made up of second exposure frames (Exp2, Exp4) arranged before and after a first exposure frame (Exp3).
The light source control unit (7) is capable of switching the combinations of excitation light sources that illuminate out of the multiple excitation light sources (4,5) on the basis of observation modes composed of a normal light observation mode which is input from the input unit (6) and a special light observation mode for highlighting a specific observation target.
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