Abstract: A first illuminating devices, when the component adsorbed by an adsorbing nozzle and located in an imaging field of vision is a surface mounted component, illuminate the bottom surface of a component by irradiating light to the component obliquely from below, and a second illuminating device, when the component adsorbed by the adsorbing nozzle and located in the imaging field of vision is a through hole component, only illuminate the downwards extending parts of the component by irradiating light at an irradiation angle closer to a horizontal direction irradiation than the irradiation angle of the light of the first illuminating device to the component are included. That the component is illuminated by the first illuminating devices and that the component is illuminated by the second illuminating devices are switched based on whether the component is a surface mounted component or a through hole component.

Abstract: A method of setting time information of a display apparatus is provided. The method includes: receiving a Turn-on signal from a remote controller; receiving time information from the remote controller in response to a determination that resetting the time information is necessary; and setting time information of the display apparatus based on the received time information.

Abstract: An example system for testing camera modules includes: a structure for holding camera modules under test, where each of the camera modules includes an image sensor, and where the camera modules are arranged in a same plane on the structure and offset from each other in the plane; and a target for use in testing the camera modules concurrently, where the target includes multiple tiles that are repeated, where each tile contains information for use in testing a camera module, and where the camera modules and the tiles are arranged so that different camera modules face different tiles but see at least some of the same information at the same angle.

Abstract: A sound processing device according to the present invention includes: a time-frequency analysis means which generates a time-frequency plane from a sound signal through time-frequency analysis; a region characteristic amount extraction means which, for a plurality of partial region pairs which is defined on the time-frequency plane and of which at least either of shapes of two partial regions or positions of the two partial regions differ from one another, extracts a region characteristic amount from each partial region; and a sound identifier generation means which generates a sound identifier which identifies the sound by using the region characteristic amount from the each partial region.

Abstract: An apparatus is configured to process at least one of video data, audio data and ancillary data to generate an output for broadcast. The apparatus includes a plurality of processing components and a control engine configured to receive at least one topology from a host system, each of the at least one topology provides a grouping of the plurality of processing components to process the at least one of the video data, the audio data and the ancillary data received by the apparatus, respectively. For each of the at least one topology, the control engine is configured to determine commands for execution by the processing components on a frame-by-frame basis, to generate the commands for execution by the processing components, and to send commands to the processing components to process the data.

Abstract: A method and apparatus for wirelessly synchronizing operation of an image sensor of an endoscopic video camera unit having a wireless transmitter with operation of a portable endoscopic light source unit includes transmitting a message packet with a target camera shutter period, light source target phase/trigger time/OFF time and light source target ON time to the light source unit. The light source unit controls the start time and the ON time for light output by a light source. The video camera unit includes a light detector for detecting the actual light source start time and duration of light output to provide closed-loop feedback. A camera controller ensures synchronization between the shutter period of the image sensor and actual operation of the light source based on the actual phase and actual ON time sensed by the light detector and the previously communicated target phase/trigger time/OFF time and target ON time.

Abstract: A technology is disclosed that provides an imaging control device and the like capable of actualizing immersive zoom enlargement.

Abstract: One example discloses a method for calibrating an imager. A plurality of images of a target, each having an associated integration time, are captured at the imager. A representative digital count is determined for each of the plurality of images. Integration time is represented as a function of digital count from the respective digital counts and integration times associated with the plurality of images. A calibrated integration time is calculated from a target digital count.

Abstract: Provided is a projection video display device with which precision of location of each component of the optical engine and the projection optical assembly is maintained and display video quality not impaired even if exterior force is sustained. A projection video display device comprises an optical engine (2) which projects light which is emitted from a light source (21) upon a liquid-crystal panel (231) and forms a video, and a projection optical assembly (3) which projects an enlargement of the video which is emitted from the optical engine (2). The projection optical assembly (3) and the optical engine (2) are configured to be anchored to a common base (4) which retains these in an integrated manner, with the common base (4) being attached to the casing of the device.

Abstract: A catadioptric optical system of the present invention includes a catadioptric unit configured to condense light fluxes from an object and to form an intermediate image of the object, a field lens disposed at a position where the intermediate image are formed, and a dioptric unit configured to form the intermediate image on an image surface, and when ?cat denotes a smallest Abbe number in Abbe numbers of materials of the first and second optical elements configuring the catadioptric unit and ?dio denotes a smallest Abbe number in Abbe numbers of materials of a plurality of dioptric optical elements configuring the dioptric unit, ?dio<?cat is satisfied.

Abstract: A video processing apparatus and a control method thereof are provided. The video processing apparatus includes: a signal receiving unit which receives a signal from an external video processing apparatus; a video processing unit which processes the signal received by the signal receiving unit; and a controller which supplies or cuts off electric power to the video processing unit according to whether the signal is received by the signal receiving unit.

Abstract: A food processing apparatus for detecting and cutting tough tissues from food items such as fish, meat, or poultry. At least one x-ray machine associated to a first conveyor for imaging incoming food items on the first conveyor based on a generated x-ray image indicating the location of the tough tissues in the food items. A vision system supplies second image data of the food items subsequent to the imaging by the x-ray machine. The second image data including position related data indicating the position of the food items on the second conveyor prior to the cutting. A mapping mechanism determines an estimated coordinate position of the food items on the second conveyor by utilizing the x-ray image and tracking position data. The processor compares the estimated coordinate position of the food items to the actual position on the second conveyor based on the second image data.

Abstract: A signal processing unit (21) of a charged particle microscope calculates a degradation function (H (s)) of an image, on the basis of detection signals (11) obtained by scanning a charged particle beam (2) at two types of scanning speeds, a scanning speed within the bandwidths of a detector (12) and an amplifying circuit at a subsequent stage of the detector, and another scanning speed exceeding the upper limit of the bandwidths. Then, the signal processing unit creates a one-dimensional correction filter for recovering image quality, from an inverse function (H?1 (s)) of the degradation function, and applies the one-dimensional correction filter to the detection signal recorded at the scanning speed exceeding the upper limit of the bandwidths of the detector and the amplifying circuit at a subsequent stage of the detector, or to a two-dimensional image based on the detection signal.

Abstract: The present invention provides a method of notifying a reception side of a fact that a halftone process has been performed for data to be transmitted and a method of transmitting additional information to a reception side in image transferring among a plurality of devices. The present invention includes a step of performing image processes for video information and a step of outputting a signal containing the video information for which the image processes have been performed, and the signal to be output includes information related to the image processes.

Abstract: A system may be provided for synchronizing a first media stream with a second media stream. A first receiver in the system may receive the first media stream over a network. A second receiver in the system may receive the second media stream over the network. The second receiver may determine an identity of a content delay matching stream that indicates the amount of processing delay introduced in the first media stream by a processing component of the first receiver or transmitter. The second receiver may subscribe to the identified content delay matching stream. The second receiver may receive the content delay matching stream over the network and determine the processing delay from the content delay matching stream. The receiver may cause the second media stream to be delayed in accordance with the processing delay in the first media stream such that the first and second media streams are synchronized.

Abstract: An apparatus and a method for performing a parallax control of a left image and a right image applied to display of a stereoscopic image are provided. The apparatus includes a left image transforming unit for generating a left image-transformed image by changing a phase of an image signal of a left image which is to be presented to a left eye in a right direction or a left direction and a right image transforming unit for generating a right image-transformed image by changing a phase of an image signal of a right image which is to be presented to a right eye in the left direction or the right direction. For example, each image transforming unit generates a differential signal by applying, to an input image, differential filter coefficients of coefficient series of opposite characteristics, and generates a parallax-controlled transformed signal using combining processing in which the differential signal or a non-linear signal of this differential signal is added to an original image signal.

Abstract: A method is provided in one example embodiment and includes communicating a code to initiate cycling through a plurality of potential audiovisual inputs. The method includes receiving image data that is rendered on a display, the image data being based on a first one of the audiovisual inputs. The method also includes comparing the image data of the first one of the audiovisual inputs to a stored test pattern image associated with a selected audiovisual application to verify if the image data matches the stored test pattern for the selected audiovisual application. In more specific embodiments, the cycling through of the plurality of potential audiovisual inputs is terminated if the image data matches the stored test pattern for the selected audiovisual application. The code represents one or more infrared audiovisual commands being repeatedly sent to the display. The commands are sent until the stored test pattern image is detected on the display.

Abstract: A substantially rectangular spectral representation is synthesized, which is adapted to produce image capture device sensor outputs if applied to an image capture device. The synthesized substantially rectangular spectral representation can be utilized in generating output color values of an output color space from image capture device sensor outputs, where the image capture device sensor outputs correspond to an image captured by an image capture device. The generated output color values correspond to colors perceived by the human visual system for the same image as that captured by the image capture device. Image capture device gamut is also determined.

Abstract: A filter for processing a digital TV composite signal having a video component and an audio component includes a digital video filter and a digital audio filter. The digital video filter includes a lowpass finite impulse response (FIR) filter, an up-mixer, an asymmetric filter for compensating a Nyquist slope of the video component, and a down-mixer connected in this order. The digital audio filter includes an audio down-mixer, a decimated FIR filter, an enhancing FIR filter, an interpolated FIR filter, and an audio up-mixer. These components are connected in series. Optionally, the decimating FIR filter is decimated by an integer decimation factor M, and the interpolated FIR filter is interpolated by an integer factor N. The integer M and N may have the same value.

Abstract: There is provided a video processing apparatus including a video addition unit for receiving two systems of input interlaced video signals each including two fields, and adding the video signals to generate a ½× video signal of the input interlaced video signal. The video addition unit adds a second field of the interlaced video signal of one system among the two systems and a first field of the interlaced video signal of the other system to generate the ½× video signal of the input interlaced video signal, subjects the interlaced video signal of the other system to 1 horizontal line delay when the ½× video signal is generated, validates a horizontal line in a vertical blanking interval on one row of a top line of valid lines in the first field of the interlaced video signal of the other system, and then adds the video signals of the two systems.