Abstract: A solid-state image pickup device including a lens, a first light receiving element, a second light receiving element, and an element separation area. The first light receiving element is configured to receive light from the lens. The second light receiving element is configured to receive light from the lens. The element separation area is between the first light receiving element and the second light receiving element. The lens has an optical axis, which is offset from a center of the element separation area.

Abstract: A solid-state imaging device includes a color filter unit disposed on a pixel array unit including pixels two-dimensionally arranged in a matrix and a conversion processing unit disposed on a substrate having the pixel array unit thereon. The color filter unit has a color arrangement in which a color serving as a primary component of a luminance signal is arranged in a checkerboard pattern and a plurality of colors serving as color information components are arranged in the other area of the checkerboard pattern. The conversion processing unit converts signals that are output from the pixels of the pixel array unit and that correspond to the color arrangement of the color filter unit into signals that correspond to a Bayer arrangement and outputs the converted signals.

Abstract: To realize a service of data content that can interlock with AV content of programs without providing a band for broadcasting data content in a broadcast band for digital television broadcast, provided is a reception apparatus that receives an audio and/or video (AV) content, the apparatus including: an extraction section to extract trigger information from the AV content, the trigger information being related to an application program that is executed interlocking with a progress of the AV content, the trigger information including a trigger type; and a control section to control one of an activation of the application program, a dispatch of an event of the application program being executed, and an end of the application program being executed in accordance with the trigger type included in the extracted trigger information.

Abstract: There is provided a microparticle sorting apparatus including a main channel through which a fluid including microparticles flows, a branch channel that is in communication with the main channel, an actuator that causes a negative pressure to be generated in the branch channel, and a drive unit that controls a voltage applied to the actuator to cause a change in pressure containing a step waveform component and an undershoot waveform component in the branch channel.

Abstract: There is provided a communication device including an obtaining unit configured to obtain first state information representing a state of a first wireless communication device regarding a direct connection between devices via wireless communication and second state information representing a state of a second wireless communication device regarding the direct connection, and a control unit configured to establish a connection between the first wireless communication device and the second wireless communication device via the wireless communication on the basis of the first state information and the second state information. At least one of the first state information and the second state information is obtained via near-field communication.

Abstract: Disclosed herein is a transmission apparatus, including: an application data transmission section adapted to transmit data of an application for HbbTV; and an AIT transmission section adapted to transmit an AIT including an application profile which represents one or more additional functions to the application and is configured from a first bit region of high-order n bits and a second bit region of Lower-order (16?n) bits which represent presence or absence of functions allocated to bit positions thereof with a bitmap structure and wherein, in the first bit region, values for changing over the functions to be allocated to the bit positions in the second bit region are set.

Abstract: A headphone device includes a housing having a leakage hole to reduce pressure between a user's ear and the housing, a speaker positioned within the housing, and an audio processing module. The audio processing module is configured to receive an audio signal from an audio device, determine whether the audio signal includes at least a predetermined level of audio having a frequency in a first range of frequencies, transmit a first leakage control signal to a leakage hole valve when it is determined that the audio includes at least the predetermined level of low frequency audio; and transmit a second leakage control signal to the leakage hole valve when it is determined that the audio does not include at least the predetermined level of low frequency audio. The leakage hole valve is configured to close the leakage hole upon receipt of the first leakage control signal and open the leakage hole upon receipt of the second leakage control signal.

Abstract: The present invention relates to a nonaqueous electrolyte secondary battery comprising an anode (3), a cathode (2) and a nonaqueous electrolyte. The anode forming this battery includes composite particles having a carbon material included in a metallic material. As the metallic material, metal capable of electrochemically reacting with lithium in a nonaqueous electrolyte is included.

Abstract: There is provided an information processing apparatus including a positional relationship acquiring unit configured to acquire information of a positional relationship of users near a display with respect to the display, and a feedback generation unit configured to generate feedback information for a first user on a basis of the information of the positional relationship, the first user being a user among the users and operating or owning content displayed on the display.

Abstract: Transmission of relating information of image data such as disparity information or the like is enabled to be performed favorably. A data packet made up of a header portion and content portion is generated. Related information of image data, for example disparity information or the like, is inserted into the content portion of the data packet herein. Identification information to identify the type of related information is inserted into the header portion of the data packet herein. The data packet herein is correlated to image data, and transmitted to an external device. The related information of the image data such as disparity information or the like can be efficiently transmitted to an external device.

Abstract: There is provided an image processing apparatus including a graphics processing unit, a first computer that controls the graphics processing unit, an intermediate image storage unit that stores image data generated by the graphics processing unit, an image input unit that inputs a plurality of image data, an image switching unit that outputs a plurality of any image data among the plurality of image data input to the image input unit, an image combining unit that combines image data using the image data output from the image switching unit and the image data stored in the intermediate image storage unit, an image output unit that outputs the image data combined by the image combing unit, a second computer that controls the image switching unit and the image combining unit, and a connecting unit that connects the first computer and the second computer.

Abstract: A terminal apparatus, and associated method, stores in memory a plurality of application programs. A controller executes the plurality of application programs in a multi-tasking arrangement. When one of the application programs is replaced in the foreground with another application program, an image of the former application program while in an active state is stored in memory. That image is then used as part of a graphical user interface to provide an indication to a user of the other applications that are presently running, and the state of execution of the other application programs when last operating in the foreground.

Abstract: A solid-state imaging device which includes, a photoelectric conversion film provided on a second surface side which is the opposite side to a first surface on which a wiring layer of a semiconductor substrate is formed, performs photoelectric conversion with respect to light in a predetermined wavelength region, and transmits light in other wavelength regions; and a photoelectric conversion layer which is provided in the semiconductor substrate, and performs the photoelectric conversion with respect to light in other wavelength regions which has transmitted the photoelectric conversion film, in which input light is incident from the second surface side with respect to the photoelectric conversion film and the photoelectric conversion layer.

Abstract: A projection-type display system includes: a projection-type display apparatus that alternately switches images for the left eye and images for the right eye and projects the images onto an object; and an opening and closing control device that receives a control signal based on the display states of the images projected onto the object by the projection-type display apparatus and controls switching apertures of stereoscopic image viewing glasses corresponding to left and right eyes, wherein the projection-type display apparatus is connected to one end of a LAN cable and the opening and closing control device is connected to the other end of the LAN cable.

Abstract: Transmission of stereo image data may be performed between devices, where a source device receives E-EDID from a sink device via DDC of an HDMI cable. This E-EDID contains information on 3D image data transmission modes supportable by the sink device. Based on information on 3D image data transmission modes from the sink device, the source device selects a predetermined transmission mode from among the 3D image data transmission modes supportable by the sink device. The source device transmits 3D image data in the selected transmission mode to the sink device. The source device transmits information on the transmission mode for the 3D image data, to the sink device by using an AVI InfoFrame packet or the like. The sink device processes the 3D image data received from the source device in accordance with its transmission mode, thereby obtaining left and right eye image data.

Abstract: There is provided an information processing apparatus including an acquisition unit configured to acquire a moving image generated through imaging by an imaging apparatus having a view angle of 180° or more, and a virtual space generation unit configured to generate a three-dimensional virtual space including one or more objects having a curved inner surface and a curved outer surface, on the basis of a plurality of frame images included in the moving image. The virtual space generation unit generates the three-dimensional virtual space in a manner that, for each of the one or more objects, a frame image included in the plurality of frame images is mapped on at least one of the curved inner surface and the curved outer surface.

Abstract: There is provided a solid-state imaging device including a wafer in which a guard ring with conductivity in an insulation film layered on a first conductivity type substrate is formed between an edge portion of at least a first chip, out of the first chip and a second chip of a layered chip, and a scribe line region, at least two second conductivity type layers are formed at an interval within a region corresponding to the guard ring, in the first conductivity type substrate, and the guard ring includes a first guard ring part connected to one of the second conductivity type layers on a chip edge portion side, and a second guard ring part connected to another one of the second conductivity type layers on a scribe line side.

Abstract: Provided is an image signal processor, including: an integrator configured to integrate each frame of an image signal; a first flicker corrector configured to extract a flicker component from the integrated value obtained by the integrator, the flicker component depending on a frequency of a light source, and to reduce a flicker component from the integrated value sequentially; and a second flicker corrector configured to generate a reference image without a flicker component based on the correction result of the integrated value corrected by the first flicker corrector, and to correct a flicker of the image signal based on the reference image.

Abstract: Provided is a communication apparatus including a substrate, a high-frequency coupling device including a coupling electrode and a ground formed as a conductive pattern on the substrate, a communication circuit unit configured to process a high-frequency signal transmitted and received by the coupling electrode, and a resonant unit configured to increase an amount of electric current flowing into the coupling electrode. The high-frequency coupling device is configured such that a longitudinal length is shorter than a lateral length.