Abstract: A feature amount generation unit 26a of an information processing unit 20-1 generates a feature amount indicating the relationship in spectral reflectance between two points, from spectral data of a multispectral image in an irradiation region of a common light source acquired by a multispectral camera 10. A recognition processing unit 27 performs recognition processing on a subject, on the basis of the feature amount generated by the feature amount generation unit 26a, with at least one of the two points regarded as a position in an image area of the subject that is a recognition target in the multispectral image. Therefore, the feature amount generation unit 26a can easily generate the feature amount robust against variation of the light source and appropriate for the subject. In addition, the authentication processing unit 27 can accurately perform the recognition processing even if the light source varies between registration of the subject and the recognition of the subject.

Abstract: Computer animation involving monocular pose prediction is disclosed. A plurality of candidate pose sequences of a three-dimensional model of an animation character is generated such that each candidate pose of each sequence has a segmentation map that matches a segmentation map of a corresponding character derived from a corresponding frame of a video. A distance between candidate poses at each time step is maximized. An optimum pose sequence is determined and used to generate a corresponding sequence of frames of animation.

Abstract: Provided is an information processing device that provides feedback to a user. The information processing device includes: a recognition unit that recognizes a physical relation between a real object and a first virtual object positioned on an identical surface and a control unit that controls the behavior of the real object based on the physical relation.

Abstract: Reception-side processing performed in a case where transmission of standard dynamic range video data and transmission of high dynamic range video data coexist in a time sequence is simplified. SDR transmission video data is converted into SDR transmission video data through dynamic range conversion. The SDR transmission video data is the one obtained by performing, on SDR video data, photoelectric conversion in accordance with an SDR photoelectric conversion characteristic. In this case, the conversion is performed on the basis of conversion information for converting a value of conversion data in accordance with the SDR photoelectric conversion characteristic into a value of conversion data in accordance with an HDR photoelectric conversion characteristic. A video stream is obtained by performing encoding processing on HDR transmission video data. A container having a predetermined format and including this video stream is transmitted.

Abstract: The present technology relates to a solid-state imaging device and an electronic device capable of improving a saturation characteristic. A photo diode is formed on a substrate, and a floating diffusion accumulates a signal charge read from the photo diode. A plurality of vertical gate electrodes is formed from a surface of the substrate in a depth direction in a region between the photo diode and the floating diffusion, and an overflow path is formed in a region interposed between a plurality of vertical gate electrodes. The present technology may be applied to a CMOS image sensor.

Abstract: A compressed audio signal and a linear PCM signal are successfully simultaneously transmitted and reproduced. An audio signal continuous for each specified unit is transmitted to a reception side through a specified transmission line. The audio signal continuous for each specified unit is obtained by alternately arranging the audio signal in the specified unit, which includes a compressed audio signal, and the audio signal in the specified unit, which includes a linear PCM signal. For example, the specified unit is a subframe.

Abstract: The present technology relates to a particular-sound detector and method, and a program that make it possible to improve the performance of detecting particular sounds. The particular-sound detector includes a particular-sound detecting section that detects a particular sound on a basis of a plurality of audio signals obtained by collecting sounds by a plurality of microphones provided to a wearable device. In addition, the plurality of the microphones includes two microphones that are equidistant at least from a sound source of the particular sound, and one microphone arranged at a predetermined position. The present technology can be applied to headphones.

Abstract: Improvement of use efficiency of radio resources is realizable. An information processing device is an information processing device which includes a reception unit and a control unit. The reception unit included in this information processing device is a reception unit which receives a packet. In addition, the control unit included in the information processing device is a control unit which controls a packet monitoring state of the information processing device in case of detection of reception of a packet not addressed to the information processing device. The packet monitoring state is controlled on the basis of reception power at the time of reception of the packet not addressed to the information processing device.

Abstract: An electronic device comprising a deformable object which is at least partially filled with a light-absorbing material, one or more light sources configured to illuminate the inside of the deformable object, an imaging unit configured to capture respective images of the light sources, and circuitry configured to reconstruct the shape of the deformable object based on the captured images of the light sources.

Abstract: There is provided a semiconductor device including a channel portion, and a gate electrode provided on a side opposite to the channel portion with a gate insulating film interposed between the gate electrode and the channel portion, in which the gate insulating film incudes a first portion having a first transition metal oxide, and a second portion having a second transition metal oxide and cation species and having a concentration of the cation species different from the first portion.

Abstract: A base station for a mobile telecommunications system has circuitry, which is configured to communicate with at least one user equipment and at least another base station. The circuitry is further configured to configure a radio resource control message for radio resource control diversity, and transmit the configured radio resource control message to the user equipment or to receive a configured radio resource control message from the user equipment and the at least another base station.

Abstract: A terminal device including a control unit that transmits transmission report information after transmitting a first packet on a sidelink. The transmission report information includes information indicating time and a frequency of a resource used to transmit the first packet.

Abstract: The present disclosure relates to a solid-state imaging device that can achieve a high S/N ratio at a high sensitivity level without any decrease in resolution, and to an electronic apparatus. In the upper layer, the respective pixels of a photoelectric conversion unit that absorbs light of a first wavelength are tilted at approximately 45 degrees with respect to a square pixel array, and are two-dimensionally arranged in horizontal directions and vertical directions in an oblique array. The respective pixels of a photoelectric conversion unit that is sensitive to light of a second or third wavelength are arranged under the first photoelectric conversion unit. That is, pixels that are ?{square root over (2)} times as large in size (twice as large in area) and are rotated 45 degrees are arranged in an oblique array. The present disclosure can be applied to solid-state imaging devices that are used in imaging apparatuses, for example.

Abstract: The disclosure is related to a receiving device, a transmitting device, a communication method, and medium. The receiving device comprises processing circuitry configured to: receive a reference signal from a transmitting device, wherein the reference signal carries a reference sequence generated based on an orthogonal sequence and a random sequence associated with the transmitting device; and identify the transmitting device based on the reference signal.

Abstract: A display apparatus that includes circuitry that displays a user interface screen including device information that identifies a plurality of output device groups and a plurality of input device groups to control connection between one of the output device groups and one of the input device groups; and receives an input that designates a combination of said one of the output device groups and said one of the input device groups, the user interface screen includes a matrix comprising a plurality of cells in a row direction and a column direction, the input designates the combination by designating one of grouped cells corresponding to the combination of said one of the output device groups and said one of the input device groups in the matrix, and the grouped cells are grouped such that the input designates the combination as a group.

Abstract: An information processing apparatus according to the present disclosure includes an executing unit that associates a head-related transfer function corresponding to a user with an identifier that identifies equipment that is used by the user and a providing unit that provides the head-related transfer function and the identifier associated with the head-related transfer function to a providing destination to which the head-related transfer function corresponding to the user is provided.

Abstract: The present disclosure relates to device, method for a wireless communication system and storage medium. In embodiments of the present disclosure, location information of at least one terminal device on the terminal side in the wireless communication system is acquired, wherein the at least one terminal device has specific position configuration information; and location information of a target terminal device among the at least one terminal device is determined based on the specific position configuration information of the at least one terminal device and the location information of the at least one terminal device.

Abstract: A method of operating a terminal device in a wireless telecommunications system comprising the terminal device and a non-terrestrial network access node, wherein the method comprises the terminal device performing the steps of: determining a first location for the terminal device transmitting signalling indicating the first location; determining a second location for the terminal device; determining whether or not a distance between the first location and the second location is more than a predefined threshold distance, and if so transmitting signalling indicating the second location.

Abstract: The present technology aims to provide a diffraction element that functions like a transmissive hologram, and more particularly, aims to provide a diffraction element suitable for forming an image projection system. The present technology provides a composite diffraction element that includes a stack structure including a first diffraction element, a second diffraction element, and a third diffraction element in this order. The second diffraction element diffractively reflects light that has passed through the first diffraction element and reached the second diffraction element, toward the first diffraction element. The first diffraction element diffractively reflects the light diffractively reflected by the second diffraction element, toward the third diffraction element.

Abstract: An information processor (10m) includes a control unit (104). On a basis of position information indicating a perceptual position that causes a haptic stimulus to be perceived in a haptic presentation device (2) and on a basis of haptic stimulus type information specifying a type of the haptic stimulus, and in accordance with an arrangement of one or more haptic stimulus units provided in the haptic presentation device (2), the control unit (104) generates a haptic control signal to each of the haptic stimulus units for presentation of the haptic stimulus of the type specified at the perceptual position, and a script in which time information on a reproduction content and one or more of the generated haptic control signals are associated with each other.