Abstract: One or more lens control apparatuses, methods and storage mediums for use therewith are provided herein. In a third mode where a camera control unit performs control in such a manner as to drive a focus lens at a preset speed, if the camera control unit has determined that a subject is a moving subject, when the camera control unit determines that the subject is in focus, a transition is made to a second mode where a drive speed of the focus lens is variably controlled on a basis of the amount of defocus.
Abstract: With reference to FIG. 1, we provide a system for monitoring pedestrians, the system including: a data capture system including a data capture device; a computer system communicatively coupled to the data capture system and configured to receive data from the image capture system representative of a portion of a pedestrian, said portion including at least a foot or item of footwear of the pedestrian; wherein the computer system is operable to count pedestrian footfall and/or to determine a demographic property of the pedestrian based on the data representative of the foot or item of footwear of the pedestrian.
Abstract: A terrestrial asset inspection system includes a drone (101). One or more processors (105) of the drone receive one or more image capture parameters (202), which can include a minimum number of images per unit area (206), a minimum overlap amount for any two adjacent images (207), or other factors. The one or more processors also receive geographical boundary information (222) of the terrestrial asset (400). At least one flight plan (122) is determined as a function of these parameters, and the drone flies in accordance with the flight plan while an image capture device (108) captures a plurality of images (501) meeting or exceeding the image capture parameters to inspect the terrestrial asset.
Type:
Grant
Filed:
July 21, 2017
Date of Patent:
June 4, 2019
Assignee:
Talon Aerolytics, Inc.
Inventors:
Austin Wingo, Phillip Bevel, Eric S Hare
Abstract: A method and apparatus for decoding a video signal are disclosed. A method for decoding a video signal includes obtaining block type information of a current block, confirming a prediction mode of the current block based on the block type information, obtaining, if the prediction mode of the current block is an intra prediction mode according to the prediction mode, at least one correlation parameter information using at least one neighboring pixel of the current block, obtaining an intra prediction value of the current block using the correlation parameter information, and reconstructing the current block using the intra prediction value of the current block.
Type:
Grant
Filed:
February 24, 2017
Date of Patent:
May 28, 2019
Assignee:
LG Electronics Inc.
Inventors:
Jae Won Sung, Seung Wook Park, Yong Joon Jeon, Jung Sun Kim, Young Hee Choi, Byeong Moon Jeon, Joon Young Park
Abstract: An image processing apparatus generates a normal image, when lighting correction of an image is performed using three-dimensional shape data. Three-dimensional shape data of a predetermined object is adjusted with a subject in position, based on a feature pattern detected in image data, and lighting processing for correcting a pixel value of the image data is performed based on the adjusted three-dimensional shape data, distance information of the subject, and a position of a virtual light source. When the three-dimensional shape data is adjusted with the image data in position, a region having a large irregularity in the three-dimensional shape data is preferentially adjusted in position.
Abstract: An encoding device includes a processor configured to execute a process. The process includes: first calculating, based on a first system rate for encoding data and transmitting the encoded data to a terminal and a second system rate representing a rate for reproducing the data at the terminal, a decoder storage time during which the encoded data received by the terminal is stored; and adding information of the decoder storage time to the encoded data and transmitting the encoded data added with the information to the terminal.
Abstract: An integrated circuit for an imaging system is disclosed. In one aspect, an integrated circuit has an array of optical sensors, an array of optical filters integrated with the sensors and configured to pass a band of wavelengths onto one or more of the sensors, and read out circuitry to read out pixel values from the sensors to represent an image. Different ones of the optical filters are configured to have a different thickness, to pass different bands of wavelengths by means of interference, and to allow detection of a spectrum of wavelengths. The read out circuitry can enable multiple pixels under one optical filter to be read out in parallel. The thicknesses may vary non-monotonically across the array. The read out, or later image processing, may involve selection or interpolation between wavelengths, to carry out spectral sampling or shifting, to compensate for thickness errors.
Type:
Grant
Filed:
March 3, 2016
Date of Patent:
April 16, 2019
Assignee:
IMEC
Inventors:
Nicolaas Tack, Andy Lambrechts, Luc Haspeslagh
Abstract: Innovations in control and use of chroma quantization parameter (“QP”) values that depend on luma QP values. More generally, the innovations relate to control and use of QP values for a secondary color component that depend on QP values for a primary color component. For example, during encoding, an encoder determines a QP index from a primary component QP and secondary component QP offset. The encoder maps the QP index to a secondary component QP, which has an extended range. The encoder outputs at least part of a bitstream including the encoded content. A corresponding decoder receives at least part of a bitstream including encoded content. During decoding, the decoder determines a QP index from a primary component QP and secondary component QP offset, then maps the QP index to a secondary component QP, which has an extended range.
Abstract: A video encoding method of performing scalable encoding on input video includes: determining a total number of layers of the scalable encoding to be less than or equal to a maximum layer count determined according to a frame rate; and performing the scalable encoding on the input video to generate a bitstream, using the determined total number of layers.
Abstract: Methods and apparatus provide for: capturing an image of an object, which includes a face of a person wearing an optical display apparatus by which to observe a stereoscopic image that contains a first parallax image and a second parallax image obtained when the object in a three-dimensional (3D) space is viewed from different viewpoints; identifying the optical display apparatus included in the image of the object; and generating an image of the face of the person that does not include the optical display apparatus by excluding the identified optical display apparatus, and instead by adding features of the face of the person to a region in which the identified optical display apparatus is excluded.
Abstract: A stereoscopic display apparatus includes: a projector of a planar shape that projects images by using light acquired by dividing light rays; an optical device of a planar shape that outputs incident light incident from a first face from a second face; and a supporting unit that supports at least one of the projector and the optical device to be in a first state or a second state in an orthogonal three-dimensional coordinate system. The optical device outputs incident light incident from a first point on a projection surface of the projector to a second point having plane symmetry with respect to a plane of the optical device as a reference.
Type:
Grant
Filed:
July 21, 2017
Date of Patent:
March 5, 2019
Assignee:
TIANMA JAPAN, LTD.
Inventors:
Kazunori Masumura, Tetsushi Sato, Koji Shigemura
Abstract: An encoding method and apparatus and a decoding method and apparatus for determining a motion vector of a current block based on a motion vector of at least one previously-encoded or previously-decoded block are provided. The decoding method includes: decoding information regarding a prediction direction from among a first direction, a second direction, and bi-directions, and information regarding pixel values of the current block; determining the prediction direction in which the current block is to be predicted, based on the decoded information regarding the prediction direction, and determining a motion vector for predicting the current block in the determined prediction direction; and restoring the current block, based on the determined motion vector and the decoded information regarding the pixel values, wherein the first direction is a direction from a current picture to a previous picture, and the second direction is a direction from the current picture to a subsequent picture.
Abstract: A system for decoding a video bitstream includes receiving a frame of the video that includes at least one slice and at least one tile and where each of the at least one slice and the at least one tile are not all aligned with one another.
Abstract: A method and apparatus for assembling components of a workpiece. Some embodiments include a work surface; a first digital projector that projects an image of at least some features of the workpiece onto the work surface, wherein the image includes a plurality of line indicators that have visually discernible different markings such as colors or line types; a camera that obtains input images of the work surface and the components of the workpiece; and a first controller configured to receive the input images from the camera and to control the first digital projector to project the first output digital image on the work surface for assembly of the components to form the workpiece, wherein the first controller is further configured to store distortion-correction parameters and to use the stored distortion-correction parameters to adjust the first projected output digital image. In some embodiments, the workpiece is a lumber truss.
Abstract: Hardware and software configurations, optionally, for performing profilometry of an object are disclosed. An advantageous imaging device is described. An advantageous approach to determining imager position is also described. Each aspect described may be used independently of the other. Moreover, the teaching may find use in other fields including velocimetry, etc.
Type:
Grant
Filed:
November 19, 2010
Date of Patent:
January 15, 2019
Assignee:
CALIFORNIA INSTITUTE OF TECHNOLOGY
Inventors:
Morteza Gharib, Alexei Harvard, Scott Hsieh, Jian Lu
Abstract: In a camera which electronically realizes panning, tilting, and zooming, on the basis of the luminance detected in each frame period (n?1), a condition of exposure for two frame periods thereafter (n+1), and digital gain for three frame periods thereafter (n+2) are set. When an instruction for changing the extracted region is received in a certain frame period (n?1), the region extracted from the image is changed three frame periods thereafter. It is possible to achieve a stable exposure control by which the luminance of the image varies little even when the region extracted from the image is switched.
Abstract: An integrated circuit for an imaging system is disclosed. In one aspect, an integrated circuit has an array of optical sensors, an array of optical filters integrated with the sensors and configured to pass a band of wavelengths onto one or more of the sensors, and read out circuitry to read out pixel values from the sensors to represent an image. Different ones of the optical filters are configured to have a different thickness, to pass different bands of wavelengths by means of interference, and to allow detection of a spectrum of wavelengths. The read out circuitry can enable multiple pixels under one optical filter to be read out in parallel. The thicknesses may vary non-monotonically across the array. The read out, or later image processing, may involve selection or interpolation between wavelengths, to carry out spectral sampling or shifting, to compensate for thickness errors.
Type:
Grant
Filed:
March 3, 2016
Date of Patent:
November 27, 2018
Assignee:
IMEC
Inventors:
Nicolaas Tack, Andy Lambrechts, Luc Haspeslagh
Abstract: Embodiments of the present invention disclose a 3D display device and a driving method thereof, and the 3D display device comprises: a display panel, comprising sub-pixel units arranged in a matrix and defined by data lines and gate signal lines, and each gate signal line being located between two adjacent columns of sub-pixel units; a lenticular lens grating, provided at a light exiting side of the display panel, splitting light emitted from the display panel, and comprising lens units, wherein each lens unit corresponds to at least two adjacent columns of sub-pixel units; in a 3D display mode, columns of sub-pixel units alternatively display a left/right eye image and a right/left eye image, and each lens unit comprises, in a region corresponding to each column of the sub-pixel units, a lens structure matching the left or right eye image currently displayed by the column of the sub-pixel units.
Abstract: Several methods and systems for encoding pictures associated with video data are disclosed. In an embodiment, a method includes determining by a processing module, whether a picture is to be encoded based on at least one of a skip assessment associated with the picture and an encoding status of a pre-selected number of pictures preceding the picture in an encoding sequence. The method further includes encoding by the processing module, a plurality of rows of video data associated with the picture upon determining that the picture is to be encoded, wherein the plurality of rows are encoded based on a pre-selected maximum encoded picture size.
Abstract: The present invention relates to intra prediction which may be performed during encoding and/or decoding of an image signal. In particular, the present invention relates to intra prediction of a current block, during which filtering is applied to the prediction signal and/or to signal used for the prediction. The filtering is applied in accordance with a decision based on characteristics of image signal included in block(s) spatially adjacent to the current block.
Type:
Grant
Filed:
April 11, 2018
Date of Patent:
October 30, 2018
Assignee:
SUN PATENT TRUST
Inventors:
Steffen Wittmann, Virginie Drugeon, Matthias Narroschke, Thomas Wedi