Abstract: Systems, methods, and instrumentalities are disclosed relating to intra prediction of a video signal based on mode-dependent subsampling. A block of coefficients associated with a first sub block of a video block, one or more blocks of coefficients associated with one or more remaining sub blocks of the video block, and an indication of a prediction mode for the video block may be received. One or more interpolating techniques, a predicted first sub block, and the predicted sub blocks of the one or more remaining sub blocks may be determined. A reconstructed first sub block and one or more reconstructed remaining sub blocks may be generated. A reconstructed video block may be formed based on the prediction mode, the reconstructed first sub block, and the one or more reconstructed remaining sub blocks.

Abstract: A video decoder performs a method of dynamic voltage/frequency scaling (DVFS) for video processing. The method includes parsing a bitstream associated with a video to determine embedded information associated with a complexity of a first portion of the video, estimating the complexity of the first portion of the video using the embedded information, determining a voltage and frequency to be used for decoding the first portion of the video based on the estimated complexity, and decoding the first portion of the video at the determined voltage and frequency.

Abstract: Apparatus and methods are described to overcome the perception in viewed video or other presentations containing moving vehicles that the apparent rotation rate of their wheels is frequently inappropriate for the vehicle speeds, which is caused by the stroboscopic interaction between the wheel spokes and the rate at which the images are presented. A currently preferred embodiment operates off-line under human control on a previously recorded video, identifying the wheels and replacing them with suitably altered images which are perceived to rotate at rates appropriate to the vehicle speeds; or to suppress inappropriate perception of rotation. The apparatus and method results in a new recording of the original video in which the wheels appear to rotate at the correct rate for all vehicle speeds. Alternate embodiments implement a similar but automated process operating in near-real time for operating in-line on streaming videos; and variations achieving the same ends.

Abstract: A vision system for a vehicle includes a rear camera disposed at a rear portion of the vehicle and having an exterior field of view rearward of the vehicle. The rear camera includes an imaging array and a lens system for imaging external sources of light at the imaging array. The lens system includes at least one asymmetric anamorphic lens optic. The asymmetric anamorphic lens optic may include a longitudinally truncated conical-shaped lens optic. The longitudinal axis of the longitudinally truncated conical-shaped lens optic may be generally vertical when the rear camera is disposed at the rear portion of the vehicle, with a smaller diameter portion at an upper region of the optic and a larger diameter portion at a lower region of the optic.

Abstract: Methods and apparatus provide for generating a component image in which, with images picked up using a front side camera and a rear side camera built in portable equipment, posture information of the portable equipment is associated; combining a plurality of component images between which the posture of the portable equipment is different to generate a synthesis image; changing over an image pickup mode between a double-sided synthesis image pickup mode in which a synthesis image of one half circumference picked up by the front side camera and a synthesis image of one half circumference picked up by the rear side camera are connected to each other to pick up a synthesis image of a whole circumference and a single-sided synthesis image pickup mode in which a synthesis image of a whole circumference is picked up by each of the front side camera and the rear side camera.

Abstract: The invention is made in the field of coding of images of high dynamic range. The invention is based on the concept of Frame Compatible format. The idea is to transport, in a frame, down-sampled LDR content together with additional information allowing reconstructing HDR content from the LDR content. Thus, it is proposed a method of encoding an HDR image of high dynamic range according to claim 1. Said method comprises down-sampling (DWN) an LDR image and additional data, the LDR image providing a lower dynamic range depiction of the HDR image content and the additional data allowing for reconstructing the HDR image from the LDR image.

Abstract: Roughly described, pictures are divided into multiple spatial sections to be encoded by multiple section encoders. To address discontinuities of compression decisions across section boundaries, the multiple section encoders encode overlapping regions in a picture.

Abstract: A system comprising a decoder to receive an encoded video stream including video frames including reference and non-reference frames, and decode the reference frames, a processor to receive a request from an end-user rendering device requiring a first reference frame as part of decoding the encoded video stream of the first channel from the middle of a group of pictures of the encoded video stream, wherein a second reference frame is a reference frame for the first reference frame in the received encoded video stream, an encoder to encode the decoded first reference frame yielding a re-encoded first reference frame so that decoding the re-encoded first reference frame is not dependent upon the second reference frame, and a transmitter to transmit the re-encoded first reference frame to the end-user rendering device. Related apparatus and methods are also described.

Abstract: Systems and methods for multi-layered rate control for scalable video coding. A parameter value may be calculated based on a current layer target bit rate and a current layer buffer state for a frame in a video stream. The frame may include a lower layer and one or more higher layers. A determination may then be made as to whether the current layer is the lower layer. If the current layer is the lower layer, a determination may then be made as to whether a coupling request has been received from a higher layer in the frame. If the coupling request has been received from the higher layer in the frame, the parameter value for the current layer may be increased based on a buffer state threshold value of the higher layer in the frame.

Abstract: A field of view available for stereo measurement is expanded using a field of view other than a common field of view. To this end, a plane (plane e) including a corresponding point (xa) on a sensor plane of a first camera, which corresponds to a feature point (X), a focal position (F1) of the first camera, and a focal position (F2) of the second camera is calculated; a first line (straight line E) that is a line of intersection of the plane (plane e) and a plane including a sensor plane of the second camera is calculated; a second line (straight line G) including a corresponding point group on the sensor plane of the second camera, which corresponds to a feature point group, is calculated; an intersection of the first and second lines is calculated as a corresponding point (xb) on the plane including the sensor plane of the second camera, which corresponds to the feature point (X); and three-dimensional coordinates of the feature point (X) are calculated based on the corresponding points (xa, xb).

Abstract: Apparatus and method are described to overcome the perception in viewed video or other presentations containing moving vehicles that the apparent rotation rate of their wheels is frequently inappropriate for the vehicle speeds, which is caused by the stroboscopic interaction between the wheel spokes and the rate at which the images are presented. A currently preferred embodiment operates off-line under human control on a previously recorded video, identifying the wheels and replacing them with suitably altered images which are perceived to rotate at rates appropriate to the vehicle speeds; or to suppress inappropriate perception of rotation. The apparatus and method results in a new recording of the original video in which the wheels appear to rotate at the correct rate for all vehicle speeds. Alternate embodiments implement a similar but automated process operating in near-real time for operating in-line on streaming videos; and variations achieving the same ends.

Abstract: In an image processing apparatus, an edge direction detection unit calculates an edge direction using a denoising target image. A search shape setting unit sets a search shape in which the number of search points along the direction perpendicular to the edge direction is smaller than the number of search points along the edge direction, using the calculated edge direction as an index used for limiting the search shape. When noise of a target pixel is removed with a weight in accordance with the degree of template similarity between a template for the target pixel and a template for each of search points within a search shape and the weighted sum of pixel values at the search points, a filter execution unit executes a process of performing template matching on only search points within the set search shape and removing the noise of the target pixel.

Abstract: The imaging apparatus includes: a multiband image sensor with a light receiving surface which includes two-dimensional arrays of at least three visible light pixels and an infrared pixels, the visible light pixels having sensitivity in different visible light wavelength ranges, the infrared pixels having sensitivity in the infrared wavelength range; a coded aperture which is disposed on the light receiving surface side of the multiband image sensor and serves as an aperture in a predetermined shape with respect to light in the wavelength range in which the infrared pixel has sensitivity while directly transmitting light in other wavelengths; and a processor for processing an image obtained by the multiband image sensor. The processor generates a depth map based on an image obtained by the multiband image sensor to thereby perform processing of a blurred image.

Abstract: A stereoscopic image display and a method for compensating for a crosstalk of the stereoscopic image display are disclosed. The stereoscopic image display includes a crosstalk compensation circuit and a display element. The crosstalk compensation circuit detects an input frame frequency, performs over driving control (ODC) modulation on 3D data to firstly compensate for a crosstalk of the 3D data, and multiplies the firstly compensated 3D data by a constant value, which is previously determined depending on the detected input frame frequency and is greater than zero and equal to or less than 1, to finally compensate for the crosstalk of the 3D data. The display element displays left eye image data and right eye image data included in the finally compensated 3D data in a time division manner.

Abstract: Provided are an apparatus and method for converting a two-dimensional (2D) image into a three-dimensional (3D) image. The method includes generating a first depth map by estimating depth information of an input image, wherein the input image is a 2D image; analyzing characteristics of the input image; predicting an error of the first depth map; determining a parameter for adjusting the first depth map based on the analyzed characteristics of the input image and the predicted error of the first depth map; adjusting the first depth map based on the determined parameter; and generating a 3D image of the input image based on the adjusted first depth map.

Abstract: Aspects of the present disclosure relates generally to deciding which part of a panoramic image is most important and using that as a reference point for displaying the panoramic image to user. For example, a 360 degree panoramic image associated with orientation and location information may be identified. Related images, for example, in content and location may also be identified. The related images may be projected as points on a unit circle representing the orientations of the panoramic image. The point farthest from an average location of the points may be removed until the average location of the points is at least a minimum distance from the center of the circle. When this occurs, an angular location of the average location relative to the circle may be identified as a reference orientation. The reference orientation may be associated with the panoramic image, and the association may be stored in memory.

Abstract: A video encoding apparatus includes a frequency transform unit for executing an orthogonal transform on a prediction difference or an original image; a quantizing unit for quantizing transform coefficients outputted by the frequency transform unit; a variable-length coder for executing variable-length encoding on a bit string generated from the quantized transform coefficients; a rate controller for performing a rate control to control a code bit stream outputted by the variable-length coder to be maintained at a bit rate; and a code amount estimating unit for estimating a code amount to be generated by the variable-length coder based on a length of the bit string and an occurrence frequency of symbol in the bit string. The rate controller executes the rate control based on the estimated code amount.

Abstract: A first temporary taken image taken by a first imaging section of a stereo imaging section, and a second temporary taken image taken by a second imaging section of the stereo imaging section are displayed on a display section. A user aligns the display position of the first temporary taken image with the display position of the second temporary taken image, by moving the first temporary taken image displayed on the display section. Based on the result of the movement, the display positions of two images composing a stereo image taken with the stereo camera are corrected, and the stereo image is displayed on the display section in a stereoscopically visible manner.

Abstract: Audio and video streams of a media file are transcoded just-in-time by keeping the transcoding process synchronized to a wall clock. The transcoding is initially configured slightly faster than real-time. The transcoded frames are pushed from the transcoder through a variable bandwidth connection as soon as they are transcoded. Transcoding is then monitored periodically to assess the bandwidth that was available during the transmission of a transcoded buffer. Two time intervals are measured: a buffer interval which is the difference in the transcoded buffer timestamps of the previous two transmissions, and a clock interval corresponding to the real time transmission time of the last transcoded buffer. If a significant difference is observed, the transcoder bit rate is adjusted by a factor that is derived from that difference.

Abstract: The invention relates to three dimensional video imaging, in which at least a left view and a right view of a moving scene are produced and a map of disparities is produced for all pixels of the successive images of a video sequence.