Abstract: A method for streamed playback of media in a media client from a remote media service includes: a) determining address information for locating the service and for a starting time; b) by the address information, requesting and receiving a first media package from the service; the package having decoder configuration information, one or more frames, associated timing information for playback frames, and a pointer to a subsequent part of the media stream; c) configuring a decoder of the client by the decoder information; d) starting playback of the stream in the client at the starting time by providing the frames to the configured decoder; e) by the pointer, requesting a remaining portion of the media having subsequent frames of the media stream and associated timing information; f) receiving the subsequent frames as a stream and continuing playback by providing the subsequent frames and associated timing information to the configured decoder.
Type:
Grant
Filed:
June 15, 2020
Date of Patent:
July 18, 2023
Assignee:
THEO TECHNOLOGIES
Inventors:
Maarten Tielemans, Pieter-Jan Speelmans, Steven Tielemans, Egon Okerman
Abstract: A vision system of a vehicle includes a plurality of cameras disposed at a vehicle and having a field of view exterior of the vehicle. A display device is operable to display images for viewing by a driver of the vehicle. The plurality of cameras includes a master camera and at least one slave camera. The at least one slave camera communicates a signal to the master slave camera representative of image data captured by the at least one slave camera. The master camera includes an image signal processor for processing image data captured by at least the master camera. The master camera includes a view generator operable to generate images for display by the display device, with the generated images derived from image data captured by the master camera and the signal communicated by the at least one slave camera.
Abstract: The solid-state imaging device of the present disclosure includes a signal processing unit including an AD converter that digitizes an analog pixel signal read from each pixel of the pixel array unit to a signal line, the signal processing unit transferring digitized pixel data at a first speed higher than a frame rate; a memory unit that stores the pixel data transferred from the signal processing unit; a data processing unit that reads pixel data at a second speed lower than the first speed from the memory unit; and a control unit that, when the pixel data is read from the memory unit, controls to stop operation of a current source connected with the signal line and operation of at least the AD converter of the signal processing unit.
Abstract: A video data communication system and method are disclosed which provides for the secure transmission of video data among devices connected to a video data bus. The video data is transmitted with address information corresponding to a particular device or, alternatively, video data is encrypted and transmitted on the data bus without address information.