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Institution

Sony Broadcast & Professional Research Laboratories

CompanyTaipei, Taiwan
About: Sony Broadcast & Professional Research Laboratories is a company organization based out in Taipei, Taiwan. It is known for research contribution in the topics: Signal & Image processing. The organization has 38708 authors who have published 63864 publications receiving 865637 citations.


Papers
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Patent
10 Dec 2002
TL;DR: A selective encryption encoder has a packet identifier that identifies packets of at least one specified packet type, the packet type being any of a plurality of packet types including packets containing a video slice headers or packets carrying data appearing in an active area of the image.
Abstract: A selective encryption encoder and method of dual selective encryption. The selective encryption encoder has a packet identifier that identifies packets of at least one specified packet type, the at least one specified packet type being any of a plurality of packet types including packets containing a video slice headers or packets carrying data appearing in an active area of the image. A packet duplicator duplicates the identified packets to produce first and second sets of the identified packets. The packets are sent to and from a primary encryption encoder to encrypt the first set of identified packets under a first encryption method. A secondary encrypter encrypts the second set of identified packets under a second encryption method.

115 citations

Patent
13 Oct 2009
TL;DR: In this article, a method of obtaining metadata associated with an element of television programming involves instructing an access device to generate and communicate a signal to a control device suitable for driving a display, wherein the signal contains metadata suitable for rendering on a display device in a visual representation.
Abstract: A method of obtaining metadata associated with an element of television programming involves instructing an access device to generate and communicate a signal to a control device suitable for driving a display, wherein the signal contains metadata suitable for rendering on a display device in a visual representation; receiving the signal and storing a representation of the video frame; processing the video frame using OCR to extract enough information to identify an element of television programming content from the video frame; processing the video frame to extract sufficient information to identify an element of television programming content from the video frame; and retrieving metadata associated with the identified element of television programming content from a television programming content source of metadata. This abstract is not to be considered limiting, since other embodiments may deviate from the features described in this abstract.

115 citations

Patent
11 Mar 1998
TL;DR: An image reproducing method and apparatus whereby an image with a wide angle of visibility can be reproduced from a holographic stereogram in a manner less susceptible to blurring is described in this paper.
Abstract: An image reproducing method and apparatus whereby an image with a wide angle of visibility can be reproduced from a holographic stereogram in a manner less susceptible to blurring. For reproducing an image from a holographic stereogram 80 of an edge lit system, a holographic stereogram 80 is arranged on a lateral side of a cylindrically-shaped light-introducing block 81 and a reproducing illuminating light beam 82 is illuminated on the holographic stereogram 80 via the light-introducing block 81. A reproduced image 85 is produced by a diffracted light beam obtained on diffraction of the reproducing illuminating light beam 82 transmitted through the holographic stereogram 80.

115 citations

Patent
13 Jan 2016
TL;DR: In this paper, a semiconductor device including a first material layer adjacent to a second material layer, a first via passing through the first layer and extending into the second layer, and a second via extending into first layer, is considered, where along a common cross section parallel to an interface between the two layers, the first via has a cross section larger than that of the second via.
Abstract: A semiconductor device including a first material layer adjacent to a second material layer, a first via passing through the first material layer and extending into the second material layer, and a second via extending into the first material layer, where along a common cross section parallel to an interface between the two material layers, the first via has a cross section larger than that of the second via.

115 citations

Patent
06 Sep 2002
TL;DR: In this article, a first adhesive layer is provided on a base substrate, and multiple devices are arranged on the first layer by using a mask, whereby the adhesive force of the first adhesive force is lowered only at these positions, and only these devices are made releasable from the base substrate.
Abstract: A first adhesive layer is provided on a base substrate, and multiple devices are arranged on the first adhesive layer. The first adhesive layer is irradiated with laser light from the back side of the base substrate, only at positions corresponding to the devices to be transferred, by use of a mask, whereby the adhesive force of the first adhesive layer is lowered only at these positions, and only these devices are made releasable from the base substrate. A transfer substrate provided with a second adhesive layer and the base substrate are so disposed that the devices and the second adhesive layer are opposite to each other and pressed against each other. When the transfer substrate is stripped from the base substrate, only the devices to be transferred are selectively transferred onto the transfer substrate.

115 citations


Authors

Showing all 38711 results

NameH-indexPapersCitations
Hui Li1352982105903
Susumu Kitagawa12580969594
Shree K. Nayar11338445139
Takashi Kobayashi10360651385
Bo Huang9772840135
Muhammad Imran94305351728
Xiaodong Xu94112250817
Mitsuo Kawato8642235640
Takashi Yamamoto84140135169
Atsuo Yamada7844423989
Katsushi Ikeuchi7863620622
Yoshihiro Iwasa7745427146
Satoshi Miyazaki7634120483
Hiroshi Yamazaki7495327216
Alexei Gruverman6930118610
Network Information
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
20223
2021294
2020902
20191,297
20181,111
20171,078