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公开(公告)号:US20050116881A1
公开(公告)日:2005-06-02
申请号:US10764277
申请日:2004-01-23
申请人: Adam Divelbiss , David Swift , Walter Tserkovnyuk
发明人: Adam Divelbiss , David Swift , Walter Tserkovnyuk
CPC分类号: G02C7/101 , H04N13/161 , H04N13/167 , H04N13/194 , H04N13/286 , H04N13/324 , H04N13/341 , H04N13/368 , H04N13/398 , H04N2013/0081 , H04N2213/008
摘要: A first embodiment of the invention permits an extension of battery life through detection of the display synchronization signals of a computer and a power management system. The power management system also eliminates need for batteries through use of a 5V power source from pin 9 of the VGA port. A second embodiment improves the ease of use and the utility of the 3D system through removable glasses with improvements over the previous design. These embodiments have improved manufacturability through the use of design that is tolerant of poor quality, low cost components with low electrical tolerances
摘要翻译: 本发明的第一实施例允许通过检测计算机和电源管理系统的显示同步信号来延长电池寿命。 电源管理系统还通过使用VGA端口的引脚9的5V电源消除了对电池的需求。 第二个实施例通过具有先前设计的改进的可移除眼镜改进了使用的便利性和3D系统的效用。 这些实施例通过使用容忍质量差的设计,具有低电容差的低成本部件而具有改进的可制造性
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2.
公开(公告)号:US07180554B2
公开(公告)日:2007-02-20
申请号:US10045901
申请日:2002-01-14
申请人: Adam Divelbiss , David Swift
发明人: Adam Divelbiss , David Swift
CPC分类号: G09G3/346 , G02B26/008 , G02B27/2207 , G02B27/2264 , G02B27/26 , G03B33/08 , G03B35/16 , G09G3/002 , G09G3/003 , G09G2310/0235 , G09G2320/0247 , H04N5/7458 , H04N9/3114 , H04N9/3188 , H04N13/10 , H04N13/15 , H04N13/189 , H04N13/194 , H04N13/239 , H04N13/286 , H04N13/324 , H04N13/334 , H04N13/337 , H04N13/341 , H04N13/359 , H04N13/361 , H04N13/363 , H04N13/365 , H04N13/398 , H04N19/597 , H04N2005/7466
摘要: A digital micro-mirror device (DMD) format conversion system for outputting a stereoscopic encoded optical signal using a DMD and a color wheel is provided. The DMD format conversion system includes a 3D data formatter for receiving an input signal and a DMD data formatter for receiving an output signal having stereoscopic image information and control information from the 3D data formatter and for outputting a DMD output signal having stereoscopic image information and control information. A color wheel control signal and output digital micro-mirror device data are synchronized based on an output frame rate generated by the 3D data formatter independent of the original input frame rate.
摘要翻译: 提供了一种用于使用DMD和色轮输出立体编码光信号的数字微镜设备(DMD)格式转换系统。 DMD格式转换系统包括用于接收输入信号的3D数据格式器和用于从3D数据格式化器接收具有立体图像信息和控制信息的输出信号的DMD数据格式器,并输出具有立体图像信息和控制的DMD输出信号 信息。 基于独立于原始输入帧速率的3D数据格式器生成的输出帧速率,色轮控制信号和输出数字微镜设备数据被同步。
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公开(公告)号:US20050078108A1
公开(公告)日:2005-04-14
申请号:US10888946
申请日:2004-07-09
申请人: David Swift , Michael Roche , Jon Siragusa , Adam Divelbiss
发明人: David Swift , Michael Roche , Jon Siragusa , Adam Divelbiss
CPC分类号: H04N19/597 , H04N7/17318 , H04N13/10 , H04N13/117 , H04N13/122 , H04N13/139 , H04N13/15 , H04N13/189 , H04N13/194 , H04N13/221 , H04N13/275 , H04N13/286 , H04N13/31 , H04N13/324 , H04N13/327 , H04N13/334 , H04N13/339 , H04N13/341 , H04N13/346 , H04N13/359 , H04N13/398 , H04N21/4402 , H04N21/6125 , H04N21/84 , H04N2013/0077 , H04N2013/0088
摘要: The preferred embodiment addresses the problem of delivering stereoscopic media in electronic form (images, videos, animations, object models, etc.). First, it provides a single format with independent right and left channels to represent the stereoscopic media. Second, it provides a means of displaying stereoscopic media inside a movable windowed area while eliminating pseudostereo conditions during movement. Third, it provides automatic and manual optimization adjustments (parallax shift adjustment, brightness control, color adjustment, and cross-talk reduction) to the stereoscopic media based on viewing hardware, monitor size, and media content for optimal viewing quality. Fourth, it provides seamless support for monoscopic (2D) viewing modes allowing delivery of said stereoscopic media in a normal 2D viewing mode.
摘要翻译: 优选实施例解决了以电子形式(图像,视频,动画,对象模型等)传送立体媒体的问题。 首先,它提供了具有独立的右和左声道的单一格式来表示立体媒体。 第二,它提供了一种在可移动窗口区域内显示立体媒体的方法,同时消除运动期间的伪声音条件。 第三,基于查看硬件,监视器尺寸和媒体内容,为立体媒体提供自动和手动优化调整(视差移位调整,亮度控制,颜色调整和串扰降低),以获得最佳的观看质量。 第四,它提供对单视(2D)观看模式的无缝支持,允许在正常2D观看模式下传送所述立体媒体。
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公开(公告)号:US20050247958A1
公开(公告)日:2005-11-10
申请号:US11085833
申请日:2005-03-21
申请人: Zongkai Wang , Shu Han , Adam Divelbiss , David Swift
发明人: Zongkai Wang , Shu Han , Adam Divelbiss , David Swift
IPC分类号: G02B5/30 , G02F1/13 , G02F1/1335
CPC分类号: G02B5/3016 , G02F2001/133538
摘要: The invention is a method for creating a micropolarizer, including providing a first plate having a first and a second surface, providing a second plate having a first and a second surface. Then coating a polyimide on each of the first surface of the two plates followed by rubbing the polyimide coated upon the first surface of the first plate along a predetermined direction and rubbing the polyimide coated upon the first surface of the second plate along a direction having a predetermined angle in relation to the predetermined direction. An alignment process includes aligning the first plate and the second plate having the first surface of the first plate and the first surface of the second plate facing each other thereby creating a space there between. In conclusion there is a filling of a liquid crystal material in the space whereby a cell, or film is created.
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5.
公开(公告)号:US20070195408A1
公开(公告)日:2007-08-23
申请号:US11518851
申请日:2006-09-11
申请人: Adam Divelbiss , David Swift
发明人: Adam Divelbiss , David Swift
CPC分类号: G09G3/346 , G02B26/008 , G02B26/0833 , G02B27/2207 , G02B27/225 , G02B27/2264 , G02B27/26 , G03B33/08 , G09G3/002 , G09G3/003 , G09G2310/0235 , G09G2320/0247 , H04N5/7458 , H04N9/3114 , H04N9/3188 , H04N13/10 , H04N13/139 , H04N13/15 , H04N13/189 , H04N13/194 , H04N13/239 , H04N13/286 , H04N13/324 , H04N13/332 , H04N13/334 , H04N13/337 , H04N13/341 , H04N13/359 , H04N13/363 , H04N13/365 , H04N13/398 , H04N19/597 , H04N2005/7466
摘要: The invention has two main embodiments, a first called column switching and blanking and a second embodiment called doubling. The first embodiment is a projector for displaying a stereoscopic image with projector using one or more digital micromirror devices positioned into a plurality of columns and rows. The projector itself includes a light source, an optical system, a video processing system and a data system for driving the micromirror devices. The data subsystem provides separate data to a plurality of column pairs of the micromirrors. The projector includes a stereoscopic control circuit having a first state of the control circuit for inputting a first eye view of the stereoscopic image and causing the micromirrors of a first column of each column pair to be in various on and off states during said first eye view of said stereoscopic image and for causing all of said micromirrors of a second column of each column pair to be in an off state during said first eye view of said stereoscopic image. A second state of the control circuit is used for inputting a second eye view of the stereoscopic image and causes the micromirrors of the second column of each column pair to be in various on and off states during the second eye view of the stereoscopic image and for causing all of the micromirrors of the first column of each column pair to be in an off state during the second eye view of said stereoscopic image. The second embodiment is a projector for displaying a stereoscopic image with the projector using one or more digital micromirror devices positioned into a plurality of columns and rows. The projector includes a light source, an optical system, a video processing system and a data system for driving said micromirror devices. The data subsystem provides separate data to a plurality of column pairs of the micromirrors. The projector includes a stereoscopic control circuit having a first state for inputting a first eye view of the stereoscopic image and causing each micromirror of each column pair to be in various but identical on and off states during said first eye view of said stereoscopic image. A second state of the control circuit for inputs a second eye view of the stereoscopic image and causes each micromirror of each column pair to be in various but identical on and off states during the second eye view of the stereoscopic image.
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