会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明申请
    • ENCODING METHOD AND APPARATUS AND DECODING METHOD AND APPARATUS
    • 编码方法和装置和解码方法和装置
    • US20100174989A1
    • 2010-07-08
    • US12311835
    • 2007-10-19
    • Tae Hyeon KimHyouk Jean Cha
    • Tae Hyeon KimHyouk Jean Cha
    • G06F17/30G06F3/048
    • H04N21/235H04N21/435H04N21/44204H04N21/44222H04N21/482H04N21/4884H04N21/84H04N21/8456H04N21/85406
    • The disclosed embodiments relate to a multimedia data encoding/decoding method and apparatus. In some aspects, a decoding method comprises receiving multimedia data which comprises a media area including a video data area and an audio data area; a media information area including a video track area and an audio track area respectively corresponding to the video data area and the audio data area respectively; and a menu description area including description data for displaying a menu that provides an interface between a user and media data in the media area; displaying a menu using the description data for a menu with an animation effect; and decoding a media data extracted from the media area based on the displayed menu, wherein the media information area further comprises segment metadata for searching segments of the media data included in the media area, the segment metadata having information regarding one or more segment groups which the segments are classified into, and the media information area and the menu description area are incorporated into a single file. The disclosed embodiments include a multimedia data encoding/decoding method and apparatus can construct a multi media data file including a plurality of video/audio contents and description data for a menu between a user and media data. Thus, a time taken to process and transmit the multimedia data can be reduced.
    • 所公开的实施例涉及多媒体数据编码/解码方法和装置。 在一些方面,一种解码方法包括接收多媒体数据,该多媒体数据包括包括视频数据区和音频数据区的媒体区; 分别包括分别对应于视频数据区域和音频数据区域的视频轨道区域和音频轨道区域的媒体信息区域; 以及菜单描述区,包括用于显示在媒体区域中提供用户和媒体数据之间的接口的菜单的描述数据; 使用具有动画效果的菜单的描述数据显示菜单; 以及基于所显示的菜单对从所述媒体区域提取的媒体数据进行解码,其中,所述媒体信息区域还包括用于搜索包括在所述媒体区域中的媒体数据的片段的片段元数据,所述片段元数据具有关于一个或多个片段组的信息, 这些段被分类为,并且媒体信息区域和菜单描述区域被合并到单个文件中。 所公开的实施例包括多媒体数据编码/解码方法和装置可以构建包括用户和媒体数据之间的菜单的多个视频/音频内容和描述数据的多媒体数据文件。 因此,可以减少处理和发送多媒体数据所需的时间。
    • 6. 发明申请
    • Method and Apparatus for Encoding/Decoding
    • 用于编码/解码的方法和装置
    • US20090138512A1
    • 2009-05-28
    • US12083340
    • 2006-10-13
    • Tae Hyeon KimHyouk Jean Cha
    • Tae Hyeon KimHyouk Jean Cha
    • G06F17/30
    • H04N21/84G11B27/105H04N21/23412H04N21/44012H04N21/8153H04N21/85406
    • The present invention relates to a multimedia data decoding method and apparatus. The decoding method includes generating a data area comprising a first media data area, a second media data area, and a third media data area, and generating a media information area comprising first, second, and third track areas each corresponding to the first, second, and third media data areas. According to the present invention, the multimedia data decoding method and apparatus has an effect of being capable of constructing a slide show by only a small amount of multimedia data. Thus, a time taken to process and transmit the multimedia data can reduce.
    • 多媒体数据解码方法和装置技术领域本发明涉及一种多媒体数据解码方法和装置。 解码方法包括生成包括第一媒体数据区域,第二媒体数据区域和第三媒体数据区域的数据区域,以及生成包括第一,第二和第三轨道区域的媒体信息区域,每个区域对应于第一,第二媒体数据区域 和第三媒体数据区。 根据本发明,多媒体数据解码方法和装置具有能够仅通过少量的多媒体数据来构建幻灯片放映的效果。 因此,可以减少处理和传输多媒体数据所需的时间。
    • 9. 发明授权
    • Array of micromirror array lenses
    • 阵列微镜阵列透镜
    • US07161729B2
    • 2007-01-09
    • US10857714
    • 2004-05-28
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B26/00G02B26/08G02B5/08G02B5/10G02B7/182
    • G02B26/0833
    • An array of micromirror array lenses is invented. The micromirror array lens consists of many micromirrors and actuating components. Each micromirror array lens is variable focal length lens with high speed focal length change. The lens can have arbitrary type and/or size as desired and desired arbitrary optical axis and can correct aberration by controlling each micromirror independently. Independent control of each micromirror is possible by known microelectronics technologies. The actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The known microelectronics technologies remove the loss in effective reflective area due to electrode pads and wires.
    • 发明了一种微镜阵列透镜阵列。 微镜阵列透镜由许多微镜和致动部件组成。 每个微镜阵列透镜是具有高速焦距变化的可变焦距透镜。 透镜可以根据需要和期望的任意光轴具有任意类型和/或尺寸,并且可以通过独立地控制每个微镜来校正像差。 通过已知的微电子技术可以实现每个微镜的独立控制。 致动部件静电和/或电磁控制微镜的位置。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 已知的微电子技术消除了由于电极焊盘和电线导致的有效反射区域的损失。
    • 10. 发明授权
    • Variable focal length lens comprising micromirrors with one degrees of freedom rotation and one degree of freedom translation
    • 可变焦距镜头包括具有一个自由度旋转和一个自由度平移的微镜
    • US06934073B1
    • 2005-08-23
    • US10857796
    • 2004-05-28
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B26/06G02B26/08G02B26/00
    • G02B26/0833G02B26/06Y10S359/904
    • A micromirror array lens consists of many micromirrors with one degree of freedom rotation and one degree of freedom translation and actuating components. As a reflective variable focal length lens, the array of micromirrors makes all lights scattered from one point of an object have the same periodic phase and converge at one point of image plane. As operational methods for the lens, the actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The known semiconductor microelectronics technologies can remove the loss in effective reflective area due to electrode pads and wires. The lens can correct aberration by controlling each micromirror independently. Independent control of each micromirror is possible by known semiconductor microelectronics technologies.
    • 微镜阵列透镜由许多具有一个自由度旋转和一个自由度平移和致动部件的微镜组成。 作为反射可变焦距透镜,微镜阵列使得从物体的一个点散射的所有光具有相同的周期相位并且在像平面的一个点处会聚。 作为透镜的操作方法,致动部件静电和/或电磁地控制微镜的位置。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 已知的半导体微电子技术可以消除由于电极焊盘和电线引起的有效反射区域的损耗。 透镜可以通过独立控制每个微镜来校正像差。 通过已知的半导体微电子技术,每个微镜的独立控制是可能的。