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    • 2. 发明公开
    • Device for providing a real-time live video data stream file and method thereof
    • 装置,用于提供实时视频流文件及其方法
    • EP2611188A2
    • 2013-07-03
    • EP12186952.3
    • 2012-10-02
    • AmTRAN Technology Co., Ltd.
    • Tseng, Chiung-WenChen, Yu-JenWei, Wen-Kang
    • H04N21/231H04N21/2343
    • H04N21/2343H04N21/440236H04N21/6379
    • A device (100, 200) providing a real-time live video data stream file includes a memory (104), a processor (106), and a buffer (108). The memory (104) stores a first video file (1042). The processor (106) is used for receiving a first access command generated by a Universal Plug and Play client device (112) for accessing the first video file (1042), and converting an original real-time video data stream to a real-time video data stream file with a predetermined format according to the first access command. The buffer (108) is used for storing the real-time video data stream file temporarily. Therefore, the real-time video data stream file stored in the buffer (108) can be accessed and played by the Universal Plug and Play client device (112).
    • 提供实时直播视频数据流文件的装置(100,200)包括存储器(104),处理器(106),和缓冲液(108)。 存储器(104)存储的第一视频文件(1042)。 该处理器(106),用于接收由通用即插即用产生的第一存取指令和用于访问所述第一视频文件(1042),并转换成原来的实时视频数据流,以实时播放的客户端设备(112) 视频数据流文件的预定格式gemäß向第一接入命令。 缓冲器(108)被用于临时存储所述实时视频数据流文件。 因此,存储在缓冲器(108)的实时视频数据流文件可以被访问并通过通用即插即用播放用客户端装置(112)。
    • 3. 发明公开
    • Optical communication device
    • 光通信设备
    • EP2028512A3
    • 2009-03-04
    • EP08013508.0
    • 2008-07-26
    • AmTRAN Technology Co. Ltd.
    • Wen-Ping, Yu
    • G02B6/42H01S5/022H01S5/40H01S5/0683H04B10/04H04B10/24H01L33/00
    • G02B6/4204G02B6/4246G02B6/4249H01L2224/48091H01S5/02252H01S5/02284H01S5/0683H01S5/4025H01L2924/00014
    • The present invention provides an optical communication device, which includes a base (30), an optical fiber module (32), a first submount (34), a second submount (36), a first light emitter (38), and a second light emitter (40). The base thereon defines a first reference axis (300) and has a receptacle portion formed at the first reference axis. The optical fiber module is mounted in the receptacle portion and includes an optical fiber. The first submount and the second submount are mounted on the base at the first reference axis. The first light emitter is mounted on the first submount and optically coupled to the optical fiber. The second light emitter is mounted on the second submount and optically coupled to the optical fiber. The first submount (34) is disposed between the second submount (36) and the optical fiber module (32) and is adjacent to the second submount (36). The height of the second submount (36) is higher than that of the first submount (34).
    • 本发明提供一种光通信装置,其包括基座(30),光纤模块(32),第一基座(34),第二基座(36),第一光发射器(38)和第二光发射器 光发射器(40)。 其上的基座限定了第一参考轴线(300)并且具有形成在第一参考轴线处的容座部分。 光纤模块安装在插座部分中并包括光纤。 第一基台和第二基台安装在第一基准轴的基座上。 第一光发射器安装在第一基台上并光耦合到光纤。 第二光发射器安装在第二基台上并光耦合到光纤。 第一基座(34)设置在第二基座(36)与光纤模块(32)之间并且与第二基座(36)相邻。 第二基台(36)的高度高于第一基台(34)的高度。
    • 7. 发明公开
    • Touch control method
    • Berührungssteuerungsverfahren
    • EP2613246A2
    • 2013-07-10
    • EP12188022.3
    • 2012-10-10
    • AmTRAN Technology Co., Ltd.
    • Chao, Kuang-ChengHuang, Ying-Wen
    • G06F3/0488G06F3/041
    • G06F3/0488G06F3/0416
    • A touch control method is disclosed. The steps of the touch control method include: detecting a first and a second finger print areas generated according to a touching action by a user on the touch panel; calculating a first angle between the first finger print area and a first reference axis and a second angle between the second finger print area and a second reference axis respectively; judging whether each of the first and the second finger print areas corresponding to the touching action is performed by a first hand or a second hand of the user according to the first and the second angles; and controlling a movement of a cursor under an absolute coordinate according to the touching action of the user's first hand, and controlling a movement of the cursor under a relative coordinate according to the touching action of the user's second hand.
    • 公开了一种触摸控制方法。 触摸控制方法的步骤包括:根据触摸面板上的用户的触摸动作来检测产生的第一和第二指纹区域; 分别计算第一指纹区域和第一参考轴线之间的第一角度和第二指纹区域与第二参考轴线之间的第二角度; 根据第一和第二角度判断用户的第一只手或第二只手执行与触摸动作相对应的第一和第二指纹区域中的每一个; 以及根据用户的第一只手的触摸动作来控制光标在绝对坐标下的移动,并且根据用户的二手的触摸动作控制光标在相对坐标下的移动。
    • 8. 发明公开
    • Display device having directional antenna
    • Anzeigevorrichtung mit Richtantenne
    • EP2525440A1
    • 2012-11-21
    • EP12168462.5
    • 2012-05-18
    • AmTRAN Technology Co., Ltd.
    • Liang, Jia-HaurYu, Wen-Ping
    • H01Q9/06H01Q9/28H01Q19/10H01Q19/28H01Q21/30
    • H01Q9/065H01Q9/285H01Q19/108H01Q19/28H01Q21/30
    • A display device (100, 200, 300, 400, 500, 600, 700) includes a display panel (10) and a directional antenna (20). The directional antenna is disposed behind or under the display panel (10) for radiating or receiving wireless signals. The radiating path of the directional antenna (20) is at a specific angle with respect to a horizontal plane for receiving surrounding wireless signals. Or, the signals radiated from the directional antenna (20) may be reflected or refracted to regions above or in front of the display device (100, 200, 300, 400, 500, 600, 700) by a back-side barrier (70) or penetrate a back-side barrier (70) which does not cause large electromagnetic degradation, thereby receiving wireless signals originated from the front-side or back-side of the display device (100, 200, 300, 400, 500, 600, 700).
    • 显示装置(100,200,300,400,500,600,700)包括显示面板(10)和定向天线(20)。 定向天线设置在显示面板(10)的下方或下方,用于辐射或接收无线信号。 定向天线(20)的辐射路径相对于用于接收周围无线信号的水平面处于特定角度。 或者,从定向天线(20)辐射的信号可以通过背面屏障(70)反射或折射到显示装置(100,200,300,400,500,600,700)的上方或前方的区域 )或穿透不会引起大的电磁劣化的背面侧壁(70),从而接收从显示装置(100,200,300,400,500,600,600,600,600)的起始侧的无线信号, 700)。
    • 9. 发明公开
    • Bidirectional HDCP-based data transmission apparatus using single optical fiber
    • 基于双向HDCP的数据传输装置采用单根光纤
    • EP2051412A3
    • 2009-12-02
    • EP08016332.2
    • 2008-09-17
    • AmTRAN Technology Co. Ltd.
    • Yu, Wen-Ping
    • H04B10/24
    • H04B10/2503H04B10/40
    • The present invention provides a bidirectional HDCP-based data transmission apparatus using an optical fiber which includes a core having a first facet and a second facet. The bidirectional HDCP-based data transmission apparatus includes a forward transmission module and a backward transmission module. The forward transmission module is used for emitting at least two forward light signals into a first end of a core of the optical fiber when being driven. Afterward, the at least two forward light signals are transmitted over the optical fiber immediately. The backward transmission module is used for receiving the at least two forward light signals transmitted over the optical fiber and emitting at least one backward light signal into a second end of the core of the optical fiber when being driven. Then, the backward light signal is immediately transmitted over the optical fiber, wherein the forward transmission module also receives the at least one backward light signal transmitted over the optical fiber.
    • 本发明提供了一种使用光纤的基于双向HDCP的数据传输装置,该光纤包括具有第一刻面和第二刻面的核心。 基于双向HDCP的数据传输装置包括前向传输模块和后向传输模块。 正向传输模块用于在驱动时将至少两个前向光信号发射到光纤芯的第一端。 之后,至少两个前向光信号立即在光纤上传输。 反向传输模块用于接收通过光纤传输的至少两个前向光信号,并在被驱动时向光纤的纤芯的第二端发射至少一个反向光信号。 然后,反向光信号立即通过光纤传输,其中正向传输模块还接收通过光纤传输的至少一个反向光信号。
    • 10. 发明公开
    • Bidirectional HDCP-based data transmission apparatus using single optical fiber
    • 在单个光纤进行双向基于HDCP的数据传输的装置
    • EP2051412A2
    • 2009-04-22
    • EP08016332.2
    • 2008-09-17
    • AmTRAN Technology Co. Ltd.
    • Yu, Wen-Ping
    • H04B10/00
    • H04B10/2503H04B10/40
    • The present invention provides a bidirectional HDCP-based data transmission apparatus using an optical fiber which includes a core having a first facet and a second facet. The bidirectional HDCP-based data transmission apparatus includes a forward transmission module and a backward transmission module. The forward transmission module is used for emitting at least two forward light signals into a first end of a core of the optical fiber when being driven. Afterward, the at least two forward light signals are transmitted over the optical fiber immediately. The backward transmission module is used for receiving the at least two forward light signals transmitted over the optical fiber and emitting at least one backward light signal into a second end of the core of the optical fiber when being driven. Then, the backward light signal is immediately transmitted over the optical fiber, wherein the forward transmission module also receives the at least one backward light signal transmitted over the optical fiber.
    • 本发明的使用光纤,其包括具有第一面和第二面的芯提供一个双向基于HDCP的数据传输装置。 双向基于HDCP的数据传输设备包括:前向传输模块和后向传输模块。 正向传输模块,用于发射至少两个前进光信号到光纤的芯的第一端部被驱动时。 之后,所述至少两个前向光信号通过紧接在光纤反mitted。 反向传输模块,用于接收所述至少两个前进光信号反mitted在光纤和发射至少一个后向光信号到光纤的芯部的第二端部被驱动时。 然后,后向光信号是立即反式mitted在光纤,worin正向传输模块,以便接收通过所述的光纤的至少一个后向光信号的反式mitted。