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    • 1. 发明申请
    • CONTENT DELIVERY SYSTEM USING WIRELESS PORTABLE TERMINAL AND DELIVERY METHOD THEREFOR
    • 使用无线便携式终端的内容传送系统及其传送方法
    • US20100064050A1
    • 2010-03-11
    • US12514844
    • 2007-11-14
    • Kenichi MaruhashiShuya Kishimoto
    • Kenichi MaruhashiShuya Kishimoto
    • G06F13/00H04B10/10H04B10/105H04B10/22H04M3/42
    • H04L67/28H04L67/2842H04L67/289H04W12/06
    • To reduce time to point a directional wireless portable terminal (WPT) to an access point (AP) when data is downloaded from the AP to the WPT, a user points the WPT to the AP, performs a first operation and transmits a request of authentication and download to the AP. The AP requests a server to perform the authentication and the download. The server transmits information on a current situation to the AP. The AP calculates time required until the download can be started based on content capacity and the like and transmits information on the calculated time to the WPT. The WPT displays countdown until the download can be started. During that time, the server performs the authentication and, if successful, delivers content to the AP. When the download can begin, the user performs a second operation and transmits a request of re-authentication and download to the AP.
    • 为了在数据从AP下载到WPT时减少定向无线便携式终端(WPT)到接入点(AP)的时间,用户将WPT指向AP,执行第一操作并发送认证请求 并下载到AP。 AP请求服务器执行认证和下载。 服务器将当前情况的信息发送给AP。 AP计算基于内容容量等开始下载的时间,并将计算出的时间的信息发送给WPT。 WPT显示倒计时,直到下载开始。 在此期间,服务器执行身份验证,如果成功,则向AP提供内容。 当下载开始时,用户执行第二操作,并向AP发送重新认证和下载的请求。
    • 2. 发明申请
    • DEMODULATION CIRCUIT, IC, AND COMMUNICATION DEVICE
    • 解调电路,IC和通信设备
    • US20080013963A1
    • 2008-01-17
    • US11772879
    • 2007-07-03
    • Hitoshi NaoeFumihiro FukaeKoji SakaiShohei Ohsawa
    • Hitoshi NaoeFumihiro FukaeKoji SakaiShohei Ohsawa
    • H03K5/125H04B10/10H04B10/105H04B10/22
    • H03K5/1252H04B10/1121H04B10/1141H04L7/04
    • The demodulation circuit of the present invention is a demodulation circuit, connected with a plurality of light-receiving sections each for receiving an optical signal and converting the signal into a binary pulse signal, operable to select and demodulate a pulse signal out of pulse signals that are supplied from the light-receiving sections, respectively, the demodulation circuit including: a judgment and selection section for detecting timing with which High level and Low level of each of the pulse signals are switched and for selecting at least one pulse signal based on the timing; and a demodulation section for demodulating the pulse signal selected by the judgment and selection section. Consequently, the demodulation circuit easily selects and demodulates a signal whose jitter component is small out of a plurality of supplied signals.
    • 本发明的解调电路是一个解调电路,与多个光接收部分连接,每个光接收部分用于接收光信号并将信号转换为二进制脉冲信号,可操作以从脉冲信号中选出和解调出脉冲信号, 分别从光接收部分提供解调电路,该解调电路包括:判断和选择部分,用于检测每个脉冲信号的高电平和低电平被切换的定时,并且用于基于该信号选择至少一个脉冲信号 定时; 以及解调部分,用于解调由判断和选择部分选择的脉冲信号。 因此,解调电路容易地从多个提供的信号中选择并解调其抖动分量小的信号。
    • 3. 发明授权
    • Ring architecture for an optical satellite communication network with passive optical routing
    • 用于具有无源光路由的光学卫星通信网络的环形架构
    • US06912075B1
    • 2005-06-28
    • US09313428
    • 1999-05-17
    • Stanislav I. IonovGeorge C. Valley
    • Stanislav I. IonovGeorge C. Valley
    • H04B10/00H04B10/105
    • H04B10/118
    • A node for satellite system communications between a ground station and a satellite includes a fiber optic bus on the satellite. An optical drop is coupled to the bus. The optical drop resolves an optical signal destined to the given satellite from the optical bus. An uplink and downlink receive and transmit communications from a ground terminal. A router is coupled to the optical drop and the uplink and downlink. An address reader and a table are used by the router to determine the destination of the received RF signals. The received RF signals are converted to optical signals by an optical source. The optical source has a wavelength that corresponds with the destination satellite. The optical signals are transmitted to an adjacent satellite by an optical transmitter such as a transmitting telescope.
    • 地面站与卫星之间的卫星系统通信节点包括卫星上的光纤总线。 光滴连接到总线。 光学液滴从光学总线中分辨去往给定卫星的光学信号。 上行链路和下行链路从接地终端接收和发送通信。 路由器耦合到光滴和上行链路和下行链路。 路由器使用地址读取器和表来确定接收的RF信号的目的地。 所接收的RF信号由光源转换成光信号。 光源具有与目的地卫星相对应的波长。 光信号通过诸如发射望远镜的光发射机发射到相邻的卫星。
    • 9. 发明授权
    • Communication protocol for half-duplex traffic
    • 半双工业务通信协议
    • US5914796A
    • 1999-06-22
    • US722751
    • 1996-10-01
    • Markku Selin
    • Markku Selin
    • H04B10/10H04B10/105H04B10/22H04J14/08H04L12/28H04L29/08H04Q7/38H04B10/00
    • H04B10/1143H04J14/08
    • The invention relates to a communication protocol with the aid of which a half-duplex type data transfer link is arranged between two devices, advantageously a mobile telephone (3) and a data adapter (2) in a computer (1). The link can be in a transfer mode, when data being transferred and control messages (CM) are passed between the devices, or an idle mode, when control messages (CM1, CM2, CM1', CM2') are passed between the devices. In idle mode the timing of the transmission of control messages is free and if two messages (CM1, CM2) collide, i.e. are transmitted simultaneously, they are re-transmitted (CM1', CM2') after time intervals of different duration. In transfer mode mobile telephone (3) regularly transmits a single frame (DATA) decoded by it and immediately before that a possible control message (CM). Data adapter (2) transmits a frame (DATA) every time it receives a frame transmitted by the mobile telephone and immediately after trans-mitting the frame transmits a possible control message (CM). A device can be switched into a sleep mode, in which it receives only for a short time (T2) at regular intervals (T1). A device in sleep mode can be woken up by a wake-up signal.
    • 本发明涉及一种通信协议,借助于此,半双工型数据传输链路被布置在计算机(1)中的两个设备之间,有利地是移动电话(3)和数据适配器(2)之间。 当在设备之间传递控制消息(CM1,CM2,CM1',CM2')时,当传输数据和控制消息(CM)在设备之间传递时,链路可以处于传送模式。 在空闲模式下,控制消息传输的定时是空闲的,并且如果两个消息(CM1,CM2)冲突,即同时发送,则它们在不同持续时间的时间间隔之后重新发送(CM1',CM2')。 在传输模式中,移动电话(3)定期发送由其解码的单帧(DATA),并且紧接在可能的控制消息(CM)之前。 数据适配器(2)每当接收到由移动电话发送的帧并且在发送之后立即发送可能的控制消息(CM)时,发送帧(DATA)。 设备可以切换到休眠模式,其中它以规则的间隔(T1)仅接收短时间(T2)。 休眠模式下的设备可以通过唤醒信号唤醒。