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    • 3. 发明授权
    • Communication apparatus, communication system, and time synchronization method
    • 通信设备,通信系统和时间同步方法
    • US09154292B2
    • 2015-10-06
    • US14419428
    • 2012-11-28
    • Jun Mizuguchi
    • Jun Mizuguchi
    • H04L7/00H04B7/185
    • H04L7/0012H04B7/18513H04J3/0667
    • A communication apparatus (a slave) that performs time synchronization with a master apparatus on the basis of a time synchronization message transmitted from the master apparatus (a master) at a fixed cycle. The communication apparatus (the slave) includes a CPU that stores, in a transmission request message for requesting transmission of the time synchronization message, a requesting transmission rate, and transmits the transmission request message to the communication apparatus (the master). The CPU calculates time synchronization accuracy, which is a difference between time of the master apparatus and time of its own apparatus, on the basis of the time synchronization message; determines on the basis of the time synchronization accuracy whether the requesting transmission rate is changed; and, transmits, if it is determined that the requesting transmission rate is changed, the transmission request message, in which the changed requesting transmission rate is stored, to the communication apparatus (the master).
    • 根据从主装置(主装置)以固定周期发送的时间同步消息,与主装置执行时间同步的通信装置(从装置)。 通信装置(从设备)包括CPU,其在用于请求发送时间同步消息的传输请求消息中存储请求传输速率,并将传输请求消息发送到通信装置(主设备)。 CPU基于时间同步消息计算时间同步精度,其是主设备的时间与其本身设备的时间之间的差; 基于时间同步精度确定请求传输速率是否改变; 并且如果确定请求传输速率被改变,则发送请求传输速率被改变的传输请求消息发送到通信设备(主设备)。
    • 4. 发明授权
    • Relay device, station-side optical communication device, communication system, and bandwidth allocation method
    • 中继设备,站侧光通信设备,通信系统和带宽分配方法
    • US09112612B2
    • 2015-08-18
    • US13819781
    • 2010-12-27
    • Jun MizuguchiYoshifumi HottaKoshi Sugimura
    • Jun MizuguchiYoshifumi HottaKoshi Sugimura
    • H04B10/29H03J3/06H04Q11/00H04J3/06
    • H04B10/29H04J3/0655H04Q11/0067H04Q11/0071H04Q2011/0064H04Q2011/0088
    • A relay device that relays communication between a low-speed communication device performing uplink 1 G transfer and a high-speed communication device performing uplink 10 G transfer and a station-side optical communication device, wherein the relay device includes a low-speed reception unit that converts an optical signal received from the low-speed communication device to an electric signal, a buffer that buffers the electric signal, and a high-speed transmission unit that transmits, to the station-side optical communication device, a bandwidth allocation request requesting bandwidth allocation for communication from its own unit to the station-side optical communication device, and within a transmission permitted time period allocated by the station-side optical communication device, reads an electric signal stored in the buffer, converts the electric signal to an optical signal having a communication speed of 10 G, and transmits the optical signal.
    • 一种中继设备,用于中继执行上行链路G传送的低速通信设备与执行上行链路10G传输的高速通信设备和站侧光通信设备之间的通信,其中所述中继设备包括低速接收单元 其将从低速通信装置接收的光信号转换为电信号,缓冲电信号的缓冲器以及向站台光通信装置发送请求的带宽分配请求的高速发送部 用于从其单元到站侧光通信设备的通信的带宽分配,并且在由站侧光通信设备分配的传输允许时间段内,读取存储在缓冲器中的电信号,将电信号转换为光 信号的通信速度为10G,并发送光信号。
    • 5. 发明申请
    • COMMUNICATION APPARATUS, COMMUNICATION SYSTEM, AND TIME SYNCHRONIZATION METHOD
    • 通信设备,通信系统和时间同步方法
    • US20150188691A1
    • 2015-07-02
    • US14419428
    • 2012-11-28
    • Jun Mizuguchi
    • Jun Mizuguchi
    • H04L7/00H04B7/185
    • H04L7/0012H04B7/18513H04J3/0667
    • A communication apparatus (a slave) that performs time synchronization with a master apparatus on the basis of a time synchronization message transmitted from the master apparatus (a master) at a fixed cycle. The communication apparatus (the slave) includes a CPU that stores, in a transmission request message for requesting transmission of the time synchronization message, a requesting transmission rate, and transmits the transmission request message to the communication apparatus (the master). The CPU calculates time synchronization accuracy, which is a difference between time of the master apparatus and time of its own apparatus, on the basis of the time synchronization message; determines on the basis of the time synchronization accuracy whether the requesting transmission rate is changed; and, transmits, if it is determined that the requesting transmission rate is changed, the transmission request message, in which the changed requesting transmission rate is stored, to the communication apparatus (the master).
    • 根据从主装置(主装置)以固定周期发送的时间同步消息,与主装置执行时间同步的通信装置(从装置)。 通信装置(从设备)包括CPU,其在用于请求发送时间同步消息的传输请求消息中存储请求传输速率,并将传输请求消息发送到通信装置(主设备)。 CPU基于时间同步消息计算时间同步精度,其是主设备的时间与其本身设备的时间之间的差; 基于时间同步精度确定请求传输速率是否改变; 并且如果确定请求传输速率被改变,则发送请求传输速率被改变的传输请求消息发送到通信设备(主设备)。
    • 8. 发明申请
    • RELAY DEVICE, STATION-SIDE OPTICAL COMMUNICATION DEVICE, COMMUNICATION SYSTEM, AND BANDWIDTH ALLOCATION METHOD
    • 继电器件,站立光通信设备,通信系统和带宽分配方法
    • US20130177314A1
    • 2013-07-11
    • US13819781
    • 2010-12-27
    • Jun MizuguchiYoshifumi HottaKoshi Sugimura
    • Jun MizuguchiYoshifumi HottaKoshi Sugimura
    • H04B10/29
    • H04B10/29H04J3/0655H04Q11/0067H04Q11/0071H04Q2011/0064H04Q2011/0088
    • A relay device that relays communication between a low-speed communication device performing uplink 1 G transfer and a high-speed communication device performing uplink 10 G transfer and a station-side optical communication device, wherein the relay device includes a low-speed reception unit that converts an optical signal received from the low-speed communication device to an electric signal, a buffer that buffers the electric signal, and a high-speed transmission unit that transmits, to the station-side optical communication device, a bandwidth allocation request requesting bandwidth allocation for communication from its own unit to the station-side optical communication device, and within a transmission permitted time period allocated by the station-side optical communication device, reads an electric signal stored in the buffer, converts the electric signal to an optical signal having a communication speed of 10 G, and transmits the optical signal.
    • 一种中继设备,用于中继执行上行链路G传送的低速通信设备与执行上行链路10G传输的高速通信设备和站侧光通信设备之间的通信,其中所述中继设备包括低速接收单元 其将从低速通信装置接收的光信号转换为电信号,缓冲电信号的缓冲器以及向站台光通信装置发送请求的带宽分配请求的高速发送部 用于从其单元到站侧光通信设备的通信的带宽分配,并且在由站侧光通信设备分配的传输允许时间段内,读取存储在缓冲器中的电信号,将电信号转换为光 信号的通信速度为10G,并发送光信号。