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
    • 3. 发明授权
    • Spread code generation device for spread spectrum communication
    • 用于扩频通信的扩频码生成装置
    • US5631922A
    • 1997-05-20
    • US426254
    • 1995-04-21
    • Kiyoki SekineToshio KatoManabu KawabeTakuro Sato
    • Kiyoki SekineToshio KatoManabu KawabeTakuro Sato
    • H04B1/707H04J13/10H04B15/00H04K1/00H04L27/30
    • H04J13/16
    • There is disclosed a spread code generation device for spread spectrum communication wherein an input data is modulated so as to be spread by a spread code having a first period. The device includes a long period PN code generator for generating a spread code having a second period longer than the first period, an initial state register for storing an initial phase of the spread code having the first period output from the long period PN code generator and for outputting the initial phase to the long period PN code generator, and a counter for receiving and computing the spread code output from the long period PN code generator and for outputting a trigger signal to the initial state register when the computed spread code reaches the first period. The initial state register outputs the initial phase to the long period PN code generation in response to the trigger signal from the counter. The long period PN code generator is reset to the initial phase when the initial phase is input to the long period PN code generator, whereby the spread code having the first period is output from the counter.
    • 公开了一种用于扩展频谱通信的扩展码生成装置,其中输入数据被调制以便由具有第一周期的扩展码扩展。 该装置包括:长周期PN码发生器,用于产生具有比第一周期长的第二周期的扩展码;初始状态寄存器,用于存储具有从长周期PN码发生器输出的第一周期的扩展码的初始相位;以及 用于将初始相位输出到长周期PN码发生器,以及计数器,用于接收和计算从长周期PN码发生器输出的扩展码,并且当计算出的扩展码到达第一个时,输出触发信号到初始状态寄存器 期。 初始状态寄存器响应于来自计数器的触发信号将初始相位输出到长周期PN码产生。 当初始相位输入到长周期PN码发生器时,长周期PN码发生器被复位到初始相位,从而从计数器输出具有第一周期的扩展码。
    • 8. 发明授权
    • Mobile communication system for accomplishing handover with phase difference of frame sync signals corrected
    • 用于完成帧同步信号的相位差的切换的移动通信系统被校正
    • US06975607B2
    • 2005-12-13
    • US09854514
    • 2001-05-15
    • Kiyoki SekineManabu KawabeKenji Horiguchi
    • Kiyoki SekineManabu KawabeKenji Horiguchi
    • H04W36/08H04W36/18H04Q7/00
    • H04W36/18H04W36/08
    • A method of switching a communication channel when a mobile station moves from one service area to another service area is disclosed. The mobile station determines a difference between the transmission phase of a frame synchronizing signal received from a first base station currently holding a communication channel with the mobile station and the transmission phase of a frame synchronizing signal received from a second base station expected to newly set up a communication channel with the mobile station. The mobile station sends phase difference information representative of the above difference to the first base station via the communication channel. The first base station having received the phase difference information transfers the information to the second base station, causing it to correct the phase of data thereof to be sent to the mobile station. This successfully implements soft handover while guaranteeing the phase synchronization of frames sent from the two base stations.
    • 公开了当移动台从一个服务区域移动到另一个服务区域时切换通信信道的方法。 移动站确定从当前保持通信信道的第一基站接收到的帧同步信号的发送相位与移动台之间的差异以及从预期新设置的第二基站接收的帧同步信号的发送相位 与移动台的通信信道。 移动台经由通信信道向第一基站发送表示上述差异的相位差信息。 已经接收到相位差信息的第一基站将信息传送到第二基站,使其校正要发送给移动台的数据的相位。 这成功地实现了软切换,同时保证了从两个基站发送的帧的相位同步。
    • 9. 发明授权
    • Mobile communication system for accomplishing handover with phase difference of frame sync signals corrected
    • 用于完成帧同步信号的相位差的切换的移动通信系统被校正
    • US06259683B1
    • 2001-07-10
    • US08956125
    • 1997-10-22
    • Kiyoki SekineManabu KawabeKenji Horiguchi
    • Kiyoki SekineManabu KawabeKenji Horiguchi
    • H04J306
    • H04W36/18H04W36/08
    • A method of switching a communication channel when a mobile station moves from one service area to another service area is disclosed. The mobile station determines a difference between the transmission phase of a frame synchronizing signal received from a first base station currently holding a communication channel with the mobile station and the transmission phase of a frame synchronizing signal received from a second base station expected to newly set up a communication channel with the mobile station. The mobile station sends phase difference information representative of the above difference to the first base station via the communication channel. The first base station having received the phase difference information transfers the information to the second base station, causing it to correct the phase of data thereof to be sent to the mobile station. This successfully implements soft handover while guaranteeing the phase synchronization of frames sent from the two base stations.
    • 公开了当移动台从一个服务区域移动到另一个服务区域时切换通信信道的方法。 移动站确定从当前保持通信信道的第一基站接收到的帧同步信号的发送相位与移动台之间的差异以及从预期新设置的第二基站接收的帧同步信号的发送相位 与移动台的通信信道。 移动台经由通信信道向第一基站发送表示上述差异的相位差信息。 已经接收到相位差信息的第一基站将信息传送到第二基站,使其校正要发送给移动台的数据的相位。 这成功地实现了软切换,同时保证了从两个基站发送的帧的相位同步。
    • 10. 发明授权
    • Communication system, transmitter and receiver
    • 通信系统,发射机和接收机
    • US6137825A
    • 2000-10-24
    • US41108
    • 1998-03-12
    • Kiyoki SekineManabu Kawabe
    • Kiyoki SekineManabu Kawabe
    • H04J13/00H04K1/00
    • H04J13/0077H04B1/707H04B2201/70701
    • Differences between two adjacent bits of connection control data are derived in sequence. The derived differences are logically combined with a pilot signal and simultaneously with user data. The logically combined signals are spread to spreading bands and added to each other. The added signal is used as a modulating signal and transmitted through phase shift keying (PSK). Thereafter, the PSK modulated carrier is demodulated to derive the modulating signal. The modulating signal is despread to derive a user signal. The user signal includes the user data and the foregoing differences. The modulating signal is further despread to derive the pilot signal with the foregoing differences included. The pilot signal with the foregoing differences is subjected to a conjugate conversion and then multiplied by the user signal so that the foregoing differences are removed from the user signal to obtain the user data. The connection control data is reconstructed from the foregoing differences included in the pilot signal.
    • 连接控制数据的两个相邻位之间的差异依次导出。 导出的差异与导频信号逻辑组合,并与用户数据同时进行。 逻辑组合的信号被扩展到扩展频带并相互添加。 添加的信号用作调制信号,并通过相移键控(PSK)传输。 此后,解调PSK调制载波以导出调制信号。 调制信号被解扩以导出用户信号。 用户信号包括用户数据和上述差异。 进一步解调调制信号以导出具有上述差异的导频信号。 具有上述差异的导频信号经历共轭转换,然后乘以用户信号,从而从用户信号中去除上述差异以获得用户数据。 从导频信号中包含的上述差异重构连接控制数据。