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公开(公告)号:US20180261926A1
公开(公告)日:2018-09-13
申请号:US15979342
申请日:2018-05-14
申请人: Gary D. SCHULZ , Paul ODLYZKO , John R. SANFORD , Christopher FAY , Jude LEE , Charles D. MACENSKI , Richard J. KENIUK , Lance D. LASCARI
发明人: Gary D. SCHULZ , Paul ODLYZKO , John R. SANFORD , Christopher FAY , Jude LEE , Charles D. MACENSKI , Richard J. KENIUK , Lance D. LASCARI
CPC分类号: H01Q15/16 , H01Q1/1228 , H01Q1/42 , H01Q3/26 , H01Q3/267 , H01Q19/134
摘要: Devices and systems, and methods of using them, for point-to-point transmission/communication of high bandwidth signals. Radio devices and systems may include a pair of reflectors (e.g., parabolic reflectors) that are adjacent to each other and configured so that one of the reflectors is dedicated for sending/transmitting information, and the adjacent reflector is dedicated for receiving information. Both reflectors may be in a fixed configuration relative to each other so that they are aligned to send/receive in parallel. In many variations the two reflectors are formed of a single housing, so that the parallel alignment is fixed, and reflectors cannot lose alignment. The device/systems may be configured to allow switching between duplexing modes. These devices/systems may be configured as wide bandwidth zero intermediate frequency radios including alignment modules for automatic alignment of in-phase and quadrature components of transmitted signals.
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公开(公告)号:US08611274B2
公开(公告)日:2013-12-17
申请号:US12797700
申请日:2010-06-10
IPC分类号: H04B7/212
CPC分类号: H04W72/1263
摘要: A communication system comprises a communication node for scheduling uplink and downlink transmissions in a communication system. The communication node determines based on a first set of parameters of a data associated with the communication node and a second set of parameters of a data associated with one other communication node, whether to load the data associated with the communication node from an end of a data queue buffer. The communication node upon determining to load the data associated with the communication node from the end of the data queue buffer, loads the data associated with the communication node from the end of the data queue buffer. The communication node further determines a start time for transmission of the data associated with the communication node and schedules transmission of the data associated with the communication node at the start time.
摘要翻译: 通信系统包括用于在通信系统中调度上行链路和下行链路传输的通信节点。 通信节点基于与通信节点相关联的数据的第一组参数和与另一个通信节点相关联的数据的第二组参数来确定是否从与所述通信节点的结尾加载与所述通信节点相关联的数据 数据队列缓冲区。 通信节点在确定从数据队列缓冲器的末端加载与通信节点相关联的数据时,从数据队列缓冲器的末尾加载与通信节点相关联的数据。 通信节点还确定用于传输与通信节点相关联的数据的开始时间,并且在开始时间调度与通信节点相关联的数据的传输。
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公开(公告)号:US20170098895A1
公开(公告)日:2017-04-06
申请号:US15289031
申请日:2016-10-07
申请人: Gary D. SCHULZ , Paul ODLYZKO , John R. SANFORD , Christopher FAY , Jude LEE , Charles D. MACENSKI , Richard J. KENIUK , Lance D. LASCARI
发明人: Gary D. SCHULZ , Paul ODLYZKO , John R. SANFORD , Christopher FAY , Jude LEE , Charles D. MACENSKI , Richard J. KENIUK , Lance D. LASCARI
CPC分类号: H01Q15/16 , H01Q1/1228 , H01Q1/42 , H01Q3/26 , H01Q3/267 , H01Q19/134
摘要: Devices and systems, and methods of using them, for point-to-point transmission/communication of high bandwidth signals. Radio devices and systems may include a pair of reflectors (e.g., parabolic reflectors) that are adjacent to each other and configured so that one of the reflectors is dedicated for sending/transmitting information, and the adjacent reflector is dedicated for receiving information. Both reflectors may be in a fixed configuration relative to each other so that they are aligned to send/receive in parallel. In many variations the two reflectors are formed of a single housing, so that the parallel alignment is fixed, and reflectors cannot lose alignment. The device/systems may be configured to allow switching between duplexing modes. These devices/systems may be configured as wide bandwidth zero intermediate frequency radios including alignment modules for automatic alignment of in-phase and quadrature components of transmitted signals.
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公开(公告)号:US20140218248A1
公开(公告)日:2014-08-07
申请号:US13843205
申请日:2013-03-15
申请人: Gary D. SCHULZ , Paul Odlyzko , John R. Sanford , Christopher Fay , Jude Lee , Charles D. Macenski , Richard J. Keniuk , Lance D. Lascari
发明人: Gary D. SCHULZ , Paul Odlyzko , John R. Sanford , Christopher Fay , Jude Lee , Charles D. Macenski , Richard J. Keniuk , Lance D. Lascari
IPC分类号: H01Q15/16
CPC分类号: H01Q15/16 , H01Q1/1228 , H01Q1/42 , H01Q3/26 , H01Q3/267 , H01Q19/134
摘要: Devices and systems, and methods of using them, for point-to-point transmission/communication of high bandwidth signals. Radio devices and systems may include a pair of reflectors (e.g., parabolic reflectors) that are adjacent to each other and configured so that one of the reflectors is dedicated for sending/transmitting information, and the adjacent reflector is dedicated for receiving information. Both reflectors may be in a fixed configuration relative to each other so that they are aligned to send/receive in parallel. In many variations the two reflectors are formed of a single housing, so that the parallel alignment is fixed, and reflectors cannot lose alignment. The device/systems may be configured to allow switching between duplexing modes. These devices/systems may be configured as wide bandwidth zero intermediate frequency radios including alignment modules for automatic alignment of in-phase and quadrature components of transmitted signals.
摘要翻译: 设备和系统及其使用方法,用于高带宽信号的点对点传输/通信。 无线电设备和系统可以包括彼此相邻并被配置为使得一个反射器专用于发送/发送信息的一对反射器(例如,抛物面反射器),并且相邻的反射器专用于接收信息。 两个反射器可以相对于彼此处于固定配置,使得它们对准以并行发送/接收。 在许多变型中,两个反射器由单个壳体形成,使得平行对准是固定的,反射器不能失去对准。 设备/系统可以被配置为允许在双工模式之间切换。 这些设备/系统可以被配置为宽带零中频无线电,包括用于自动对准发射信号的同相和正交分量的对准模块。
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公开(公告)号:US20110305145A1
公开(公告)日:2011-12-15
申请号:US12797700
申请日:2010-06-10
IPC分类号: H04L12/26
CPC分类号: H04W72/1263
摘要: A communication system comprises a communication node for scheduling uplink and downlink transmissions in a communication system. The communication node determines based on a first set of parameters of a data associated with the communication node and a second set of parameters of a data associated with one other communication node, whether to load the data associated with the communication node from an end of a data queue buffer. The communication node upon determining to load the data associated with the communication node from the end of the data queue buffer, loads the data associated with the communication node from the end of the data queue buffer. The communication node further determines a start time for transmission of the data associated with the communication node and schedules transmission of the data associated with the communication node at the start time.
摘要翻译: 通信系统包括用于在通信系统中调度上行链路和下行链路传输的通信节点。 通信节点基于与通信节点相关联的数据的第一组参数和与另一个通信节点相关联的数据的第二组参数来确定是否从与所述通信节点的结尾加载与所述通信节点相关联的数据 数据队列缓冲区。 通信节点在确定从数据队列缓冲器的末端加载与通信节点相关联的数据时,从数据队列缓冲器的末端加载与通信节点相关联的数据。 通信节点还确定用于传输与通信节点相关联的数据的开始时间,并且在开始时间调度与通信节点相关联的数据的传输。
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6.发明授权
公开(公告)号:US5446769A
公开(公告)日:1995-08-29
申请号:US205461
申请日:1994-03-04
IPC分类号: H04B1/713 , H04B1/7156
CPC分类号: H04B1/7156 , H04B1/713 , H04B2001/71563 , H04W36/14 , H04W48/08 , H04W72/00 , H04W72/042
摘要: A method for handing off user devices (131-134) between network control processors (110, 120) in a frequency hopping communication system (100) includes establishing a set of synchronization frequencies (A-D) for use by said NCPs (110, 120), informing the plurality of user devices (131-134) of said synchronization frequencies (A-D) and assigning a synchronization frequency (A, B, C or D) to each respective NCP, each NCP transmitting synchronization information at its assigned synchronization frequency (A, B, C or D) during each hopping dwell (1-82). Upon a determination that a user device hand-off is necessary, said user device in question (133) tunes to a synchronization frequency (B) different from the synchronization frequency (A) employed by the currently serving NCP (110) and synchronizes its operation to the NCP (120) transmitting synchronization information on the tuned to synchronization frequency (B).
摘要翻译: 一种用于在跳频通信系统(100)中的网络控制处理器(110,120)之间切换用户设备(131-134)的方法包括:建立由所述NCP(110,120)使用的一组同步频率(AD) 向所述多个用户装置(131-134)通知所述同步频率(AD)并且向每个相应的NCP分配同步频率(A,B,C或D),每个NCP以其分配的同步频率(A ,B,C或D)(1-82)。 在确定需要用户设备切换的情况下,所讨论的用户设备(133)调谐到与当前服务的NCP(110)采用的同步频率(A)不同的同步频率(B),并使其操作 向NCP(120)发送关于调谐到同步频率(B)的同步信息。
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