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公开(公告)号:US09906280B2
公开(公告)日:2018-02-27
申请号:US14798820
申请日:2015-07-14
Applicant: Intel IP Corporation
Inventor: Yuan Zhu , Qinghua Li , Yang Tang , Xiaogang Chen , Jong-Kae J. K. Fwu
IPC: H04B7/04 , H04B7/0417 , H04L5/00 , H04W74/00 , H04B7/0456 , H04B7/06
CPC classification number: H04B7/043 , H04B7/0417 , H04B7/0456 , H04B7/0617 , H04B7/0639 , H04L5/0007 , H04L5/0048 , H04W74/004
Abstract: A closed loop MIMO feedback system is described in which the number of available antenna ports is less than the number of antenna elements. In one implementation, sounding reference signals, received from a number of UEs, may be used, by a base station, to generate and transmit a number of OFDMA Channel State Information Reference Signals (CSI-RSs). The OFDMA CSI-RSs may be determined based on the top eigen beams associated with an average channel covariance matrix determined based on the received sounding reference signals. A UE, in response to receiving the OFDMA CSI-RSs, may determine a preferred eigen beam and transmit a quantized version of the preferred eigen beam back to the eNB. Subsequent communications with the UE may be made using beamforming techniques that are based on the quantized version of the preferred eigen beam.
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公开(公告)号:US09877174B2
公开(公告)日:2018-01-23
申请号:US14579778
申请日:2014-12-22
Applicant: Intel IP Corporation
Inventor: Qinghua Li , Xiaogang Chen , Jeongho Jeon , Huaning Niu , Yang Tang , Yuan Zhu , Hwan-Joon Kwon
CPC classification number: H04W4/18 , H04L1/0059 , H04L1/0071 , H04L1/0079 , H04L1/0088 , H04L1/08 , H04L5/0007 , H04L27/2602 , H04L27/2613 , H04L27/2647 , H04L69/18 , H04L69/22 , H04W84/12
Abstract: Example systems, methods, and devices for extending range of WiFi networks are discussed. More specifically, methods for extending range of a Wi-Fi network are disclosed. The method may include the operations of appending, by a network device, one or more codebits to one or more original codebits or coded symbols, sending, by the network device, the original codebits or coded symbols and the appended codebits to an interleaver or a constellation mapper for transmission. The original codebits or coded symbols and the appended codebits may be sent over a plurality of subcarriers. Methods, apparatus, and systems described herein can be applied to 802.11ax or any other wireless standard.
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公开(公告)号:US09826391B2
公开(公告)日:2017-11-21
申请号:US14769411
申请日:2013-12-17
Applicant: Intel IP Corporation
Inventor: Qinghua Li , Honggang Li , Xiaogang Chen , Huaning Niu , Rongzhen Yang
IPC: H04W8/08 , H04L5/00 , H04B1/56 , H04B7/06 , H04W48/16 , H04W36/30 , H04W24/00 , H04W36/26 , H04W48/18 , H04B7/0417 , H04W36/00 , H04W36/22 , H04L1/18 , H04W24/02 , H04W72/04 , H04W72/08 , H04W28/20 , H04L29/06 , H04M1/725 , H04W4/02 , H04W8/02 , H04W8/06 , H04W28/02 , H04W76/02 , H04W48/06 , H04L25/03 , H04N21/24 , H04N21/845 , H04N21/8543 , H04B7/0452 , H04B7/08 , H04L25/02 , H04W36/08 , H04W48/12 , H04W88/08 , H04W84/04 , H04W88/10 , H04W84/12 , H04W88/02 , H04W28/08
CPC classification number: H04W8/082 , H04B1/56 , H04B7/0417 , H04B7/0452 , H04B7/0619 , H04B7/063 , H04B7/0695 , H04B7/088 , H04L1/1864 , H04L5/0007 , H04L5/0048 , H04L5/0051 , H04L5/0057 , H04L5/0085 , H04L25/0206 , H04L25/03305 , H04L47/803 , H04L65/4092 , H04L65/601 , H04L65/602 , H04L65/604 , H04L65/607 , H04L65/608 , H04L65/80 , H04L2025/03426 , H04M1/72572 , H04N21/2402 , H04N21/8456 , H04N21/8543 , H04W4/021 , H04W8/02 , H04W8/06 , H04W24/00 , H04W24/02 , H04W28/02 , H04W28/0226 , H04W28/0289 , H04W28/085 , H04W28/20 , H04W36/0005 , H04W36/0011 , H04W36/0022 , H04W36/08 , H04W36/22 , H04W36/26 , H04W36/30 , H04W48/06 , H04W48/12 , H04W48/16 , H04W48/18 , H04W56/001 , H04W72/0446 , H04W72/046 , H04W72/082 , H04W76/15 , H04W84/042 , H04W84/045 , H04W84/12 , H04W88/02 , H04W88/08 , H04W88/10 , Y02D70/00 , Y02D70/1224 , Y02D70/1242 , Y02D70/1244 , Y02D70/1246 , Y02D70/1262 , Y02D70/1264 , Y02D70/142 , Y02D70/144 , Y02D70/146 , Y02D70/162 , Y02D70/164 , Y02D70/168 , Y02D70/21 , Y02D70/23 , Y02D70/444
Abstract: In embodiments, apparatuses, methods, and storage media may be described for allocating radio resources to a user equipment (UE) for device to device (D2D) transmission. Specifically, the UE may be configured to predict cellular interference to one or more cellular transmissions in a cell that may be caused by the transmission of a D2D signal. Based on that predicted interference, the UE may identify one or more radio resources in for the D2D transmission.
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公开(公告)号:US20170265129A1
公开(公告)日:2017-09-14
申请号:US15272286
申请日:2016-09-21
Applicant: Intel IP Corporation
Inventor: Xiaogang Chen , Qinghua Li , Assaf Gurevitz , Tzahi Weisman
CPC classification number: H04W52/0206 , H04L5/0044 , H04L5/0048 , H04W52/30 , H04W52/346 , H04W84/12 , Y02D70/00 , Y02D70/122 , Y02D70/1242 , Y02D70/1262 , Y02D70/142 , Y02D70/144 , Y02D70/146 , Y02D70/164 , Y02D70/166 , Y02D70/22 , Y02D70/26
Abstract: Embodiments of an access point (AP), station (STA) and method for subcarrier scaling are generally described herein. The AP may transmit a high efficiency (HE) physical layer convergence procedure (PLCP) protocol data unit (PPDU) that includes a legacy long training field (L-LTF), a legacy signal (L-SIG) field, and an HE signal (HE-SIG) field. The HE-SIG may be based on HE-SIG symbols mapped to a group of HE subcarriers that includes legacy subcarriers and HE extension subcarriers. The L-LTF may be based on L-LTF pilot symbols mapped to the legacy subcarriers. The L-SIG may be based on L-SIG legacy symbols mapped to the legacy subcarriers and L-SIG extension pilot symbols mapped to the HE extension subcarriers. The AP may scale a per-subcarrier power of the L-SIG extension pilot symbols to match a per-subcarrier power of the L-LTF pilot symbols.
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公开(公告)号:US09730050B2
公开(公告)日:2017-08-08
申请号:US14766952
申请日:2013-12-16
Applicant: Intel IP Corporation
Inventor: Qinghua Li , Hooman Shirani-Mehr , Yuan Zhu , Xiaogang Chen , Feng Xue
IPC: H04B7/04 , H04B7/06 , H04W8/08 , H04L5/00 , H04B1/56 , H04W48/16 , H04W36/30 , H04W24/00 , H04W36/26 , H04W48/18 , H04B7/0417 , H04W36/00 , H04W36/22 , H04L1/18 , H04W24/02 , H04W72/04 , H04W72/08 , H04W28/20 , H04L29/06 , H04M1/725 , H04W4/02 , H04W8/02 , H04W8/06 , H04W28/02 , H04W76/02 , H04W48/06 , H04L25/03 , H04N21/24 , H04N21/845 , H04N21/8543 , H04B7/0452 , H04B7/08 , H04L25/02 , H04W36/08 , H04W48/12 , H04W88/08 , H04W84/04 , H04W88/10 , H04W84/12 , H04W88/02 , H04W28/08
CPC classification number: H04W8/082 , H04B1/56 , H04B7/0417 , H04B7/0452 , H04B7/0619 , H04B7/063 , H04B7/0695 , H04B7/088 , H04L1/1864 , H04L5/0007 , H04L5/0048 , H04L5/0051 , H04L5/0057 , H04L5/0085 , H04L25/0206 , H04L25/03305 , H04L47/803 , H04L65/4092 , H04L65/601 , H04L65/602 , H04L65/604 , H04L65/607 , H04L65/608 , H04L65/80 , H04L2025/03426 , H04M1/72572 , H04N21/2402 , H04N21/8456 , H04N21/8543 , H04W4/021 , H04W8/02 , H04W8/06 , H04W24/00 , H04W24/02 , H04W28/02 , H04W28/0226 , H04W28/0289 , H04W28/085 , H04W28/20 , H04W36/0005 , H04W36/0011 , H04W36/0022 , H04W36/08 , H04W36/22 , H04W36/26 , H04W36/30 , H04W48/06 , H04W48/12 , H04W48/16 , H04W48/18 , H04W56/001 , H04W72/0446 , H04W72/046 , H04W72/082 , H04W76/15 , H04W84/042 , H04W84/045 , H04W84/12 , H04W88/02 , H04W88/08 , H04W88/10 , Y02D70/00 , Y02D70/1224 , Y02D70/1242 , Y02D70/1244 , Y02D70/1246 , Y02D70/1262 , Y02D70/1264 , Y02D70/142 , Y02D70/144 , Y02D70/146 , Y02D70/162 , Y02D70/164 , Y02D70/168 , Y02D70/21 , Y02D70/23 , Y02D70/444
Abstract: In embodiments, apparatuses, methods, and storage media may be described for reducing the overhead associated with the transmission of channel training signals from an eNodeB (eNB) of a wireless network. Specifically, the eNB may receive feedback from a user equipment (UE) regarding the received signal energy of a first and second beamformed signal produced with a first and second beamforming vector, respectively. The eNB may identify, based on the feedback of the received signal energy, a signal subspace and a null subspace. The eNB may then transmit a channel training signal to the signal subspace.
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Patent Agency Ranking
公开(公告)号:US20170222769A1
公开(公告)日:2017-08-03
申请号:US15329752
申请日:2015-06-26
Applicant: Intel IP Corporation
Inventor: Qinghua Li , Xiaogang Chen , Yuan Zhu , Robert J. Stacey , Huaning Niu
CPC classification number: H04L5/0007 , H04B7/0617 , H04L5/0023 , H04L5/0025 , H04L5/0041 , H04L5/0048 , H04L5/0064 , H04L5/0092 , H04W72/044 , H04W72/046 , H04W84/12
Abstract: Apparatuses, methods, and computer readable media for transmitting a high-efficiency signal (HE-SIG) field for small and large bandwidth allocations are disclosed. An apparatus for a high-efficiency wireless local-area network (HEW) master station is disclosed. The apparatus may include circuitry configured to transmit a high-efficiency (HE) signal (SIG) A (HE-SIG-A) field comprising common information to a plurality of HEW stations, wherein the HE-SIG-A is to be transmitted within a first sub-channel; and transmit a HE long-training field (HE-LTF) and a HE-SIG-B to a first HEW station of the plurality of HEW stations, wherein the HE-LTF and the HE-SIG-B are to be interleaved on subcarriers of a second sub-channel, wherein the HE-SIG-B comprises a first portion of station specific information for the first HEW station, and where the HE-LTF and the HE-SIG-B are to be transmitted in accordance with beam-forming within the second sub-channel in accordance with orthogonal frequency division multi-access (OFF-DMA).
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公开(公告)号:US09698890B1
公开(公告)日:2017-07-04
申请号:US14998233
申请日:2015-12-24
Applicant: INTEL IP CORPORATION
Inventor: Xiaogang Chen , Qinghua Li , Robert Stacey , Hujun Yin , Rongzhen Yang
IPC: H04B7/04 , H04B7/06 , H04L25/03 , H04B7/0452 , H04W84/12
CPC classification number: H04B7/0667 , H04L1/0625
Abstract: Embodiments of the present disclosure describe methods and apparatuses for selective application of cyclic shift diversity in uplink communications of mobile communication systems. Other embodiments may be described and/or claimed.
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18.发明申请公开(公告)号:US20160329999A1
公开(公告)日:2016-11-10
申请号:US14757860
申请日:2015-12-26
Applicant: Intel IP Corporation
Inventor: Qinghua Li , Xiaogang Chen , Yuan Zhu , Yushu Zhang , Xintian E. Lin , Hujun Yin
CPC classification number: H04L5/0007 , H04L5/0044 , H04L5/0053 , H04W84/12 , H04W88/02 , H04W88/08
Abstract: This disclosure describes systems, methods, computer readable media, and/or apparatus related to encoding wireless communication preamble structures with cyclic redundancy check (CRC) that is performed on both a common part, as well as, station specific parts of a signaling field. The signaling field generated by this mechanism may be relatively shorter, resulting in less preamble overhead, than if a separate CRC was to be provided for each of the station specific parts, as well as the common part of the signaling field. In additional embodiments, tail bits may be provided for a combination of the common part of the signaling field and each station specific part of the signaling field. Compared to providing tail bits separately for the common part and each of the station specific parts, removing the tail bits from the tail bits form the common part may result in relatively less overhead of the preamble structure.
Abstract translation: 本公开描述了与编码具有循环冗余校验(CRC)的无线通信前导结构相关的系统,方法,计算机可读介质和/或设备,其在公共部分以及信令字段的站特定部分上执行。 由该机制产生的信令字段可能相对较短,导致较少的前导码开销,而不是为每个站特定部分提供单独的CRC以及信令字段的公共部分。 在另外的实施例中,可以为信令字段的公共部分和信令字段的每个站特定部分的组合提供尾比特。 相比于为公共部分和每个站特定部分分别提供尾比特,从尾比特中除去尾比特构成公共部分可能导致前同步码结构相对较少的开销。
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公开(公告)号:US20160013838A1
公开(公告)日:2016-01-14
申请号:US14798820
申请日:2015-07-14
Applicant: Intel IP Corporation
Inventor: Yuan Zhu , Qinghua Li , Yang Tang , Xiaogang Chen , Jong-Kae J.K. Fwu
CPC classification number: H04B7/043 , H04B7/0417 , H04B7/0456 , H04B7/0617 , H04B7/0639 , H04L5/0007 , H04L5/0048 , H04W74/004
Abstract: A closed loop MIMO feedback system is described in which the number of available antenna ports is less than the number of antenna elements. In one implementation, sounding reference signals, received from a number of UEs, may be used, by a base station, to generate and transmit a number of OFDMA Channel State Information Reference Signals (CSI-RSs). The OFDMA CSI-RSs may be determined based on the top eigen beams associated with an average channel covariance matrix determined based on the received sounding reference signals. A UE, in response to receiving the OFDMA CSI-RSs, may determine a preferred eigen beam and transmit a quantized version of the preferred eigen beam back to the eNB. Subsequent communications with the UE may be made using beamforming techniques that are based on the quantized version of the preferred eigen beam.
Abstract translation: 描述了一种闭环MIMO反馈系统,其中可用天线端口的数量小于天线元件的数量。 在一个实现中,由多个UE接收的探测参考信号可以由基站用于生成和发送多个OFDMA信道状态信息参考信号(CSI-RS)。 OFDMA CSI-RS可以基于与基于接收的探测参考信号确定的平均信道协方差矩阵相关联的顶部特征波束来确定。 响应于接收到OFDMA CSI-RS,UE可以确定优选的本征波束并将优选的本征波束的量化版本发送回eNB。 可以使用基于优选本征波束的量化版本的波束成形技术来与UE进行后续通信。
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公开(公告)号:US10750467B2
公开(公告)日:2020-08-18
申请号:US16234249
申请日:2018-12-27
Applicant: Intel IP Corporation
Inventor: Feng Jiang , Jonathan Segev , Po-Kai Huang , Qinghua Li , Xiaogang Chen
Abstract: This disclosure describes systems, methods, and devices related to a bidirectional location measurement report (LMR) feedback. A responding device may determine a first location measurement report (LMR) feedback type of an initiating device. The responding device may determine a second LMR feedback type of the responding device. The responding device may determine a common availability window, defined by a common start time and a common end time, for an exchange of a first LMR and a second LMR, wherein the common availability window is based on the first LMR feedback type and on the second LMR feedback type. The responding device may cause to send the first LMR to the initiating device during the common availability window. The responding device may identify the second LMR received from the initiating device during the common availability window.
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