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1. 发明申请

US20170188359A1 Method, Apparatus, Server, and Systems of Time-Reversal Technology 审中-公开
公开(公告)号：US20170188359A1
公开(公告)日：2017-06-29
申请号：US15384217
申请日：2016-12-19
申请人： Origin Wireless, Inc.
发明人： K.J. Ray Liu , Hung-Quoc Duc Lai , Beibei Wang , Qinyi Xu , Chen Chen , Feng Zhang , Yi Han , Zhung-Han Wu , Zoltan Safar , Oscar Chi-Lim Au
IPC分类号： H04W72/04 , H04W72/08
CPC分类号： H04W72/0446 , H04L5/0057 , H04W52/143 , H04W52/247 , H04W52/34 , H04W72/0413 , H04W72/042 , H04W72/085
摘要： A time-reversal wireless system comprising a first wireless transceiver of a time-reversal client, one or more second wireless transceiver and/or a time-reversal client with the first wireless transceiver. The first wireless transceiver of the time-reversal client is wirelessly coupled to the one or more second wireless transceiver through a wireless broadband multipath channel associated with a space. The time-reversal client contains the first wireless transceiver. The time-reversal client also contains a processor and a memory configured to obtain a set of channel state information (CSI) in a channel probing phase, and/or to obtain a set of location-specific signatures based on the set of CSI and/or a time reversal operation in a channel probing phase. The set of CSI is captured when one or more probing signal is sent either from the first wireless transceiver to each of the at least one second wireless transceiver, or from each of the at least one second wireless transceiver to the first wireless transceiver, through the wireless broadband multipath channel associated with the space. A channel passband with bandwidth W0 is associated with the wireless broadband multipath channel. A first passband with bandwidth W1 is associated with the first wireless transceiver. The W1 is not larger than W0 such that the first passband is part of the channel passband. One or more second passband is associated with the one or more second wireless transceiver such that a bandwidth W2 associated with each of the one or more second passband is not larger than W1 such that the each of the one or more second passband is part of the first passband. Each of the set of CSI include a channel impulse response, a channel frequency response, and/or another channel state data of the wireless broadband multipath channel.

2. 发明授权

US10327213B1 Time-reversal communication systems 有权
公开(公告)号：US10327213B1
公开(公告)日：2019-06-18
申请号：US15284496
申请日：2016-10-03
申请人： Origin Wireless, Inc.
发明人： Yi Han , Yu-Han Yang , Yan Chen , K. J. Ray Liu , Hang Ma , Beibei Wang , Hung-Quoc Duc Lai , Zoltan Safar , Qinyi Xu , Chen Chen
IPC分类号： H04W56/00 , H04L25/02 , H04L7/04 , H04L7/00 , H04B17/336 , H04W52/02 , H04W84/12
摘要： An apparatus for determining symbol timing in a communication system is provided. The apparatus includes a memory communicatively coupled to at least one processor. The at least one processor is configured to receive a first signal that includes a preamble sent at a first sampling rate with a first modulation through a channel and a data frame sent at a second sampling rate with a second modulation through the channel. The preamble includes a received code sequence, and the data frame includes a plurality of data symbols. The at least one processor is configured to compute a second signal that represents an estimate of an equivalent channel response using at least one of a known code sequence and the received first signal, down-sample the second signal and compute signal-to-interference-plus-noise ratios at a plurality of candidate timing offsets, and determine a symbol timing based on a particular timing offset associated with one of the computed signal-to-interference-plus-noise ratios.

3. 发明授权

US09825838B2 Handshaking protocol for time-reversal system 有权
公开(公告)号：US09825838B2
公开(公告)日：2017-11-21
申请号：US15041628
申请日：2016-02-11
申请人： Origin Wireless, Inc.
发明人： Hang Ma , Yi Han , Yan Chen , Zoltan Safar , Feng Han , K. J. Ray Liu
IPC分类号： H04L7/00 , H04L12/26 , H04L7/04 , H04W56/00 , H04L25/02 , H04L25/49
CPC分类号： H04L43/12 , H04L7/042 , H04L25/0228 , H04L25/0242 , H04L25/4902 , H04W56/001
摘要： A handshaking process for time-reversal wireless communication is provided. A first device receives a handshake signal transmitted from a second device through multiple propagation paths, the handshake signal including a preamble and a training sequence, in which the training sequence includes a sequence of symbols known to the first and second devices. A synchronization index is determined based on the preamble, and the training sequence in the handshake signal is identified based on the synchronization index. A channel response signal is determined based on the received training sequence, and a signature waveform that is a time-reversed signal of the channel response signal is generated. A transmission signal is generated based on transmit data and the signature waveform, in which the transmit data are data configured to be transmitted to the second device.

4. 发明授权

US10440705B2 Method, apparatus, server, and systems of time-reversal technology 有权
公开(公告)号：US10440705B2
公开(公告)日：2019-10-08
申请号：US15384217
申请日：2016-12-19
申请人： Origin Wireless, Inc.
发明人： K. J. Ray Liu , Hung-Quoc Duc Lai , Beibei Wang , Qinyi Xu , Chen Chen , Feng Zhang , Yi Han , Zhung-Han Wu , Zoltan Safar , Oscar Chi-Lim Au
IPC分类号： H04W24/08 , H04W72/04 , H04W72/08
摘要： A time-reversal wireless system comprising a first wireless transceiver of a time-reversal client, one or more second wireless transceiver and/or a time-reversal client with the first wireless transceiver. The first wireless transceiver of the time-reversal client is wirelessly coupled to the one or more second wireless transceiver through a wireless broadband multipath channel associated with a space. The time-reversal client contains the first wireless transceiver. The time-reversal client also contains a processor and a memory configured to obtain a set of channel state information (CSI) in a channel probing phase, and/or to obtain a set of location-specific signatures based on the set of CSI and/or a time reversal operation in a channel probing phase. The set of CSI is captured when one or more probing signal is sent either from the first wireless transceiver to each of the at least one second wireless transceiver, or from each of the at least one second wireless transceiver to the first wireless transceiver, through the wireless broadband multipath channel associated with the space. A channel passband with bandwidth W0 is associated with the wireless broadband multipath channel. A first passband with bandwidth W1 is associated with the first wireless transceiver. The W1 is not larger than W0 such that the first passband is part of the channel passband. One or more second passband is associated with the one or more second wireless transceiver such that a bandwidth W2 associated with each of the one or more second passband is not larger than W1 such that the each of the one or more second passband is part of the first passband. Each of the set of CSI include a channel impulse response, a channel frequency response, and/or another channel state data of the wireless broadband multipath channel.

5. 发明授权

US09313020B2 Handshaking protocol for time-reversal system 有权
标题翻译：用于时间反转系统的握手协议
公开(公告)号：US09313020B2
公开(公告)日：2016-04-12
申请号：US14183648
申请日：2014-02-19
申请人： ORIGIN WIRELESS, INC.
发明人： Hang Ma , Yi Han , Yan Chen , Zoltan Safar , Feng Han , K. J. Ray Liu
IPC分类号： H04L7/04 , H04W56/00
CPC分类号： H04L43/12 , H04L7/042 , H04L25/0228 , H04L25/0242 , H04L25/4902 , H04W56/001
摘要： A handshaking process for time-reversal wireless communication is provided. A first device receives a handshake signal transmitted from a second device through multiple propagation paths, the handshake signal including a preamble and a training sequence, in which the training sequence includes a sequence of symbols known to the first and second devices. A synchronization index is determined based on the preamble, and the training sequence in the handshake signal is identified based on the synchronization index. A channel response signal is determined based on the received training sequence, and a signature waveform that is a time-reversed signal of the channel response signal is generated. A transmission signal is generated based on transmit data and the signature waveform, in which the transmit data are data configured to be transmitted to the second device.
摘要翻译：提供了一种用于时间反转无线通信的握手过程。第一设备通过多个传播路径接收从第二设备发送的握手信号，所述握手信号包括前导码和训练序列，其中训练序列包括第一和第二设备已知的符号序列。基于前导码确定同步索引，并且基于同步索引来识别握手信号中的训练序列。基于接收到的训练序列确定信道响应信号，生成作为信道响应信号的时间反转信号的签名波形。基于发送数据和签名波形生成发送信号，其中发送数据是被配置为被发送到第二设备的数据。

6. 发明授权

US10833912B2 Methods, devices, servers, apparatus, and systems for wireless internet of things applications 有权
公开(公告)号：US10833912B2
公开(公告)日：2020-11-10
申请号：US16125748
申请日：2018-09-09
申请人： ORIGIN WIRELESS, INC.
发明人： Oscar Chi-Lim Au , Masato Marumo , Beibei Wang , Hung-Quoc Duc Lai , K. J. Ray Liu , Chen Chen , Qinyi Xu , Yi Han , Zhung-Han Wu , Feng Zhang , Zoltan Safar , Jeng-Feng Lee , Thomas Nelson Buttermore, Jr.
IPC分类号： H04L27/36 , H04W72/04 , H04L5/00 , H04B1/38
摘要： The present teaching relates to wireless Internet of Things. In one example, a time reversal client is disclosed. The time reversal client comprises a processor, a memory communicatively coupled with the processor, and a set of instructions, when executed by the processor based on the memory, that cause the time reversal client to perform the following steps: communicatively coupling with a time reversal server through a network, obtaining a set of channel state information (CSI), wherein the set of CSI is captured when at least one probing signal is sent from the wireless transmitter to the wireless receiver through a wireless multipath channel associated with a space, and causing the set of CSI to be sent to the time reversal server through the network.

7. 发明授权

US10380881B2 Method, apparatus, and systems for wireless event detection and monitoring 有权
公开(公告)号：US10380881B2
公开(公告)日：2019-08-13
申请号：US16060710
申请日：2016-12-09
申请人： ORIGIN WIRELESS, INC.
发明人： Qinyi Xu , Feng Zhang , Chen Chen , Beibei Wang , Zoltan Safar , Yi Han , Hung-Quoc Duc Lai , K. J. Ray Liu
IPC分类号： G08B13/18 , G08B29/18 , G01S13/04 , G08B13/08 , G08B13/187 , G01S13/00 , G01S13/536 , G01S13/88 , G01S13/56 , G08B13/181 , H04B7/06 , H04W4/80 , H04W84/12
摘要： An apparatus for detecting events includes a processor and a storage device storing instructions that when executed by the processor cause the processor to train a classifier for classifying channel state information (CSI) and detecting an event based on the classification of the CSI obtained during a monitoring phase. The training of the classifier includes: for each of the known events to be detected, during a time period in which the known event occurs in a venue, obtain training CSI of a wireless multipath channel between a wireless transmitter and a wireless receiver in the venue, in which the training CSI is derived from one or more probing signals sent from the transmitter through the wireless multipath channel to the receiver, and train the classifier based on the known events and the training CSI associated with each of the events.

8. 发明申请

US20180365975A1 METHOD, APPARATUS, AND SYSTEMS FOR WIRELESS EVENT DETECTION AND MONITORING 审中-公开
公开(公告)号：US20180365975A1
公开(公告)日：2018-12-20
申请号：US16060710
申请日：2016-12-09
申请人： ORIGIN WIRELESS, INC.
发明人： Qinyi Xu , Feng Zhang , Chen Chen , Beibei Wang , Zoltan Safar , Yi Han , Hung-Quoc Duc Lai , K. J. Ray Liu
IPC分类号： G08B29/18 , G08B13/181 , H04B7/06 , G01S13/00 , G01S13/56
CPC分类号： G08B29/185 , G01S7/415 , G01S13/003 , G01S13/04 , G01S13/536 , G01S13/56 , G01S13/88 , G01V3/12 , G08B13/08 , G08B13/181 , G08B13/187 , H04B7/0626 , H04W4/80 , H04W84/12
摘要： An apparatus for detecting events includes a processor and a storage device storing instructions that when executed by the processor cause the processor to train a classifier for classifying channel state information (CSI) and detecting an event based on the classification of the CSI obtained during a monitoring phase. The training of the classifier includes: for each of the known events to be detected, during a time period in which the known event occurs in a venue, obtain training CSI of a wireless multipath channel between a wireless transmitter and a wireless receiver in the venue, in which the training CSI is derived from one or more probing signals sent from the transmitter through the wireless multipath channel to the receiver, and train the classifier based on the known events and the training CSI associated with each of the events.

9. 发明授权

US10129862B1 Methods, devices, apparatus, and systems for medium access control in wireless communication systems utilizing spatial focusing effect 有权
公开(公告)号：US10129862B1
公开(公告)日：2018-11-13
申请号：US15434813
申请日：2017-02-16
申请人： Origin Wireless, Inc.
发明人： Zhung-Han Wu , Beibei Wang , Chunxiao Jiang , Zoltan Safar , K. J. Ray Liu
IPC分类号： H04W72/04 , H04W72/12 , H04B7/0456 , H04B17/318 , H04B17/336 , H04L25/02 , H04W28/02 , H04W48/16 , H04W48/10 , H04L12/26 , H04W88/08
摘要： A base station of a time reversal communication system is provided. The base station receives a set of channel probing signals from a set of terminal devices, determines channel impulse responses based on the channel probing signals, and determines location-specific signature waveforms based on the channel impulse responses, in which each of the location-specific signature waveforms is associated with a particular location of the respective terminal device. The base station generates a set of medium access layer parameters, in which each medium access layer parameter is associated with a particular one of the terminal devices. For each terminal device, the base station generates transmit data signals based on data intended for the terminal device, and the medium access layer parameter and the location-specific signature waveform associated with the terminal device. The base station transmits the transmit data signals wirelessly to the terminal devices.

10. 发明授权

US10609711B1 Time-reversal scalability for high network densification 有权
公开(公告)号：US10609711B1
公开(公告)日：2020-03-31
申请号：US15061059
申请日：2016-03-04
申请人： Origin Wireless, Inc.
发明人： Hang Ma , Yan Chen , Feng Han , Zhung-Han Wu , Zoltan Safar , K. J. Ray Liu
IPC分类号： H04W72/04 , H04W48/08 , H04W4/02
摘要： The predicted explosive growth in the number of wireless devices and mobile applications utilizing wireless networks makes it time for engineers to face the high network densification challenge where massive numbers of terminal devices (TDs) coexist and require both high-rate and low-latency wireless data transmissions. We describe a multiple access point (AP) Time-Reversal Division Multiple Access (TRDMA) downlink system that utilizes the natural spatial and temporal focusing properties of Time Reversal (TR) based communications, where the interference to unintended receivers is automatically at least partially mitigated. As a result, in some implementations, the TRDMA system can achieve full or nearly-full spectrum reuse without any coordination among APs. The performance of the TRDMA system is investigated in both an open access model where an AP is open to all the TDs and a closed access model where an AP is only open to specific TDs. It is shown that in the open access model, the TRDMA system can be easily extended by adding more APs to fit various scenarios. In the closed access model, the TRDMA system is failure-robust such that the performance degradation caused by neighboring APs is graceful. Moreover, the packet delay of the TRDMA system can be much lower than that of the IEEE 802.11 based system.

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