公开(公告)号：US20120230369A1

公开(公告)日：2012-09-13

申请号：US13498576

申请日：2009-09-28

申请人： Zaichen Zhang ,  Guangguo Bi ,  Xiaohu You ,  Liang Wu

发明人： Zaichen Zhang ,  Guangguo Bi ,  Xiaohu You ,  Liang Wu

IPC分类号： H04B1/69

CPC分类号： H04B1/7183 ,  H04B1/71632 ,  H04B1/717

摘要： For a demand of high speed, low cost and low power loss short distance wireless communication, a high-speed sampling and low-precision quantification pulse ultra-wideband wireless communication method is provided. A baseband narrow pulse sequence is generated at a transmission end using the digital technology by the method, and is transmitted after modulating amplifying and filtering and amplifying at a reception end, after the digital-signal processing of synchronizing, channel estimating, related detecting, and channel decoding, tec, is performed for the quantified data, the transmission information is retrieved. Comparing with the present carrier mechanism UWB wireless communication technology, the method does not need the complex radio frequency processing of orthogonal modulation/demodulation and frequency spectrum moving, etc, the quantification precision of analog-to-digital conversion is also decreased greatly, so the cost and power loss are greatly decreased; comparing with the present pulse mechanism UWB wireless communication technology, the method provided by the present invention greatly increase the data transmission rate, and increases the stability, reliability and integration.

摘要翻译： 针对高速，低成本，低功耗短距离无线通信的需求，提供了高速采样和低精度定量脉冲超宽带无线通信方式。 使用该方法的数字技术，在发送端生成基带窄脉冲序列，在进行同步，信道估计，相关检测和数字信号估计的数字信号处理之后，在接收端进行调制放大和滤波放大后发送 对量化数据执行信道解码tec，检索发送信息。 与现有载波机制UWB无线通信技术相比，该方法不需要正交调制/解调和频谱移动等复杂的射频处理，模数转换的量化精度也大大降低， 成本和功率损耗大大降低; 与目前的脉冲机制UWB无线通信技术相比，本发明提供的方法大大提高了数据传输速率，提高了稳定性，可靠性和集成度。

公开(公告)号：US08693524B2

公开(公告)日：2014-04-08

申请号：US13498572

申请日：2009-09-28

申请人： Zaichen Zhang ,  Liang Wu ,  Xutao Yu ,  Guangguo Bi ,  Xiaohu You

发明人： Zaichen Zhang ,  Liang Wu ,  Xutao Yu ,  Guangguo Bi ,  Xiaohu You

IPC分类号： H04B1/00

CPC分类号： H04W56/00

摘要： A synchronization method for impulse system ultra-wideband takes frame as basic unit for data transmission, each frame is divided into a preamble symbol part and a data part, wherein the preamble symbol part sends a known impulse sequence for channel estimation and synchronization; the data part takes the information to be transmitted; the preamble symbol part is divided into two parts of a positive and negative impulse sequence, which includes odd impulses with alternant positive and negative polarities, and a same direction impulse sequence, which is composed of impulses with same polarity and is the same as the polarity of the last impulse in the positive and negative impulse sequence. The method provides such advantages as high synchronization precision, small storage space, and capability of immediately finding out the synchronization position etc., and provides an important value for the development of the impulse system ultra-wideband wireless communication technique.

摘要翻译： 用于脉冲系统超宽带的同步方法将帧作为数据传输的基本单元，每帧分为前导码符号部分和数据部分，其中前导符号部分发送用于信道估计和同步的已知脉冲序列; 数据部分接收要发送的信息; 前导符号部分被分为正脉冲序列和负脉冲序列​​的两部分，其包括具有交替正负极性的奇数脉冲和相同方向的脉冲序列，其由具有相同极性的脉冲组成并且与极性相同 最后冲动的正负冲动序列。 该方法具有同步精度高，存储空间小，能立即找出同步位置等优点，为脉冲系统超宽带无线通信技术的发展提供了重要的价值。

公开(公告)号：US08630329B2

公开(公告)日：2014-01-14

申请号：US13498576

申请日：2009-09-28

申请人： Zaichen Zhang ,  Guangguo Bi ,  Xiaohu You ,  Liang Wu

发明人： Zaichen Zhang ,  Guangguo Bi ,  Xiaohu You ,  Liang Wu

IPC分类号： H04B1/00

CPC分类号： H04B1/7183 ,  H04B1/71632 ,  H04B1/717

摘要： For a demand of high speed, low cost and low power loss short distance wireless communication, a high-speed sampling and low-precision quantification pulse ultra-wideband wireless communication method is provided. A baseband narrow pulse sequence is generated at a transmission end using the digital technology by the method, and is transmitted after modulating amplifying and filtering and amplifying at a reception end, after the digital-signal processing of synchronizing, channel estimating, related detecting, and channel decoding, tec, is performed for the quantified data, the transmission information is retrieved. Comparing with the present carrier mechanism UWB wireless communication technology, the method does not need the complex radio frequency processing of orthogonal modulation/demodulation and frequency spectrum moving, etc, the quantification precision of analog-to-digital conversion is also decreased greatly, so the cost and power loss are greatly decreased; comparing with the present pulse mechanism UWB wireless communication technology, the method provided by the present invention greatly increase the data transmission rate, and increases the stability, reliability and integration.

摘要翻译： 针对高速，低成本，低功耗短距离无线通信的需求，提供了高速采样和低精度定量脉冲超宽带无线通信方式。 使用该方法的数字技术，在发送端生成基带窄脉冲序列，在进行同步，信道估计，相关检测和数字信号估计的数字信号处理之后，在接收端进行调制放大和滤波放大后发送 对量化数据执行信道解码tec，检索发送信息。 与现有载波机制UWB无线通信技术相比，该方法不需要正交调制/解调和频谱移动等复杂的射频处理，模数转换的量化精度也大大降低， 成本和功率损耗大大降低; 与目前的脉冲机制UWB无线通信技术相比，本发明提供的方法大大提高了数据传输速率，提高了稳定性，可靠性和集成度。

公开(公告)号：US20120243577A1

公开(公告)日：2012-09-27

申请号：US13498572

申请日：2009-09-28

申请人： Zaichen Zhang ,  Liang Wu ,  Xutao Yu ,  Guangguo Bi ,  Xiaohu You

发明人： Zaichen Zhang ,  Liang Wu ,  Xutao Yu ,  Guangguo Bi ,  Xiaohu You

IPC分类号： H04B1/7073

CPC分类号： H04W56/00

摘要： A synchronization method for impulse system ultra-wideband takes frame as basic unit for data transmission, each frame is divided into a preamble symbol part and a data part, wherein the preamble symbol part sends a known impulse sequence for channel estimation and synchronization; the data part takes the information to be transmitted; the preamble symbol part is divided into two parts of a positive and negative impulse sequence and a same direction impulse sequence, the front is the positive and negative impulse sequence, which includes odd impulses with alternant positive and negative polarities; the rear is the same direction impulse sequence, which is composed of impulses with same polarity, and the polarity of impulse in the same direction impulse sequence is same as the polarity of the last impulse in the positive and negative impulse sequence. Compared with the synchronization method in a high-speed sampling and low-precision quantification pulse system ultra-wideband wireless communication system, the method provides such advantages as high synchronization precision, small storage space, and capability of immediately finding out the synchronization position etc., and provides an important value for the development of the impulse system ultra-wideband wireless communication technique.

摘要翻译： 用于脉冲系统超宽带的同步方法将帧作为数据传输的基本单元，每帧分为前导码符号部分和数据部分，其中前导符号部分发送用于信道估计和同步的已知脉冲序列; 数据部分接收要发送的信息; 前导符号部分被分为正和负脉冲序列​​和相同方向脉冲序列的两部分，前面是正脉冲序列和负脉冲序列​​，其包括具有交替正负极性的奇数脉冲; 后方是相同方向的脉冲序列，由相同极性的脉冲组成，脉冲在相同方向脉冲序列的极性与正，负脉冲序列​​中最后脉冲的极性相同。 与高速采样和低精度量化脉冲系统超宽带无线通信系统中的同步方法相比，该方法具有同步精度高，存储空间小，能立即发现同步位置等优点。 为脉冲系统超宽带无线通信技术的发展提供了重要的价值。

公开(公告)号：US08867587B2

公开(公告)日：2014-10-21

申请号：US13511993

申请日：2009-12-29

申请人： Zaichen Zhang ,  Jian Dang ,  Xiaoyan Wang ,  Guangguo Bi ,  Xutao Yu

发明人： Zaichen Zhang ,  Jian Dang ,  Xiaoyan Wang ,  Guangguo Bi ,  Xutao Yu

IPC分类号： H04B1/00

CPC分类号： H04L5/0007 ,  H04L27/264 ,  H04L27/2653

摘要： The present invention is a double-layer multi-carrier ultra-wideband wireless communication method, wherein the frequency band for ultra-wideband communication is divided into a plurality of sub-bands, then one or more sub-bands are used for data transmission, and the Orthogonal Frequency Division Multiplex (OFDM) multi-carrier transmission technology is used in each sub-band. In the transmitting party, the data symbols to be transmitted are allocated on M branches corresponding to the M sub-bands, and the OFDM modulation is implemented on the data symbols on each branch to obtain M branches of parallel data, then digital baseband multi-carrier modulation is implemented on the M branches of parallel data. Thereby, the spectrum of data on each branch is moved onto the digital sub-band corresponding to the radio sub-band one to one, so the digital baseband signal of the radio signal to be transmitted is obtained. Then, the digital signal is converted to an analog signal with a D/A conversion and an up-conversion, and the signal spectrum is moved to the radio frequency band in use, then the analog signal is amplified, filtered and transmitted via an antenna, thus the task of modulating M branches of parallel data onto M sub-bands is completed.

摘要翻译： 本发明是一种双层多载波超宽带无线通信方法，其中用于超宽带通信的频带被划分为多个子带，然后使用一个或多个子带进行数据传输， 并且在每个子带中使用正交频分复用（OFDM）多载波传输技术。 在发送方中，将要发送的数据符号分配在对应于M个子带的M个分支上，并且在每个分支上的数据符号上实施OFDM调制以获得并行数据的M个分支， 在并行数据的M个分支上实现载波调制。 由此，将各分支的数据频谱一一对应地移动到与无线子带对应的数字子带上，得到要发送的无线信号的数字基带信号。 然后，数字信号被转换成具有D / A转换和上变频的模拟信号，并且信号频谱被移动到使用中的无线电频带，然后模拟信号经由天线被放大，滤波和发送 因此完成将并行数据的M个分支调制到M个子带上的任务。

公开(公告)号：US20120269234A1

公开(公告)日：2012-10-25

申请号：US13511993

申请日：2009-12-29

申请人： Zaichen Zhang ,  Jian Dang ,  Xiaoyan Wang ,  Guangguo Bi ,  Xutao Yu

发明人： Zaichen Zhang ,  Jian Dang ,  Xiaoyan Wang ,  Guangguo Bi ,  Xutao Yu

IPC分类号： H04B1/707 ,  H04L27/01 ,  H04B1/7097 ,  H04B1/7093

CPC分类号： H04L5/0007 ,  H04L27/264 ,  H04L27/2653

摘要： The present invention is a double-layer multi-carrier ultra-wideband wireless communication method, wherein the frequency band for ultra-wideband communication is divided into a plurality of sub-bands, then one or more sub-bands are used for data transmission, and the Orthogonal Frequency Division Multiplex (OFDM) multi-carrier transmission technology is used in each sub-band. In the transmitting party, the data symbols to be transmitted are allocated on M branches corresponding to the M sub-bands, and the OFDM modulation is implemented on the data symbols on each branch to obtain M branches of parallel data, then digital baseband multi-carrier modulation is implemented on the M branches of parallel data. Thereby, the spectrum of data on each branch is moved onto the digital sub-band corresponding to the radio sub-band one to one, so the digital baseband signal of the radio signal to be transmitted is obtained. Then, the digital signal is converted to an analog signal with a D/A conversion and an up-conversion, and the signal spectrum is moved to the radio frequency band in use, then the analog signal is amplified, filtered and transmitted via an antenna, thus the task of modulating M branches of parallel data onto M sub-bands is completed.

摘要翻译： 本发明是一种双层多载波超宽带无线通信方法，其中用于超宽带通信的频带被划分为多个子带，然后使用一个或多个子带进行数据传输， 并且在每个子带中使用正交频分复用（OFDM）多载波传输技术。 在发送方中，将要发送的数据符号分配在对应于M个子带的M个分支上，并且在每个分支上的数据符号上实施OFDM调制以获得并行数据的M个分支， 在并行数据的M个分支上实现载波调制。 由此，将各分支的数据频谱一一对应地移动到与无线子带对应的数字子带上，得到要发送的无线信号的数字基带信号。 然后，数字信号被转换成具有D / A转换和上变频的模拟信号，并且信号频谱被移动到使用中的无线电频带，然后模拟信号经由天线被放大，滤波和发送 因此完成将并行数据的M个分支调制到M个子带上的任务。