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    • 3. 发明授权
    • Dynamic resource allocation method based on frequency reuse partitioning for OFMDA/FDD system, and frame transmission method therefor
    • 基于OFMDA / FDD系统的频率复用分区的动态资源分配方法及其帧传输方法
    • US08116780B2
    • 2012-02-14
    • US12063933
    • 2006-08-17
    • Hee-Soo LeeJae-Young AhnKyung-Hi ChangJoo HeoIn-Suk Cha
    • Hee-Soo LeeJae-Young AhnKyung-Hi ChangJoo HeoIn-Suk Cha
    • H04W72/00
    • H04W16/10H04W28/22H04W72/0453
    • Provided are a dynamic resource allocation method based on frequency reuse partitioning for an Orthogonal Frequency Division Multiple Access (OFDMA) system, and a frame transmission method therefor. The dynamic resource allocation method includes: a) dividing a coverage into cells based on frequency reuse partitioning; b) selecting a candidate user to receive a channel allocated thereto based on the ratio; c) acquiring distance information for the candidate user; and d) checking whether the candidate user is in an inner or outer cell area based on the distance information. If the candidate user is in the inner cell area, a subchannel group among subchannel groups having a Frequency Reuse Factor (FRF) lower than a threshold value is selected and subcarriers of the selected subchannel group is allocated. If the candidate user is in the outer cell area, a subchannel group among subchannel groups having a FRF higher than the threshold value is selected.
    • 提供了一种基于正交频分多址(OFDMA)系统的频率复用分割的动态资源分配方法及其帧传输方法。 动态资源分配方法包括:a)基于频率重用分区将覆盖划分为小区; b)基于所述比率选择候选用户以接收分配给其的信道; c)获取候选用户的距离信息; 以及d)基于距离信息来检查候选用户是否在内部或外部小区区域。 如果候选用户在内部小区区域,则选择具有低于阈值的频率重用因子(FRF)的子信道组之中的子信道组,并且分配所选择的子信道组的子载波。 如果候选用户在外部小区区域,则选择FRF高于阈值的子信道组之中的子信道组。
    • 4. 发明授权
    • Method for dynamic resource allocation of uplink and downlink in OFDMA/TDD cellular system
    • OFDMA / TDD蜂窝系统中上行链路和下行链路的动态资源分配方法
    • US08064392B2
    • 2011-11-22
    • US11859287
    • 2007-09-21
    • Kyung Hi ChangSang Jun KoTae Hyoung SunJae Hyeong Kim
    • Kyung Hi ChangSang Jun KoTae Hyoung SunJae Hyeong Kim
    • H04B7/00
    • H04W52/267H04L1/0003H04L1/0009H04L1/0026H04L5/0046H04L5/006H04L5/0064H04L5/1469H04W24/10H04W72/04
    • Provided is a method for dynamic resource allocation of uplink and downlink in an OFDMA/TDD cellular system. The method for dynamic resource allocation of uplink in an OFDMA/TDD cellular system includes the steps of determining the number of sub-channels which can be allocated to each user through an FLR algorithm; performing channel allocation for a first frame through a round-robin algorithm in which channel information is not needed; performing dynamic channel allocation for a next frame through uplink channel information measured by uplink channel sounding; and performing power control. The method for dynamic resource allocation of downlink in an OFDMA/TDD cellular system includes the steps of selecting a user through a GPF algorithm; performing dynamic channel allocation through an ASA algorithm so as to perform a FASA algorithm for obtaining a multiuser diversity gain; and performing dynamic power allocation through an improved CHC algorithm, in consideration of a data rate provided to each user and a channel state.
    • 提供了一种在OFDMA / TDD蜂窝系统中的上行链路和下行链路的动态资源分配的方法。 在OFDMA / TDD蜂窝系统中上行链路的动态资源分配方法包括以下步骤:通过FLR算法确定可以分配给每个用户的子信道的数量; 通过不需要信道信息的循环算法来执行第一帧的信道分配; 通过上行链路信道测距测量的上行信道信息对下一帧进行动态信道分配; 并执行功率控制。 OFDMA / TDD蜂窝系统中下行链路的动态资源分配方法包括以下步骤:通过GPF算法选择用户; 通过ASA算法执行动态信道分配,以便执行用于获得多用户分集增益的FASA算法; 并且考虑到提供给每个用户的数据速率和信道状态,通过改进的CHC算法执行动态功率分配。
    • 6. 发明授权
    • Frequency hopping method in orthogonal frequency division multiplexing system
    • 正交频分复用系统中的跳频方法
    • US07436802B2
    • 2008-10-14
    • US10540740
    • 2003-11-21
    • Heesoo LeeKyung-Hi Chang
    • Heesoo LeeKyung-Hi Chang
    • G01R31/08
    • H04L5/023H04B1/7143H04B2001/7154H04J11/005H04L27/2601
    • Disclosed is a frequency hopping method in an OFDM system, comprising: (a) detecting a mutual interference degree between different cells, and determining whether to use different frequency hopping patterns between the cells for interference averaging according to the mutual interference degree interference degree; (b) determining a number P of the different frequency hopping patterns needed between all the cells in the system; (c) generating the frequency hopping patterns of more than the number P and allocating the generated frequency hopping patterns to each cell, the frequency hopping patterns having the same frequency collision times between two channels in the different frequency hopping patterns; and (d) frequency-hopping the channels in each cell according to the allocated frequency hopping pattern.
    • 公开了一种OFDM系统中的跳频方法,包括:(a)检测不同小区之间的相互干扰度,并根据所述干扰度干扰度确定是否在所述小区之间使用不同的跳频图案进行干扰平均; (b)确定系统中所有单元之间所需的不同跳频图案的数量P; (c)产生多于数目P的跳频模式,并将生成的跳频模式分配给每个小区,跳频模式在不同跳频模式中的两个信道之间具有相同的频率冲突时间; 和(d)根据分配的跳频图案对每个小区中的信道进行跳频。
    • 7. 发明申请
    • Method and apparatus for retransmitting data based on antenna scheduling in MIMO system
    • 基于MIMO系统中天线调度重传数据的方法和装置
    • US20080248753A1
    • 2008-10-09
    • US12003190
    • 2007-12-20
    • Kyung Hi ChangKyu Hyun KimSeung Won Kang
    • Kyung Hi ChangKyu Hyun KimSeung Won Kang
    • H04B15/00H04B1/00
    • H04B7/0417H04B7/0452H04B7/0639H04B7/0691H04B7/0874H04L1/06H04L1/1893
    • Provided is a method for retransmitting data based on antenna scheduling in a MIMO system to which a spatial multiplexing technique is applied. The method includes the steps of: (a) at a transmitter side, modulating an input packet into transmittable data to transmit to a receiver side; (b) at the receiver side, estimating channel values from the packet transmitted from the transmitter side, and selecting transmitting and receiving antennas for transmitting the next packet from the estimated channel values; (c) detecting whether an error is present in the packet or not, and transmitting a feedback signal to the transmitter side, the feedback signal including information on whether or not to transmit the packet and a list of the selected transmitting antennas; and (d) at the transmitter side, retransmitting the transmitted packet or transmitting the next packet through the transmitting antennas designated by the receiver side depending on the feedback signal.
    • 提供了一种在应用空间复用技术的MIMO系统中基于天线调度重传数据的方法。 该方法包括以下步骤:(a)在发射机侧,将输入分组调制成可发送数据,以发射到接收机侧; (b)在接收机侧,从发射机侧发送的分组估计信道值,以及从所估计的信道值中选择用于发送下一个分组的发射和接收天线; (c)检测分组中是否存在错误,并且向发射机侧发送反馈信号,所述反馈信号包括关于是否发送分组的信息和所选择的发送天线的列表的信息; 和(d)在发射机侧,根据反馈信号通过由接收机侧指定的发送天线来重传所发送的分组或发送下一分组。
    • 9. 发明申请
    • System and Method for Co-Channel Interference Cancellation in Cellular OFDM Systems
    • 蜂窝OFDM系统中同信道干扰消除的系统和方法
    • US20080187065A1
    • 2008-08-07
    • US11679569
    • 2007-02-27
    • Kyung Hi ChangManar Mohaisen
    • Kyung Hi ChangManar Mohaisen
    • H04B7/02
    • H04W52/42H04J11/003H04J11/0033H04J11/0066H04L25/022H04L25/0228H04W52/08H04W52/241
    • In this patent, we propose an efficient CCI cancellation algorithm capable of working in cellular OFDM systems in high interference environments especially for users at the cell edges. We propose modified BSs' transmitters (Txs) and MS receiver (Rx) structures. Adjacent BSs use different transmitting interleaving patterns. This leads to orthogonality in the frequency domain. Furthermore, the energy of every symbol is spread over two different subcarriers to get frequency diversity. At the MS Rx, the maximum likelihood estimator MLE CCI canceller is applied to cancel signals of interfering BSs using the same frequency band. A drawback of the MLE CCI canceller is that its performances is degraded when the received power of desired and interferer signals is nearly the same. To solve this problem, the MLE CCI canceller is assisted by a closed-loop power control (CPC) scheme. The newly proposed CPC scheme is capable of detecting and combating against the situation where the equal power is received. The present invention is easily extended to cellular networks where more than one interferer signals can be considered in the MLE CCI canceller and variable number of interleaving patterns can be applied. As a result of all the above, the invention in hands can efficiently reduces the effect the CCI in cellular OFDM networks.
    • 在该专利中,我们提出一种能够在高干扰环境中的蜂窝OFDM系统中工作的有效的CCI消除算法,特别是对于小区边缘的用户。 我们提出修改后的BSs发射机(Tx)和MS接收机(Rx)结构。 相邻的BS使用不同的传输交织模式。 这导致频域中的正交性。 此外,每个符号的能量分布在两个不同的子载波上以获得频率分集。 在MS Rx处,应用最大似然估计器MLE CCI消除器来消除使用相同频带的干扰BS的信号。 MLE CCI消除器的缺点是当所需和干扰信号的接收功率几乎相同时,其性能下降。 为了解决这个问题,MLE CCI消除器由闭环功率控制(CPC)方案辅助。 新提出的中国共产党方案能够发现和对付同等权力的情况。 本发明容易地扩展到蜂窝网络,其中在MLE CCI消除器中可以考虑多于一个干扰信号,并且可以应用可变数目的交织模式。 作为上述的结果,本发明在手中可以有效地降低细胞OFDM网络中的CCI的影响。