Optimization of Mapping Rule of Bit-Interleaved Turbo Coded Modulation with 16QAM

Optimization of mapping rule of bit-interleaved Turbo coded modulation with 16 quadrature amplitude modulation (QAM) is investigated based on different impacts of various encoded bits sequence on Turbo decoding performance. Furthermore, bit-interleaved in-phase and quadrature phase (I-Q) Turbo coded modulation scheme are designed similarly with I-Q trellis coded modulation (TCM). Through performance evaluation and analysis, it can be seen that the novel mapping rule outperforms traditional one and the I-Q Turbo coded modulation can not achieve good performance as expected. Therefore, there is not obvious advantage in using I-Q method in bit-interleaved Turbo coded modulation.

AN IMPROVED AND EFFICIENT DETECTION SCHEME FOR V-BLAST SYSTEMS WITH QAM MODULATION

The paper proposed an improved Ordered Successive Interference Cancellation(OSIC) detection scheme for V-BLAST systems with square/rectangular Quadrature Amplitude Modulation(QAM) modulation.It utilizes an equivalent real-valued vector expression of relationship between transmit signals and received signals,exploits the constellation's product-form structure and can eventually make the order,in which components of the transmit signals vector are extracted,more "optimal" in some sense.Thereby,it can offer an improved error probability as compared to the conventional OSIC detection scheme.In addition,the paper also proposes an efficient projection al-gorithm to calculate nulling vectors in a simple recursive fashion in order to avoid the vast increase of complexity,which is due to the fact that the original complex N -dimensional data vector and M×N channel matrix are transformed into a real 2N -dimensional data vector and a real 2M ×2N channel matrix respectively.A scrutinous complexity analysis shows that the complexity increases by only 33% as compared to the conventional scheme.

Iterative Demodulation and Decoding Scheme with 16 QAM

Iterative demodulation and decoding scheme is analyzed and modulation labeling is considered to be one of the crucial factors to this scheme. By analyzing the existent mapping design criterion, four aspects are found as the key techniques for choosing a label mapping. Based on this discovery, a novel mapping design criteflon is proposed and two label mappings are searched according to it. Simulation results show that the performance of BICM-ID using the novel mappings is better than the former ones. The extrinsic information transfer （EXIT） chart is introduced and it is used to evaluate the proposed mapping design criteria.

Experimental performance evaluation of quadrature amplitude modulation signal transmission in a silicon microring

We comprehensively characterize the transmission performance of m-ary quadrature amplitude modulation(m-QAM) signals through a silicon microring resonator in the experiment. Using orthogonal frequency-division multiplexing based on offset QAM(OFDM/OQAM) which is modulated with m-QAM modulations, we demonstrate low-penalty data transmission of OFDM/OQAM 64-QAM, 128-QAM, 256-QAM, and 512-QAM signals in a silicon microring resonator. The observed optical signal-to-noise ratio(OSNR) penalties are 1.7 dB for 64-QAM,1.7 dB for 128-QAM, and 3.1 dB for 256-QAM at a bit-error rate(BER) of 2 × 10^(-3) and 3.3 dB for 512-QAM at a BER of 2 × 10^(-2). The performance degradation due to the wavelength detuning from the microring resonance is evaluated, showing a wavelength range of ~0.48 nm with BER below 2 × 10^(-3). Moreover, we demonstrate data transmission of 191.2-Gbit/s simultaneous eight wavelength channel OFDM/OQAM 256-QAM signals in a silicon microring resonator, achieving OSNR penalties less than 2 dB at a BER of 2 × 10^(-2).

Turbo-Coded Modulation of EVRC Speech Encoder with Unequal Error Protection for Fading Channels

The Enhanced Variable Rate Codec (EVRC) is a standard for the Speech Service Option 3 for Wideband Spread Spectrum Digital System, which has been employed in both IS-95 cellular systems and ANSI J-STC-008 PCS (Personal Communications Systems). This paper investigated the combination of turbo codes with Unequal Error Protection (UEP) and 16-QAM modulation for EVRC codec of Rate 1 to get power and bandwidth efficient coding scheme. The results show that the UEP system outperforms the Equal Error Protection (EEP) one by 1.45 dB at BER of 10 -5.

一种5G FBMC-16QAM抗干扰系统仿真研究

为了解决5G通信系统中存在的干扰问题,提出一种将多载波技术(FBMC)与正交幅度调制(QAM)技术相结合的方法,可以更好地解决相邻子载波干扰问题,并提高功率效率、降低带外衰减。进而设计一种基于5G FBMC系统的16QAM调制解调器,并通过星座图和FBMC-16QAM调制解调数据的误码率仿真曲线进行分析与比较,结果表明:随着信噪比的增加,误码率逐渐降低。此外,在信噪比相同的情况下,随着进制数的增加,误码率也逐渐增加。

16-QAM信号的最佳干扰分析

依托高效能电子战的背景,针对其缺乏理论依据的问题,本文从理论上分析了正交幅度调制(quadrature amplitude modulation,QAM)的最佳干扰样式,推导了信道为AWGN信道时M-QAM在二维数字调制干扰下的误码率通式,研究了基于凸分析的16-QAM通信系统的最佳干扰样式以及在最佳干扰下16-QAM通信系统的传输性能,分析了相位差、时延差对干扰效能的影响。仿真实验结果验证了M-QAM在二维数字调制干扰下的误码率公式的准确性,且理论分析和仿真实验均表明了当干信比大于-3 dB时,16-QAM通信系统的最佳干扰样式为QPSK。

一种适用于高阶QAM系统Bussgang类盲均衡新方法

该文提出一种适用于高阶QAM系统的新Bussgang类多模盲均衡算法。将新的代价函数与星座匹配误差函数结合,给出一种瞬时双模切换混合算法,然后设计了一种基于判决圆的模式切换准则,从而达到进一步有效降低新算法稳态误差的效果。最后,仿真结果以高阶256QAM信号为例,验证了该算法对于高阶QAM信号的盲均衡能力和良好效果。

高阶QAM实时多域测试多模式自适应盲均衡技术研究

提出了一种全新的宽带通信信号实时多域分析通用架构,详细介绍了该架构下信号分析的基本原理。在这种架构的基础上,通过加载不同的算法,不仅能够实现各种宽带通信信号高精度实时宽带频谱分析,而且还能同时实现宽带通信信号时域、调制域等多域联合分析。针对宽带高阶正交幅度调制(QAM)通信信号实时多域分析,详细讨论了面向测试的基于GMMA和DDLMS双模自适应盲均衡算法。系统仿真结果证明:相比GMMA自适应盲均衡算法,双模自适应盲均衡算法收敛速度明显提高,256QAM信号均衡后输出残余码间串扰(ISI)改善提高了10dB;同时通过实验验证,采用20MHz实时分析带宽对码率为6.4MSps的宽带256QAM信号进行实时多域分析,误差矢量幅度(error vectorm agnitude,EVM)测试误差小于2%。

高阶QAM调制下基于对数似然比门限的自适应解调方案

现有的自适应解调方案中采用的调制星座阶数最高仅限于16,且方案分析和设计中没有考虑信道编码的译码环节。该文研究适用于高阶QAM调制的自适应解调算法,并结合无率纠错码提出一种收端速率自适应方案。收端将符号中每个比特的对数似然比绝对值与设定的解调门限值比较,大于该解调门限值的比特解调,否则删除。无率码译码码字长度固定,通过调整解调门限达到误码性能要求。在解调比特的平均互信息分析的基础上,给出不同信噪比下达到期望的译码误码性能要求的解调门限值及解调比例的计算方法。以256-QAM星座和Raptor码为例给出方案设计实例并进行仿真,仿真结果验证了理论分析的正确性和方案的有效性。

基于连续Hopfield型神经网络的QAM信号盲检测

该文利用连续Hopfield网络本身特点,提出基于连续复Hopfield网络的多值方形/非方形QAM信号的直接盲检测方法。首先完成多值信号盲检测的优化问题构造和能量函数的映射,设计了一个适用于该问题的激活函数。然后给出能量函数的设计与分析、盲检测信号权矩阵的配置方法及其神经元数目选择的一般规律。最后通过对方形QAM和非方形QAM信号的仿真现象展示和分析,验证了所提方法的有效性和鲁棒性。

适用于高阶QAM的改进型Costas环研究

为提高高阶正交幅度调制(QAM)解调中载波恢复的收敛速度及跟踪稳定性,基于软件无线电设计思路和传统科斯塔斯(Costas)环基本原理,提出一种改进型Costas环的研究方法。该方法采用符号鉴相器代替传统的乘法器鉴相器,设计的环路滤波器运用多系数调整取代传统的一组系数调整。以1024QAM信号解调为例,通过使用Matlab/Simulink下的System Generator工具箱对解调系统建模仿真,以验证其载波恢复性能。仿真结果表明,改进的Costas环能准确地对接收的高阶QAM信号进行载波恢复,且与传统算法相比,改进后的环路跟踪平稳、收敛速度更快速、误码率更低,较好地改善了通信质量。

高阶QAM调制制式识别及其系统实现

研究了非协作通信系统中16QAM、32QAM、64QAM三种常用高阶QAM(正交幅度调制)的调制识别问题,提出了一种基于信号四次方谱和幅度特征的联合参数高阶QAM调制识别方法,并给出了详细理论分析及计算机仿真结果。该方法运算量低,易于工程实现,其正确识别率受载波及符号率估计性能影响较小。最后,基于FPGA通用硬件平台,测试结果验证了所提算法的有效性,达到了系统设计要求。在信噪比为14 dB时,正确识别率在90%以上。

突发QAM信号盲识别算法

针对非协作通信中的7种正交幅度调制(QAM)方式识别问题,提出一种新的基于联合特征的盲识别算法。该算法在对信号的循环平稳性以及QAM瞬时幅度分布特点讨论和分析基础上,采用基于循环平稳检测、四阶零次共轭循环累积量以及瞬时包络的联合特征,并选择二叉树支持向量机作为识别分类器,完成了对7种中频QAM信号的识别。仿真实验表明,该算法在码元数目为1000,信噪比大于6 dB时,正确识别率可达到90%以上。

基于40 Gbit/s 4QAM-OFDM的RoF相干传输系统特性分析

建立了传输距离为150 km的40 Gbit/s 4QAM-OFDM单模光纤传输模型,并进行了仿真分析.通过光外差法产生60 GHz的毫米波信号,在接收端采用相关解调的方式接收信号.用Matlab和VPI联合编程仿真,采用DCF和信道估计的方法对色散进行补偿,通过对解调后星座图、色散性能、Q值和误码率的分析,在输入功率为10dBm时可以得到最好的结果,仿真测试结果清晰地表明了4QAM-OFDM系统在150 km的光纤链路中传输的可行性.

基于幅度相位联合校正算法的8-QAM自由空间相干光通信

提出了基于幅度相位联合校正算法的8阶正交幅度调制(8-QAM)自由空间相干光通信方案。与传统的自由空间光通信方案相比,本文提出的方案不仅无需信道状态信息(CSI)就可以实现对原信号的高精度还原,同时还具有较高的光谱效率。仿真实验表明,当接收端与发射端的频偏f 0=20 MHz、激光器联合线宽Δf=10 kHz、信噪比为20 dB时,该方案在归一化大气闪烁标准差σ=0.25、归一化相位噪声方差σΦ^2=0.07的对数正态湍流信道条件下,其误码率(BER)与未采用联合校正算法的8-QAM系统相比低4个量级。

星型16QAM调制LDPC-BICM-ID系统的星座映射设计

针对比特交织编码调制—迭代检测系统中应用星型16进制正交幅度(16QAM)调制不存在Gray映射的问题,结合欧氏平方重量最大化原则和最小判决区域最大化原则,提出一种适合于此系统星座映射的新规则,设计新规则下的星型16QAM星座映射图,通过分析和计算机仿真,比较了各种星型16QAM星座映射性能。仿真结果表明,根据新规则设计的星型16QAM星座映射好于其他星座映射,在误码率达到10-6时,使用设计的映射方式使得系统性能有2.2 dB的增益。

G.HN标准中十字星座QAM低复杂度解映射算法

为降低G.HN标准中十字星座QAM解映射的复杂度,首先引入对数似然比贡献权值,衡量参考星座点对解映射的贡献;提出十字星座QAM低复杂度解映射算法,搜索范围缩小为对数似然比贡献权值较大的参考星座点;讨论算法边界情况的搜索范围确定方法;研究信道估计辅助的自适应搜索范围选择方案.仿真结果表明,本文所提算法在获得与全搜索范围相同的误码性能前提下,减小平均搜索星座点数,2 048-QAM和512-QAM解映射平均搜索星座点数仅为全搜索范围的1.9%和5.7%.简化算法较好的平衡性能和解映射复杂度,具有较大的工程应用前景.

基于多门限极性判决的QAM载波恢复算法

正交幅度调制(QAM)是现代通信中最为常用的一种调制方法,其载波恢复是决定接收机性能的关键因素之一。从提高收敛速度和减小锁定误差的角度出发,提出了一种用于QAM解调的多门限极性判决载波恢复算法,该算法充分利用QAM星座图中对角线上锁定误差为零的信号点,增加了用于提取相位误差的符号集。分析和仿真表明,与传统的面向判决载波恢复算法相比,该算法不仅保留了极性判决载波恢复算法频偏搜索范围大的优点,且能进一步提高收敛速度。

基于全星座信号点的16-QAM载波恢复

为提高16-QAM载波恢复的性能,探讨了16-QAM信号的相位与其传送信息之间的关系,并提出了一种基于全星座信号点的16-QAM载波恢复方法.该方法通过对信号的处理,使所有信号都能被载波恢复环利用.分析和仿真结果表明,与传统方法相比,基于全星座信号点的载波恢复方法的捕获带宽更大,而相位跟踪误差更小.