Equalization for continuous phase modulation over frequency-selective fading channels

This paper presents an equalization algorithm for continuous phase modulation （CPM） over frequency-selective channels. A specific training sequence is first embedded in each data packet. By recursive least-squares （RLS） estimation, the channel information parameters can be acquired, and a fractionally Simulation results show that the proposed algorithm can acquire the spaced equalizer performs joint decoding and equalization. channel information parameters rapidly and accurately, and that the fractionally spaced equalizer can eliminate the intersymbol interference （ISI） effectively, and is not sensitive to timing inaccuracy, so this algorithm can be exploited for demodulation system in burst mode.

SERIALLY CONCATENATED CONTINUOUS PHASE MODULATION WITH REDUCED ITERATIVE DEMODULATION AND DETECTION

A reduced state Soft Input Soft Output (SISO) a posteriori probability algorithm for Seri-ally Concatenated Continuous Phase Modulation (SCCPM) is proposed in this paper. Based on the Reduced State Sequence Detection (RSSD),it has more general form compared with other reduced state SISO algorithms. The proposed algorithm can greatly reduce the state number,thus leads to the computation complexity reduction. It also minimizes the degradation in Euclidean distance with decision feedback in the reduced state trellis. Analysis and simulation results show that the perform-ance degradation is little with proper reduction scheme.

Improved dichotomous search frequency offset estimator for burst-mode continuous phase modulation

A data-aided technique for cartier frequency offset estimation with continuous phase modulation （CPM） in burst- mode transmission is presented. The proposed technique first exploits a special pilot sequence, or training sequence, to form a sinusoidal waveform. Then, an improved dichotomous search frequency offset estimator is introduced to determine the frequency offset using the sinusoid. Theoretical analysis and simulation results indicate that our estimator is noteworthy in the following aspects. First, the estimator can operate independently of timing recovery. Second, it has relatively low outlier, i.e., the minimum signal-to-noise ratio （SNR） required to guarantee estimation accuracy. Finally, the most important property is that our estimator is complexity-reduced compared to the existing dichotomous search methods： it eliminates the need for fast Fourier transform （FFT） and modulation removal, and exhibits faster convergence rate without accuracy degradation.

Multi-Branch Fractional Multi-Bit Differential Detection of Continuous Phase Modulation with Decision Feedback

Differential detection of continuous phase modulation suffers from significant intersymbol interference. To reduce bit error rate, multi-branch fractional multi-bit differential detection (MFMDD) with decision feed-back is proposed. By introducing decision feedback in multi-bit differential detected signals, severe inter-symbol interference can be removed. Simulation results show that the proposed structure can greatly im-proves the performance compared with MFMDD without decision feedback, and the performance of 9 FMDD is very near to the performance of the coherent detection.

CNN demodulation model with cascade parallel crossing for CPM signals

The continuous phase modulation(CPM)technique is widely used in range telemetry due to its high spectral efficiency and power efficiency.However,the demodulation performance of the traditional maximum likelihood sequence detection(MLSD)algorithm significantly deteriorates in non-ideal synchronization or fading channels.To address this issue,this work proposes a convolutional neural network(CNN)called the cascade parallel crossing network(CPCNet)to enhance the robustness of CPM signals demodulation.The CPCNet model employs a multiple parallel structure and feature fusion to extract richer features from CPM signals.This approach constructs feature maps at different levels,resulting in a more comprehensive training of the model and improved demodulation performance.Simulation results show that under Gaussian channel,the proposed CPCNet achieves the same bit error rate(BER)performance as MLSD method when there is no timing error,but with 1/4 symbol period timing error,the proposed method has 2 dB demodulation gain compared with CNN and convolutional long short-term memory deep neural network(CLDNN).In addition,under Rayleigh channel,the BER of the proposed method is reduced by 5%-87%compared to that of MLSD in the wide signal-to-noise ratio(SNR)region.

基于时频域特征的CPM信号调制指数估计算法

目前非合作条件下窄带系统中的连续相位调制(Continuous Phase Modulation,CPM)信号的调制指数估计算法存在依赖相关长度先验信息的问题。针对该问题,本文创新性地提出基于时频域特征的CPM信号调制指数估计算法。在研究不同相位脉冲差异后将CPM信号分为连续相位频移键控(Continuous Phase Frequency Shift Keying,CPFSK)信号和非CPFSK类信号。首先根据相位脉冲特点判定信号类型;其次基于CPM信号的循环平稳特性,利用变换后信号的功率谱联合估计频偏和整数倍调制指数分母;接着完成信号载波同步、定时同步并进行平滑处理;然后基于不同参数条件下信号的周期相位分布差异,针对调制指数调整为整数后的信号,计算三种符号周期下的分位函数曲线与对应相关长度下的各调制指数模板曲线欧式距离,选取三种符号周期条件下最小欧式距离对应的模板曲线,从而确定调整前信号的整数倍调制指数分子。最后综合调制指数分母和分子估计的结果确定信号的调制指数值。仿真实验结果:对于任意频率脉冲的部分响应CPM信号,若信号的调制指数h<1,在信噪比E_(b)/N_(0)>16 dB时,平均识别准确率大于81%;若信号的调制指数h>1,在信噪比E_(b)/N_(0)>18 dB时,平均识别准确率大于82.2%。仿真实验证明了本文算法不要求相关长度先验信息,适用于任意调制指数条件的部分响应CPM信号,并且在一定程度上能够区分调制指数值接近的信号。实采信号参数估计试验证明了本文算法的有效性。

A reduced state SISO iterative decoding algorithm for serially concatenated continuous phase modulation

In this paper, serially concatenated continuous phase modulation （SCCPM） system is analyzed and a reduced state soft input soft output （SlSO） a posteriori probability algorithm is proposed. Based on the reduced state sequence detection （RSSD）, it has the more general form compared with other reduced state SISO algorithms. The proposed algorithm can greatly reduce the state number, thus leads to the computation complexity reduction. It also minimizes the degradation in Euclidean distance with decision feedback in the reduced state trellis. Analysis and simulation results show that the performance degradation is little with proper reduction scheme.

OFDM-CPM-LFM雷达通信一体化信号研究

针对雷达通信一体化信号雷达、通信性能无法兼顾的问题,提出了OFDM-CPM-LFM雷达通信一体化信号.首先,通过连续相位调制(Continuous Phase Modulation,CPM)对线性调频信号(Linear Frequency Modulation,LFM)进行调制,降低信号模糊函数旁瓣提高雷达探测能力,在动态调制指数下均衡一体化信号性能;然后结合正交频分复用技术(Orthogonal Frequency Division Multiplexing,OFDM)提高通信传输速率,通过增加循环前、后缀降低干扰影响保证通信性能;最后,利用模糊函数与误码率分析一体化信号性能.仿真结果表明,所提一体化信号在保证雷达探测性能同时,能够实现高效通信,且误码率在信噪比10 dB时可达到10−5以下.

面向星地融合网络的CPM信号研究进展

围绕6G的“全覆盖”愿景,星地融合作为核心技术之一,是未来无线通信系统发展的方向。建设星地融合网络、实现星地深度融合需要设计合理的物理层波形。针对星地融合信息传输面临的问题,分析连续相位调制(Continuous Phase Modulation,CPM)信号在频谱效率、能量效率上的显著优势与应用价值,从时频域的角度综述移动通信系统中CPM信号接收技术的研究进展,以期为后续星地融合中CPM相关研究提供支撑。

一种多元LDPC-CPM优化方法及性能仿真分析

为了解决二元低密度奇偶校验(LDPC)码与高阶连续相位调制(CPM)级联的系统在卫星通信、深空通信方面传输性能不足的问题,提出了一种多元LDPC-CPM优化方法。首先采用多元LDPC码与高阶CPM串行级联形成多元LDPC-CPM系统获取更好的传输误码性能。其次考虑到多元LDPC码的传统译码算法复杂度过高,难以硬件实现的问题,设计了一种改进型的Mixed-Log-FFT-BP算法,通过去除加法与查表运算中对数似然比的求解,降低译码复杂度。最后针对多元LDPC-CPM系统涉及参数过多问题,提出一种性能逐步收敛的参数优化方法。仿真结果表明,与优化前的系统相比,优化后的系统在中高信噪比下,误码性能有1~1.2 dB的提升,且系统复杂度较低。

一种基于CPM信号的调制指数分步联合估计算法

在CPM信号的非协作通信中,需要对接收信号进行精确的调制指数估计。针对传统的调制指数联合估计算法三维空间搜索复杂、不能实时估计的问题,提出一种分步联合估计算法,极大地降低了计算复杂度,能更好地满足实时性需求。

宽带遥测网络中基于信道估计误差补偿的均衡算法

随着遥测网络数据量的增加,传输信道的多径衰落严重影响接收性能。盲均衡算法实现结构简单,但仅在平衰落信道下提供优良的均衡性能。数据辅助的均衡算法能够抗深度衰落,但存在均衡误差较大的问题。针对上述两类算法的限制,利用数据辅助抗衰落的特点,结合盲均衡简单的实现结构并进一步补偿信道估计误差,提出了数据辅助和恒模准则盲均衡联合均衡算法,用于提升整体均衡的性能。通过以遥测网络标准中的成形偏移四相相移键控(Shaped Offset Quadrature Phase Shift Key,Telemetry Group version,SOQPSK-TG)为调制信号搭建系统仿真,结果表明该混合算法优于传统基于数据辅助均衡算法和盲均衡算法,能够提供至少3 dB的误码率解调增益。

强信号全覆盖下反射式强度型传感器信号调制设计

反射式强度型传感器在强信号全覆盖环境下常常受到干扰和影响,导致传感器信号的质量下降甚至失真,给后续的信号处理和数据分析带来了困难。对此,提出强信号全覆盖下反射式强度型传感器信号调制方法。首先,判断强信号全覆盖环境下传感器信号的稀疏性,并根据环境的干扰因素建立信号的观测矩阵,通过优化算法计算出稀疏向量的估计值,使用稀疏向量的估计值对观测信号进行补偿,得到补偿后的信号;然后,应用正交锁相放大技术,将补偿后的信号与严格正交的两路参考信号相乘,提高信噪比,获得增强后的信号;最后,利用连续相位多支路调制方法,对增强后的传感器信号展开比特信息分离、二维信号映射与载波相位调制操作,完成信号调制。实验结果表明,所提方法可扩展性强、稳定性高且抗干扰能力强。

基于数据辅助的CPM信号调制参数估计

针对非合作条件下实现CPM信号相干解调,首先要准确估计CPM信号调制参数这一关键问题,该文提出了一种基于数据辅助的CPM信号调制指数与成型脉冲联合估计的新方法,使用符号间的相位差分消除CPM信号相位的记忆特性,采用最小二乘法获得调制指数和成型脉冲的联合估计。理论分析与数值仿真表明该方法是无偏的,当数据观测长度为N时,其估计误差以1/N的速率收敛到0。算法适用于全响应和部分响应CPM信号,具有良好的抗噪声性能。

基于符号频域均衡的CPM迭代检测算法

该文研究了部分响应连续相位调制(CPM)信号的频域均衡技术,设计了一种新的发射信号帧结构,并在此基础上提出了一种低复杂度的CPM迭代检测算法,分析了该迭代检测算法的复杂度和误码性能。理论分析和仿真结果表明,在多径衰落信道下,该算法比已有的CPM双迭代频域均衡算法具有更低的复杂度和更好的性能。

一种基于循环平稳性的CPM信号调制阶数盲识别算法

本文利用CPM信号的循环平稳性,深入分析了M进制CPM信号循环谱密度函数与信号调制阶数之间的内在联系,并在此基础上提出了一种基于信号循环平稳性的CPM信号调制阶数盲识别算法。实现了任意调制指数和频率成形脉冲的CPM信号调制阶数盲识别,为CPM信号的盲解调奠定了基础。计算机仿真结果与分析表明,该算法具有较高的正确识别率,并且受高斯噪声影响较小,实现简单,有实用意义。

CPM信号的定时-相位联合估计算法

针对CPM信号同步问题,在判决数据辅助的基础上提出一种联合定时-相位估计算法。该算法用Laurent分解表示CPM信号,由定时-相位联合似然函数得到定时误差检测器和相位误差检测器,找出瞬时梯度,迭代求解恢复出定时和相位信息。通过分析二进制部分响应CPM中的常见形式PCM/FM信号,提出一种联合定时-相位估计的实现方案。在加性高斯白噪声信道上的仿真结果表明,该算法适用于二进制部分响应CPM信号,定时和相位估计性能都逼近理想曲线。

一种CPM信号频率成形脉冲盲估计算法

频率成形脉冲是连续相位调制(CPM)信号解调所必需的调制参数,由脉冲形状和脉冲长度两个参数共同决定。该文利用CPM信号的自相关特性,深入分析了CPM信号调制参数与自相关函数之间的内在联系,并在此基础上提出了一种频率成形脉冲的盲估计算法。该算法首先实现脉冲形状的盲识别,然后将CPM信号的调制指数调整为整数,最后通过自相关函数中非零值的个数来实现脉冲长度的盲估计。计算机仿真结果与分析表明,该算法实现简单,能够在任意调制阶数和调制指数下有效估计出频率成形脉冲。

一种CPM信号检测与定时同步算法

针对传统连续相位调制(CPM)接收机检测复杂度高和定时同步困难的问题,提出一种CPM信号联合检测与定时同步算法。基于低维Walsh信号空间分解CPM信号,在低通滤波器中采用子区间采样器代替大量匹配滤波器,利用面向判决的方式进行定时同步。仿真实验表明,该算法的复杂度较低,适用于多数CPM调制方案。

基于FABA-SISO的时变频率选择性衰落信道CPM信号盲均衡

该文针对时变频率选择性衰落信道下高阶连续相位调制(CPM)信号盲均衡中存在的均衡性能较差、复杂度较高以及收敛速度慢等问题,从双向自适应信道均衡的角度出发,将线性调制信号均衡中使用的前后向自适应软输入软输出(FABA-SISO)算法推广,建立一种新的基于FABA-SISO的信道盲均衡方法,并结合逐幸存处理(PSP)思想和Kalman滤波,提出一种适用于高阶CPM信号的自适应盲均衡算法。该算法通过使用FABA-SISO算法,同时利用过去、现在和将来的观察数据进行Kalman滤波信道估计,有效改善了信道估计的精度,同时使用PSP算法来降低系统的复杂度,使得算法具有较好的工程应用性。仿真结果表明所提算法具有良好的盲均衡性能以及收敛性。