光纤水听器系统光纤传输噪声的自适应消除

传输光纤引入的偏振和相位调制噪声给光纤水听器远程传输系统带来严重影响。论文提出使用一个声压和加速度不灵敏的参考探头来获取传输光纤引入的公共噪声,并将该噪声进行自适应滤波处理来估计和消除传感探头中传输噪声的方案。实验结果表明,归一化最小均方误差(NLMS)自适应算法对冲击传输光纤引入的宽带偏振噪声抑制最大达20dB;对传输光纤中大幅度的单频连续相位调制噪声抑制达20dB;自适应滤波基本消除了传输噪声的影响,并且完整保留了传感探头中的仿真信号。实验同时证明,自适应噪声消除的结果优于直接将参考探头与传感探头信号相减的噪声抑制效果。

高阶Delta-Sigma调制器噪声传输函数的设计

该文系统地描述了一种设计高阶delta-sigma调制器的方法,这种方法的优势在于不需要考虑稳定机制。该方法利用带外的增益和峰值信噪比的关系来判决最优的噪声传输函数,同时还讨论了DSM在稳定性和性能上的权衡。因此调制器传输函数的设计思路如下:首先找到NTF的带外增益、峰值信噪比和最大输入信号幅度之间的关系,然后在这个关系的辅助下就可以找到满足条件的NTF。

光纤传输对接收机(雷达)相位噪声的影响及其在MTI性能测试中的应用

测得光纤传输对雷达本振激励源相位噪声的影响 ,并应用该传输设备对雷达接收系统的 MTI性能进行测试 ,研究了光纤传输对雷达相位噪声及 MTI性能测试的影响 ,说明提高光纤传输设备及雷达接收系统性能应进行的工作。

话音通信中的背景噪声传输性能测试方法与结果分析

本文介绍了背景噪声传输的定义,它的几个参数包括D值、近端背景噪声传输质量和远端背景噪声传输质量,还介绍了这些参数的测试方法和判别标准。分析了四种典型的测试样例,详细叙述了这些典型样例的形成原因、带来的用户感受,并对结果不理想的测试样例给出了的解决建议。

一款20位无噪声分辨率ADC设计与测试

ADC是信号处理系统的核心敏感器件,其测量精度直接影响信号系统的准确性。ΔΣADC相较传统的奈奎斯特ADC,通过噪声整形及过采样技术可以有效地获取极高的分辨精度。对于大部分测量类传感器应用,其信号频带接近于DC,所以低阶高过采样率调制器是最适用的一种解决方案。本文基于一款二阶ΔΣ调制器(MOD2)的设计,从系统建模到电路设计再到最终的流片测试均给出了详细数据。

基于CST的抗扰度测试环境辐射电磁场仿真

在GB-17626中,对雷击浪涌、电快速瞬变脉冲群等电磁抗扰度的测量都做了明确的规定.但是,这些测试中的传输线上往往存在着高频信号引起的电磁场噪声,严重地影响到了标准测试的准确性.借助CST MWS软件对相应的机理模型进行电磁场场强、远场辐射等的计算机仿真.帮助工程测试人员理解电磁干扰的实际存在,以提出解决应对的方法.

经济型车床数控系统的抗干扰设计

经济型车床数控系统的使用环境较为恶劣 ,系统内部、外部电磁噪声常常干扰数控系统的正常运行。文章从噪声源、噪声传输路径及受扰设备 3方面入手 ,提出了提高经济型车床数控系统抗干扰能力的一些方法 ,即抑制噪声源、阻断噪声传输路径、提高数控系统核心部分——计算机的抗干扰能力。实践证明 ,根据具体情况灵活使用这些方法能有效提高经济型车床数控系统的抗干扰能力。

高精度Sigma-Delta调制器的建模设计

基于MATLAB Simulink设计实现了一款单环三阶一位量化CIFF(Cascade-of-integrators,feedforward form)结构的高精度Sigma-Delta调制器.通过对噪声传输函数和系统反馈系数进行优化,提高了调制器的稳定性;分析了开关电容电路的主要误差影响,为电路实现提供可靠的设计指导.仿真结果显示,在输入信号带宽为75Hz,过采样率为512时,理想调制器输出SNR高达148.3dB,ENOB为24.34bit;考虑非理想因素时,ENOB为22.02bit;电路级实现的调制器ENOB达20.94bit,表明该设计可实现低信号带宽下高精度转换.

远程光纤水听器系统中传输光纤引入噪声的抑制

远程传输光纤受环境的影响会在水听器系统中引入噪声,利用迈克耳孙光纤干涉仪模拟光纤水听器,搭建了远程光纤水听器系统,采用参考干涉仪法解调对传输光纤引入的噪声进行抑制。实验结果表明,与常用的相位产生载波技术(PGC)解调相比,参考干涉仪法解调在不影响传感水听器对声信号检测能力的情况下,对传输光纤引入的扰动噪声能进行良好的抑制,频率为500 Hz噪声的抑制量可达到约25 d B,同时该方法使传感水听器系统中100 Hz位置的本底噪声也降低了17 d B。

一种新型的∑Δ调制器行为级设计方法

介绍了一种新型的∑△调制器行为级设计方法.它分别设计∑△调制器噪声传输函数的零极点,并运用噪声功率增益作为稳定性参量来判断所设计的噪声传输函数的稳定性;同时,论文中还给出了物理实现调制器的内部积分器实现的方法,并推导出了通用∑△调制器状态变量缩放的解析公式。

IEEE802.16e系统中结合DTX/CNG技术的VMR-WB VoIP上行链路调度算法

提出了一种灵活的上行链路调度算法,该算法能够支持具有可变速率多模式宽带(VMR-WB)的VoIP业务.通过与DTX/CNG技术的结合,解决了上行链路资源浪费、附加接入延时和额外开销等问题.该算法使用IEEE802.16e协议中的2个保留比特分别提供用户的模式信息和ON/OFF状态信息,基站通过获取它们来有效地分配上行链路资源.仿真结果表明,通过与UGS、rtPS和ertPS等传统算法的比较,该算法在资源利用率、用户容量、吞吐量,以及在较大用户数目时的延时等方面的性能均优于传统算法.

EFFICIENT IMAGE TRANSMISSION SCHEME IN FMT SYSTEM

An efficient image transmission scheme is proposed based on byte partition and adaptive sub-channel distribution technique in Filtered MultiTone (FMT) system over frequency selective slow fading channel. According to the simulation results and analysis of a typical image with matlab, improvement in Peak Signal to Noise Ratio (PSNR) of the received image and low complexity for equalization is demonstrated remarkably. Comparing with no adaptive and no actual channel equalization scheme, the proposed scheme saves over 6 dB when PSNR=40 dB.

基于Verilog-A行为级模型的三阶单环调制器设计与仿真

提出了一种三阶单环局部反馈的Sigma-Delta调制器结构。对传统的噪声传输函数引入极点加以修正,最终采用巴特沃兹高通滤波器原型确定调制器的噪声传输函数,在采用Matlab Simulink进行参数优化和仿真的基础上,编写了各电路子模块Verilog-A程序,并以此搭建整体调制器模型进行行为级建模。仿真结果表明,该三阶单环局部反馈的Sigma-Delta调制器结构能实现精度为16 bit,无杂散动态范围(SFDR)大于96 dB,时钟频率最高5.12 MHz,过采样率为128,输入信号带宽最大为20 kHz的调制器模型。

Performance Analysis of Full-Duplex Based Two-Way Relaying

Cooperative communication is regarded as a promising technique for improving the reliability of wireless communication links and enhancing the radio coverage simultaneously. Unlike the conventional half-duplex(HD) mode relaying techniques,the full-duplex based two-way relaying(FD-TWR) enables data exchanges between two nodes to be completed within a single time-slot,thus resulting in a significant improvement in the spectrum efficiency. In this paper,the channel model of the FD-TWR is first given out,followed by deriving the critical performance metrics,including the received signal-to-interference-plus-noise ratio(SINR),the upper bound of the ergodic capacity and the closedform solution of the proposed FD-TWR under amplify-and-forward(AF) mode. Furthermore,taking the limit of sum-transmit-power into account,we formulate the objective function of the optimal power allocation of FD-TWR as an extreme-value problem by deriving the optimal transmit power for both the source nodes and the relay node. As long as the self-interference(SI) signal in the FD-TWR nodes can be sufficiently suppressed,the proposed scheme is shown to outperform the conventional HD mode in terms of both the ergodic capacity and the outage probability. In addition,regardless of the practical SI power,the proposedFD-TWR is always capable of achieving its best performance with an aid of the proposed optimal power allocation scheme.

Capacity Research in Cluster-Based Underwater Wireless Sensor Networks Based on Stochastic Geometry

Underwater wireless sensor networks(UWSNs) have attracted wide attention in recent years.The capacity research on it is still in the initial stage,lacking adequate performance evaluation for network construction.This paper will focus on this subject by theoretical analysis and simulation,aiming to provide some insights for the actual UWSNs construction.According to the structure features of cluster-based UWSNs and the propagation characteristics of underwater acoustic signal,with the combination of signal to interference plus noise ratio,we define some capacity performance metrics,such as outage probability and transmission capacity.Based on the theory of stochastic geometry,a network capacity analytical model used in the cluster-based UWSNs is presented.The simulation results verify the validity of the theoretical analysis,and the cause of error between theoretical and simulation results has also been clearly explained.

Unknown State Transmission Using GHZ States via Collective Noise Channel

Two protocols for transmitting an unknown single-photon state and an unknown non-maximally entangledEPR state are presented by using the quantum channel of three-phonton GHZ (Greenberger-Horne-Zeilinger) state,which can be realized with unitary success probability when collective noise is taken into account.The protocols canalso be generalized to transmit multi-photon state or to realize quantum communication in collective noise channel.

Transport for a System with Additive Temporal-Spatial Noise

In this paper, we study the transport of the system with the additive temporal-spatial noise, by two models, i.e., a spatial asymmetry model and a spatial symmetry model. The study shows that the correlation of the additive noise with the space and the spatial asymmetry are ingredients for the transport.

Appearance of Spatial-Temporal Noise in Super-conducting Junction and Its Effect on Transport of Electron Pairs

Transport of electron pairs in super-conducting junction with spatial-temporal noise is investigated. We show that the spatial-temporal noise can produce the current of the electron pairs, which stems from a symmetry breaking of the system induced by the correlation of the spatial-temporal noise with the phase difference. It is found that there is a positive current for the electron pairs, exhibiting a peak with increasing the values of some parameters of the noises. The results provide a theoretical foundation for the further investigation of the super-conducting junction.

Space-time Block Codes Based on Quasi-Orthogonal Designs

A new space-time block codes based on quasi-orthogonal designs are put forward. First the channel model is formulated. Then the connection between orthogonal /quasi-orthogonal designs and space-time block codes is explored. Finally we make simulations for the transmission of 4 bits/s/Hz and 6 bits/s/Hz using eight transmit antennas using the rate 3/4 quasi-orthogonal space-time block code and the rate 1/2 full-diversity orthogonal space-time block code. Simulation results show that full transmission rate is more important for very low signal noise ratio (SNR) and high bit error probability (BEP), while full diversity is more important for very high SNR and low BEP.