Frequency Hopping Spread Spectrum Security Improvement with Encrypted Spreading Codes in a Partial Band Noise Jamming Environment

Frequency Hopping Spread Spectrum (FHSS) system is often deployed to protect wireless communication from jamming or to preclude undesired reception of the signal. Such themes can only be achieved if the jammer or undesired receiver does not have the knowledge of the spreading code. For this reason, unencrypted M-sequences are a deficient choice for the spreading code when a high level of security is required. The primary objective of this paper is to analyze vulnerability of linear feedback shift register (LFSRs) codes. Then, a new method based on encryption algorithm applied over spreading codes, named hidden frequency hopping is proposed to improve the security of FHSS. The proposed encryption security algorithm is highly reliable, and can be applied to all existing data communication systems based on spread spectrum techniques. Since the multi-user detection is an inherent characteristic for FHSS, the multi-user interference must be studied carefully. Hence, a new method called optimum pair “key-input” selection is proposed which reduces interference below the desired constant threshold.

THE THEORETICAL BER PERFORMANCE ANALYSIS OF A COOPERATIVE DIVERSITY SCHEME IN FREQUENCY SELECTIVE FADING CHANNEL

A novel cooperative diversity scheme based on Distributed Space-Time Block Coding and Multi-Carrier Code Division Multiple Access (DSTBC-MC-CDMA) is proposed which works well in frequency selective fading channels with multiple single-antenna users. And an analytical error model is established to describe the symbol decoding errors between interusers, based on which a close form expression for theoretical Bit Error Rate (BER) performance of the scheme is derived to analyze the influence of the interuser decoding errors on the BER performance of the scheme. Then simulation is complimented to verify the analytic result above, which also shows that the BER performance of DSTBC-MC-CDMA outgoes that of non-cooperative MC-CDMA with considerable gains. Further- more, the simulations coincide with the theoretical results well.

QPSK DS-CDMA System over Rayleigh Channel with a Randomly-Varying Frequency Narrow-Band Interference: Frequency Tracking Analysis

This paper analyses frequency tracking characteristics of a complex-coefficient adaptive infinite-impulse response (IIR) notch filter used for suppression of narrow-band interference (NBI) with a randomly-varying frequency in a quadriphase shift keying (QPSK) modulated direct-sequence code-division multiple-access (DS-CDMA) communication system. The QPSK DS-CDMA signals are transmitted over a frequency non-selective Rayleigh fading channel. The analysis is based on a first-order real-coefficient difference equation with respect to steady-state instantaneous frequency tracking error from which a closed-form expression that relates frequency tracking mean square error (MSE) with number of DS-CDMA active users and NBI power is obtained. Closed-form expressions for optimum notch bandwidth coefficient and step size constant that minimize the frequency tracking MSE are also derived. Computer simulations are included to substantiate the accuracy of the analyses.

OFDMA中同频干扰的Coded-IRC抑制算法

正交频分多址(Orthogonal Frequency Division Multiple Access,OFDMA)的同频干扰问题一直是蜂窝移动通信系统的研究重点。本文从信号域时延出发,通过分析推导了系统中干扰的表达式,并验证了不同相对时延方差下同频干扰(Co-Channel Interference,CCI)对系统的影响。针对干扰的异步非相关性以及传统干扰抑制合并(Interference Rejection Combining,IRC)算法的局限性,利用卷积码时延小、高编码增益的特点,采用Coded-IRC方法抑制干扰。仿真结果表明,时延导致的CCI在很大程度上降低了系统的误比特率性能,而Coded-IRC算法克服了IRC的局限,使得系统误比特率性能得到提升。

PERFORMANCE ANALYSIS OF HYBRID DS SFH/SSMA SYSTEMS OVER MULTIPATH FADING CHANNELS

Hybrid direct sequence and slow frequency hopping spread spectrum multiple access systems (Hybrid DS/SFH SSMA) operating through nonselective slow Rayleigh fading channels was investigated. Multipath and Multiple access interference was taken into account. Expressions of the average error probability for the system were derived. Analytical and numerical results on the average probability of error were presented for the system examined. Random signature sequences and hopping patterns were employed for the system. The numerical results show the effects of the value of M for M ary frequency shift keying (MFSK) modulation and Reed Solomon (RS) coding on the system’s performance. The comparison between RS coded system and noncode system shows that error correction coding is essential to improve the system’s performance.

Low complexity hybrid power distribution combined with subcarrier allocation algorithm for OFDMA

To improve the total throughput of the uplink orthogonal frequency division multiple access system,a low complexity hybrid power distribution（HPD） combined with subcarrier allocation scheme is proposed.For the fairness mechanism for the subcarrier,the inter-cell interference is first analyzed to calculate the capacity of the multi-cell.The user selects the subcarrier with the largest channel gain.Based on the above subcarrier allocation scheme,a new kind of HPD scheme is proposed,which adopts the waterfilling-power-distributed scheme and the equal-power-distributed scheme in the cell-boundary and the cellcenter,respectively.Simulation results show that compared with the waterfilling-power-distributed scheme in the whole cell,the proposed HPD scheme decreases the system complexity significantly,meanwhile its capacity is 2% higher than that of the equal-powerdistributed scheme over the same subcarrier allocation.

基于多波束GEO卫星的宽带移动通信系统

提出基于多波束天线静止地球轨道卫星的宽带移动通信系统方案,与常规结构同类系统用户相比,其容量更大、业务质量更好。采用时隙同步码分多址辅助的多频时分多址接入、程控交换与因特网协议交换结合的交换、时分复用和准正交时分复用下行链路传输体制,可显著增加用户量,简化星上设备,改善互联网应用业务质量。用户接入信道数为173 880,最高用户下载速率达155 Mbps。仿真结果表明,140个波束、每波束26个16幅度相移键控信号的用户下行链路传输比频分复用传输的链路性能改善11.65dB,使得宽带用户"动中通"天线等效口径缩小至原来的1/4,成本大幅降低。

OFDM调制技术在宽带高速电力线通信中的应用

介绍了电力线用做通信介质时高频部分的特性 ,以及应用于高速宽带电力线通信的 OFDM(正交频分复用 )调制的基本原理 ;分析了 OFDM应用于电力线通信的性能 ,并与其他调制技术进行了比较 ;结合一个典型应用的例子 ,介绍了国际上研究的最新进展。

基于时频联合扩频的OFDM-CDMA性能分析

提出了一种基于OFDM CDMA系统的新型时频2维联合扩频的方法,详细介绍了相应的系统结构以及接收机中不同的解扩合并方式.仿真结果表明,在时频选择性衰落信道中使用联合扩频方式的系统性能要优于MC CDMA系统.

一种基于Logistic映射的混沌跳频序列

基于Logistic映射 ,提出了一种产生混沌跳频序列的新方法。该方法是先对Logistic映射的轨道点进行多值量化 ,然后利用比特抽取产生所需的混沌跳频序列。性能分析和数值实验表明 ,在相同的条件下 (频率数目和序列长度相同 ) ,其平衡性、跳频间隔和最大汉明相关值与其它方法产生的混沌跳频序列相当 ,然而其所需的迭代次数却大大减少了 。

新的基于粒子群优化的正交频分复用系统盲频偏估计算法

针对正交频分复用(OFDM)系统频偏估计问题,提出了一种基于粒子群优化(PSO)的盲频偏估计算法。首先,根据频偏估值重建的接收信号和实际接收到的信号误差最小原则构造了盲频偏估计的数学模型,并推导出了代价函数;然后,利用粒子群优化算法强大的随机并行全局搜索能力,通过最小化代价函数估计频偏。仿真比较了常系数、微分递减两种惯性权重策略PSO算法的频偏估计性能,并与最小输出方差、黄金分割盲频偏估计算法进行了比较分析。仿真结果表明,所提算法精度高,同一信噪比下较同类算法大约有一个数量级的提升,且不受调制类型和频偏估计范围(-0.5,0.5)的限制。

QC-LDPC码在OFDM-IDMA系统中的性能研究

为了寻求一个从多址接入技术、调制技术到纠错编码方案等方面,满足下一代无线移动通信高速率、高可靠性需求的整系统解决方案,设计了一种新的基于准循环的LDPC(quasi cyclic low density parity check codes,QC-LDPC)编码的OFDM-IDMA(orthogonal frequency division multiplexing-interleave division multiple access)系统,在高斯白噪声信道下分别从编码码率及帧长2个方面对该系统进行了研究与分析,并与基于卷积码编码的OFDM-IDMA系统的性能进行了比较。仿真结果表明:这种新系统能够获得更大的编码增益和提供更高品质的通信服务,非常适合未来移动通信中高可靠性、高速率数据传输业务的需求。

利用低压电力线传输数据存在的技术问题及对策

低压电力线通信可分为远程抄表和实现高速Internet接入网两个主要应用方向。文章根据电力线信道的特性以及低速和高速信息传输的不同要求,指出对于数据传输速率较低的远程抄表系统可使用时分复用的扩频调制技术,但要注意选择合适的载波频率和扩频伪随机序列;高速Internet接入网则适合应用正交频分复用调制技术(OFDM),以克服低压电网对信号传输的不利影响,如噪声大、衰减强特点等。

光码分多址通信技术研究

介绍了光码分多址的技术原理。综述电子科技大学光纤通信重点实验室在波分复用/光码分多址混合网络、光正交码构作、码间干扰和双极性OCDMA系统等OCDMA通信技术方面所进行的研究工作和成果,最后指出了OCDMA系统的技术优势和面临的问题。

3G向4G过渡策略探讨

如何保持通信系统的平滑过渡一直是通信领域的热点问题。对3G和4G的性能指标、所采用的关键技术作了分析比较,在此基础上提出了如何有效利用3G的技术和设备来满足4G通信要求的一些建议,以最大限度地提高设备利用率,节省投资,实现3G向4G的平滑过渡。

矿井巷道时频编码协作MC-CDMA无线传输

相比于地面无线信道,矿井巷道无线信道多径衰落更加严重,严重影响了煤矿井下无线通信系统的性能。高效综合地利用煤矿井下通信系统的空间、时间和频率等各种资源,可以使煤矿井下无线通信系统的无线覆盖性能、容量和速率等得到显著地提高。在煤矿井下无线传输信道与带状受限空间结构的条件下,提出了在上行链路中采用协作分集的多载波码分多址(MC-CDMA)无线传输方案。设计了方案的时频编码协作协议,推导了方案的信道容量公式,并对误比特率进行了蒙特卡洛仿真。理论分析和仿真结果表明,采用所提出的矿井巷道时频编码协作MC-CDMA无线传输方案和时频编码协作协议,通过信道状况较好与较差用户间的协作,显著提高了系统中信道状况较差用户的信道容量和误码率性能,从而增强了井下无线通信系统信道容量的鲁棒性和通信的可靠性,使井下无线通信系统的性能得到显著改善。

矿井巷道综合衰减模型与无线传输误码率性能综合比较

根据矿井巷道环境中大尺度衰减与小尺度衰减对无线信号传输的影响,提出了矿井巷道综合衰减模型。在矿井巷道环境下,通过将无线信号衰减的理论分析结果与基于模型的测试数据进行比较,验证了该模型的准确性。基于该模型,采用距离度量的方法比较研究了多载波码分多址(MC-CDMA)、正交频分复用(OFDM)等无线传输技术在巷道环境中的误码率性能。仿真结果表明:以MC-CDMA为代表的扩频调制传输技术在近距离通信时的误码率性能较好,而OFDM则在远距离通信中表现出较强的抗衰减特性。

基于扩频ALOHA的RFID防碰撞算法

在射频识别系统中,读写器作用范围内的多标签识别存在数据碰撞的问题。为此,在分析ALOHA算法的基础上,应用码分多址技术,提出一种基于Gold码扩频的ALOHA防碰撞算法,并进行算法的推导和仿真。该算法的吞吐量会随着标签数据帧发送延时的增大而减小,随着扩频码数量的增加而增大。当扩频码数量和负载相等时,系统吞吐量最小;当扩频码数量大于负载时,吞吐效率会随扩频码数量的增加而增大,系统吞吐效率高于时隙ALOHA。应用Simulink构建基于码分多址的多标签与阅读器通信系统,分别研究信噪比、上行速率和帧长对通信误码率的影响,实验结果表明,该算法可提高阅读器与标签之间的通信质量,在现实情况下误码率趋近于0。

基于加权分数傅立叶变换的混合载波码分多址多天线系统

为实现与现有码分多址(CDMA)多天线系统的兼容,提出了一种基于加权分数傅立叶变换的混合载波CDMA多天线系统。本系统在某阶分数傅立叶变换域上采用CDMA技术对发送信号进行序列扩展,对扩展后的信号进行空时分组编码后将信号映射到对应的天线端口上去。通过选择特定的参数,本系统可以转换为单载波或多载波CDMA多天线系统。同时,本系统与现有的单载波和多载波系统相比,信号能量分布更为均匀,从而可以有效地抵抗信道衰落,取得更优的系统误码性能。

Turbo码对快跳频光码分多址系统性能的改善(英文)

在考虑多用户干扰、色散效应和差拍噪声的情况下 ,分析了Turbo码对二进制脉冲位置调制 (BPPM)的快跳频光码分多址 (FFHOCDMA)系统性能的影响 在均匀交织器的情况下 ,用Turbo码的条件重量枚举函数得到了该系统的误码率的上界 数值模拟表明 ,Turbo码对FFHOCDMA系统的误码率性能有明显的改善 ,并且随着用户数的提高 ,Turbo码对误码率的改善程度也随之提高 也就是说 ,在一定的误码率性能要求下 。