The Effects of Power Control on Free-Space Optical Communications during Snowfall and Rainfall

Free-space optical (FSO) communication requires a line-of-sight connection between a transmitter and a receiver in which the information signal is modulated by an optical carrier that propagates in free space. The FSO channel is greatly affected by weather conditions such as fog, rain, and snow. In the literature, several adaptive techniques, such as power control (PC), have been suggested to mitigate channel link degradations. In this paper, we investigate the effects of snow and rain attenuation on the bit error rate (BER) of the FSO system using two types of modulations, the on-off keying (OOK) modulation and the pulse-position modulation (16-PPM). The effect of PC on the performance of FSO communications is also examined in this study. We evaluated the system’s performance with two types of snow, wet snow and dry snow, as well as with different rain regions. Results show that PC improves the BER of the FSO system;a high rate of improvement is found for wet snow and rain. PC has almost no effect with dry snow because of the high attenuation and the limitations on transmitted power. The BER for 16-PPM is better than that for OOK modulation.

A survey of free space optical networks

Free Space Optical （FSO） networks, also known as optical wireless networks, have emerged as viable candidates for broadband wireless communications in the near future. The range of the potential application of FSO networks is extensive, from home to satellite. However, FSO networks have not been popularized because of insufficient availability and reliability. Researchers have focused on the problems in the physical layer in order to exploit the properties of wireless optical channels. However, recent technological developments with successful results make it practical to explore the advantages of the high bandwidth. Some researchers have begun to focus on the problems of network and upper layers in FSO networks. In this survey, we classify prospective global FSO networks into three subnetworks and give an account of them. We also present state-of- the-art research and discuss what kinds of challenges exist.

Performance Analysis of Curved Track G2T-FSO(Ground-to-Train Free Space Optical)Model under Various Weather Conditions

The demand for broadband data services on high-speed trains is rapidly growing as more people commute between their homes and workplaces.However,current radio frequency(RF)technology cannot adequately meet this demand.In order to address the bandwidth constraint,a technique known as free space optics(FSO)has been proposed.This paper presents a mathematical derivation and formulation of curve track G2T-FSO(Ground-to-train Free Space Optical)model,where the track radius characteristics is 2667 m,divergence angle track is 1.5°for train velocity at V=250 km/h.Multiple transmitter configurations are proposed to maximize coverage range and enhance curve track G2T-FSO link performance under varying weather conditions.The curved track G2T-FSO model was evaluated in terms of received power,signal-to-noise ratio(SNR),bit error rate(BER),and eye diagrams.The results showed maximum coverage lengths of 618,505,365,and 240 m for 4Tx/1Rx,3Tx/1Rx,2Tx/1Rx,and 1Tx/1Rx configurations,respectively.The analyzed results demonstrate that the G2T-FSO link can be effectively implemented under various weather conditions.

BER Performance of FSO Communication System with Differential Signaling over Correlated Atmospheric Turbulence Fading

Free space optical(FSO) communication system with differential signaling possesses the advantage of requiring no channel state information and avoiding computational load or link throughput reduction compared to the systems with conventional receivers. In this work, we investigate bit error rate(BER) performance of this system over partially and fully correlated atmospheric turbulence fading. In order to conduct the above analysis, we obtain a probability density functions(PDF) of the channel fading on the differential signals and derive our instantaneous BER using differential signaling scheme. Based on these results, we develop two closed-form mathematical expressions for the average BER under fully correlated and partially correlated fading in the convergent infinite series confirmed by Cauchy’s ratio test. The accuracy of the derived BER expressions is demonstrated by the Monte Carlo simulations, and the analyses for the effects of the system parameters on the BER performance are provided.

FSO中分层空时编码的误码性能

分层空时编码(BLAST)虽然具有极高的频谱效率,能成倍提高光通信系统的信息传输速率,但BLAST系统的误码率较大,严重影响了光通信系统的可靠性。在描述了湍流信道中多输入多输出(MIMO)系统的信道模型后,针对多进制脉冲位置调制(Q-PPM)技术,推导出了采用线性译码算法时分层空时码的极大似然判决准则及其误码率公式,并比较了最大似然译码算法、线性译码算法、串行干扰消除译码算法的误码性能。最后,利用仿真实验进行了验证。结果表明:在自由空间光通信(FSO)中,串行干扰消除译码算法的误码性能更接近最大似然译码算法的性能,明显优于线性译码算法。在4×4系统中,当误比特率为2×10-2时,相对于最小均方误差(MMSE)译码算法,最大似然译码算法和MMSE-SIC译码算法的信噪比分别改善了约14.5 dB和7 dB。理论分析与实验结果相一致。

FSO MIMO垂直空时分层码研究及硬件仿真

在自由空间光通信(FSO)中,多输入多输出(MIMO)可以大大提高频谱利用率。在对FSOMIMO进行分析研究的基础上,提出了垂直分层空时(V-BLAST)结构,建立了该结构的系统模型。分别取不同的MIMO组数,仿真比较了PPM和OOK两种调制方式的系统误码率。运用VHDL语言设计了垂直分层空时结构的编译码,并进行了硬件功能和时序仿真。研究结果表明:在信噪比一定的情况下,PPM调制方式下系统的误码率要低于OOK调制方式下系统的误码率;运用VHDL语言设计的V-BLAST编译码,从硬件功能和时序上验证了FSOMIMO系统的可行性。

降低FSO-OFDM系统峰值平均功率比研究

虽然OFDM调制技术在射频领域中已得到了广泛的研究,但在无线光领域中的研究才刚开始。由于FSO-OFDM系统中采用马赫-曾德尔(MZM)调制器进行电光转换,该调制器的转移特性曲线为余弦函数,存在很大的非线性问题,因此,FSO-OFDM系统比射频OFDM系统对PAPR更加敏感。为了降低系统PAPR,重点研究了基于Golay互补序列和Reed-Muller码的编码类降低PAPR的算法,对输入的二进制序列进行编码,产生Golay互补序列作为传输码字,来降低系统PAPR,并通过MonteCarlo方法对其进行了仿真验证,结果表明该算法在QPSK系统中可以将峰值功率控制在3 dB以下,在QAM系统中峰值功率可以降低至4.5 dB。

偏振FSO-OFDM系统中的LMS信道估计

本文首先设计了一种基于光偏振的基带FSO-OFDM系统模型,阐述了其发射和接收部分光偏振调制和解调工作原理,介绍了大气散射信道模型。由于大气散射信道为频域选择性衰落信道,在此信道中,每个子载波的信道冲激响应在相干时间内的值保持相关性,因此本文利用同一子载波中距离小于相干时间的连续若干个OFDM符号信道特性之间的相关性,采用LMS算法对未来符号位置迭代的初始值进行预测,再进行迭代得到信道冲击响应值。在本系统中,水平和垂直线偏振光经过的光路相同,因此信道特性基本一致,最后再通过对两路信道估计值进行加权,得到更加准确的信道预测值。通过仿真进行验证,结果表明,在散射信道中(最小均方)LMS算法可以很好的对信道进行跟踪,同时系统误码率可得到大约2dB的改善。

混合FSO/RF系统自动切换条件的研究

研究混合FSO/RF通信系统链路双切换理论,主要针对自由空间光通信受天气因素影响严重的问题。通过分析得出信号的码元速率与带宽成正比关系,降低码元速率即可降低噪声,从而缓解噪声的影响,提高系统信噪比;在能见度较小的天气条件下,低速的自由空间光通信系统性能仍达不到门限值,系统才将切换至射频链路。此理论使实际通信中能够更加充分的利用FSO及RF的优势进行互补,提高系统信噪比的同时又减少了信道切换的次数。

强湍流条件下软切换FSO/RF混合链路中HARQ方案的对比分析

针对FSO/RF混合链路在雾天强湍流信道环境下的数据可靠传输问题,研究三种不同合并策略下混合自动请求重传(HARQ)方案的中断概率和吞吐量性能。在K分布强湍流信道条件下,采用高斯随机变量的近似方法对单次合并、最大比合并、增量冗余合并三种HARQ协议的性能进行理论计算分析。数值计算结果表明,在雾天强湍流信道条件下,采用增量冗余HARQ协议的系统性能明显优于单次合并、最大比合并方案,通过调整初始码率和重传次数,可显著降低系统中断概率,从而提高FSO/RF混合系统在恶劣环境下数据传输的可靠性。

FSO的关键技术及应用

自由空间光通信(FSO)是光通信与无线通信的结合,它以激光为载波、大气为传输介质实现大容量信息的传递,针对自然灾害给人们造成的通信阻碍提出了基于FSO无线光通信系统的解决方案。详细介绍了该系统的构成、网络拓扑结构,着重研究了系统的一些关键技术及其应用。利用FSO技术完成无线通信,体现了无线、大容量的数据传输的要求,降低了光纤网络敷设成本,且灵活高效,增加了系统对抗严重自然灾害的能力,提高了整个通信网络的可靠性。

基于FSO的接触网开关集中联锁监控系统

实现接触网开关的集中联锁监控是铁路电气化发展的必然趋势。在大量调研国内外发展现状的前提下,研制了一套基于FSO(free space optical communication,自由空间光通信)的接触网开关集中联锁监控系统。详细地介绍了该系统的组成结构、工作原理、硬件构成及软件设计,并重点论述了现场总站对FSO的控制方式。系统试验运行良好,具有广阔的应用和推广前景。

FSO中PS-QPSK调制系统分析

在自由空间光通信(FSO)系统中,由于先进的调制格式能大大提高频谱效率,并可以改善系统的传输容量而备受采用。在研究QPSK(正交相移键控)调制的基础上,对新型调制格式PS-QPSK(偏振切换正交相移键控)的调制和解调方案进行研究,并在新型光学仿真软件Optisystem平台下完成基于PS-QPSK调制格式的系统仿真,实现FSO系统中PS-QPSK调制系统的分析。通过仿真结果可以看出,该系统可以很好地实现PS-QPSK的调制和解调,具有很好的传输性能;当进行长距离传输时,系统的误码性能降低较小。因此,采用PS-QPSK调制格式的空间光通信系统具有可行性,适合长距离传输。

FSO在电力系统应急通信中的应用

在电力系统局部通信中断的情况下,为满足迅速恢复通信及野外紧急抢修等电力系统应急通信的应用,文章结合实际需求,对自由空间激光通信系统的组成、技术特点以及在电力应急通信系统中的传输带宽、机动性能和可操作性等方面的适应性做了充分的研究和分析,并通过实际产品验证了自由空间激光通信系统在电力系统应急通信中的实用价值。

基于GPON业务的FSO传输系统

主要探讨了3G网络时代下基于GPON业务的无线激光传输设备(FSO)的经济性,比较分析了GPON业务在FSO系统中传输的技术优势。重点描述了突发式通信机制如何联合FSO设备实现通信传输,并对其实现方案进行了阐述。

混合FSO/RF通信系统链路性能的研究

自由空间光通信可以提供快捷、经济的宽带访问,然而易受天气条件和传输距离限制。文章讨论了如何设计混合FSO/RF系统的链路,使之两种系统相互辅助,提高系统的有效性。链路恢复技术中的动态负载交换算法实现了FSO和RF间的负载交换,确保在不同传输损耗下的服务质量。

基于强扰动信道的编码FSO系统错误率分析

自由空间光通信中空气扰动产生的衰落,可以使用差错控制编码来降低。该文给出了工作在大气信道下的编码FSO系统错误率的边界。大气信道可用强扰动条件下的相关值K的分布来建模,从中得到配对错误概率PEP(pairwise error probability)的上界,并运用一致限技术及所得PEP获得比特错误率的上界。仿真实验结果验证了其与理论的一致性。

近地FSO长距离链路特性及建模

本文简要描述了采用不同传输介质作为光信道的三类自由空间光通信(FSO)系统。分析了FSO系统终端通用模型及实现的关键技术。在此基础上,重点讨论了近地FSO长距离链路特性及建模。

混合RF/FSO中继系统中断性能研究

为准确评价混合射频/自由空间光通信(RF/FSO:Radio-Frequency/Free-Space Optics)中继系统性能,利用Meijer's G函数推导得到混合RF/FSO中继系统端到端中断概率闭合解析表达式。该混合RF/FSO中继系统采用放大转发中继、RF(Radio-Frequency)双天线发射技术。RF信道衰落服从Rayleigh分布,FSO(Free-Space Optics)信道衰落服从M分布。蒙特卡洛仿真验证了推导结果的准确性。