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提出了一种新的基于快速哈特莱变换(FHT)的翻转光正交频分复用(OFDM)方案(Flip-FHT).快速哈特莱变换为实三角变换,当用其处理傅里叶变换时,输入信号不需要厄米对称性.同时,与传统的基于快速傅里叶变换(FFT)的非对称限幅光OFDM(ACO-OFDM)中只有奇数子载波携带信息符号不同,该方案由于翻转了实双极信号的负数部分,使得偶数子载波也可以携带信息符号,故该方案适用于强度调制/直接检测(IM/DD)光无线通信(OWC)系统.与ACO-OFDM相比,Flip-FHT的频谱效率提高了1倍,计算复杂度在接收端降低了50%.仿真结果表明,与采用4QAM和16QAM(正交幅度调制)的ACO-OFDM相比,采用BPSK(二进制相移键控)和4PAM(脉冲幅度调制)的Flip-FHT可以在系统结构更简单、星座尺寸更小的情况下获得相同的性能. 相似文献
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紫外光通信技术具有低窃听、低位辨、全方位、全天候、抗干扰等优点,而基于紫外光灯的通信系统存在光源体积大、易碎、调制困难、通信速率低、功耗大等问题。设计了一种基于紫外C波段(UVC)LED的小型化无线通信系统方案,并对系统性能进行了理论分析。系统光源采用UVC LED,探测器采用日盲光电倍增管(PMT)和窄带紫外滤光片,通信系统采用开关键控(OOK)和脉冲位置调制(PPM)调制方案。仿真结果表明所设计的紫外无线通信系统可在200mW发射光功率情况下实现直径200m范围内的非视距语音通信和100mW发射光功率情况下实现250m的64Kbps准视距通信。 相似文献
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Absorption of polarization in fluorocarbon foil electrets has been studied under different conditions. The mode of surface charge decay of thermo-and radio-electrets has been explained by the mechanism of polarization trapping in electrets. 相似文献
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Jianxin Ma Ruijiao Zhang Junjie Zhang Xiangjun Xin 《Fiber and Integrated Optics》2013,32(5-6):217-229
AbstractA novel full duplex fiber wireless link providing alternative wired and 60-GHz wireless access is proposed based on a polarization orthogonal dual-tone optical millimeter-wave signal. In a hybrid optical network unit, the downlink optical signal can be decomposed as a single-sideband optical millimeter-wave signal (baseband optical signal) for wireless (wired) access by a polarization controller and polarization beam splitter. The uplink optical carrier abstracted from the downlink optical signal makes the hybrid optical network unit free from the optical source. The simulation results show that both downlinks and uplinks for either wired or wireless access can maintain quite good performance over 60 km of fiber. 相似文献
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《理论物理通讯》2020,(3)
正(A scientific journal published monthly in English in twelve issues per year.Published since 1982)Starting from Volume 71,2019,the journal is published in one volume,twelve issues per year.Published monthly in hard copy by Institute of Theoretical Physics CAS,Chinese Physical Society and online by IOP Publishing,Temple Circus,Temple Way,Bristol BS1 6HG,UK. 相似文献
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