针对目前有关GPS欺骗干扰技术的研究较少涉及GPS时间欺骗干扰,且因实验条件限制,难以构建与重放实际欺骗场景,因此不同场景GPS时间欺骗对目标接收机影响仍不明确的问题,基于TEXBAT(Texas Spoofing Test Battery)提供的3组不同场景GPS时...针对目前有关GPS欺骗干扰技术的研究较少涉及GPS时间欺骗干扰,且因实验条件限制,难以构建与重放实际欺骗场景,因此不同场景GPS时间欺骗对目标接收机影响仍不明确的问题,基于TEXBAT(Texas Spoofing Test Battery)提供的3组不同场景GPS时间欺骗数据集,建立了GPS时间欺骗模型,分析了欺骗过程中存在的两种相位对齐模式对欺骗行为的影响;利用自编软件对采集的欺骗场景的原始高保真数字实时数据进行数据处理,分别得到目标接收机受欺骗与未受欺骗时的接收机钟差及钟差变化率、多普勒频率与载噪比、载波相位与接收机天线位置随时间的变化情况;深入分析了不同场景GPS时间欺骗对目标接收机的影响。实验结果表明,不同场景GPS时间欺骗将从不同角度有效影响GPS定时结果,所得结论将为GPS时间欺骗与抗欺骗技术提供重要参考。展开更多
Both static and kinematic testings are investigated by using IGS 5min, 30s and 5s-interval precise satellite clock products in precise point positioning (PPP) solution. Test results show that the sampling rate of IGS ...Both static and kinematic testings are investigated by using IGS 5min, 30s and 5s-interval precise satellite clock products in precise point positioning (PPP) solution. Test results show that the sampling rate of IGS satellite clock has very little effect on the static PPP solution. All the three types of sampling intervals of precise satellite clock can satisfy mm-cm level of positioning accuracy; higher sampling rate has no significant improvement for PPP solution. However, sampling rate of satellite clock has a significant impact on the PPP solution in kinematic PPP. The higher the interval of satellite clock, the better the accuracy achieved. The accuracy of kinematic PPP achieved by using 30s-interval precise satellite clock is improved by nearly 30-50 percent with respect to the solution by using 5min-interval precise satellite clock, but using 5s and 30s-interval satellite clock can almost produce the same accuracy of kinematic solution. Moreover, the use of precise satellite clock products from different analysis centers may also produce more or less effect on the PPP solution.展开更多
比较和分析了使用IGS5min、IGS30s以及CODE30s、CODE5s4种精密卫星钟差产品对精密单点定位(precise point positioning,PPP)精度及其收敛性的影响。在达到同等精度水平时,使用30s和5s采样率的钟差产品,其收敛时间要明显短于5min的精密...比较和分析了使用IGS5min、IGS30s以及CODE30s、CODE5s4种精密卫星钟差产品对精密单点定位(precise point positioning,PPP)精度及其收敛性的影响。在达到同等精度水平时,使用30s和5s采样率的钟差产品,其收敛时间要明显短于5min的精密钟差产品。展开更多
Using differential detection, we perform polarization-multiplexing 160-Gb/s optical non-return-to-zero (NRZ) differential quadrature phase shift keying (DQPSK) signal transmission over 100-kin standard single mode...Using differential detection, we perform polarization-multiplexing 160-Gb/s optical non-return-to-zero (NRZ) differential quadrature phase shift keying (DQPSK) signal transmission over 100-kin standard single mode fiber at a bit error rate (BER) of less than 10^-9. The enabling technology includes clock recovery, fine dispersion compensation, and polarization tracking for de-multiplexing. Furthermore, a hybrid clock recovery scheme is proposed. The scheme is realized with ordinary devices using an optoelectrical modulator to down-convert the clock frequency and a phase-locked loop for filtering, which can provide an indication signal that simultaneously monitors residual dispersion and tracking polarization.展开更多
文摘针对目前有关GPS欺骗干扰技术的研究较少涉及GPS时间欺骗干扰,且因实验条件限制,难以构建与重放实际欺骗场景,因此不同场景GPS时间欺骗对目标接收机影响仍不明确的问题,基于TEXBAT(Texas Spoofing Test Battery)提供的3组不同场景GPS时间欺骗数据集,建立了GPS时间欺骗模型,分析了欺骗过程中存在的两种相位对齐模式对欺骗行为的影响;利用自编软件对采集的欺骗场景的原始高保真数字实时数据进行数据处理,分别得到目标接收机受欺骗与未受欺骗时的接收机钟差及钟差变化率、多普勒频率与载噪比、载波相位与接收机天线位置随时间的变化情况;深入分析了不同场景GPS时间欺骗对目标接收机的影响。实验结果表明,不同场景GPS时间欺骗将从不同角度有效影响GPS定时结果,所得结论将为GPS时间欺骗与抗欺骗技术提供重要参考。
基金Supported by the National Natural Science Foundation of China(No.40874017)the Program of Wuhan ChenGuang Plan(No.200850731375)
文摘Both static and kinematic testings are investigated by using IGS 5min, 30s and 5s-interval precise satellite clock products in precise point positioning (PPP) solution. Test results show that the sampling rate of IGS satellite clock has very little effect on the static PPP solution. All the three types of sampling intervals of precise satellite clock can satisfy mm-cm level of positioning accuracy; higher sampling rate has no significant improvement for PPP solution. However, sampling rate of satellite clock has a significant impact on the PPP solution in kinematic PPP. The higher the interval of satellite clock, the better the accuracy achieved. The accuracy of kinematic PPP achieved by using 30s-interval precise satellite clock is improved by nearly 30-50 percent with respect to the solution by using 5min-interval precise satellite clock, but using 5s and 30s-interval satellite clock can almost produce the same accuracy of kinematic solution. Moreover, the use of precise satellite clock products from different analysis centers may also produce more or less effect on the PPP solution.
基金supported in part by the National Natural Science Foundation of China(Nos. 60736003,61025004,and 61032005)the National "863" Program of China(Nos.2009AA01Z223 and 2009AA01Z253)
文摘Using differential detection, we perform polarization-multiplexing 160-Gb/s optical non-return-to-zero (NRZ) differential quadrature phase shift keying (DQPSK) signal transmission over 100-kin standard single mode fiber at a bit error rate (BER) of less than 10^-9. The enabling technology includes clock recovery, fine dispersion compensation, and polarization tracking for de-multiplexing. Furthermore, a hybrid clock recovery scheme is proposed. The scheme is realized with ordinary devices using an optoelectrical modulator to down-convert the clock frequency and a phase-locked loop for filtering, which can provide an indication signal that simultaneously monitors residual dispersion and tracking polarization.