In this work,we propose a method using frequency-modulated continuous-wave(FMCW)self-mixing interferometry(SMI)and all-phase fast Fourier transform(APFFT)for simultaneous measurement of speed and distance.APFFT offers...In this work,we propose a method using frequency-modulated continuous-wave(FMCW)self-mixing interferometry(SMI)and all-phase fast Fourier transform(APFFT)for simultaneous measurement of speed and distance.APFFT offers superior accuracy in frequency determination by mitigating issues like the fence effect and spectrum leakage,contributing to the high-accuracy measurement for speed and distance.Both simulations and experiments have demonstrated relative errors at the levels of 10^(−4) and 10^(−3) for distance and speed measurements,respectively.Furthermore,factors impacting measurement performance have been discussed.The proposed method provides a high-performance and cost-effective solution for distance and speed measurements,applicable across scientific research and various industrial domains.展开更多
本文主要研究基于全相位快速傅里叶变换(All Phase Fast Fourier Transform,APFFT)的铁路信号频率检测算法。介绍铁路信号的基本概念,并对传统快速傅里叶变换与APFFT的理论基础进行深入分析。通过矩阵分析方法比较传统FFT和APFFT的性能...本文主要研究基于全相位快速傅里叶变换(All Phase Fast Fourier Transform,APFFT)的铁路信号频率检测算法。介绍铁路信号的基本概念,并对传统快速傅里叶变换与APFFT的理论基础进行深入分析。通过矩阵分析方法比较传统FFT和APFFT的性能差异。在实验分析部分,通过具体的数据模拟实验验证APFFT在频率检测方面相较于传统FFT的优势。针对铁路CPFSK(Continuous Phase Frequency Shift Keying)信号,提出基于APFFT的低频率和边缘频率检测技术。通过仿真实验验证所提方法的有效性。总结全相位FFT在铁路信号频率检测中的应用前景与研究价值。展开更多
为提升钒电池负极侧电极的电化学活性,采用液相氧化法对碳纳米管进行改性,并将其引入石墨毡表面制备复合电极。首先对碳纳米管与石墨毡的电化学性能进行对比,再通过液相氧化改性对碳纳米管的电化学活性进一步优化,最后制备了碳纳米管石...为提升钒电池负极侧电极的电化学活性,采用液相氧化法对碳纳米管进行改性,并将其引入石墨毡表面制备复合电极。首先对碳纳米管与石墨毡的电化学性能进行对比,再通过液相氧化改性对碳纳米管的电化学活性进一步优化,最后制备了碳纳米管石墨毡复合电极,并采用充放电测试考察其性能表现。结果表明:在浓H_(2)SO_(4)与浓HNO_(3)体积比为1∶3,温度80℃,改性时间2 h条件下得到的碳纳米管电化学活性最佳。在120 mA cm 2的电流密度下,以复合电极为负极的电池电压效率和能量效率分别为87.96%、83.47%,分别比石墨毡(82.08%、77.31%)提高了5.88和6.16个百分点,具有良好的倍率性能。展开更多
基金supported by the National Natural Science Foundation of China(No.62005234)the China Scholarship Council Post-Doctoral Program(No.202107230002)the Natural Science Foundation of Hunan Province(No.2024JJ6434).
文摘In this work,we propose a method using frequency-modulated continuous-wave(FMCW)self-mixing interferometry(SMI)and all-phase fast Fourier transform(APFFT)for simultaneous measurement of speed and distance.APFFT offers superior accuracy in frequency determination by mitigating issues like the fence effect and spectrum leakage,contributing to the high-accuracy measurement for speed and distance.Both simulations and experiments have demonstrated relative errors at the levels of 10^(−4) and 10^(−3) for distance and speed measurements,respectively.Furthermore,factors impacting measurement performance have been discussed.The proposed method provides a high-performance and cost-effective solution for distance and speed measurements,applicable across scientific research and various industrial domains.
文摘本文主要研究基于全相位快速傅里叶变换(All Phase Fast Fourier Transform,APFFT)的铁路信号频率检测算法。介绍铁路信号的基本概念,并对传统快速傅里叶变换与APFFT的理论基础进行深入分析。通过矩阵分析方法比较传统FFT和APFFT的性能差异。在实验分析部分,通过具体的数据模拟实验验证APFFT在频率检测方面相较于传统FFT的优势。针对铁路CPFSK(Continuous Phase Frequency Shift Keying)信号,提出基于APFFT的低频率和边缘频率检测技术。通过仿真实验验证所提方法的有效性。总结全相位FFT在铁路信号频率检测中的应用前景与研究价值。
文摘为提升钒电池负极侧电极的电化学活性,采用液相氧化法对碳纳米管进行改性,并将其引入石墨毡表面制备复合电极。首先对碳纳米管与石墨毡的电化学性能进行对比,再通过液相氧化改性对碳纳米管的电化学活性进一步优化,最后制备了碳纳米管石墨毡复合电极,并采用充放电测试考察其性能表现。结果表明:在浓H_(2)SO_(4)与浓HNO_(3)体积比为1∶3,温度80℃,改性时间2 h条件下得到的碳纳米管电化学活性最佳。在120 mA cm 2的电流密度下,以复合电极为负极的电池电压效率和能量效率分别为87.96%、83.47%,分别比石墨毡(82.08%、77.31%)提高了5.88和6.16个百分点,具有良好的倍率性能。