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相关概念视频

Time and frequency -Domain Interpretation of Phase-lag Control01:21

Time and frequency -Domain Interpretation of Phase-lag Control

101
Phase-lag controllers are widely used in control systems to improve stability and reduce steady-state errors. A dimmer switch controlling the brightness of a light bulb serves as a practical example of phase-lag control, gradually adjusting the bulb's brightness. Mathematically, phase-lag control or low-pass filtering is represented when the factor 'a' is less than 1.
Phase-lag controllers do not place a pole at zero, but instead influence the steady-state error by amplifying any...
101
Time and frequency -Domain Interpretation of Phase-lead Control01:24

Time and frequency -Domain Interpretation of Phase-lead Control

89
Phase-lead controllers are commonly used in various control systems to enhance response speed and stability. Adjusting the brightness on a television screen offers a practical example of phase-lead control. When contrast is enhanced, a phase-lead controller is employed. Mathematically, phase-lead control is identified when the first parameter is smaller than the second.
The design of phase-lead control involves the strategic placement of poles and zeros to balance steady-state error and system...
89
Propagation of Uncertainty from Systematic Error01:10

Propagation of Uncertainty from Systematic Error

534
The atomic mass of an element varies due to the relative ratio of its isotopes. A sample's relative proportion of oxygen isotopes influences its average atomic mass. For instance, if we were to measure the atomic mass of oxygen from a sample, the mass would be a weighted average of the isotopic masses of oxygen in that sample. Since a single sample is not likely to perfectly reflect the true atomic mass of oxygen for all the molecules of oxygen on Earth, the mass we obtain from this...
534
Propagation of Uncertainty from Random Error00:59

Propagation of Uncertainty from Random Error

704
An experiment often consists of more than a single step. In this case, measurements at each step give rise to uncertainty. Because the measurements occur in successive steps, the uncertainty in one step necessarily contributes to that in the subsequent step. As we perform statistical analysis on these types of experiments, we must learn to account for the propagation of uncertainty from one step to the next. The propagation of uncertainty depends on the type of arithmetic operation performed on...
704
Phase-lead and Phase-lag Controllers01:22

Phase-lead and Phase-lag Controllers

176
Understanding the working function of different types of controllers can be illustrated with practical analogies, such as adjusting a stereo's volume equalizer. Cranking up the bass involves a phase-lead controller, which functions as a high-pass filter, while increasing the treble uses a phase-lag controller, which acts as a low-pass filter. PD controllers, similar to high-pass filters, enhance the system's response to high-frequency components. PI controllers, akin to low-pass...
176
Conservative Site-specific Recombination and Phase Variation02:53

Conservative Site-specific Recombination and Phase Variation

6.0K
Because the DNA segments are cut and reorganized in a direction-specific manner, site-specific recombination has emerged as an efficient genetic engineering technique. Flippase and Cyclization recombinases or Flp and Cre, respectively, are two members of the tyrosine recombinase family derived from bacteriophages, that are used to mediate site-specific DNA insertions, deletions, and targeted expression of proteins in mammalian cell lines.
The recognition sites for Cre recombinase called LoxP...
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Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source
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量子通信系统的实用实时阶段漂移补偿方案

Xiaotian Song1, Chunsheng Zhang1, Dong Pan1

  • 1Beijing Academy of Quantum Information Sciences, Beijing 100193, China.

Entropy (Basel, Switzerland)
|October 28, 2023
PubMed
概括

本研究介绍了量子通信系统的实时相位偏移补偿方法. 该技术使用现有数据来确保稳定,连续的传输,低量子位误差率.

关键词:
阶段漂移的阶段漂移情况量子通信是一种量子通信.实时阶段补偿实时阶段补偿

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科学领域:

  • 量子信息科学 量子信息科学
  • 光学通信系统 光学通信系统

背景情况:

  • 量子通信系统面临环境干扰带来的挑战.
  • 阶段偏移是影响量子传输稳定性和可靠性的关键问题.

研究的目的:

  • 为量子通信提出一个高效的实时相位偏移补偿方案.
  • 为了确保阶段编码量子通信系统的连续运行.

主要方法:

  • 开发了一个闭环控制子系统,用于仅使用现有的量子通信数据进行相位跟踪.
  • 实施了实时补偿策略,以抵消相位漂移.

主要成果:

  • 证明了拟议的补偿计划的有效性和可行性.
  • 在16小时的连续运行中,实现了1.60%的平均量子位误差率.
  • 在量子比特误差率中观察到0.0583%的低标准偏差,表明高稳定性.

结论:

  • 拟议的实时相位偏移补偿方案对量子通信系统有效.
  • 该方法通过精确追踪和补偿相位偏移,确保稳定,连续的传输.
  • 该方案提供了一种实际的解决方案,以提高量子通信的可靠性.