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相关概念视频

Conservation of AC Power01:15

Conservation of AC Power

661
The principle of power preservation is applicable to both ac and dc circuits. This principle, when applied to AC power, asserts that the complex, real, and reactive powers produced by the source are equal to the total complex, real, and reactive powers absorbed by the loads. When two load impedances are connected in parallel to an ac source V, the complex power provided by the source can be calculated using the relation
661
Maximum Power Flow and Line Loadability01:23

Maximum Power Flow and Line Loadability

591
The maximum power flow for lossy transmission lines is derived using ABCD parameters in phasor form. These parameters create a matrix relationship between the sending-end and receiving-end voltages and currents, allowing the determination of the receiving-end current. This relationship facilitates calculating the complex power delivered to the receiving end, from which real and reactive power components are derived.
591
Fast Decoupled and DC Powerflow01:24

Fast Decoupled and DC Powerflow

726
The fast decoupled power flow method addresses contingencies in power system operations, such as generator outages or transmission line failures. This method provides quick power flow solutions, essential for real-time system adjustments. Fast decoupled power flow algorithms simplify the Jacobian matrix by neglecting certain elements, leading to two sets of decoupled equations:
726
Power System Distribution01:25

Power System Distribution

1.0K
Power system distribution involves delivering electrical energy from power plants to consumers through a network of transmission and distribution systems. The process begins at power plants, where energy from coal, gas, nuclear, water, and wind is converted into electrical energy. These plants use three-phase generators, typically rated between 50 to 1300 MVA, with terminal voltages ranging from a few kV to 20 kV, depending on the size and age of the units.
The transmission system is designed...
1.0K
Electrical Energy01:10

Electrical Energy

1.7K
Using electric appliances for a longer period of time consumes more electrical energy and results in a higher electric bill. The energy produced by the transfer of electrons from one point to another is known as electrical energy. If power is delivered at a constant rate, the electrical energy can be defined as the product of power used by the device for a period of time. The energy unit on electric bills is the kilowatt-hour, where one kilowatt-hour is equivalent to 3.6 × 106 joules.
1.7K
The Z-Scheme of Electron Transport in Photosynthesis01:34

The Z-Scheme of Electron Transport in Photosynthesis

13.2K
The light reactions of photosynthesis assume a linear flow of electrons from water to NADP+. During this process, light energy drives the splitting of water molecules to produce oxygen. However, oxidation of water molecules is a thermodynamically unfavorable reaction and requires a strong oxidizing agent. This is accomplished by the first product of light reactions: oxidized P680 (or P680+), the most powerful oxidizing agent known in biology. The oxidized P680 that acquires an electron from the...
13.2K

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Updated: Jan 16, 2026

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit
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在智能电网环境中的轻量级量子身份验证和关键协议方案.

Zehui Jiang1, Run-Hua Shi1

  • 1School of Control and Computer Engineering, North China Electric Power University, Beijing 102206, China.

Entropy (Basel, Switzerland)
|September 27, 2025
PubMed
概括
此摘要是机器生成的。

本研究介绍了智能电网的量子安全身份认证和密钥协议方案. 拟议的方法增强了对量子威胁的通信安全性,确保了可靠的电力系统运行.

关键词:
钟声状态 钟声状态 钟声状态身份验证身份验证身份验证关键协议 关键协议 关键协议量子通信是一种量子通信.智能电网是一个智能电网.

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科学领域:

  • 网络安全 网络安全
  • 量子信息科学 量子信息科学
  • 电力系统工程 电力系统工程

背景情况:

  • 智能电网利用智能终端设备进行数据收集,负载预测和电力系统优化,提高效率和可靠性.
  • 量子技术的进步威胁着依赖古典密码学的智能电网的通信安全.
  • 强大的安全解决方案对于在量子时代保护智能电网通信至关重要.

研究的目的:

  • 为智能电网提供量身定制的量子安全身份认证和密钥协议方案.
  • 解决针对量子攻击的智能电网中传统加密的漏洞.
  • 面对新出现的量子威胁,确保智能电网的安全通信.

主要方法:

  • 该方案基于量子私人比较的原则.
  • 它使用贝尔状态作为量子资源,与哈希函数和XOR运算集成.
  • 该设计适用于智能电网中常见的资源有限的终端设备.

主要成果:

  • 正式的安全证明证明了该计划对各种网络攻击的弹性.
  • 实验评估证实了该方案的稳定性,即使在杂的量子环境中.
  • 拟议的解决方案为量子时代的智能电网安全提供了一个实际的技术途径.

结论:

  • 开发的量子安全方案为智能电网通信安全提供了可行的解决方案.
  • 它有效地减轻了量子计算对现有的加密基础设施构成的风险.
  • 该方案对于未来的智能电网部署具有重要的实际工程价值.