fault resistance
简明释义
故障电阻
英英释义
例句
1.Our project aims to enhance the fault resistance 故障抗性 of the network infrastructure against cyber attacks.
我们的项目旨在增强网络基础设施对网络攻击的故障抗性。
2.The team focused on improving the fault resistance 故障抗性 of the power grid to prevent outages.
团队专注于提高电网的故障抗性,以防止停电。
3.Engineers designed the bridge with enhanced fault resistance 故障抗性 to withstand earthquakes.
工程师设计了这座桥,以增强故障抗性,以抵御地震。
4.The new software update significantly improved the system's fault resistance 故障抗性, reducing downtime during critical operations.
新的软件更新显著提高了系统的故障抗性,减少了关键操作期间的停机时间。
5.The fault resistance 故障抗性 of the new materials used in construction is crucial for building safety.
新材料在建筑中使用的故障抗性对建筑安全至关重要。
作文
In today's world, where technology plays a crucial role in our daily lives, the concept of fault resistance (故障抵抗) has become increasingly important. Fault resistance refers to the ability of a system or component to continue functioning correctly even when there are faults or errors present. This attribute is vital in various fields, including engineering, computer science, and telecommunications. Understanding how to design systems with high fault resistance (故障抵抗) can lead to more reliable and efficient operations.One of the primary reasons for emphasizing fault resistance (故障抵抗) is the growing complexity of modern systems. As systems become more intricate, the likelihood of encountering faults increases. For example, in software development, a single line of incorrect code can cause an entire application to crash. By implementing strategies that promote fault resistance (故障抵抗), developers can ensure that their applications remain operational even when minor issues arise.In hardware design, fault resistance (故障抵抗) can be achieved through redundancy. By incorporating multiple components that perform the same function, a system can continue to operate even if one or more components fail. This approach is commonly used in critical systems, such as those found in aerospace and medical devices, where failures can have dire consequences. The idea is to create a safety net that allows the system to recover from faults without significant downtime or loss of functionality.Another area where fault resistance (故障抵抗) is crucial is in network communications. Networks are susceptible to various types of failures, including hardware malfunctions, software bugs, and even external attacks. To maintain communication integrity, network designers often implement protocols that enhance fault resistance (故障抵抗). For instance, error detection and correction algorithms can identify and rectify errors in data transmission, ensuring that information reaches its destination accurately.Moreover, the concept of fault resistance (故障抵抗) extends beyond technical fields into organizational practices. Businesses that foster a culture of resilience are better equipped to handle unexpected challenges. This can involve training employees to adapt to changes, implementing flexible processes, and encouraging innovation. By building a resilient organization, companies can withstand disruptions and continue to thrive in a competitive environment.In conclusion, fault resistance (故障抵抗) is a fundamental principle that underpins the reliability and efficiency of systems across various domains. Whether in software, hardware, network design, or organizational practices, prioritizing fault resistance (故障抵抗) can lead to better outcomes and increased stability. As we continue to advance technologically, understanding and implementing this concept will be essential for creating robust systems that can withstand the inevitable faults and failures that arise in our complex world.
