fault isolation by semiautomatic technique

简明释义

半自动查找故障技术

英英释义

例句

1.In our last project, we relied on fault isolation by semiautomatic technique to ensure a faster resolution of network issues.

在我们上一个项目中，我们依赖于半自动技术进行故障隔离，以确保网络问题更快解决。

2.Using fault isolation by semiautomatic technique, we were able to reduce downtime significantly during the maintenance process.

通过使用半自动技术进行故障隔离，我们在维护过程中显著减少了停机时间。

3.The technician performed fault isolation by semiautomatic technique to quickly identify the issue in the circuit.

技术人员通过半自动技术进行故障隔离，迅速识别电路中的问题。

4.The new software tool aids in fault isolation by semiautomatic technique, making troubleshooting more efficient.

这款新软件工具有助于进行半自动技术故障隔离，使故障排除更加高效。

5.The system's ability to perform fault isolation by semiautomatic technique enhances its reliability.

该系统能够执行半自动技术进行故障隔离，增强了其可靠性。

作文

In the realm of modern technology, ensuring system reliability and performance is crucial for both manufacturers and users. One of the significant challenges faced in various industries, particularly in electronics and telecommunications, is the prompt identification and rectification of faults. This is where the concept of fault isolation by semiautomatic technique becomes essential. 故障隔离半自动技术 refers to a method that aids in detecting and isolating issues within a system with a combination of automated tools and human intervention.The importance of fault isolation by semiautomatic technique cannot be overstated. In complex systems, such as those found in aerospace, automotive, and telecommunication sectors, the potential for faults increases significantly due to the intricate nature of their components. When a fault occurs, it is imperative to identify its location swiftly to minimize downtime and prevent further damage. Traditional methods of fault detection often rely heavily on manual troubleshooting, which can be time-consuming and prone to human error. However, with the integration of semiautomatic techniques, the process becomes more efficient and reliable.One of the primary advantages of using fault isolation by semiautomatic technique is the speed at which faults can be identified. Automated systems can continuously monitor operations, collecting data and analyzing it in real-time. When an anomaly is detected, these systems can alert technicians, who can then intervene and conduct a more detailed investigation. This partnership between automation and human expertise ensures that faults are not only isolated quickly but also accurately, leading to effective solutions.Moreover, the use of fault isolation by semiautomatic technique enhances the overall safety of operations. In many industries, undetected faults can lead to catastrophic failures, posing risks to both equipment and personnel. By employing semiautomatic techniques, organizations can implement proactive measures to identify and rectify faults before they escalate into dangerous situations. This not only protects assets but also fosters a safer working environment.Training and skill development are also critical components of implementing fault isolation by semiautomatic technique. While automation plays a significant role, the human element remains indispensable. Technicians must be well-trained to interpret the data provided by automated systems and to make informed decisions based on that information. This dual approach of combining advanced technology with skilled personnel creates a robust framework for fault management.In conclusion, fault isolation by semiautomatic technique represents a significant advancement in the field of fault detection and management. Its ability to combine the efficiency of automation with the critical thinking skills of human operators makes it an invaluable tool across various industries. As technology continues to evolve, the integration of semiautomatic techniques will likely become standard practice, ensuring higher reliability and safety standards in complex systems. The future of fault management lies in this harmonious blend of technology and human expertise, paving the way for more resilient and dependable systems.

在现代科技领域，确保系统的可靠性和性能对制造商和用户来说至关重要。各种行业，特别是电子和电信领域面临的重大挑战之一是及时识别和纠正故障。这就是故障隔离半自动技术概念变得至关重要的地方。fault isolation by semiautomatic technique指的是一种通过自动化工具与人工干预相结合来帮助检测和隔离系统中问题的方法。故障隔离半自动技术的重要性不容忽视。在航空航天、汽车和电信等复杂系统中，由于其组件的复杂性，故障的潜在发生率显著增加。当故障发生时，迅速识别其位置至关重要，以最小化停机时间并防止进一步损坏。传统的故障检测方法往往过于依赖手动排查，这可能耗时且容易出错。然而，通过整合半自动技术，流程变得更加高效和可靠。使用故障隔离半自动技术的主要优点之一是可以快速识别故障。自动化系统可以持续监控操作，收集数据并实时分析。当检测到异常时，这些系统可以提醒技术人员，后者可以进行更详细的调查。这种自动化与人类专业知识之间的合作确保了故障不仅能迅速被隔离，而且能准确地被识别，从而导致有效的解决方案。此外，使用故障隔离半自动技术增强了操作的整体安全性。在许多行业中，未检测到的故障可能导致灾难性故障，给设备和人员带来风险。通过采用半自动技术，组织可以实施主动措施，以在故障升级为危险情况之前识别和纠正故障。这不仅保护了资产，还促进了更安全的工作环境。培训和技能发展也是实施故障隔离半自动技术的关键组成部分。虽然自动化发挥了重要作用，但人类因素仍然不可或缺。技术人员必须经过良好的培训，以解读自动化系统提供的数据，并根据这些信息做出明智的决策。这种将先进技术与熟练人员相结合的双重方法创建了一个强大的故障管理框架。总之，故障隔离半自动技术代表了故障检测和管理领域的一项重大进展。它将自动化的效率与人类操作员的批判性思维技能相结合，使其成为各个行业中不可或缺的工具。随着技术的不断发展，半自动技术的整合可能会成为标准实践，从而确保复杂系统中更高的可靠性和安全标准。故障管理的未来在于这种技术与人类专业知识的和谐融合，为更具韧性和可靠性的系统铺平了道路。