fault signalling

简明释义

故障信号

英英释义

例句

1.Engineers rely on fault signalling to diagnose issues in machinery quickly.

工程师依靠故障信号快速诊断机械问题。

2.The system's fault signalling indicates that there is a problem with the power supply.

系统的故障信号表明电源存在问题。

3.During the test, the fault signalling revealed a critical error in the software.

测试过程中，故障信号揭示了软件中的关键错误。

4.The network's fault signalling helps identify connectivity problems.

网络的故障信号有助于识别连接问题。

5.The fault signalling system in the car alerted the driver about low oil pressure.

汽车中的故障信号系统提醒驾驶员油压过低。

作文

In the realm of technology and engineering, the concept of fault signalling plays a crucial role in maintaining the integrity and functionality of various systems. Fault signalling refers to the process by which a system detects, reports, and manages faults or errors that occur within its operations. This mechanism is vital for ensuring that any issues are promptly addressed, thereby preventing potential failures that could lead to significant disruptions or hazards.For instance, consider a modern aircraft equipped with numerous sensors and monitoring systems. These systems are designed to continuously assess the performance of critical components such as engines, navigation systems, and hydraulic controls. When a malfunction occurs, the aircraft's fault signalling system activates, alerting the pilots and ground control about the specific issue. This immediate feedback allows for quick decision-making and corrective actions, ensuring the safety of the flight and its passengers.Similarly, in industrial settings, machinery often relies on fault signalling to maintain operational efficiency. Manufacturing plants utilize complex automated systems that require constant monitoring. If a machine experiences a fault, the fault signalling system will trigger alarms, shut down the affected equipment, or redirect operations to prevent further damage. This proactive approach not only minimizes downtime but also protects workers from potential accidents caused by faulty machinery.Moreover, fault signalling is not limited to physical systems; it is also applicable in software development. In programming, error handling mechanisms serve as a form of fault signalling. When an application encounters an unexpected condition or bug, it generates error messages that inform developers about the nature of the problem. This feedback loop is essential for debugging and improving the overall quality of software applications.The significance of fault signalling extends beyond technical fields. In everyday life, we encounter various systems that rely on similar principles. For example, our vehicles are equipped with diagnostic systems that monitor engine performance. When an issue arises, the dashboard lights up with warning signals, serving as a fault signalling mechanism. This not only alerts the driver to potential problems but also emphasizes the importance of regular maintenance and timely repairs.In conclusion, fault signalling is an integral part of modern systems, whether in aviation, manufacturing, software development, or even personal vehicles. It ensures that faults are detected early, reported accurately, and addressed efficiently, thus safeguarding both the systems themselves and the people who rely on them. As technology continues to evolve, the methods and effectiveness of fault signalling will undoubtedly advance, leading to even safer and more reliable systems in the future.

在技术和工程领域，“故障信号”的概念在维护各种系统的完整性和功能方面发挥着至关重要的作用。“故障信号”是指一个系统检测、报告和管理其操作中发生的故障或错误的过程。这个机制对于确保任何问题能够及时处理至关重要，从而防止可能导致重大干扰或危险的故障。例如，考虑一架配备有众多传感器和监测系统的现代飞机。这些系统旨在持续评估关键组件的性能，如发动机、导航系统和液压控制。当发生故障时，飞机的“故障信号”系统会激活，提醒飞行员和地面控制人员具体问题。这种即时反馈使得快速决策和纠正措施成为可能，从而确保航班及其乘客的安全。同样，在工业环境中，机械设备通常依赖于“故障信号”来维持运营效率。制造工厂利用复杂的自动化系统，需要不断监控。如果机器出现故障，“故障信号”系统将触发警报，关闭受影响的设备，或重新引导操作以防止进一步损坏。这种主动的方法不仅最小化了停机时间，还保护工人免受故障机械造成的潜在事故。此外，“故障信号”不仅限于物理系统，它在软件开发中也适用。在编程中，错误处理机制作为一种“故障信号”。当应用程序遇到意外情况或错误时，会生成错误消息，通知开发人员问题的性质。这种反馈循环对于调试和提高软件应用程序的整体质量至关重要。“故障信号”的重要性超越了技术领域。在日常生活中，我们遇到的各种系统也依赖于类似的原则。例如，我们的车辆配备了监测发动机性能的诊断系统。当出现问题时，仪表盘上的警示灯亮起，作为一种“故障信号”机制。这不仅提醒驾驶员潜在的问题，还强调定期维护和及时修理的重要性。总之，“故障信号”是现代系统不可或缺的一部分，无论是在航空、制造、软件开发还是个人车辆中。它确保故障能够早期被检测、准确报告并高效处理，从而保护系统本身以及依赖于它们的人们。随着技术的不断发展，“故障信号”的方法和有效性无疑将不断提升，未来将导致更安全、更可靠的系统。