fail-safe operation
简明释义
自动防止故障运转
英英释义
例句
1.The new software system was designed with a fail-safe operation to prevent data loss in case of a power outage.
新的软件系统设计了故障安全操作,以防止在停电时数据丢失。
2.In aviation, the cockpit instruments are equipped with fail-safe operation features to ensure pilot safety during emergencies.
在航空领域,驾驶舱仪器配备了故障安全操作功能,以确保飞行员在紧急情况下的安全。
3.The factory's machinery includes a fail-safe operation mechanism that halts production if a critical error is detected.
工厂的机器包括一个故障安全操作机制,如果检测到关键错误,就会停止生产。
4.The nuclear power plant has multiple layers of fail-safe operation protocols to avoid catastrophic failures.
核电站具有多层故障安全操作协议,以避免灾难性故障。
5.To enhance user experience, the app incorporates a fail-safe operation that automatically saves progress.
为了增强用户体验,该应用程序包含一个故障安全操作,可以自动保存进度。
作文
In today's world, technology plays a crucial role in our daily lives, from the smartphones we use to the complex systems that power our cities. One critical aspect of these technologies is the concept of fail-safe operation, which ensures that systems continue to function safely even in the event of a failure. The term fail-safe operation refers to the design features and protocols that allow a system to default to a safe state when an error occurs, minimizing potential harm or damage.For instance, consider an aircraft's autopilot system. If a malfunction occurs while the autopilot is engaged, the fail-safe operation mechanisms will automatically disengage the autopilot and alert the pilot, allowing them to take control of the aircraft. This is vital for ensuring the safety of passengers and crew. Similarly, in nuclear power plants, fail-safe operation is paramount. These facilities are designed with multiple backup systems that can shut down the reactor safely in case of an emergency, preventing catastrophic failures.The importance of fail-safe operation extends beyond just aviation and nuclear energy; it is applicable in various industries, including automotive, healthcare, and information technology. For example, modern cars are equipped with fail-safe operation features such as automatic braking systems that engage when a collision is imminent. These systems are designed to protect drivers and passengers by reducing the severity of accidents.In healthcare, medical devices such as insulin pumps utilize fail-safe operation principles to ensure patient safety. If the device detects a malfunction, it will stop delivering insulin to prevent overdose, which could be life-threatening. Such applications highlight the necessity of integrating fail-safe operation into systems where human lives are at stake.Moreover, in the realm of information technology, data security systems incorporate fail-safe operation strategies to protect sensitive information. For instance, if a server experiences a hardware failure, a fail-safe operation protocol may redirect traffic to a backup server, ensuring that users experience minimal disruption and that data remains secure.Despite the advancements in technology, the implementation of fail-safe operation is not without challenges. Engineers must carefully design systems to anticipate potential failures and devise appropriate responses. This requires a deep understanding of both the technology involved and the environment in which it operates. Furthermore, the cost of implementing fail-safe operation features can be significant, leading some companies to prioritize budget over safety. However, neglecting these considerations can result in disastrous consequences, as seen in various high-profile accidents throughout history.In conclusion, the concept of fail-safe operation is essential for ensuring the safety and reliability of modern technologies. By designing systems that prioritize safe operation in the face of failure, we can protect lives and prevent catastrophic outcomes. As technology continues to evolve, the need for robust fail-safe operation mechanisms will only grow, making it imperative for engineers and designers to prioritize safety in their work. Ultimately, embracing the principles of fail-safe operation can help us build a safer and more resilient future for all.
在当今世界,技术在我们的日常生活中扮演着至关重要的角色,从我们使用的智能手机到为城市提供电力的复杂系统。这些技术的一个关键方面是“故障安全操作”的概念,它确保系统即使在发生故障时也能安全运行。术语“故障安全操作”指的是设计特征和协议,这些特征和协议允许系统在发生错误时默认转入安全状态,从而将潜在的伤害或损害降至最低。例如,考虑一下飞机的自动驾驶仪系统。如果在自动驾驶仪启动时发生故障,故障安全操作机制将自动断开自动驾驶仪并提醒飞行员,使他们能够接管飞机的控制。这对于确保乘客和机组人员的安全至关重要。类似地,在核电站中,故障安全操作至关重要。这些设施设计有多个备用系统,可以在紧急情况下安全关闭反应堆,防止灾难性故障。故障安全操作的重要性不仅限于航空和核能;它适用于多个行业,包括汽车、医疗保健和信息技术。例如,现代汽车配备了故障安全操作功能,例如在碰撞即将发生时会启动的自动刹车系统。这些系统旨在通过减少事故的严重性来保护驾驶员和乘客。在医疗保健中,诸如胰岛素泵等医疗设备利用故障安全操作原理来确保患者安全。如果设备检测到故障,它将停止输送胰岛素以防止过量,这可能危及生命。这些应用突显了在涉及人类生命的系统中整合故障安全操作的必要性。此外,在信息技术领域,数据安全系统采用故障安全操作策略来保护敏感信息。例如,如果服务器发生硬件故障,故障安全操作协议可能会将流量重定向到备用服务器,确保用户体验到最小的中断,并且数据保持安全。尽管技术不断进步,但实施故障安全操作并非没有挑战。工程师必须仔细设计系统,以预测潜在的故障并制定适当的响应。这需要对所涉及的技术以及其运行环境有深入的理解。此外,实施故障安全操作功能的成本可能相当高,这导致一些公司优先考虑预算而非安全。然而,忽视这些考虑可能会导致灾难性的后果,正如历史上各种高调事故所示。总之,“故障安全操作”的概念对于确保现代技术的安全性和可靠性至关重要。通过设计优先考虑在故障时安全操作的系统,我们可以保护生命并防止灾难性结果。随着技术的不断发展,对强大故障安全操作机制的需求只会增加,因此工程师和设计师必须在工作中优先考虑安全。最终,接受故障安全操作的原则可以帮助我们为所有人建立一个更安全、更具韧性的未来。
