transient deviation
简明释义
过渡偏差
英英释义
A transient deviation refers to a temporary change or variation from a normal or expected state, often occurring in systems or processes. | 瞬态偏差指的是从正常或预期状态的暂时变化或偏离,通常发生在系统或过程中。 |
例句
1.The transient deviation in the signal was analyzed to ensure it wasn't a sign of a larger issue.
对信号中的瞬时偏差进行了分析,以确保它不是更大问题的迹象。
2.Engineers noted a transient deviation in the temperature readings, which was quickly corrected.
工程师注意到温度读数中有一个瞬时偏差,很快被纠正。
3.The system experienced a transient deviation during the power surge, causing temporary fluctuations in performance.
系统在电力激增期间经历了一个瞬时偏差,导致性能暂时波动。
4.The data showed a transient deviation that was attributed to environmental changes.
数据显示有一个瞬时偏差,这归因于环境变化。
5.During the test, a transient deviation occurred, but it did not affect the overall results.
在测试期间,发生了一个瞬时偏差,但没有影响整体结果。
作文
In the world of engineering and technology, precision is paramount. Every design, every calculation, and every implementation must adhere to strict standards to ensure safety and efficiency. However, in practice, achieving absolute precision can be a formidable challenge. This is where the concept of transient deviation comes into play. The term transient deviation refers to temporary variations or fluctuations from an expected value that occur during a specific period. These deviations can arise due to various factors such as environmental changes, operational conditions, or even measurement inaccuracies.Understanding transient deviation is crucial for engineers and technicians because it allows them to identify, analyze, and mitigate potential issues that may affect the performance of a system. For instance, in the field of electrical engineering, when designing circuits, engineers must account for transient deviation that can occur due to sudden changes in voltage or current. These deviations can lead to malfunctioning of devices or even catastrophic failures if not properly managed.Moreover, in the context of manufacturing processes, transient deviation can significantly impact product quality. During production, variations in temperature, pressure, or material properties can cause temporary shifts in the characteristics of the final product. By monitoring these deviations, manufacturers can implement corrective actions to maintain quality control and ensure that products meet the required specifications.Furthermore, the study of transient deviation is essential in fields like meteorology and climate science. Weather patterns are inherently variable, and understanding the transient deviations in temperature, humidity, and atmospheric pressure can help scientists make more accurate predictions about future weather events. This knowledge can be invaluable for disaster preparedness and resource management, ultimately saving lives and minimizing economic losses.In addition to its practical applications, the concept of transient deviation also has philosophical implications. It reminds us that imperfection is a natural part of life. Just as systems experience temporary deviations from their ideal states, individuals too encounter fluctuations in their personal and professional journeys. Embracing these transient deviations can lead to growth, resilience, and a deeper understanding of oneself and the world around us.In conclusion, the concept of transient deviation is multifaceted and plays a critical role in various fields, from engineering to environmental science. By recognizing and addressing these temporary variations, we can enhance the reliability of our systems, improve product quality, and gain insights into complex natural phenomena. Ultimately, understanding transient deviation equips us with the tools to navigate the uncertainties of both technology and life itself. As we continue to advance in our respective fields, let us remember that while perfection may be an ideal, it is the ability to adapt to and learn from transient deviation that truly defines our success and progress.
在工程和技术的世界中,精确性至关重要。每一个设计、每一个计算和每一个实施都必须遵循严格的标准,以确保安全和效率。然而,在实践中,实现绝对的精确可能是一个艰巨的挑战。这就是瞬时偏差概念发挥作用的地方。术语瞬时偏差指的是在特定时期内发生的与预期值的临时变化或波动。这些偏差可能由于各种因素而产生,例如环境变化、操作条件甚至测量不准确。理解瞬时偏差对工程师和技术人员至关重要,因为它使他们能够识别、分析和减轻可能影响系统性能的问题。例如,在电气工程领域,在设计电路时,工程师必须考虑由于电压或电流的突然变化而可能发生的瞬时偏差。如果不加以管理,这些偏差可能导致设备故障甚至灾难性失败。此外,在制造过程中,瞬时偏差可能会显著影响产品质量。在生产过程中,温度、压力或材料特性的变化可能导致最终产品特性的临时偏移。通过监测这些偏差,制造商可以实施纠正措施,以保持质量控制,并确保产品符合所需的规格。此外,瞬时偏差的研究在气象和气候科学等领域也至关重要。天气模式本质上是可变的,理解温度、湿度和大气压力的瞬时偏差可以帮助科学家更准确地预测未来的天气事件。这一知识对于灾难准备和资源管理是无价的,最终可以拯救生命并减少经济损失。除了其实际应用外,瞬时偏差的概念还有哲学意义。它提醒我们,不完美是生活的自然部分。正如系统经历理想状态的临时偏差一样,个人在其个人和职业旅程中也会遇到波动。接受这些瞬时偏差可以带来成长、韧性以及对自我和周围世界更深刻的理解。总之,瞬时偏差的概念是多方面的,并在工程到环境科学等各个领域发挥着关键作用。通过识别和应对这些临时变化,我们可以提高系统的可靠性、改善产品质量,并深入了解复杂的自然现象。最终,理解瞬时偏差为我们提供了应对技术和生活不确定性的工具。当我们在各自的领域继续进步时,让我们记住,虽然完美可能是一个理想,但适应并从瞬时偏差中学习的能力才真正定义了我们的成功和进步。
相关单词
