system deviation

简明释义

系统偏差

英英释义

例句

1.The engineer reported a significant system deviation in the temperature readings, indicating a potential malfunction.

工程师报告了温度读数中存在显著的系统偏差，这表明可能发生故障。

2.During the audit, we discovered a system deviation that could affect data integrity.

在审计过程中，我们发现了一个可能影响数据完整性的系统偏差。

3.To ensure safety, we must address any system deviation immediately.

为了确保安全，我们必须立即处理任何系统偏差。

4.The team is analyzing the system deviation to determine its root cause.

团队正在分析系统偏差以确定其根本原因。

5.The software update caused a system deviation, leading to unexpected behavior in the application.

软件更新导致了一个系统偏差，导致应用程序出现意外行为。

作文

In today's fast-paced world, the concept of efficiency is paramount in various systems, whether in manufacturing, technology, or even social structures. However, despite our best efforts to maintain order and productivity, we often encounter what is known as system deviation. This term refers to the discrepancies or variations that occur within a system when it fails to perform as expected. Understanding system deviation is crucial for identifying potential problems and implementing effective solutions.To illustrate this point, let us consider a manufacturing plant that produces electronic components. The plant has established a series of processes designed to ensure that each product meets specific quality standards. However, if a machine malfunctions or an employee makes an error, the output may deviate from the expected quality. This situation exemplifies system deviation, where the intended process is disrupted, leading to defects or inefficiencies.The implications of system deviation can be far-reaching. In the case of the manufacturing plant, a single defective product can lead to customer dissatisfaction, loss of business, and damage to the company’s reputation. Moreover, if the deviation is not addressed promptly, it can escalate into larger systemic issues, affecting the entire production line. Therefore, it is essential for organizations to monitor their systems closely and develop strategies to mitigate the risks associated with system deviation.One effective approach to managing system deviation is through the implementation of quality control measures. By regularly inspecting products and processes, companies can identify deviations early and take corrective actions. For instance, if a particular machine consistently produces faulty components, it may require maintenance or recalibration. Additionally, training employees on best practices can help reduce human errors, further minimizing the chances of system deviation.Another strategy involves utilizing data analytics to track performance metrics. By analyzing data trends, organizations can pinpoint patterns that indicate potential deviations. For example, if the production rate suddenly drops or the defect rate spikes, these anomalies can signal underlying issues that need to be addressed. By leveraging technology in this way, companies can proactively manage system deviation and enhance overall efficiency.Beyond the manufacturing sector, system deviation is also relevant in social systems. Consider a community that relies on public transportation. If buses frequently run late or fail to show up, this creates a system deviation from the expected reliability of the transit system. Such deviations can lead to frustration among commuters and undermine trust in public services. Addressing these issues requires a comprehensive understanding of the factors contributing to the deviations, such as traffic congestion or inadequate scheduling.In conclusion, system deviation is an inevitable aspect of any complex system. Whether in manufacturing, technology, or social structures, deviations can disrupt processes and lead to negative outcomes. However, by implementing quality control measures, utilizing data analytics, and fostering a culture of continuous improvement, organizations can effectively manage system deviation and enhance their overall performance. Recognizing the importance of addressing these deviations not only helps maintain efficiency but also ensures long-term success in an increasingly competitive environment.

在当今快速发展的世界中，效率的概念在各个系统中至关重要，无论是在制造业、技术还是社会结构中。然而，尽管我们尽力保持秩序和生产力，我们经常会遇到所谓的系统偏差。这个术语指的是当一个系统未能按预期执行时所发生的差异或变更。理解系统偏差对于识别潜在问题和实施有效解决方案至关重要。为了说明这一点，让我们考虑一个生产电子元件的制造工厂。该工厂建立了一系列流程，旨在确保每个产品符合特定的质量标准。然而，如果机器发生故障或员工犯错，输出可能会偏离预期的质量。这种情况就是系统偏差的典型例子，意指预期过程受到干扰，导致缺陷或低效。系统偏差的影响可能是深远的。在制造工厂的例子中，一个缺陷产品可能导致客户不满、失去业务以及对公司声誉的损害。此外，如果偏差没有及时处理，它可能会升级为更大的系统性问题，影响整个生产线。因此，组织必须密切监控其系统，并制定策略以减轻与系统偏差相关的风险。管理系统偏差的一种有效方法是实施质量控制措施。通过定期检查产品和流程，公司可以及早识别偏差并采取纠正措施。例如，如果某台机器持续生产有缺陷的组件，可能需要维护或重新校准。此外，培训员工最佳实践可以帮助减少人为错误，进一步降低系统偏差的机会。另一种策略是利用数据分析来跟踪性能指标。通过分析数据趋势，组织可以确定表明潜在偏差的模式。例如，如果生产率突然下降或缺陷率激增，这些异常可能会发出信号，表明需要解决的潜在问题。通过这种方式利用技术，公司可以主动管理系统偏差，提高整体效率。除了制造业，系统偏差在社会系统中同样重要。考虑一个依赖公共交通的社区。如果公交车经常晚点或未能按时到达，这就创造了与预期的交通系统可靠性之间的系统偏差。这样的偏差可能导致通勤者的挫败感，并破坏公众对公共服务的信任。解决这些问题需要全面理解导致偏差的因素，例如交通拥堵或调度不足。总之，系统偏差是任何复杂系统不可避免的方面。无论是在制造业、技术还是社会结构中，偏差都可能干扰过程并导致负面结果。然而，通过实施质量控制措施、利用数据分析和培养持续改进的文化，组织可以有效管理系统偏差，提高整体绩效。认识到解决这些偏差的重要性不仅有助于保持效率，还有助于确保在日益竞争的环境中实现长期成功。