observability
简明释义
英[ˌɑbzərˈvæbɪlɪti]美[ˌɑbzərˈvæbɪlɪti]
n. [数] 可观察性
英英释义
单词用法
同义词
反义词
例句
1.The problems of reachability and observability for 2-d continuous-discrete systems are studied.
对2—D连续—离散系统的局部能达性与局部能观性作了系统地分析。
2.It also discusses the problems of the controllability and observability of the decoupled control systems, and decoupling by output feedback, etc.
同时,还讨论了解耦系统的能控能观测性、输出反馈实现解藕等问题。
3.The power system state estimation involves network topology, network observability analysis, state estimation and detection and identification of bad data.
电力系统状态估计的内容包括:网络拓扑分析、网络可观测性分析、状态估计、状态估计潮流、不良数据检测和辨识等。
4.The uniform controllability, reachability and observability of linear switched control systems are investigated.
研究线性切换系统的一致能控、能观和能达性。
5.Observability requirements and localization methods for multiple stationary observers bearings-only localization system is discussed in this paper.
对多静止测向站系统的可观测性、定位方法进行了分析和研究。
6.A new observability analysis algorithm for power system state estimation based on reduced network Jacobian matrix is proposed.
提出了一种新的基于降阶网络雅可比矩阵的电力系统状态估计可观测性分析方法。
7.The equivalence between controuability and observability of slow subsystem is proved.
其慢子系统能控与其慢子系统能观是等价的。
8.The new monitoring tools have greatly improved our system's observability, allowing us to detect issues faster.
新的监控工具大大提高了我们系统的可观察性,使我们能够更快地检测到问题。
9.Cloud-native applications benefit significantly from observability features.
云原生应用程序从可观察性特性中受益匪浅。
10.Achieving full observability in a distributed system is a challenging task.
在分布式系统中实现完整的可观察性是一项具有挑战性的任务。
11.The team implemented logging practices to improve the observability of their microservices.
团队实施了日志记录实践,以提高他们微服务的可观察性。
12.With enhanced observability, we can analyze user behavior more effectively.
通过增强的可观察性,我们可以更有效地分析用户行为。
作文
In the modern world, where technology permeates every aspect of our lives, the concept of observability has gained significant importance. Observability refers to the ability to measure and understand the internal state of a system based on the data it produces. This concept is particularly relevant in fields such as software engineering, network management, and data science, where complex systems often operate in real-time and require constant monitoring to ensure optimal performance.One of the primary reasons why observability is crucial is that it allows engineers and operators to gain insights into how systems behave under various conditions. By collecting and analyzing data such as logs, metrics, and traces, teams can identify potential issues before they escalate into major problems. For instance, when a web application experiences slow response times, observability tools can help pinpoint the root cause by tracing the request path and examining the performance of different components involved in the process.Moreover, observability enhances collaboration among team members. In a typical development environment, multiple teams may work on different parts of a system, making it challenging to maintain a cohesive understanding of the overall architecture. With robust observability practices in place, teams can share insights and findings, leading to better decision-making and faster resolution of issues. This collaborative approach not only improves the quality of the product but also fosters a culture of continuous improvement within the organization.Another significant benefit of observability is its role in enhancing user experience. In today's competitive landscape, users expect applications to be fast, reliable, and responsive. By implementing effective observability strategies, organizations can monitor user interactions and gather feedback, allowing them to make data-driven improvements to their services. For example, if users frequently abandon a checkout process due to slow loading times, observability can help identify the bottleneck and inform developers where optimizations are needed.Furthermore, observability plays a vital role in ensuring security. In an era where cyber threats are increasingly sophisticated, being able to track and analyze system behavior is essential for detecting anomalies that may indicate a security breach. By leveraging observability tools, organizations can establish baseline behaviors and quickly identify deviations that warrant further investigation. This proactive approach to security can save companies from potentially devastating breaches and protect sensitive data.In conclusion, the importance of observability in today's technology-driven world cannot be overstated. It empowers organizations to monitor their systems effectively, collaborate across teams, enhance user experiences, and bolster security measures. As systems continue to grow in complexity, investing in observability will be critical for any organization aiming to thrive in the digital age. By embracing this concept, businesses can not only improve their operational efficiency but also deliver greater value to their customers, ultimately leading to sustained success in a competitive marketplace.
在现代世界中,技术渗透到我们生活的每一个方面,可观察性的概念变得越来越重要。可观察性是指根据系统产生的数据来测量和理解其内部状态的能力。这个概念在软件工程、网络管理和数据科学等领域尤其相关,因为复杂的系统通常实时运行,需要不断监控以确保最佳性能。可观察性至关重要的主要原因之一是,它允许工程师和运营人员深入了解系统在各种条件下的行为。通过收集和分析日志、指标和跟踪等数据,团队可以在潜在问题升级为重大问题之前识别它们。例如,当一个Web应用程序响应时间缓慢时,可观察性工具可以通过跟踪请求路径并检查参与过程的不同组件的性能来帮助找出根本原因。此外,可观察性增强了团队成员之间的协作。在典型的开发环境中,多个团队可能在系统的不同部分工作,这使得维护对整体架构的统一理解变得具有挑战性。通过实施强大的可观察性实践,团队可以分享见解和发现,从而改善决策并加快问题解决。这种协作方法不仅提高了产品质量,还促进了组织内部持续改进的文化。可观察性的另一个显著好处是它在提升用户体验方面的作用。在当今竞争激烈的环境中,用户期望应用程序快速、可靠且响应迅速。通过实施有效的可观察性策略,组织可以监控用户交互并收集反馈,使他们能够基于数据进行服务改进。例如,如果用户由于加载时间过慢而频繁放弃结账流程,可观察性可以帮助识别瓶颈,并告知开发人员需要进行优化的地方。此外,可观察性在确保安全方面也发挥着至关重要的作用。在网络威胁日益复杂的时代,能够跟踪和分析系统行为对于检测可能表明安全漏洞的异常情况至关重要。通过利用可观察性工具,组织可以建立基线行为,并迅速识别需要进一步调查的偏差。这种主动的安全方法可以为公司节省潜在的破坏性泄露,并保护敏感数据。总之,可观察性在当今技术驱动的世界中的重要性不容小觑。它使组织能够有效地监控其系统,跨团队协作,提升用户体验,并加强安全措施。随着系统继续变得复杂,投资于可观察性将对任何希望在数字时代蓬勃发展的组织至关重要。通过接受这一概念,企业不仅可以提高运营效率,还可以为客户提供更大的价值,从而在竞争激烈的市场中实现持续成功。
