probability of failure

简明释义

故障几率

英英释义

例句

1.The probability of failure 失效概率 in software applications can lead to significant financial losses if not addressed.

如果不加以解决，软件应用中的probability of failure 失效概率 可能导致重大财务损失。

2.The probability of failure 失效概率 for this machine has been reduced through regular maintenance.

通过定期维护，这台机器的probability of failure 失效概率 已经降低。

3.Manufacturers often calculate the probability of failure 失效概率 of their products to improve quality control.

制造商通常计算其产品的probability of failure 失效概率 以改善质量控制。

4.In engineering, assessing the probability of failure 失效概率 for a bridge design is crucial to ensure safety.

在工程中，评估桥梁设计的probability of failure 失效概率 对确保安全至关重要。

5.When analyzing risk, it’s important to determine the probability of failure 失效概率 associated with various scenarios.

在分析风险时，确定与各种场景相关的probability of failure 失效概率 是很重要的。

作文

In today's fast-paced world, the concept of risk is an integral part of decision-making processes in various fields, including business, engineering, and personal life. One critical aspect of risk assessment is understanding the probability of failure. The probability of failure refers to the likelihood that a particular action, project, or system will not achieve its intended outcome or will fail to function as expected. This concept is particularly important in industries where safety and reliability are paramount, such as aviation, healthcare, and construction.To illustrate, consider the aviation industry. Every time a new aircraft is designed, engineers conduct extensive calculations to determine the probability of failure of various components. This includes everything from the engines to the navigation systems. By analyzing data from previous models and conducting simulations, engineers can estimate how likely it is for a part to fail during flight. Understanding the probability of failure allows them to make informed decisions about which materials to use and how to design the aircraft to minimize risks.Similarly, in the realm of software development, programmers often assess the probability of failure when creating new applications. Bugs and glitches can lead to software crashes, which can have significant consequences for users and businesses alike. By employing rigorous testing methods and quality assurance protocols, developers aim to reduce the probability of failure before the software is released to the public. This proactive approach not only enhances user experience but also protects the company’s reputation and financial standing.On a personal level, individuals frequently encounter situations where they must evaluate the probability of failure. For instance, when deciding whether to invest in a new business venture, an entrepreneur might analyze market trends, competitor performance, and economic conditions. By assessing the probability of failure, they can make more informed choices about whether to proceed with their plans or to pivot in a different direction.Understanding the probability of failure is not just about avoiding negative outcomes; it also provides valuable insights that can lead to innovation and improvement. In many cases, recognizing the potential for failure encourages individuals and organizations to develop contingency plans or alternative strategies. For example, if a company identifies a high probability of failure in a certain product line, they might choose to invest in research and development to enhance the product or to explore new markets altogether.Moreover, embracing the concept of probability of failure fosters a culture of resilience and adaptability. In an ever-changing environment, the ability to recognize and respond to potential failures can be a significant advantage. Organizations that prioritize risk assessment and management are often better equipped to navigate challenges and seize opportunities as they arise.In conclusion, the probability of failure is a vital concept that permeates various aspects of life and work. By understanding and analyzing this probability, individuals and organizations can make more informed decisions, mitigate risks, and ultimately drive success. Whether in aviation, software development, or personal endeavors, acknowledging the probability of failure allows us to learn from past experiences and to innovate for the future.

在当今快节奏的世界中，风险的概念是商业、工程和个人生活等各个领域决策过程中的重要组成部分。风险评估的一个关键方面是理解失败的概率。失败的概率指的是某一特定行动、项目或系统未能达到预期结果或未能按预期功能运行的可能性。这个概念在安全性和可靠性至关重要的行业中尤为重要，例如航空、医疗保健和建筑。举例来说，考虑航空业。每当设计一架新飞机时，工程师都会进行广泛的计算，以确定各种组件的失败的概率。这包括从发动机到导航系统的所有内容。通过分析先前模型的数据并进行模拟，工程师可以估算某个部件在飞行中出现故障的可能性。理解失败的概率使他们能够就使用哪些材料以及如何设计飞机以最小化风险做出明智的决定。同样，在软件开发领域，程序员在创建新应用程序时也常常评估失败的概率。错误和故障可能导致软件崩溃，这对用户和企业都有重大影响。通过采用严格的测试方法和质量保证协议，开发人员旨在在软件发布给公众之前减少失败的概率。这种主动的方法不仅增强了用户体验，还保护了公司的声誉和财务状况。在个人层面上，个人经常会遇到必须评估失败的概率的情况。例如，当决定是否投资于新商业冒险时，企业家可能会分析市场趋势、竞争对手表现和经济状况。通过评估失败的概率，他们可以更明智地选择是继续推进计划还是转向不同的方向。理解失败的概率不仅仅是为了避免负面结果；它还提供了有价值的见解，可以推动创新和改进。在许多情况下，认识到失败的潜力会鼓励个人和组织制定应急计划或替代策略。例如，如果一家公司识别到某一产品线的失败的概率较高，他们可能会选择投资研发以增强该产品，或探索全新的市场。此外，拥抱失败的概率的概念促进了韧性和适应性的文化。在不断变化的环境中，识别和应对潜在失败的能力可以成为显著优势。重视风险评估和管理的组织通常更能有效应对挑战，并在机会出现时迅速抓住。总之，失败的概率是一个渗透到生活和工作各个方面的重要概念。通过理解和分析这一概率，个人和组织可以做出更明智的决策、降低风险，并最终推动成功。无论是在航空、软件开发还是个人努力中，承认失败的概率使我们能够从过去的经验中学习，并为未来创新。