worst case design

简明释义

最坏情况设计法

英英释义

例句

1.By considering worst case design, the team was able to identify potential risks early in the project.

通过考虑最坏情况设计，团队能够在项目早期识别潜在风险。

2.The software developers implemented a worst case design strategy to handle maximum load during peak usage.

软件开发人员实施了最坏情况设计策略，以应对高峰使用期间的最大负载。

3.In engineering, we often use worst case design to ensure that our products can withstand extreme conditions.

在工程中，我们经常使用最坏情况设计以确保我们的产品能够承受极端条件。

4.The worst case design approach helps us prepare for unexpected failures in our systems.

采用最坏情况设计的方法帮助我们为系统中意外故障做好准备。

5.In architecture, worst case design ensures that buildings can endure severe weather conditions.

在建筑设计中，最坏情况设计确保建筑能够承受恶劣天气条件。

作文

In the field of engineering and design, the concept of worst case design plays a critical role in ensuring that products and systems can withstand extreme conditions. The idea is to anticipate the most adverse scenarios that could potentially occur during the operation of a product or system. By considering these worst-case scenarios, designers can make informed decisions about materials, structures, and functionalities, ultimately leading to safer and more reliable outcomes.The need for worst case design arises from the unpredictable nature of real-world applications. For instance, consider the design of a bridge. Engineers must account for various factors such as heavy traffic loads, environmental impacts like wind and earthquakes, and even potential accidents. By employing worst case design, they can ensure that the bridge remains structurally sound under the most severe conditions, thus protecting both the infrastructure and the public.Moreover, worst case design is not limited to civil engineering; it is equally important in fields like software development and electronics. In software engineering, developers often conduct worst case design analyses to predict how their applications will perform under peak loads or when faced with unexpected inputs. This proactive approach helps in identifying potential bottlenecks and vulnerabilities, allowing for optimization before the software is deployed.Similarly, in the realm of electronics, engineers utilize worst case design principles to ensure that circuits can handle maximum voltage and current levels without failure. This is particularly crucial in safety-critical systems, such as those found in medical devices or aerospace technology, where the consequences of failure can be catastrophic.The process of implementing worst case design involves rigorous testing and validation. Engineers often create simulations that mimic extreme conditions to observe how their designs behave. This allows them to identify weaknesses and make necessary adjustments before the final product is manufactured. By doing so, they can provide a higher level of assurance that their designs will perform reliably over time.However, it is important to note that while worst case design is essential, it can also lead to increased costs and longer development times. Designers must strike a balance between robustness and practicality, ensuring that the solutions they propose are not only safe but also economically viable. Therefore, effective communication and collaboration among stakeholders are vital in the design process to achieve the best possible outcomes.In conclusion, worst case design is a fundamental principle in engineering that emphasizes the importance of preparing for the worst possible scenarios. By anticipating potential challenges and designing accordingly, engineers can create products and systems that are not only functional but also resilient. As technology continues to evolve, the significance of worst case design will only grow, making it an indispensable aspect of modern engineering practices.

在工程和设计领域，最坏情况设计的概念在确保产品和系统能够承受极端条件方面发挥着关键作用。这个想法是预见在产品或系统运行过程中可能发生的最不利场景。通过考虑这些最坏的情况，设计师可以就材料、结构和功能做出明智的决策，最终导致更安全和更可靠的结果。最坏情况设计的需求源于现实应用中不可预测的性质。例如，考虑桥梁的设计。工程师必须考虑各种因素，如重型交通负荷、环境影响（如风和地震），甚至潜在的事故。通过采用最坏情况设计，他们可以确保桥梁在最严峻的条件下保持结构安全，从而保护基础设施和公众。此外，最坏情况设计不仅限于土木工程；在软件开发和电子领域同样重要。在软件工程中，开发人员通常进行最坏情况设计分析，以预测他们的应用程序在高峰负载或面临意外输入时的表现。这种主动的方法有助于识别潜在的瓶颈和漏洞，从而在软件部署之前进行优化。同样，在电子学领域，工程师利用最坏情况设计原则确保电路能够处理最大电压和电流水平而不会故障。这在安全关键系统中尤为重要，例如医疗设备或航空航天技术，在这些系统中，故障的后果可能是灾难性的。实施最坏情况设计的过程涉及严格的测试和验证。工程师通常创建模拟以模仿极端条件，以观察他们的设计如何表现。这使他们能够识别弱点并在最终产品制造之前进行必要的调整。通过这样做，他们可以提供更高水平的保证，确保他们的设计会随着时间的推移而可靠地运行。然而，需要注意的是，虽然最坏情况设计至关重要，但它也可能导致成本增加和开发时间延长。设计师必须在稳健性和实用性之间取得平衡，确保他们提出的解决方案不仅安全，而且经济可行。因此，在设计过程中，利益相关者之间的有效沟通和协作对于实现最佳结果至关重要。总之，最坏情况设计是工程中的一个基本原则，强调为最坏情况做好准备的重要性。通过预见潜在挑战并相应设计，工程师可以创造出不仅功能齐全而且具有弹性的产品和系统。随着技术的不断发展，最坏情况设计的重要性只会增加，使其成为现代工程实践中不可或缺的方面。