iterative
简明释义
英[ˈɪtərətɪv]美[ˈɪtəreɪtɪvˌˈɪtərətɪv]
adj. [数] 迭代的;重复的,反复的
n. 反复体
英英释义
Characterized by repetition or a process that is repeated multiple times, often to refine or improve results. | 以重复或多次重复的过程为特征,通常用于精炼或改善结果。 |
单词用法
迭代法 | |
迭代算法 |
同义词
反义词
| 非迭代的 | A non-iterative approach is often more efficient for simple problems. | 非迭代的方法在解决简单问题时通常更高效。 | |
| 静态的 | 静态方法不会随着时间而改变其状态。 |
例句
1.Quality improvement, like software development, is an iterative process.
质量改进,如软件开发,是一个迭代的过程。
2.With this methodology, iterative development is also possible.
使用此方法,还可以实现交互式开发。
3.Patterns can be developed in an iterative way.
可以使用迭代的方式开发模式。
4.Iterative testing gets customers involved early.
迭代测试很早就使客户客户参与进来。
使用迭代方法。
6.Iterative testing is never being satisfied with the right answer.
迭代测试从来都没有满意的正确答案。
7.It seeks proof, and it's iterative.
EDD以迭代的方式寻找证据。
8.We adopted an iterative methodology to enhance our research findings over time.
我们采用了迭代的方法论,以随着时间的推移增强我们的研究结果。
9.The software development process is often iterative, allowing teams to refine their products through repeated cycles.
软件开发过程通常是迭代的,允许团队通过重复的周期来完善他们的产品。
10.In an iterative design process, feedback from users is incorporated into each version of the product.
在一个迭代的设计过程中,用户的反馈会被纳入到每个版本的产品中。
11.The iterative approach helps in gradually improving the quality of the project.
这种迭代的方法有助于逐步提高项目的质量。
12.An iterative process allows for continuous improvement and adaptation to new challenges.
一个迭代的过程允许持续改进和适应新挑战。
作文
In the realm of software development, the concept of iterative (迭代的) processes has become increasingly vital. Unlike traditional methods that often rely on a linear approach, iterative (迭代的) methodologies emphasize the importance of repetition and refinement. This allows developers to create more robust and user-friendly applications by constantly revisiting and improving their work. One of the most popular iterative (迭代的) frameworks is Agile, which promotes flexibility and responsiveness to change. In an Agile environment, teams work in short cycles known as sprints, where they focus on developing specific features or functionalities. At the end of each sprint, the team reviews their progress and gathers feedback from stakeholders. This feedback loop is crucial because it enables developers to identify issues early and make necessary adjustments before moving forward. The iterative (迭代的) nature of Agile not only enhances product quality but also fosters collaboration among team members. As developers work closely together, they can share insights and learn from each other's experiences. This collaborative atmosphere encourages innovation and creativity, leading to better solutions for complex problems. Moreover, the iterative (迭代的) approach allows for continuous improvement. After each iteration, teams can reflect on what went well and what could be improved. This reflection process is essential for personal and professional growth, as it helps individuals develop their skills and adapt to new challenges. Over time, this leads to a more competent and confident team capable of tackling even the most demanding projects. Another significant advantage of iterative (迭代的) processes is their ability to reduce risks. By breaking down a project into smaller, manageable parts, teams can identify potential pitfalls early on. This proactive approach minimizes the likelihood of major setbacks and ensures that the final product aligns with user needs and expectations. Clients appreciate this method because it allows them to see progress regularly and make informed decisions about the project's direction. In addition to software development, the iterative (迭代的) approach can be applied to various fields, such as education, design, and research. For instance, educators can use iterative (迭代的) techniques to refine their teaching methods based on student feedback. Similarly, designers can create prototypes and gather user input, allowing them to enhance their products before launch. In research, scientists often follow an iterative (迭代的) process of hypothesis testing and experimentation, refining their theories as new data emerges. In conclusion, the iterative (迭代的) approach is an essential component of modern problem-solving strategies. Its emphasis on repetition, feedback, and continuous improvement makes it a powerful tool in various domains. By adopting iterative (迭代的) methodologies, teams can enhance collaboration, reduce risks, and ultimately deliver higher-quality products that meet the needs of users. As we continue to navigate an ever-changing landscape, embracing iterative (迭代的) processes will undoubtedly lead to greater success in our endeavors.
在软件开发领域,iterative(迭代的)过程的概念变得越来越重要。与传统方法通常依赖线性方法不同,iterative(迭代的)方法强调重复和改进的重要性。这使得开发人员能够通过不断回顾和改善他们的工作来创建更强大和用户友好的应用程序。最流行的iterative(迭代的)框架之一是敏捷,它促进灵活性和对变化的响应。在敏捷环境中,团队在称为冲刺的短周期内工作,专注于开发特定的功能或特性。在每个冲刺结束时,团队会回顾他们的进展并收集利益相关者的反馈。这种反馈循环至关重要,因为它使开发人员能够及早识别问题,并在继续之前进行必要的调整。敏捷的iterative(迭代的)特性不仅提高了产品质量,还促进了团队成员之间的合作。当开发人员紧密合作时,他们可以分享见解并相互学习。这种合作氛围鼓励创新和创造力,从而导致更好的复杂问题解决方案。此外,iterative(迭代的)方法允许持续改进。在每次迭代之后,团队可以反思哪些做得好,哪些可以改进。这一反思过程对于个人和职业成长至关重要,因为它帮助个人发展技能并适应新挑战。随着时间的推移,这导致一个更有能力和自信的团队,能够应对甚至是最苛刻的项目。Iterative(迭代的)过程的另一个显著优势是它们能够降低风险。通过将项目分解为更小、更可管理的部分,团队可以及早识别潜在的陷阱。这种主动的方法最大限度地减少了重大挫折的可能性,并确保最终产品符合用户的需求和期望。客户欣赏这种方法,因为它使他们能够定期看到进展,并就项目方向做出明智的决策。除了软件开发,iterative(迭代的)方法还可以应用于各个领域,如教育、设计和研究。例如,教育工作者可以使用iterative(迭代的)技术根据学生反馈来改进教学方法。同样,设计师可以创建原型并收集用户输入,使他们能够在发布之前增强产品。在研究中,科学家通常遵循iterative(迭代的)假设测试和实验过程,随着新数据的出现不断完善他们的理论。总之,iterative(迭代的)方法是现代问题解决策略的一个基本组成部分。它对重复、反馈和持续改进的重视使其成为各个领域的强大工具。通过采用iterative(迭代的)方法论,团队可以增强协作、降低风险,并最终交付更高质量的产品,以满足用户的需求。在我们继续应对不断变化的环境时,拥抱iterative(迭代的)过程无疑会在我们的努力中带来更大的成功。
