systematic design

简明释义

顺序配置

英英释义

例句

1.In software development, systematic design helps in structuring the code for better maintainability.

在软件开发中，系统设计有助于构建更易维护的代码结构。

2.A systematic design approach was adopted to enhance user experience in the app.

采用了系统设计方法来提升应用的用户体验。

3.The team implemented a systematic design to improve the efficiency of the production line.

团队实施了一个系统设计以提高生产线的效率。

4.The architect used systematic design principles to create a sustainable building.

建筑师运用系统设计原则来创建一个可持续的建筑。

5.By applying systematic design, the research team was able to produce more reliable results.

通过应用系统设计，研究团队能够产生更可靠的结果。

作文

In the field of engineering and architecture, the concept of systematic design (系统设计) plays a crucial role in ensuring that projects are completed efficiently and effectively. Systematic design involves a structured approach to problem-solving that emphasizes thorough planning, analysis, and execution. This method not only helps in creating functional and aesthetically pleasing designs but also minimizes errors and optimizes resources. One of the key components of systematic design is the identification of objectives. Before any design work begins, it is essential to clearly define what the project aims to achieve. This could range from meeting specific client needs to adhering to regulatory standards. By establishing clear goals, designers can create a focused framework that guides the entire design process. Once objectives are set, the next step in systematic design is research and analysis. This phase involves gathering relevant information about the project, including site conditions, user requirements, and existing constraints. Designers often employ various tools and techniques, such as surveys, interviews, and market analysis, to collect data that will inform their decisions. This comprehensive understanding of the context ensures that the design is not only innovative but also practical and feasible. With a solid foundation of objectives and research, designers can then move on to the conceptualization stage. Here, ideas are generated and explored through brainstorming sessions, sketches, and prototypes. The goal is to visualize potential solutions while considering factors such as functionality, aesthetics, and sustainability. Systematic design encourages collaboration among team members during this phase, as diverse perspectives can lead to more creative and effective outcomes. After concepts are developed, the next step is to refine and evaluate them. This is where systematic design truly shines, as it incorporates iterative testing and feedback loops. Designers create models or simulations to assess how well each concept meets the established objectives. Feedback from stakeholders, including clients and end-users, is invaluable during this stage, as it allows for adjustments and improvements before finalizing the design. Once a design is selected, the implementation phase begins. This is where systematic design ensures that all aspects of the project are executed according to plan. Detailed documentation, including specifications and schedules, is created to guide construction or production. Effective communication among team members and contractors is essential during this phase to avoid misunderstandings and ensure that the design is realized as intended. Finally, after the project is completed, the evaluation phase of systematic design takes place. This involves assessing the final product against the original objectives to determine its success. Feedback is gathered from users and stakeholders to identify areas for improvement in future projects. This reflective practice not only enhances individual skills but also contributes to the overall advancement of the field. In conclusion, systematic design (系统设计) is an essential approach in various disciplines that fosters innovation and efficiency. By following a structured process that includes defining objectives, conducting research, generating ideas, evaluating designs, implementing plans, and reflecting on outcomes, designers can create solutions that are both effective and sustainable. Embracing systematic design not only benefits individual projects but also elevates the standards of the entire industry.

在工程和建筑领域，系统设计的概念起着至关重要的作用，确保项目高效且有效地完成。系统设计涉及一种结构化的问题解决方法，强调全面的规划、分析和执行。这种方法不仅有助于创建功能性和美观的设计，还能最大限度地减少错误并优化资源。系统设计的一个关键组成部分是目标识别。在任何设计工作开始之前，明确界定项目的目标至关重要。这可能包括满足特定客户需求或遵守监管标准。通过建立明确的目标，设计师可以创建一个集中的框架，指导整个设计过程。一旦目标设定，系统设计的下一步是研究和分析。这个阶段涉及收集与项目相关的信息，包括现场条件、用户需求和现有约束。设计师通常使用各种工具和技术，如调查、访谈和市场分析，来收集将影响他们决策的数据。这种对背景的全面理解确保了设计不仅具有创新性，而且实用可行。在扎实的目标和研究基础上，设计师可以进入概念化阶段。在这里，通过头脑风暴、草图和原型生成和探索想法。目标是可视化潜在解决方案，同时考虑功能、美学和可持续性等因素。系统设计鼓励团队成员在这一阶段进行合作，因为多样化的观点可以带来更具创造性和有效性的结果。在概念开发后，下一步是精炼和评估它们。这正是系统设计真正闪耀之处，因为它结合了迭代测试和反馈循环。设计师创建模型或模拟，以评估每个概念满足既定目标的程度。来自利益相关者（包括客户和最终用户）的反馈在这一阶段非常宝贵，因为它允许在最终确定设计之前进行调整和改进。一旦选择了设计，实施阶段便开始了。这是系统设计确保项目所有方面按照计划执行的地方。创建详细的文档，包括规格和时间表，以指导施工或生产。在这一阶段，团队成员和承包商之间有效的沟通至关重要，以避免误解并确保设计按预期实现。最后，在项目完成后，系统设计的评估阶段开始。这涉及根据原始目标评估最终产品以确定其成功与否。收集用户和利益相关者的反馈，以识别未来项目的改进领域。这种反思实践不仅提高了个人技能，还有助于整个领域的整体进步。总之，系统设计是各个学科中一种促进创新和效率的重要方法。通过遵循包括定义目标、进行研究、生成想法、评估设计、实施计划和反思结果在内的结构化过程，设计师可以创建有效且可持续的解决方案。接受系统设计不仅有利于单个项目，还有助于提升整个行业的标准。