systematic engineering

简明释义

系统工程

英英释义

例句

1.The team used systematic engineering (系统工程) methods to analyze the risks associated with the new product launch.

团队使用系统工程方法分析与新产品发布相关的风险。

2.The success of the project was attributed to the principles of systematic engineering (系统工程) that guided the team through each phase.

项目的成功归功于指导团队每个阶段的原则，即系统工程。

3.In order to reduce costs, the company implemented systematic engineering (系统工程) practices in their production process.

为了降低成本，公司在生产过程中实施了系统工程实践。

4.The research paper emphasized the importance of systematic engineering (系统工程) in developing sustainable technologies.

研究论文强调了在开发可持续技术中系统工程的重要性。

5.A thorough understanding of systematic engineering (系统工程) is essential for any aspiring project manager.

对任何有志于成为项目经理的人来说，深入理解系统工程是必不可少的。

作文

In today's rapidly evolving world, the importance of systematic engineering cannot be overstated. This approach integrates various engineering disciplines and methodologies to create efficient solutions for complex problems. By adopting systematic engineering principles, engineers can ensure that their projects are not only technically sound but also sustainable and economically viable.The essence of systematic engineering lies in its structured methodology. It involves a comprehensive analysis of the problem at hand, followed by the development of a systematic plan that encompasses all aspects of the project. This includes defining objectives, identifying constraints, and assessing potential risks. By systematically breaking down the project into manageable components, engineers can address each part with precision, leading to more effective outcomes.One of the key benefits of systematic engineering is its ability to enhance collaboration among team members. In traditional engineering practices, different teams often work in silos, which can lead to miscommunication and inefficiencies. However, systematic engineering promotes interdisciplinary cooperation, allowing engineers from various backgrounds to contribute their expertise. This collaborative environment fosters innovation and creativity, as diverse perspectives can lead to novel solutions that may not have been considered otherwise.Moreover, systematic engineering emphasizes the importance of documentation and review processes. By meticulously documenting each phase of the project, engineers can track progress, identify issues early on, and make informed decisions. Regular reviews allow for adjustments to be made as necessary, ensuring that the project remains on track. This iterative process is crucial in today’s fast-paced environment, where changes can occur rapidly and unpredictably.Another significant aspect of systematic engineering is its focus on sustainability. As global awareness of environmental issues grows, engineers must consider the long-term impacts of their designs. Systematic engineering encourages the use of sustainable materials and practices, aiming to minimize waste and reduce the carbon footprint of engineering projects. This holistic view is essential for creating solutions that are not only effective in the short term but also beneficial for future generations.In conclusion, systematic engineering represents a paradigm shift in how engineering projects are approached and executed. Its structured methodology, emphasis on collaboration, thorough documentation, and commitment to sustainability make it an invaluable tool for modern engineers. As we continue to face complex global challenges, the adoption of systematic engineering principles will be crucial in developing innovative solutions that meet both current and future needs. By embracing this approach, engineers can contribute to a more sustainable and efficient world, ultimately making a positive impact on society as a whole.

在当今快速发展的世界中，系统工程的重要性不容低估。这种方法整合了各种工程学科和方法论，以创建有效的解决方案来应对复杂问题。通过采用系统工程原则，工程师可以确保他们的项目不仅在技术上是合理的，而且在可持续性和经济可行性方面也同样出色。系统工程的本质在于其结构化的方法论。它涉及对当前问题的全面分析，随后制定一个涵盖项目各个方面的系统计划。这包括定义目标、识别约束条件以及评估潜在风险。通过将项目系统地分解为可管理的组成部分，工程师可以精确地处理每一部分，从而导致更有效的结果。系统工程的一个关键好处是它能够增强团队成员之间的协作。在传统的工程实践中，不同的团队往往在孤岛中工作，这可能导致沟通不畅和效率低下。然而，系统工程促进了跨学科的合作，使来自不同背景的工程师能够贡献他们的专业知识。这种合作环境促进了创新和创造力，因为多样化的视角可以导致可能未曾考虑过的新颖解决方案。此外，系统工程强调文档和审查过程的重要性。通过仔细记录项目的每个阶段，工程师可以跟踪进度，及早识别问题并做出明智的决策。定期审查允许根据需要进行调整，确保项目保持在正确的轨道上。这种迭代过程在当今快速变化的环境中至关重要，因为变化可能迅速且不可预测。系统工程的另一个重要方面是其对可持续性的关注。随着全球对环境问题的认识不断提高，工程师必须考虑他们设计的长期影响。系统工程鼓励使用可持续的材料和实践，旨在最小化浪费并减少工程项目的碳足迹。这种整体视角对于创造不仅在短期内有效而且对未来几代人有益的解决方案至关重要。总之，系统工程代表了工程项目处理和执行方式的范式转变。其结构化的方法论、对协作的重视、详尽的文档和对可持续性的承诺使其成为现代工程师的一项宝贵工具。随着我们继续面临复杂的全球挑战，采用系统工程原则将在开发满足当前和未来需求的创新解决方案中发挥关键作用。通过接受这种方法，工程师可以为创造一个更可持续和高效的世界做出贡献，最终对整个社会产生积极的影响。