system engineering

简明释义

系统工程

英英释义

例句

1.During the workshop, we discussed the principles of system engineering and their applications.

在研讨会上，我们讨论了系统工程的原则及其应用。

2.The success of the project relied heavily on proper system engineering practices.

项目的成功在很大程度上依赖于适当的系统工程实践。

3.Our company is investing in system engineering to enhance product development processes.

我们公司正在投资于系统工程以增强产品开发流程。

4.The team focused on improving the overall efficiency through effective system engineering.

团队专注于通过有效的系统工程提高整体效率。

5.In aerospace projects, system engineering plays a crucial role in integrating various components.

在航空航天项目中，系统工程在整合各个组件方面发挥着至关重要的作用。

作文

In today's rapidly evolving technological landscape, the importance of system engineering (系统工程) cannot be overstated. This interdisciplinary field focuses on the design, integration, and management of complex systems over their life cycles. From aerospace to software development, system engineering (系统工程) plays a crucial role in ensuring that all components of a system work together effectively to achieve desired outcomes.At its core, system engineering (系统工程) is about understanding the big picture. It involves not only the technical aspects of a project but also the human, economic, and environmental factors that influence its success. By adopting a holistic approach, engineers can identify potential issues early in the process and develop solutions that are both efficient and sustainable.One key aspect of system engineering (系统工程) is requirements analysis. This phase involves gathering and defining the needs of stakeholders, which may include customers, end-users, and regulatory bodies. Understanding these requirements is essential for developing a system that meets expectations and delivers value. Inadequate requirements analysis can lead to costly mistakes and project failures, highlighting the importance of this initial step in the system engineering (系统工程) process.Another important component of system engineering (系统工程) is system architecture. This refers to the conceptual model that defines the structure, behavior, and more views of a system. A well-designed architecture allows for flexibility and scalability, enabling systems to adapt to changing conditions or requirements. Engineers must carefully consider how different subsystems interact and communicate with each other to ensure seamless integration.Risk management is also a critical element of system engineering (系统工程). Every project carries inherent risks, whether they stem from technical challenges, budget constraints, or external factors. Through systematic risk assessment and mitigation strategies, engineers can minimize the impact of these risks and increase the likelihood of project success. This proactive approach is one of the hallmarks of effective system engineering (系统工程).Moreover, the implementation phase of system engineering (系统工程) requires meticulous planning and execution. Engineers must coordinate various teams and resources to bring the system to life, ensuring that all parts function as intended. This phase often involves extensive testing and validation to confirm that the system meets established requirements and performs reliably under real-world conditions.Finally, the maintenance and evolution of systems are vital aspects of system engineering (系统工程). As technology advances and user needs change, systems must be updated or modified to remain relevant. This ongoing process of evaluation and improvement ensures that systems continue to provide value over time.In conclusion, system engineering (系统工程) is an essential discipline that enables the successful development and management of complex systems. By integrating technical expertise with a comprehensive understanding of stakeholder needs and environmental considerations, system engineering (系统工程) ensures that projects are completed efficiently and effectively. As we continue to face new challenges in technology and society, the principles of system engineering (系统工程) will remain critical in guiding us toward innovative solutions that benefit everyone.

在当今快速发展的技术环境中，系统工程的重要性不容小觑。这个跨学科领域专注于复杂系统在其生命周期内的设计、集成和管理。从航空航天到软件开发，系统工程在确保系统所有组件有效协同工作以实现预期结果方面发挥着至关重要的作用。系统工程的核心是理解大局。它不仅涉及项目的技术方面，还包括影响其成功的人类、经济和环境因素。通过采用整体方法，工程师可以在过程早期识别潜在问题，并制定高效且可持续的解决方案。系统工程的一个关键方面是需求分析。此阶段涉及收集和定义利益相关者的需求，这可能包括客户、最终用户和监管机构。理解这些需求对于开发满足期望并提供价值的系统至关重要。不充分的需求分析可能导致成本高昂的错误和项目失败，这突显了这一初始步骤在系统工程过程中的重要性。系统工程的另一个重要组成部分是系统架构。这是指定义系统结构、行为和更多视图的概念模型。良好的架构设计允许灵活性和可扩展性，使系统能够适应变化的条件或需求。工程师必须仔细考虑不同子系统之间的交互和通信，以确保无缝集成。风险管理也是系统工程的关键元素。每个项目都存在固有风险，无论是来自技术挑战、预算限制还是外部因素。通过系统的风险评估和缓解策略，工程师可以最大限度地减少这些风险的影响，提高项目成功的可能性。这种前瞻性的方法是有效的系统工程的标志之一。此外，系统工程的实施阶段需要细致的规划和执行。工程师必须协调各个团队和资源，将系统付诸实践，确保所有部分按预期运作。此阶段通常涉及广泛的测试和验证，以确认系统符合既定要求并在现实条件下可靠运行。最后，系统的维护和演变是系统工程的重要方面。随着技术的进步和用户需求的变化，系统必须进行更新或修改以保持相关性。这一持续的评估和改进过程确保系统随着时间的推移继续提供价值。总之，系统工程是一个至关重要的学科，使复杂系统的成功开发和管理成为可能。通过将技术专长与对利益相关者需求和环境考虑的全面理解相结合，系统工程确保项目高效且有效地完成。随着我们继续面临技术和社会的新挑战，系统工程的原则将在引导我们找到造福所有人的创新解决方案方面保持关键作用。