system engineering

简明释义

系统工程

英英释义

例句

1.Effective system engineering can reduce costs and improve project timelines.

有效的系统工程可以降低成本并改善项目时间表。

2.In aerospace projects, system engineering ensures all components work together seamlessly.

在航空航天项目中，系统工程确保所有组件无缝协作。

3.The team applied system engineering to develop a new software application.

团队运用了系统工程来开发一个新的软件应用。

4.The principles of system engineering were crucial in the design of the new bridge.

在新桥的设计中，系统工程的原则至关重要。

5.During the conference, experts discussed the future of system engineering in technology.

在会议期间，专家们讨论了系统工程在技术中的未来。

作文

In today's complex world, the need for effective solutions to intricate problems has never been greater. One of the most crucial fields that address these challenges is system engineering, which is a multidisciplinary approach that focuses on designing and managing complex systems over their life cycles. The essence of system engineering lies in its ability to integrate various components into a cohesive whole, ensuring that all parts work together seamlessly to achieve a common goal.To understand system engineering, it is essential to recognize its foundational principles. First and foremost, system engineering emphasizes the importance of a holistic view. Rather than examining individual components in isolation, it encourages engineers to consider how each part interacts with others within the system. This perspective is vital because even the smallest change in one component can have significant repercussions on the overall performance of the system.Another key aspect of system engineering is its focus on requirements. Engineers must gather and analyze the needs of stakeholders to define clear and measurable requirements for the system. This process ensures that the final product meets the expectations of users and fulfills its intended purpose. By prioritizing requirements, system engineering helps to mitigate risks and avoid costly mistakes during the development process.The lifecycle of a system is another critical consideration in system engineering. From conception to deployment and eventual retirement, each phase requires careful planning and execution. Engineers must account for factors such as cost, schedule, performance, and reliability throughout the entire lifecycle. This comprehensive approach allows for better decision-making and resource allocation, ultimately leading to more successful outcomes.Moreover, system engineering employs various tools and techniques to facilitate the design and analysis of systems. These include modeling, simulation, and optimization methods that help engineers visualize complex interactions and predict system behavior under different scenarios. By utilizing these tools, engineers can identify potential issues early in the development process, reducing the likelihood of failures and enhancing overall system performance.Collaboration is also a fundamental element of system engineering. Given the complexity of modern systems, successful projects often require input from diverse disciplines, including software engineering, hardware engineering, human factors, and project management. Effective communication and teamwork are essential to ensure that all stakeholders are aligned and that their expertise contributes to the project's success.In conclusion, system engineering is an indispensable discipline that enables the creation of complex systems that are efficient, reliable, and user-friendly. By adopting a holistic view, focusing on requirements, considering the system lifecycle, employing advanced tools, and fostering collaboration, engineers can tackle some of the most pressing challenges of our time. As technology continues to evolve and systems become increasingly intricate, the role of system engineering will only grow in importance, making it a vital area of study for aspiring engineers and professionals alike.

系统工程是一个多学科的方法，专注于在整个生命周期内设计和管理复杂系统。系统工程的本质在于其将各种组件整合成一个统一整体的能力，确保所有部分无缝协作以实现共同目标。要理解系统工程，首先必须认识到其基础原则。系统工程强调整体视角的重要性，而不是孤立地检查单个组件，它鼓励工程师考虑每个部分如何与系统内的其他部分相互作用。这种视角至关重要，因为即使是对一个组件的小改动也可能对系统的整体性能产生重大影响。系统工程的另一个关键方面是对需求的关注。工程师必须收集和分析利益相关者的需求，以定义清晰且可衡量的系统要求。这个过程确保最终产品符合用户的期望，并实现其预期目的。通过优先考虑需求，系统工程有助于降低风险，避免在开发过程中出现代价高昂的错误。系统的生命周期是系统工程中的另一个关键考虑因素。从构思到部署再到最终退役，每个阶段都需要仔细规划和执行。工程师必须在整个生命周期内考虑成本、时间表、性能和可靠性等因素。这种全面的方法允许更好的决策和资源分配，最终导致更成功的结果。此外，系统工程采用各种工具和技术来促进系统的设计和分析。这些工具包括建模、仿真和优化方法，帮助工程师可视化复杂的交互并预测系统在不同场景下的行为。通过利用这些工具，工程师可以在开发过程的早期识别潜在问题，从而减少故障的可能性，提高整体系统性能。合作也是系统工程的基本元素。考虑到现代系统的复杂性，成功的项目往往需要来自多个学科的输入，包括软件工程、硬件工程、人因工程和项目管理。有效的沟通和团队合作对于确保所有利益相关者保持一致以及他们的专业知识为项目的成功做出贡献至关重要。总之，系统工程是一门不可或缺的学科，使得创建高效、可靠和用户友好的复杂系统成为可能。通过采用整体视角、关注需求、考虑系统生命周期、使用先进工具和促进合作，工程师能够应对我们时代的一些最紧迫的挑战。随着技术的不断发展和系统变得越来越复杂，系统工程的角色只会愈加重要，使其成为有志工程师和专业人士研究的关键领域。