man-machine system engineering

简明释义

人-机系统工程学

英英释义

例句

1.The success of autonomous vehicles relies heavily on man-machine system engineering 人机系统工程 to ensure safety and usability.

自动驾驶汽车的成功在很大程度上依赖于人机系统工程 man-machine system engineering，以确保安全性和可用性。

2.In the field of robotics, man-machine system engineering 人机系统工程 plays a crucial role in designing interfaces that facilitate human-robot interaction.

在机器人领域，人机系统工程 man-machine system engineering 在设计促进人机交互的界面方面发挥着至关重要的作用。

3.Effective training programs in healthcare often incorporate man-machine system engineering 人机系统工程 principles to improve medical device usability.

医疗保健中的有效培训计划通常结合人机系统工程 man-machine system engineering 原则，以提高医疗设备的可用性。

4.In aviation, man-machine system engineering 人机系统工程 is essential for designing cockpit controls that pilots can easily navigate.

在航空领域，人机系统工程 man-machine system engineering 对于设计飞行员易于操作的驾驶舱控制至关重要。

5.The design of user-friendly software interfaces involves principles of man-machine system engineering 人机系统工程 to enhance user experience.

用户友好的软件界面的设计涉及人机系统工程 man-machine system engineering 原则，以增强用户体验。

作文

In the modern world, technology has become an integral part of our daily lives. One of the most fascinating fields that has emerged in the realm of engineering is man-machine system engineering. This discipline focuses on the interaction between humans and machines, aiming to enhance productivity and efficiency while ensuring safety and comfort. Understanding man-machine system engineering is crucial as it encompasses various aspects of design, operation, and evaluation of systems where human operators and machines work together.The concept of man-machine system engineering can be traced back to the early days of industrialization when machines began to replace manual labor. As machines became more complex, it became essential to consider how humans interacted with these new technologies. The goal of man-machine system engineering is to create systems that optimize human performance and minimize errors, thereby improving overall system effectiveness.One of the key components of man-machine system engineering is ergonomics, which studies how people interact with their environments and tools. By applying ergonomic principles, engineers can design machines and workspaces that fit the physical and cognitive abilities of users. This not only enhances comfort but also reduces the risk of injury and increases productivity. For instance, in a manufacturing setting, an ergonomic workstation can lead to better posture, less fatigue, and ultimately higher output.Another important aspect of man-machine system engineering is the development of user interfaces. A user-friendly interface allows operators to interact with machines more effectively, reducing the likelihood of mistakes. Engineers must consider factors such as clarity, simplicity, and feedback when designing these interfaces. For example, in aviation, pilots rely on cockpit displays that provide critical information in a clear and concise manner. The success of flight operations heavily depends on the principles of man-machine system engineering applied in cockpit design.Moreover, man-machine system engineering plays a vital role in the field of automation. As industries increasingly adopt automated systems, understanding how humans and machines collaborate is essential. While machines can perform repetitive tasks with precision, human judgment is often necessary for decision-making in complex situations. Engineers must ensure that there is a seamless integration between automated systems and human operators, allowing for efficient communication and collaboration.In recent years, advancements in artificial intelligence (AI) and machine learning have further revolutionized man-machine system engineering. These technologies enable machines to learn from human interactions and adapt to changing environments. As a result, the relationship between humans and machines is evolving, creating new opportunities and challenges. Engineers must continually assess and refine these systems to ensure they meet the needs of users while maintaining safety and reliability.In conclusion, man-machine system engineering is a dynamic and essential field that bridges the gap between human capabilities and machine efficiency. By focusing on ergonomics, user interfaces, and the integration of automation, this discipline aims to enhance the interaction between humans and machines. As technology continues to advance, the principles of man-machine system engineering will remain critical in designing systems that are not only effective but also safe and user-friendly. Understanding this field is vital for anyone looking to contribute to the future of engineering and technology, as it shapes the way we live and work in an increasingly automated world.

在现代世界中，技术已成为我们日常生活的一个不可或缺的部分。在工程领域中，最引人入胜的学科之一是人机系统工程。该学科专注于人类与机器之间的互动，旨在提高生产力和效率，同时确保安全和舒适。理解人机系统工程至关重要，因为它涵盖了设计、操作和评估人类操作员与机器共同工作的系统的各个方面。人机系统工程的概念可以追溯到工业化早期，当时机器开始取代手工劳动。随着机器变得愈加复杂，考虑人类如何与这些新技术互动变得至关重要。人机系统工程的目标是创建优化人类表现并最小化错误的系统，从而提高整体系统的有效性。人机系统工程的一个关键组成部分是人体工程学，它研究人们如何与环境和工具互动。通过应用人体工程学原则，工程师可以设计适合用户身体和认知能力的机器和工作空间。这不仅增强了舒适感，还降低了受伤风险并提高了生产力。例如，在制造环境中，符合人体工程学的工作站可以改善姿势、减少疲劳，并最终提高产出。人机系统工程的另一个重要方面是用户界面的开发。用户友好的界面使操作员能够更有效地与机器互动，减少错误的可能性。工程师在设计这些界面时必须考虑清晰度、简单性和反馈等因素。例如，在航空领域，飞行员依赖于提供关键信息的驾驶舱显示器，这些信息以清晰简洁的方式呈现。飞行操作的成功在很大程度上依赖于应用于驾驶舱设计的人机系统工程原理。此外，人机系统工程在自动化领域也发挥着至关重要的作用。随着各行业越来越多地采用自动化系统，理解人类与机器之间的协作变得至关重要。尽管机器可以以精确的方式执行重复任务，但在复杂情况下，人类判断往往是必要的。工程师必须确保自动化系统与人类操作员之间的无缝集成，从而实现高效的沟通与合作。近年来，人工智能（AI）和机器学习的进步进一步革新了人机系统工程。这些技术使机器能够从人类互动中学习并适应不断变化的环境。因此，人类与机器之间的关系正在演变，创造新的机会和挑战。工程师必须不断评估和完善这些系统，以确保它们满足用户的需求，同时保持安全性和可靠性。总之，人机系统工程是一个动态且至关重要的领域，它架起了人类能力与机器效率之间的桥梁。通过关注人体工程学、用户界面和自动化的整合，该学科旨在增强人类与机器之间的互动。随着技术的不断进步，人机系统工程的原理将在设计不仅有效而且安全、用户友好的系统时继续发挥关键作用。理解这一领域对任何希望为工程和技术的未来做出贡献的人来说都是至关重要的，因为它塑造了我们在日益自动化的世界中生活和工作的方式。