man-machine system
简明释义
人-机系统
英英释义
例句
1.The efficiency of the man-machine system 人机系统 greatly improved after the software upgrade.
软件升级后,人机系统的效率大大提高。
2.In manufacturing, a well-designed man-machine system 人机系统 can reduce errors and increase productivity.
在制造业中,一个设计良好的人机系统可以减少错误并提高生产率。
3.The success of the project depends on how well the man-machine system 人机系统 is integrated with existing processes.
项目的成功取决于人机系统与现有流程的整合程度。
4.To optimize the man-machine system 人机系统, we need to analyze user feedback carefully.
为了优化人机系统,我们需要仔细分析用户反馈。
5.The training program focuses on enhancing the interaction between operators and the man-machine system 人机系统.
培训项目专注于增强操作员与人机系统之间的互动。
作文
In the modern world, the interaction between humans and machines has become increasingly vital. This relationship is often referred to as a man-machine system, which describes how humans and machines work together to achieve common goals. Understanding this concept is essential as it underpins many aspects of our daily lives, from simple tasks to complex operations in various industries.A man-machine system can be defined as a system where human operators and machines collaborate to perform tasks. This collaboration can take many forms, including direct control of machines, supervisory roles, or even autonomous systems that require minimal human intervention. The efficiency and effectiveness of these systems depend largely on how well humans and machines can communicate and work together.One of the most significant advantages of a man-machine system is its ability to enhance productivity. For example, in manufacturing, robots can perform repetitive tasks with high precision, while human workers can focus on more complex problem-solving activities. This division of labor not only increases output but also improves job satisfaction for workers who can engage in more intellectually stimulating tasks.Moreover, the integration of technology into our daily routines has transformed traditional man-machine systems. In fields such as healthcare, doctors use advanced diagnostic machines to assist in patient evaluations. These systems provide critical data that aid in decision-making, ultimately leading to better patient outcomes. The synergy between medical professionals and technology exemplifies the potential of man-machine systems to improve quality of life.However, the reliance on man-machine systems also presents challenges. One major concern is the risk of over-dependence on technology. As machines become more capable, there is a danger that human skills may deteriorate. For instance, pilots are required to undergo extensive training to operate aircraft; however, with the advent of automated flight systems, there is a growing debate about whether this training is still necessary. Balancing automation with the need for human expertise is crucial to ensure safety and efficiency in man-machine systems.Another challenge is the ethical implications of man-machine systems. As machines become more autonomous, questions arise about accountability and decision-making. For example, in the case of self-driving cars, if an accident occurs, who is responsible? The manufacturer, the software developer, or the owner of the vehicle? These questions highlight the need for clear regulations and guidelines governing the use of man-machine systems.In conclusion, the man-machine system is a fundamental concept that encapsulates the intricate relationship between humans and technology. As we continue to innovate and integrate machines into our lives, understanding this relationship will be crucial for maximizing the benefits while mitigating the risks. Future advancements in technology will likely lead to even more sophisticated man-machine systems, making it imperative for us to adapt and evolve alongside these changes. By fostering a collaborative environment where both humans and machines can thrive, we can unlock new possibilities and enhance our capabilities in various fields.
在现代世界中,人类与机器之间的互动变得越来越重要。这种关系通常被称为人机系统,它描述了人类和机器如何协同工作以实现共同目标。理解这个概念至关重要,因为它支撑着我们日常生活的许多方面,从简单的任务到各个行业的复杂操作。人机系统可以定义为一个系统,其中人类操作员和机器协作执行任务。这种协作可以采取多种形式,包括对机器的直接控制、监督角色,甚至是需要最少人类干预的自主系统。这些系统的效率和有效性在很大程度上取决于人类和机器之间的沟通和协作能力。人机系统的一个显著优势是其提高生产力的能力。例如,在制造业中,机器人可以高精度地执行重复性任务,而人类工人则可以专注于更复杂的问题解决活动。这种劳动分工不仅增加了产出,还提高了工人的工作满意度,因为他们可以参与更具智力刺激性的任务。此外,技术融入我们日常生活的方式改变了传统的人机系统。在医疗领域,医生利用先进的诊断设备来辅助患者评估。这些系统提供关键数据,帮助决策,最终导致更好的患者结果。医疗专业人员与技术之间的协同作用体现了人机系统改善生活质量的潜力。然而,对人机系统的依赖也带来了挑战。一个主要问题是对技术的过度依赖风险。随着机器变得越来越强大,人类技能可能会退化。例如,飞行员需要接受广泛的培训以操作飞机;然而,随着自动飞行系统的出现,关于这种培训是否仍然必要的争论日益加剧。在人机系统中平衡自动化与人类专业知识的需求至关重要,以确保安全和效率。另一个挑战是人机系统的伦理影响。随着机器变得更加自主,关于责任和决策的问题随之而来。例如,在自动驾驶汽车的情况下,如果发生事故,谁应负责?制造商、软件开发者还是车辆的所有者?这些问题突显了制定明确法规和指导方针以规范人机系统使用的必要性。总之,人机系统是一个基本概念,概括了人类与技术之间错综复杂的关系。随着我们继续创新并将机器融入我们的生活,理解这种关系对于最大化利益并减轻风险至关重要。未来技术的进步可能导致更复杂的人机系统,因此我们必须适应并与这些变化共同发展。通过营造一个人类和机器都能蓬勃发展的协作环境,我们可以解锁新的可能性,并在各个领域增强我们的能力。
