robots

简明释义

[ˈrəʊbɒts][robɑts]

n. [自]机器人(robot 的复数形式)

英英释义

A robot is a machine capable of carrying out a complex series of actions automatically, especially one programmable by a computer.

机器人是一种能够自动执行复杂系列动作的机器,特别是可以通过计算机编程的机器人。

Robots are often used in manufacturing and production processes to perform tasks that are repetitive, dangerous, or require precision.

机器人通常用于制造和生产过程中,以执行重复性、危险或需要精确度的任务。

单词用法

mobile robot

移动式遥控装置

robot arm

机械手臂;机器手

同义词

automata

自动机

The factory uses advanced automata to improve efficiency.

工厂使用先进的自动机来提高效率。

machines

机器

These machines are designed for heavy lifting.

这些机器是为重物搬运而设计的。

androids

安卓人

The androids in the movie were remarkably lifelike.

电影中的安卓人非常逼真。

drones

无人机

Drones are increasingly used for delivery services.

无人机越来越多地用于快递服务。

bots

机器人程序

Chatbots are a popular form of bots used in customer service.

聊天机器人是客户服务中常用的一种机器人程序。

反义词

humans

人类

Humans have emotions and creativity that robots lack.

人类拥有机器人所缺乏的情感和创造力。

animals

动物

Unlike robots, animals can exhibit natural instincts.

与机器人不同,动物可以表现出自然本能。

例句

1.No doubt such robots would be very useful in the homes of the able-bodied, too.

毫无疑问,这样的机器人在健全人的家里也会非常有用。

2.Robots will sing songs.

机器人将会唱歌。

3.I have two robots.

我有两个机器人。

4.Robots can ride a bike.

机器人会骑自行车。

5.Will robots be useful?

机器人会有用吗?

6.Will people own robots 100 years later?

一百年后,人们会拥有机器人吗?

7.There will be robots.

这将有机器人出现。

8.We often see kids play with toy robots.

我们经常看到孩子们玩玩具机器人。

9.Many factories use robots (机器人) to automate repetitive tasks.

许多工厂使用机器人robots)来自动化重复性任务。

10.Robots (机器人) are increasingly being used in healthcare for surgeries.

机器人robots)在医疗领域越来越多地被用于手术。

11.The entertainment industry is exploring the use of robots (机器人) for live performances.

娱乐行业正在探索在现场表演中使用机器人robots)。

12.In the future, robots (机器人) may help with household chores.

在未来,机器人robots)可能会帮助处理家务。

13.Some robots (机器人) are designed to assist elderly people.

一些机器人robots)旨在帮助老年人。

作文

In recent years, the development of robots (机器人) has transformed various industries and aspects of our daily lives. From manufacturing to healthcare, robots (机器人) are increasingly becoming integral components that enhance efficiency and productivity. One of the most significant advantages of robots (机器人) is their ability to perform repetitive tasks with precision and speed. This capability allows human workers to focus on more complex and creative tasks, ultimately leading to increased innovation in the workplace.For instance, in the automotive industry, assembly line robots (机器人) are used to weld, paint, and assemble vehicles. These robots (机器人) not only improve the speed of production but also ensure a higher level of quality control. By utilizing robots (机器人), manufacturers can reduce the risk of human error and maintain consistent output standards.Moreover, the application of robots (机器人) extends beyond industrial settings. In the field of healthcare, surgical robots (机器人) assist surgeons in performing complex procedures with enhanced precision. For example, the da Vinci Surgical System enables minimally invasive surgeries, reducing recovery time for patients. This advancement illustrates how robots (机器人) can significantly improve patient outcomes and revolutionize medical practices.The rise of robots (机器人) also raises important discussions about the future of work. As automation becomes more prevalent, there are concerns regarding job displacement. While it is true that some roles may become obsolete, many experts argue that robots (机器人) will create new job opportunities in fields such as robotics maintenance, programming, and design. The key is to adapt and develop skills that complement the capabilities of robots (机器人).Education plays a crucial role in preparing the workforce for this shift. Integrating robotics into school curriculums can inspire students to pursue careers in STEM (science, technology, engineering, and mathematics) fields. By fostering an early interest in robots (机器人) and technology, we can cultivate a generation that is equipped to thrive in a world where robots (机器人) are commonplace.Additionally, the ethical implications of robots (机器人) must be considered. As robots (机器人) become more autonomous, questions arise about accountability and decision-making. It is essential to establish guidelines and regulations to ensure that robots (机器人) are used responsibly and do not compromise human safety or privacy.In conclusion, the integration of robots (机器人) into various sectors presents both opportunities and challenges. While they enhance efficiency and open new avenues for innovation, it is crucial to address the potential impact on employment and ethical considerations. By embracing the advancements in robotics and preparing for the changes they bring, we can harness the full potential of robots (机器人) to improve our lives and society as a whole.

近年来,机器人robots)的发展改变了各个行业和我们日常生活的各个方面。从制造业到医疗保健,机器人robots)正日益成为提高效率和生产力的重要组成部分。机器人robots)最显著的优势之一是它们能够以精确和快速的速度执行重复性任务。这种能力使人类工人能够专注于更复杂和创造性的任务,最终导致工作场所创新的增加。例如,在汽车工业中,装配线上的机器人robots)被用于焊接、喷漆和组装车辆。这些机器人robots)不仅提高了生产速度,还确保了更高水平的质量控制。通过利用机器人robots),制造商可以降低人为错误的风险,并保持一致的产出标准。此外,机器人robots)的应用超越了工业环境。在医疗领域,外科手术机器人robots)帮助外科医生以更高的精确度进行复杂手术。例如,达芬奇外科系统使得微创手术成为可能,减少了患者的恢复时间。这一进展说明了机器人robots)如何显著改善患者的治疗效果并彻底改变医疗实践。机器人robots)的崛起也引发了关于未来工作的重大讨论。随着自动化变得越来越普遍,人们对就业流失感到担忧。虽然某些角色可能会变得过时,但许多专家认为,机器人robots)将在机器人维护、编程和设计等领域创造新的就业机会。关键在于适应并发展与机器人robots)能力相辅相成的技能。教育在为劳动力准备这一转变中发挥着至关重要的作用。将机器人技术纳入学校课程可以激发学生追求STEM(科学、技术、工程和数学)领域的职业兴趣。通过培养对机器人robots)和技术的早期兴趣,我们可以培养出一代能够在机器人robots)普遍存在的世界中蓬勃发展的年轻人。此外,必须考虑机器人robots)的伦理影响。随着机器人robots)变得更加自主,责任和决策的问题随之而来。建立指导方针和法规以确保机器人robots)的使用是负责任的,并且不妨碍人类的安全或隐私是至关重要的。总之,机器人robots)在各个领域的整合带来了机遇和挑战。虽然它们提高了效率并开辟了创新的新途径,但解决对就业和伦理问题的潜在影响至关重要。通过拥抱机器人技术的进步并为其带来的变化做好准备,我们可以充分利用机器人robots)的潜力,改善我们的生活和整个社会。