Every Robotics Scientist Has Her Or His Own View About The ✓ Solved

Every robotics scientist has her or his own view about the

Every robotics scientist has her or his own view about the definition of robot. But a common notion of robot is a machine or a physical device or software that with the cooperation of AI can accomplish a responsibility autonomously. In the light of this sentence, what do you think a robot is? And what is the difference between AUTOMATION and AUTONOMY? Please give examples of robots in use.

Directions: Please write 250+ words for the discussion post. Give at least 2 references. Write 100+ words each for two replies to classmates.

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Robots are fascinating machines or devices that integrate various technologies, including artificial intelligence (AI), to perform specific tasks with a degree of autonomy. A robot can be defined as an automated machine designed to execute a series of tasks in place of humans or assist them in performing their duties. For instance, industrial robots are deployed in manufacturing settings to assemble products with precision and speed, while autonomous vacuum cleaners, such as Roomba, navigate homes to maintain cleanliness without human intervention. These examples illustrate the spectrum of autonomy that robots can exhibit, shifting from pre-programmed instructions in simpler machines to the sophisticated decision-making abilities seen in advanced AI-integrated robots.

The distinction between automation and autonomy is crucial in understanding the role of robots in modern society. Automation refers to the technology that performs tasks with minimal human intervention but still requires human oversight or initial programming. For example, an automated assembly line features machines that operate repetitively under the supervision of human workers, who set up and maintain the system. In contrast, autonomy represents a higher level of operational independence where machines, empowered by AI, can make decisions on their own, adapt to new situations, and learn from experiences without direct human input. An example of autonomous technology is the self-driving car, which navigates complex environments using sensors and algorithms to make real-time decisions.

The evolution of robotics has led to remarkable implementations across various industries. In healthcare, robotic surgical systems, like the da Vinci Surgical System, provide surgeons with enhanced precision and control during complex procedures while minimizing patient recovery times. In agriculture, drones equipped with AI technology monitor crop health, assess soil conditions, and even automate planting, thus improving efficiency and yield.

Moreover, the field of service robots has expanded significantly, with machines designed to assist individuals in daily activities, from elder care robots providing companionship and monitoring vital signs to customer service robots greeting and guiding visitors in retail environments.

The future of robotics hinges on the continued advancement of AI and machine learning, which will usher in new eras of autonomy and functionality. As robots become more capable, their presence will undoubtedly reshape industries and everyday life, prompting discussions about the ethical implications of their use and the balance between human and machine collaboration.

In conclusion, robots represent a hybrid of automation and autonomy, positioning themselves as essential tools across various domains. Understanding their definitions, applications, and the subtle differences between automation and autonomy is vital as society embraces the capabilities of these innovative machines.

References

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