As a result, doctors, nurses, and other healthcare workers will be able to spend more time providing direct patient care. Robots with AI-enabled medicine identifier software reduce the time it takes to identify, match, and distribute medicine to patients in hospitals.Īs technologies evolve, robots will function more autonomously, eventually performing certain tasks entirely on their own. For example, robots can clean and prep patient rooms independently, helping limit person-to-person contact in infectious disease wards. Streamlined workflows and risk reduction provided by medical robotics offer value in many areas. The use of robotics and automation also extends to research laboratories where they are used to automate manual, repetitive, and high-volume tasks so technicians and scientists can focus their attention on more strategic tasks that make discoveries happen faster. For example, hospitals and clinics are deploying robots for a much wider range of tasks to help reduce exposure to pathogens during the COVID-19 pandemic. Robots are now used not only in the operating room but also in clinical settings to support healthcare workers and enhance patient care. Over the years, artificial intelligence (AI)–enabled computer vision and data analytics have transformed medical robots, expanding their capabilities into many other areas of healthcare. Emerging in the 1980s, the first robots in the medical field provided surgical assistance via robotic arm technologies.
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