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This is a robot that was made in Japan by roboticist Hiroshi Ishiguro. The robot resembles its creator very closely and imitates him in most of the things he does including breathing and nodding his head. The robot has a camera installed in its body that allows its maker to tap into its coverage (Michelini, 2009). Ishiguro can lecture while far from class using the robot. Geminoid HI-1 is wired in such a way that it can exhibit most human attributes such that students and people around it are in a position to relate easily with it.
Roboticists move that a robot will need to be made in such a way that people are not uncomfortable working around it or living with it. Discomfort around robots occurs when a robot invokes feelings of walking-dead in people. Robots could be employed in teaching students such programs such as AutoCAD and Photoshop. They would have ease teaching clearly structured programs especially those that are procedural. This is because they use computer controls. Nevertheless, with increased advancements in robot technology, robots will come to teach more complex programs in the future (Goodrich & Schultz, 2007).
Doctors have also benefitted variously from the use of robots. Research has been conducted to program a robot so as to exhibit indicators of ill health and reactions that different medical conditions elicit in the human body. Such robots are wired in such a way that they smell and react in ways that humans do to drugs and other medications. Doctors are using robots to make virtual visits to their patients across long distance. These robots are installed with high technology visuals, cameras and screens that help doctors provide services to their patients in a more personal way.
These robots are controlled using wireless technological gadgets. Research has shown that such robots can help protect clinical staff from cross-infection from interaction with patients. Pharmacists are using robotic systems to store and dispense medications in hospitals (Prassler, 2005). These robots help in preventing errors in medication, difficulties of sorting drugs, prompt the need of stocking drugs and cuts on time and money wastage. In surgery, robots are helping doctors in carrying out complicated surgical procedures on patients.
These robots have equipment that capture and transmit information to surgeons. The robots have arms that are controlled by surgeons using computers. Studies have observed that robots have recorded better accuracy and precision than human hands in surgery. This has been attributed to the robots ability to magnify the view of whatever part is being operated on and to the steady movement of robotic arms. These robotic arms can get to areas that human hands can otherwise not reach. It is this combination of steady movement, flexible reach and improved visual ability that enables surgeons to carry out complicated procedures successfully (Rosen et. al., 2011).
There are researches being conducted the world over to find out how robots can help in housework. Researchers are looking into issues of how people can live with robots in their homes. They delve into questions of the number of robots that people can relate with at a time. In homes, robots can help in household chores including security, washing and cooking (Siciliano & Khatib, 2008). Recent research shows that countries world over may experience an increase in an
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