![]() In recent years, the ability of robotic systems has grown, allowing them to work in the comparably unstructured environments as well as to be deployed in various fields in the digital age (Bock, 2015). Advanced robots have to cope with many different situations emerging at runtime, while executing complex tasks (Ortin, Mendez, García-Díaz, & Garcia, 2014). Most of modern robots are equipped with sensing, computing, and communication capabilities, which make them able to execute the complex and coordinated operations (Grieco et al., 2014). When robots are working in the dynamic environments, there is the requirement to simplify the user interaction and make robotic systems practical (Stenmark & Malec, 2015). Robotics is the innovative industry with an impressive rate of development (Boscoianu, Cioaca, Vladareanu, & Boscoianu, 2015) that embraces artificial intelligence in the individually-thinking robot and the distributed robots (Fong, Deb, & Chaudhary, 2015), toward many advantages, such as those confined to a single space and those that require performance of complex tasks (Al-Naami, Anjum, Aldohayan, Al-Khayal, & Alkharji, 2013). Robotics holds a significant promise for improving industrial automation and production lines, operating complex surgical procedures, performing space and security missions, and providing services to assist, educate, and entertain humans (Ghiasi & Larivière, 2015). Robotics plays an important role in modern society, thus helping people in accomplishing various duties, spanning from assistive operations to industrial assembly, from rescue management systems to military support, and from health care to automation systems (Guizzo & Ackerman, 2012) and performs the specific tasks that most humans possibly cannot do, such as working in challenging conditions and being able to extend the amazing feats with utmost precision (Qureshi & Syed, 2014). Many benefits of robotics are recognized in cybersecurity, online threat protection, manufacturing, health care, education, business, and finance in the robotic age. Robotic technologies allow for increased production and profit margin because they can accomplish various complicated tasks faster than humans and can produce sophisticated products with higher quality, less down time, and fewer errors than humans. Recent developments in the robotic age have made robots more intelligent, affordable, and user-friendly in modern operations, ranging from manufacturing to health care. ![]() AbstractThis chapter presents the overview of robotics the types of robotic systems the overview of swarm robotics the overview of ambient robotics core ontology for robotics and automation robotic industrialization and site automation robotics, cybersecurity, and online threat protection the robotic applications in modern health care the robotic applications in surgery and the robotic applications in modern education. ![]()
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