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"Robotics Technological innovations."
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Robotics engineering and our automated world
\"Robots are machines that follow a decision-making process when performing tasks. They are playing an increasing role in manufacturing, agriculture, medicine, mining, and aerospace, as well as in our everyday lives. Readers will learn how robotics engineers find new ways for robots to do work that would be dangerous, time-consuming, dull, or impossible for humans to perform. Real-life examples and a design challenge help students understand key concepts related to the engineering design process, and how robotics engineers play a vital role in expanding our knowledge of the universe.\"-- Provided by publisher.
Book
Feeling machines : Japanese robotics and the global entanglements of more-than-human care
In recent years, debates over healthcare have accompanied rapid advances in technology, from the expansion of telehealth services to artificial intelligence driven diagnostics. In this book, Shawn Bender delves into the world of Japanese robots engineered for care. Care robots (kaigo robotto) emerged early in the 21st century, when roboticists began converting assembly line technologies into responsive machines for older adults and people with disabilities. These robots are meant to be felt and programmed to feel. While some greet them with enthusiasm, others fear that they might replace a fundamentally human task. Based on fieldwork in Japan, Denmark, and Germany, Bender traces the emergence of care robots in Japan and examines their impact on therapeutic practice around the world.
Social science scholarship on robotics tends to be either speculative—imagining life together with robots—or experimental—observing robot-human interaction in laboratories or through short-term field studies. Instead, Bender follows roboticists developing technologies in Japan, and travels with the robots themselves into everyday sites of care, tracking the integration of robots into institutional care and the connection of care practice to robotics development. By exploring the application of Japanese robotics across the globe, Feeling Machines highlights the entanglements of therapeutic practice and technological innovation in an age of more-than-human care.
eBook
Robots, Artificial Intelligence, and Service Automation in Travel, Tourism and Hospitality
Using a combination of theoretical discussion and real-world case studies, this book focuses on current and future use of RAISA technologies in the tourism economy, including examples from the hotel, restaurant, travel agency, museum, and events industries.
eBook
Future tech : from personal robots to motorized monocycles
Explains and illustrates the most current research and technologies that promise to change our lives dramatically in the future, from machines with the ability of independent thought, to cars that drive themselves, to robots that borrow their nature from nature itself.
Book
The exoskeleton expansion: improving walking and running economy
Since the early 2000s, researchers have been trying to develop lower-limb exoskeletons that augment human mobility by reducing the metabolic cost of walking and running versus without a device. In 2013, researchers finally broke this ‘metabolic cost barrier’. We analyzed the literature through December 2019, and identified 23 studies that demonstrate exoskeleton designs that improved human walking and running economy beyond capable without a device. Here, we reviewed these studies and highlighted key innovations and techniques that enabled these devices to surpass the metabolic cost barrier and steadily improve user walking and running economy from 2013 to nearly 2020. These studies include, physiologically-informed targeting of lower-limb joints; use of off-board actuators to rapidly prototype exoskeleton controllers; mechatronic designs of both active and passive systems; and a renewed focus on human-exoskeleton interface design. Lastly, we highlight emerging trends that we anticipate will further augment wearable-device performance and pose the next grand challenges facing exoskeleton technology for augmenting human mobility.
Journal Article
Demographics and Automation
We argue theoretically and document empirically that aging leads to greater (industrial) automation, because it creates a shortage of middle-aged workers specializing in manual production tasks. We show that demographic change is associated with greater adoption of robots and other automation technologies across countries and with more robotics-related activities across U.S. commuting zones. We also document more automation innovation in countries undergoing faster aging. Our directed technological change model predicts that the response of automation technologies to aging should be more pronounced in industries that rely more on middle-aged workers and those that present greater opportunities for automation and that productivity should improve and the labor share should decline relatively in industries that are more amenable to automation. The evidence supports all four of these predictions.
Journal Article