Annotation Robots are being used in increasingly complicated and demanding tasks, often in environments that are complex or even hostile. Underwater, space and volcano exploration are just some of the activities that robots are taking part in, mainly because the environments that are being explored are dangerous for humans. Robots can also inhabit dynamic environments, for example to operate among humans, not just in factories, but also taking on more active roles. Recently, for instance, they have made their way into the home entertainment market. Given the variety of situations that robots will be placed in, learning becomes increasingly important. Robot learning is essentially about equipping robots with the capacity to improve their behaviour over time, based on their incoming experiences. The papers in this volume present a variety of techniques. Each paper provides a mini-introduction to a subfield of robot learning. Some also give a fine introduction to the field of robot learning as a whole. Thereis one unifying aspect to the work reported in the book, namely its interdisciplinary nature, especially in the combination of robotics, computer science and biology. This approach has two important benefits: first, the study of learning in biological systems can provide robot learning scientists and engineers with valuable insights into learning mechanisms of proven functionality and versatility; second, computational models of learning in biological systems, and their implementation in simulated agents and robots, can provide researchers of biological systems with a powerful platform for the development and testing of learning theories.
Behavioral Medicine discusses the composition of effective psycho-social treatment and presents a cost analysis of social work and its services. It also outlines the abilities of an effective behavioral social worker and looks at the key impact areas for a behavioral health model.
Managing Integrated Healthcare Systems: A Guide for Health Executives provides those managers engaged in and studying healthcare the understanding and the knowledge required to succeed in this dynamic industry.
There were an estimated 50 million people worldwide living with dementia in 2017 and this number will almost double every 20 years, reaching 82 million in 2030. Design has significant potential to contribute to managing this global concern. This book is the first to synthesise the considerable research and projects in dementia and design. Design interactions is a new way of considering how we can improve the relationship between people, products, places and services and of course technology trends, such as the ‘internet of things’, offer great opportunities in providing new ways to connect people with services and products that can contribute to healthier lifestyles and mechanisms to support people with acute and chronic conditions. In light of this, the book explores the contribution and future potential of design for dementia through the lens of design interactions, such as people, contexts, material and things. Design for People Living with Dementia is a guide to this innovative and cutting-edge field in healthcare. This book is essential reading for healthcare managers working to provide products, services and care to people with dementia, as well as design researchers and students. .
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