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Increasingly, efforts to promote and measure physical activity are achieving greater precision, greater ease of use, and/or greater scope by incorporating emerging technologies. This is significant for physical activity promotion because more precise measurement will allow investigators to better understand where, when, and how physical activity is and is not occurring, thus enabling more effective targeting of particular behavior settings. Emerging technologies associated with the measurement and evaluation of physical activity are noteworthy because: (1) Their ease of use and transferability can greatly increase external validity of measures and findings; (2) Technologies can significantly increase the ability to analyze patterns; (3) They can improve the ongoing, systematic collection and analysis of public health surveillance due to real-time capabilities associated with many emerging technologies; (4) There is a need for research and papers about the cyberinfrastructure required to cope with big data (multiple streams, processing, aggregation, visualization, etc.); and (5) Increasingly blurred boundaries between measurement and intervention activity (e.g., the quantified-self /self-tracking movement) may necessitate a reevaluation of the conventional scientific model for designing and evaluating these sorts of studies. There have been many recent, disparate advances related to this topic. Advances such as crowdsourcing allow for input from large, diverse audiences that can help to identify and improve infrastructure for activity (e.g., large group identification of environmental features that are conducive or inhibiting to physical activity on a national and even global scale). Technologies such as Global Positioning Systems (GPS) and accelerometry are now available in many mobile phones and can be used for identifying and promoting activity and also understanding naturalistically-occurring activity. SenseCam and other personal, visual devices and mobile apps provide person point of view context to physical activity lifestyle and timing. Further, multiple sensor systems are enabling better identification of types of activities (like stair climbing and jumping) that could not previously be identified readily using objective measures like pedometers or accelerometers in isolation. The ability of activity sensors to send data to remote servers allows for the incorporation of online technology (e.g., employing an online social-network as a source of inspiration or accountability to achieve physical activity goals), and websites such as Stickk.com enable individuals to make public contracts visible to other users and also incorporates financial incentives and disincentives in order to promote behaviors including physical activity. In addition, the increasing use of active-gaming (e.g., Wii, XBox Kinect) in homes, schools, and other venues further underscores the growing link between technology and physical activity. Improvements in mathematical models and computer algorithms also allow greater capacity for classifying and evaluating physical activity, improving consistency across research studies. Emerging technologies in the promotion and evaluation of physical activity is a significant area of interest because of its ability to greatly increase the amount and quality of global recorded measurements of PA patterns and its potential to more effectively promote PA. Emerging technologies related to physical activity build on our own and others’ interdisciplinary collaborations in employing technology to address public health challenges. This research area is innovative in that is uses emerging resources including social media, crowdsourcing, and online gaming to better understand patterns of physical activity.
As technology becomes an ever-more prevalent part of everyday life, and population-based physical activity programs seek new ways to increase life-long engagement with physical activity, these two ideas have become increasingly linked. This Special Issue attempts to offer a thorough and critical examination of emerging technologies in physical activity and health promotion, considering technological interventions in different contexts (communities, clinics, schools, homes, etc.) among various populations, exploring the challenges of integrating technology into physical activity promotion, and offering solutions for its implementation. This Special Issue aims to take a broadly positive stance toward interactive technology initiatives and, while discussing some negative implications of an increased use of technology, offers practical recommendations for promoting physical activity through various emerging technologies, including, but not limited to: Active video games (exergaming); social media; mobile device apps; health wearables; mobile games, augmented reality games, global positioning and geographic information systems; and virtual reality. Offering a logical and clear critique of emerging technologies in physical activity and health promotion, this Special Issue will provide useful suggestions and practical implications for researchers, practitioners, and educators in the fields of public health, kinesiology, physical activity and health, and healthcare.
As technology becomes an ever more prevalent part of everyday life and population-based physical activity programmes seek new ways to increase lifelong engagement with physical activity, so the two have become increasingly linked. This book offers a thorough, critical examination of emerging technologies in physical activity and health, considering technological interventions within the dominant theoretical frameworks, exploring the challenges of integrating technology into physical activity promotion and offering solutions for its implementation. Technology in Physical Activity and Health Promotion occupies a broadly positive stance toward interactive technology initiatives and, while discussing some negative implications of an increased use of technology, offers practical recommendations for promoting physical activity through a range of media, including: social media mobile apps global positioning and geographic information systems wearables active videogames (exergaming) virtual reality settings. Offering a logical and clear critique of technology in physical activity and health promotion, this book will serve as an essential reference for upper-level undergraduates, postgraduate students and scholars working in public health, physical activity and health and kinesiology, and healthcare professionals.
Having the ability to measure and explore the geographic space that surrounds us provides endless opportunities for us to utilize and interact with the world. As a broad field of study, geospatial research has applications in a variety of fields including military science, environmental science, civil engineering, and space exploration. Geospatial Research: Concepts, Methodologies, Tools, and Applications is a multi-volume publication highlighting critical topics related to geospatial analysis, geographic information systems, and geospatial technologies. Exploring multidisciplinary applications of geographic information systems and technologies in addition to the latest trends and developments in the field, this publication is ideal for academic and government library inclusion, as well as for reference by data scientists, engineers, government agencies, researchers, and graduate-level students in GIS programs.
This book is a research guide for implementing contemporary playground strategies to promote active, healthy students. A number of school playground strategies have succeeded in reducing the decline in students’ activity levels by introducing equipment and policies that encourage further engagement. The book outlines these strategies and ideas and offers insights into their multiple levels of influence on engaging students in school playground activities that can promote student health. It also discusses previous investigations into the effect of playground strategies on students’ activities and the differences between structured and unstructured playground activities; investigations that have explored the translatability and feasibility of specific school playground strategies and potential recommendations for future school playground research. It also provides observations on the features students desire in their playgrounds and what features are important in terms of safe activities, enjoyment levels, which in turn offers suggestions for future research directions.
Schools are the ideal place to promote and apply the recommended accumulation of 60 minutes of daily physical activity. But until now, it has been difficult to bridge the gap between research in this area and day-to-day practice in order to establish solid programs. That’s where Comprehensive School Physical Activity Programs: Putting Research Into Evidence-Based Practice comes in. CSPAP Model Brought to Life The comprehensive school physical activity program (CSPAP) model, originally outlined as a 2008 position statement by the National Association for Sport and Physical Education to promote physical activity throughout K-12, is brought to life through this comprehensive, all-in-one resource. In the decade since that position statement, CSPAP has been spreading through numerous initiatives, which have mobilized a CSPAP field of study and a national framework for physical activity and physical education. CSPAP acts as a hub, supporting physical activity through multiple components that can include physical education; physical activity before, during, and after school; staff involvement; and family and community engagement. Moreover, each CSPAP component can serve to strengthen and reinforce the academic goals of physical education. Accommodates Needs of Diverse Audiences Comprehensive School Physical Activity Programs, published in association with SHAPE America, accommodates the growing needs of academic researchers, school practitioners, district coordinators, educators, advocates, organizations, university faculty, and students who want to learn more about CSPAP or undertake ways to increase daily physical activity opportunities in and around schools. The Text’s Strengths This text does all of the following and more: Synthesizes all the foundational and emerging research, theory, and practice on CSPAP Synthesizes all the foundational and emerging research, theory, and practice on CSPAP Provides a higher- and deeper-level look at the CSPAP model, as opposed to short reports and position papers, which contain limited strategies for schools Offers much more in-depth coverage of the CSPAP model by delving into assessment, evaluation, advocacy, policy, partnerships, international perspectives, technology, and more Diverse and Renowned Team of Contributors Comprehensive School Physical Activity Programs was written by a diverse team of pioneers and leaders in the CSPAP field. This team brings national and international perspectives on all aspects related to implementing and maintaining CSPAP in K-12 schools. These recognized experts provide incisive guidance in, and understanding of, the most prominent concepts, issues, and developments in the field. Book Organization The text is organized into six sections: Part I provides the historical and foundational perspectives and policy landscapes of the CSPAP approach. Part II outlines internal, external, and psychological factors to consider in program design, implementation, and sustainability. In part III, the contributors examine and interpret the research on the effectiveness of established programs and previous interventions. Part IV highlights special considerations for effective programming within urban and rural settings, reviews current and ongoing international CSPAP initiatives, and addresses the application of the model to alternative contexts beyond the K-12 school setting. In part V, the contributors focus on using assessments to determine the physical activity promotion needs of a school community, on the instruments and procedures for measuring school-wide programming, and on the processes for evaluating and advocating for CSPAPs. Part VI examines current reform efforts within preprofessional programs in teacher education, reviews the tools and future potential for using technology to deliver and assess CSPAP efforts, and looks at future directions for the disciplines of study that inform the CSPAP knowledge base. Each chapter uses a format that opens with a review of current research, offers knowledge claims based on the research, notes knowledge gaps and directions for future research, offers evidence-based recommendations and applications, and concludes with questions to consider for discussion and case examples to demonstrate the practical recommendations. An Invaluable Resource The rapid growth of the field and the increasing number of diverse and exceptional scholars (many of whom are contributors to this book) are indications of the need for this resource. Comprehensive School Physical Activity Programs offers unique perspectives about how to generate and sustain successful initiatives to increase youth physical activity and promote long-term engagement in active behavior. It provides access to leading thought, invaluable tools, and challenging questions that will propel the CSPAP field to its next level of depth and clarity.
This book introduces the latest thinking on the use of Big Data in the context of urban systems, including research and insights on human behavior, urban dynamics, resource use, sustainability and spatial disparities, where it promises improved planning, management and governance in the urban sectors (e.g., transportation, energy, smart cities, crime, housing, urban and regional economies, public health, public engagement, urban governance and political systems), as well as Big Data’s utility in decision-making, and development of indicators to monitor economic and social activity, and for urban sustainability, transparency, livability, social inclusion, place-making, accessibility and resilience.
Emerging Technologies for Health Literacy and Medical Practice unveils a transformative revolution brought about by emerging technologies, setting the stage for a paradigmatic shift from reactive medical interventions to proactive preventive measures. This transition has not only redefined the doctor-patient relationship but has also placed patients at the helm of their health management, actively engaged in informed decision-making. The book, a collective effort by experts across diverse disciplines, stands as an authoritative compendium delving into the profound implications of cutting-edge technologies in healthcare. From the tantalizing realm of artificial intelligence powering diagnostics and treatments to the tangible impact of wearable health devices and telemedicine on accessibility, each chapter delves into the nuanced interplay between technology and medical practice. This book spotlights the capabilities of these technologies, as well as dissecting the ethical, social, and regulatory tapestry they unravel. This book, thoughtfully tailored for a spectrum of stakeholders, epitomizes a synergy between knowledge dissemination and empowerment. From healthcare practitioners seeking to optimize medical practices to policymakers navigating the labyrinth of ethical considerations, from educators enriching health literacy to patients empowered to navigate their health journey, the book unearths its relevance across the healthcare spectrum.
There is evidence of considerable growth in the availability and use of digital technologies in physical education. Yet, we have scant knowledge about how technologies are being used by teachers, and whether or how these technologies are optimising student learning. This book makes a novel contribution by focusing on the ways in which teachers and teacher educators are attempting to use digital technologies in PE. The book has been created using the innovative ‘pedagogical cases’ framework. Each case centres on a narrative, written by a PE practitioner, explaining how and why technology is used in their practice to advance and accelerate learning. Each practitioner narrative is then analysed by a team of experts from different disciplines. The aim is to offer a multi-dimensional understanding of the possibilities and challenges of supporting young people’s learning with digital technologies. Each case concludes with a practitioner reflection to illustrate the links between theory, research and practice. Digital Technologies and Learning in Physical Education encourages critical reflection on the use of technologies in PE. It is an essential resource for students on physical education, kinesiology or sport science courses, practitioners working in PE or youth sport, and researchers interested in digital technologies and education.
Regular physical activity is proven to help prevent and treat noncommunicable diseases (NCDs) such as heart disease stroke diabetes and breast and colon cancer. It also helps to prevent hypertension overweight and obesity and can improve mental health quality of life and well-being. In addition to the multiple health benefits of physical activity societies that are more active can generate additional returns on investment including a reduced use of fossil fuels cleaner air and less congested safer roads. These outcomes are interconnected with achieving the shared goals political priorities and ambition of the Sustainable Development Agenda 2030. The new WHO global action plan to promote physical activity responds to the requests by countries for updated guidance and a framework of effective and feasible policy actions to increase physical activity at all levels. It also responds to requests for global leadership and stronger regional and national coordination and the need for a whole-of-society response to achieve a paradigm shift in both supporting and valuing all people being regularly active according to ability and across the life course. The action plan was developed through a worldwide consultation process involving governments and key stakeholders across multiple sectors including health sports transport urban design civil society academia and the private sector.