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Get the practical insights and classroom examples you need to incorporate immersive technology into curriculum and create engaging, effective learning experiences for students. Teachers nationwide are adopting immersive technology – devices and software that provide augmented, virtual and mixed reality experiences – to enable students to go on virtual field trips, manipulate 3D objects and augment the world around them. Immersive technology resources can be far less costly than many believe, but there are issues school districts should resolve before making purchases and implementing this technology. Learning Transported helps educators plan and establish goals so that their investment in immersive technology benefits the greatest number of students. The book includes: • Definitions and examples of augmented, virtual and mixed reality. • Comparison of devices and platforms, and tips for selecting the best one. • Lesson plans mapped to standards and content areas. • Ideas for using immersive technology tools in the classroom. Immersive technology has great potential to transform learning and create engaging experiences for students. This book helps educators consider the most important factors in bringing this approach into the classroom: that the instruction addresses student outcomes and standards, and that the mechanism for delivering this learning is safe, affordable and suitable for the situation. The companion jump start guide based on this book is Immerse Yourself: Create Engaging AR/VR Experiences for All Learners.
Introducing Hindi learning series, a picture book about transportation for kids. The subtitles written in Roman Hindi and in the English are highly helpful to learn Hindi for non-native Hindi speakers as well.
Discover the possibilities of immersive technology to deepen student engagement; activate learning through hunts, breakouts and labs; and explore global collaboration. Our classrooms are full of individuals who learn in diverse ways, and educators need creative teaching approaches to enrich learning for struggling students. When applied effectively, immersive technology in teaching can target students’ interests, provide flexibility for a range of skill levels and empower students’ choice in their learning. The Immersive Classroom highlights the possibilities of immersive technology to make a greater impact and reach all student populations. The book: • Provides step-by step instructions for how to mix individual tools to create an ecosystem of immersive technology. • Offers examples from leading educators who have implemented the tools and techniques discussed, giving readers easy-to-implement takeaways they can incorporate in their classrooms right away. • Includes interactive content, with more than 30 images that can be scanned in order to experience AR/VR tools for yourself! • Contains a robust index of more than 100 AR/VR tools along with device specifi cs and requirements. With this book, readers gain insights into customizing tools through app hacking and app smashing, and discover how pushing the use of augmented reality (AR) and virtual reality (VR) tools beyond their intended purpose can maximize their benefits, helping meet the needs of all students.
This study focuses on changing transport patterns caused by the expected shift from oil to coal, assessing the ability of the Nation's transportation systems to carry future volumes of coal, petroleum, natural gas and nuclear materials. Trends in energy commodity transportation are predicted. Areas are identified where capacity problems might require expanded facilities. Also assessed are possible financial, social, safety and environmental constraints on the capability of the system to meet identified needs. Focus is on 1985 and 1990 with few problems anticipated by 1985 and none that would seriously impede energy transportation.
Transforming Teacher Education with Mobile Technologies provides an international, comparative overview of current thinking and research in the field of mobile learning and teaching/teacher education, with case studies from Australia, Germany, Ireland, Norway, Sweden, Turkey and the United Kingdom. Drawing together contributions with teachers and teacher educators engaged in a European project, this book investigates practices further afield and provides insight into research and cutting-edge pedagogical practice in teaching and teacher education using mobile learning. Students use personal technologies like their mobile phones, extensively and expect to be constantly connected and engaged in a networked world. It is imperative, therefore, that teachers keep pace with this ever-shifting landscape and this is a challenge to those in the profession and more widely to teacher education which is tasked with preparing the next generation of teachers. This volume provides some answers to these challenges, linking theory to practice and developing theoretical models. The contributors also explore possible future developments in this field using an innovative methodology associated with Future Thinking Scenario Planning (Snoek, 2004).
This conference was the fifth in a continuing series of conferences and workshops on intermodalism that have been organized by the Transportation Research Board (TRB) since the passage of the Intermodal Surface Transportation Efficiency Act of 1991 (ISTEA). The objective of the conference was to examine educational and training needs related to all aspects of intermodal transportation: technology, advanced logistics, information systems, planning, and management. Over a 3-day period, participants reviewed existing and developing transportation education programs across all disciplines and examined the roles of educational institutions, private industry, and government in setting an agenda for meeting intermodal transportation education and training needs. These proceedings contain the Chairman's summary, welcoming remarks, keynote address, case studies, status reports on current programs, and the response of a panel of distinguished transportation professionals to the conference findings.
This book contains revised and extended versions of the best papers presented at the 16th International Conference on Information and Communication Technologies in Education, Research, and Industrial Applications, ICTERI 2020, held in Kherson, Ukraine, in October 2020. Due to the COVID-19 pandemic the conference was held online. The 8 revised full papers included in this volume were carefully reviewed and selected from 347 initial submissions. The papers are organized in the following topical sections: ICT in education; ICT in research and industry.
Urban mobility is not only one of the pillars of modern economic systems, but also a key issue in the quest for equality of opportunity, once it can improve access to other services. Currently, however, there are a number of negative issues related to traffic, especially in mega-cities, such as economical issues (cost of opportunity caused by delays), environmental (externalities related to emissions of pollutants), and social (traffic accidents). Solutions to these issues are more and more closely tied to information and communication technology. Indeed, a search in the technical literature (using the keyword ``urban traffic" to filter out articles on data network traffic) retrieved the following number of articles (as of December 3, 2013): 9,443 (ACM Digital Library), 26,054 (Scopus), and 1,730,000 (Google Scholar). Moreover, articles listed in the ACM query relate to conferences as diverse as MobiCom, CHI, PADS, and AAMAS. This means that there is a big and diverse community of computer scientists and computer engineers who tackle research that is connected to the development of intelligent traffic and transportation systems. It is also possible to see that this community is growing, and that research projects are getting more and more interdisciplinary. To foster the cooperation among the involved communities, this book aims at giving a broad introduction into the basic but relevant concepts related to transportation systems, targeting researchers and practitioners from computer science and information technology. In addition, the second part of the book gives a panorama of some of the most exciting and newest technologies, originating in computer science and computer engineering, that are now being employed in projects related to car-to-car communication, interconnected vehicles, car navigation, platooning, crowd sensing and sensor networks, among others. This material will also be of interest to engineers and researchers from the traffic and transportation community.