Unlike other virtual reality (VR) headsets, the Oculus Quest 2 may function independently of a computer or mobile device. It provides the highest visual quality and overall experience for playing games, watching movies, and interacting with friends and family. Better tracking (due to a more potent sensor), a more comfortable ergonomic design, and a higher resolution screen are just a few of the ways in which the Oculus Quest 2 improves upon its predecessor. Is it really beneficial to upgrade? The price of the Oculus Quest 2 headset has increased by $100 from its predecessor, to $399. A lot of money was invested, and only time will tell whether the investment was worthwhile. Compared to competing virtual reality (VR) headsets, what sets the Oculus Quest apart? When compared to other virtual reality (VR) headsets, the Oculus Quest 2 stands out for its numerous unique features. In comparison to Samsung's Odyssey headset (which utilizes an LCD screen and costs $499), the Oculus Quest 2 offers a higher resolution AMOLED screen and better audio quality. The headset's speakers allow for six degrees of freedom, so you can turn your head in almost any direction without losing your place in the action.
This two-volume set LNCS 13317 and 13318 constitutes the thoroughly refereed proceedings of the 14th International Conference on Virtual, Augmented and Mixed Reality, VAMR 2022, held virtually as part of the 24rd HCI International Conference, HCII 2022, in June/July 2022.The total of 1276 papers and 241 posters included in the 39 HCII 2021 proceedings volumes was carefully reviewed and selected from 5222 submissions. The 56 papers included in this 2-volume set were organized in topical sections as follows: Developing VAMR Environments; Evaluating VAMR environments; Gesture-based, haptic and multimodal interaction in VAMR; Social, emotional, psychological and persuasive aspects in VAMR; VAMR in learning, education and culture; VAMR in aviation; Industrial applications of VAMR. The first volume focuses on topics related to developing and evaluating VAMR environments, gesture-based, haptic and multimodal interaction in VAMR, as well as social, emotional, psychological and persuasive aspects in VAMR, while the second focusses on topics related to VAMR in learning, education and culture, VAMR in aviation, and industrial applications of VAMR.
This book focuses on designing and being a designer of immersive education. It introduces readers to the human experiences within immersive learning environments and contributes research evidence on the effectiveness of immersive technologies in K-12 and post-secondary contexts. Through the chapters, illustrative contextual examples and vignettes demonstrate immersive learning in real-world educational practice. Readers will be equipped to design engaging and culturally relevant immersive experiences for learning in a post-COVID world. Immersive Education: Designing for Learning brings researchers, designers, and educators together to offer pedagogical strategies and design guidelines. The originality lies in integrating theoretical and practical knowledge to design meaningful immersive experiences, with attention to sustainability, community, and creativity. Valuable insights are provided to support students and teachers as immersive learning designers and storytellers.
Walks readers through the key components of developing library-led research and programming that leverages emerging technologies with the goal of engaging students and faculty. As educational curricula and research evolve to include advanced technologies, libraries must offer programming with these emerging technologies in mind, including the use of virtual reality (VR) and augmented reality (AR). In this timely guide, Valk, Mi, and Schick present readers with tools for assessing their level of organizational readiness to begin such programs and, more importantly, how to sustain them with limited budgets, expertise, and resources. Building on their own experiences, the authors teach readers how to develop technology-rich classes, assess student projects, and overcome technical hurdles. They spotlight this kind of programming as integral to building strategic partnerships in an educational environment. Readers will learn how to adapt and design programs or initiatives in which the necessary technologies are rapidly changing, not only in higher education institutions, but also in schools. Worksheets and resources assist readers in reflecting on their own work and developing educational programming to suit their organizational needs.
This two-volume set constitutes the refereed proceedings of the 17th International Conference on Universal Access in Human-Computer Interaction, UAHCI 2023, held as part of the 25th International Conference, HCI International 2023, in Copenhagen, Denmark, during July 23-28, 2023. The total of 1578 papers and 396 posters included in the HCII 2022 proceedings was carefully reviewed and selected from 7472 submissions. The UAHCI 2023 proceedings were organized in the following topical sections: Part I: Design for All Methods, Tools and Practice; Interaction Techniques, Platforms and Metaphors for Universal Access; Understanding the Universal Access User Experience; and Designing for Children with Autism Spectrum Disorders. Part II: Universal Access to XR; Universal Access to Learning and Education; Assistive Environments and Quality of Life Technologies.
With two software-packed CD-ROMs, Virtual Reality Madness! provides everything you need to explore the world of Virtual Reality. The book/CD-ROM package covers the entire area of artificial reality, including 3D imaging and rendering, games, modeling, etc. The two CDs offer over 1.3 gigabytes of software, including full retail versions of Virtual Reality Studio, VistaPro, and Virtus Walkthrough.
Ten laws of simplicity for business, technology, and design that teach us how to need less but get more. Finally, we are learning that simplicity equals sanity. We're rebelling against technology that's too complicated, DVD players with too many menus, and software accompanied by 75-megabyte "read me" manuals. The iPod's clean gadgetry has made simplicity hip. But sometimes we find ourselves caught up in the simplicity paradox: we want something that's simple and easy to use, but also does all the complex things we might ever want it to do. In The Laws of Simplicity, John Maeda offers ten laws for balancing simplicity and complexity in business, technology, and design—guidelines for needing less and actually getting more. Maeda—a professor in MIT's Media Lab and a world-renowned graphic designer—explores the question of how we can redefine the notion of "improved" so that it doesn't always mean something more, something added on. Maeda's first law of simplicity is "Reduce." It's not necessarily beneficial to add technology features just because we can. And the features that we do have must be organized (Law 2) in a sensible hierarchy so users aren't distracted by features and functions they don't need. But simplicity is not less just for the sake of less. Skip ahead to Law 9: "Failure: Accept the fact that some things can never be made simple." Maeda's concise guide to simplicity in the digital age shows us how this idea can be a cornerstone of organizations and their products—how it can drive both business and technology. We can learn to simplify without sacrificing comfort and meaning, and we can achieve the balance described in Law 10. This law, which Maeda calls "The One," tells us: "Simplicity is about subtracting the obvious, and adding the meaningful."
Unlock your creativity with this part-color guide to VR projects in Unity, crafting immersive games, refining VR experiences, and leading XR development Key Features Understand the fundamentals and build a solid foundation in XR development Develop technical skills for building VR experiences in Unity, including assets, GameObjects, scripts, and components Create engaging and innovative virtual reality projects using the Unity game engine Purchase of the print or Kindle book includes a free PDF eBook Book DescriptionVirtual reality (VR) has emerged as one of the most transformative mediums of the 21st century, finding applications in various industries, including gaming, entertainment, and education. Enhancing Virtual Reality Experiences with Unity 2022 takes you into the fascinating realm of VR, where creativity meets cutting-edge technology to bring tangible real-world applications to life. This immersive exploration not only equips you with the essential skills needed to craft captivating VR environments using Unity's powerful game engine but also offers a deeper understanding of the philosophy behind creating truly immersive experiences. Throughout the book, you’ll work with practical VR scene creation, interactive design, spatial audio, and C# programming and prepare to apply these skills to real-world projects spanning art galleries, interactive playgrounds, and beyond. To ensure your VR creations reach their full potential, the book also includes valuable tips on optimization, guaranteeing maximum immersion and impact for your VR adventures. By the end of this book, you’ll have a solid understanding of VR’s versatility and how you can leverage the Unity game engine to create groundbreaking projects.What you will learn Harness the power of the Unity game engine to explore VR Understand VR and how to integrate Unity into the general workflow Build and test a variety of VR experiences for headsets, computers, and mobile devices Integrate traditional game and animation tools into VR experiences Explore worldbuilding techniques to create expansive VR environments Integrate optimization techniques to improve the performance of your VR experiences Who this book is for This book is for individuals who are familiar with the Unity game engine and want to explore virtual reality. If you’re a game developer, VR developer, or creator with Unity experience, this is your guide to learning the essential principles and techniques for VR development in Unity 2022. A basic understanding of the Unity user interface, navigation, and C# will help you make the most of the book.
The use of technology in health sciences has a direct impact on health outcomes, as well as on the quality and the safety of healthcare processes. In addition, the use of new technological developments in medical education has proven to be greatly effective and creates realistic learning environments to experience procedures and devices that will become common in medical practice. However, bringing new technologies into the health sector is a complex task, which is why a comprehensive vision of the health sciences ecosystem (encompassing many different areas of research) is vital. Technological Adoption and Trends in Health Sciences Teaching, Learning, and Practice obtains an overview of the technological trends within the health sciences ecosystem, identifies the strengths and weaknesses of the research presented to date, and depicts possible future research directions within health science education and practice. Covering topics such as artificial intelligence and online laboratories, it is ideal for health sciences educators and practitioners, technological solution providers, health organizations, health and care workers, regulators, governing bodies, researchers, academicians, and students.
