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The book is designed as a learning tool to help the aspiring engineer learn the language of engineering graphics. In this regard, this book is hardly unique, as there have been literally hundreds of books published in the past that had a similar goal. The main challenge faced by engineering graphics books comes from the difficulty of representing and describing three dimensional information on paper, which is a consequence of the two dimensional nature of printed materials. What makes this book invaluable is the use of Augmented Reality, a technology that will allow you to escape the limitations of traditional materials enabling you, the student, to truly visualize the objects being described in full 3D. To take full advantage of this book you will need a smartphone, tablet or computer with a web camera, along with the software or apps provided*. Many parts of the book are linked to specific augmented reality content through a series of black and white markers that have been seamlessly integrated throughout the pages. In order to experience the content, your device’s camera must be pointed at these markers. The main marker, available at the beginning of the book, is used to interact with the augmented reality models, which will be rendered in real time in your device’s screen. * If you do not have an iOS device, Android device or a computer with a webcam, SolidWorks files of the models used throughout the book are included on the CD. In addition, STL files have been provided so the models can be opened using your solid modeling CAD package of choice or printed using a 3D printer.
This book is designed as a learning tool to help the aspiring engineer learn the language of engineering graphics. In this regard, this book is hardly unique, as there have been literally hundreds of books published in the past that had a similar goal. The main challenge faced by engineering graphics books comes from the difficulty of representing and describing three dimensional information on paper, which is a consequence of the two dimensional nature of printed materials. What makes this book invaluable is the use of Augmented Reality, a technology that will allow you to escape the limitations of traditional materials enabling you, the student, to truly visualize the objects being described in full 3D. To take full advantage of this book you will need a smartphone, tablet or computer with a camera, along with the apps provided.* Many parts of the book are linked to specific augmented reality content through a series of black and white markers that have been seamlessly integrated throughout the pages. In order to experience the content, your device’s camera must be pointed at these markers. The main marker, available at the beginning of the book, is used to interact with the augmented reality models, which will be rendered in real time in your device’s screen. * If you do not have an iOS or Android device, or a computer with a webcam, SOLIDWORKS files of the models used throughout the book are available for download. In addition, STL files are available so the models can be opened using your solid modeling CAD package of choice or printed using a 3D printer.
The most accessible and practical roadmap to visualizing engineering projects In the newly revised Third Edition of Engineering Design Graphics: Sketching, Modeling, and Visualization, renowned engineering graphics expert James Leake delivers an intuitive and accessible guide to bringing engineering concepts and projects to visual life. Including updated coverage of everything from freehand sketching to solid modeling in CAD, the author comprehensively discusses the tools and skills you'll need to sketch, draw, model, document, design, manufacture, or simulate a project.
With the use of real world examples and illustrations, Design Graphics for Engineering Communication introduces students to the fundamental concepts of Engineering Graphics and their role in the design process. The authors highlight common techniques, practices, and standards used in industry in a manner that is motivating and easy to understand. Topics include visualization, orthographic projection, dimensions and tolerances, scaling, and parametric solid modeling. Opportunities to practice, study, and learn abound, with problems at the end of each chapter, quizzes, and assembly modeling projects.
"This is a book about what the science of perception can tell us about visualization. There is a gold mine of information about how we see to be found in more than a century of work by vision researchers. The purpose of this book is to extract from that large body of research literature those design principles that apply to displaying information effectively"--
Understanding Virtual Reality: Interface, Application, and Design, Second Edition arrives at a time when the technologies behind virtual reality have advanced dramatically. The book helps users take advantage of the ways they can identify and prepare for the applications of VR in their field. By approaching VR as a communications medium, the authors have created a resource that will remain relevant even as underlying technologies evolve. Included are a history of VR, systems currently in use, the application of VR, and the many issues that arise in application design and implementation, including hardware requirements, system integration, interaction techniques and usability. - Features substantive, illuminating coverage designed for technical or business readers and the classroom - Examines VR's constituent technologies, drawn from visualization, representation, graphics, human-computer interaction and other fields - Provides (via a companion website) additional case studies, tutorials, instructional materials, and a link to an open-source VR programming system - Includes updated perception material and new sections on game engines, optical tracking, VR visual interface software, and a new glossary with pictures
Today’s Comprehensive and Authoritative Guide to Augmented Reality By overlaying computer-generated information on the real world, augmented reality (AR) amplifies human perception and cognition in remarkable ways. Working in this fast-growing field requires knowledge of multiple disciplines, including computer vision, computer graphics, and human-computer interaction. Augmented Reality: Principles and Practice integrates all this knowledge into a single-source reference, presenting today’s most significant work with scrupulous accuracy. Pioneering researchers Dieter Schmalstieg and Tobias Höllerer carefully balance principles and practice, illuminating AR from technical, methodological, and user perspectives. Coverage includes Displays: head-mounted, handheld, projective, auditory, and haptic Tracking/sensing, including physical principles, sensor fusion, and real-time computer vision Calibration/registration, ensuring repeatable, accurate, coherent behavior Seamless blending of real and virtual objects Visualization to enhance intuitive understanding Interaction–from situated browsing to full 3D interaction Modeling new geometric content Authoring AR presentations and databases Architecting AR systems with real-time, multimedia, and distributed elements This guide is indispensable for anyone interested in AR, including developers, engineers, students, instructors, researchers, and serious hobbyists.
Of interest to developers of virtual reality applications and others interested in potential uses for virtual reality, this book presents a selection of useful VR applications and gives readers guidance on how VR might be applied.
Understanding Augmented Reality addresses the elements that are required to create augmented reality experiences. The technology that supports augmented reality will come and go, evolve and change. The underlying principles for creating exciting, useful augmented reality experiences are timeless. Augmented reality designed from a purely technological perspective will lead to an AR experience that is novel and fun for one-time consumption - but is no more than a toy. Imagine a filmmaking book that discussed cameras and special effects software, but ignored cinematography and storytelling! In order to create compelling augmented reality experiences that stand the test of time and cause the participant in the AR experience to focus on the content of the experience - rather than the technology - one must consider how to maximally exploit the affordances of the medium. Understanding Augmented Reality addresses core conceptual issues regarding the medium of augmented reality as well as the technology required to support compelling augmented reality. By addressing AR as a medium at the conceptual level in addition to the technological level, the reader will learn to conceive of AR applications that are not limited by today's technology. At the same time, ample examples are provided that show what is possible with current technology. - Explore the different techniques, technologies and approaches used in developing AR applications - Learn from the author's deep experience in virtual reality and augmented reality applications to succeed right off the bat, and avoid many of the traps that catch new developers and users of augmented reality experiences - Some AR examples can be experienced from within the book using downloadable software
Engineering Graphics Essentials gives students a basic understanding of how to create and read engineering drawings by presenting principles in a logical and easy to understand manner. It covers the main topics of engineering graphics, including tolerancing and fasteners. This textbook also includes independent learning material containing supplemental content to further reinforce these principles. This textbook makes use of a large variety of exercise types that are designed to give students a superior understanding of engineering graphics and encourages greater interaction during lectures. The independent learning material allows students to explore the topics in the book on their own and at their own pace. The main content of the independent learning material contains pages that summarize the topics covered in the book. Each page has audio recordings that simulate a lecture environment. Interactive exercises are included and allow students to go through the instructor-led and in-class student exercises found in the book on their own. Also included are videos that walk students through examples and show them exactly how and why each step is performed.