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An evidence based, rigorous text reviewing 12 principles of experimental studies grounded in cognitive theory of multi-media learning.
For hundreds of years verbal messages such as lectures and printed lessons have been the primary means of explaining ideas to learners. Although verbal learning offers a powerful tool, this book explores ways of going beyond the purely verbal. Recent advances in graphics technology and information technology have prompted new efforts to understand the potential of multimedia learning as a means of promoting human understanding. In Multimedia Learning, Second Edition, Richard E. Mayer examines whether people learn more deeply when ideas are expressed in words and pictures rather than in words alone. He reviews 12 principles of instructional design that are based on experimental research studies and grounded in a theory of how people learn from words and pictures. The result is what Mayer calls the cognitive theory of multimedia learning, a theory first developed in the first edition of Multimedia Learning and further developed in The Cambridge Handbook of Multimedia Learning.
Evidence based, rigorous text reviewing 12 principles of experimental studies grounded in cognitive theory of multi-media learning.
Digital and online learning is more prevalent than ever, making multimedia learning a primary objective for many instructors. The Cambridge Handbook of Multimedia Learning examines cutting-edge research to guide creative teaching methods in online classrooms and training. Recognized as the field's major reference work, this research-based handbook helps define and shape this area of study. This third edition provides the latest progress report from the world's leading multimedia researchers, with forty-six chapters on how to help people learn from words and pictures, particularly in computer-based environments. The chapters demonstrate what works best and establishes optimized practices. It systematically examines well-researched principles of effective multimedia instruction and pinpoints exactly why certain practices succeed by isolating the boundary conditions. The volume is founded upon research findings in learning theory, giving it an informed perspective in explaining precisely how effective teaching practices achieve their goals or fail to engage.
In this much-needed examination of the principles of multimedia journalism, experienced journalists Richard Koci Hernandez and Jeremy Rue systemize and categorize the characteristics of the new, often experimental story forms that appear on today's digital news platforms. By identifying a classification of digital news packages, and introducing a new vocabulary for how content is packaged and presented, the authors give students and professionals alike a way to talk about and understand the importance of story design in an era of convergence storytelling. Online, all forms of media are on the table: audio, video, images, graphics, and text are available to journalists at any type of media company as components with which to tell a story. This book provides insider instruction on how to package and interweave the different media forms together into an effective narrative structure. Featuring interviews with some of the most exceptional storytellers and innovators of our time, including web and interactive producers at the New York Times, NPR, The Marshall Project, The Guardian, National Film Board of Canada, and the Verge, this exciting and timely new book analyzes examples of innovative stories that leverage technology in unexpected ways to create entirely new experiences online that both engage and inform.
"Digital Compression for Multimedia" captures in a single reference the current standards for speech, audio, video, image, fax and file compression. It is intended for engineers and computer scientists designing and implementing compression techniques, system integrators, technical managers, and researchers. The essential ideas and motivation behind the various compression methods are presented and insight is provided into the evolution of the standards.
Principles of Interactive Multimedia introduces all the contributory fields that are necessary for informed, thoughtful design and development of multimedia systems to be delivered through CD, the web or other mechanisms. It adopts an inter-disciplinary approach. The focus is to explain the basics of all the contributing disciplines to the design of systems. The book equips readers to think about multimedia issues, at the same time as they are learning and applying skills. It will encourage development, innovation and creative operation using the tools of multimedia. Multimedia workers operate in teams with differing skills, and this book will give each member of the team an understanding of the skills of the rest of the team and hence a means of communicating with them effectively. It is closely related to the needs of practice and the real world, while being leading edge in what it proposes. Written by an Author with many years'||''' experience as lecturer and practitioner in multimedia applications, the book focuses on the underpinning models behind multimedia. Hitherto, practice has been to teach the material primarily as skill-based, with comparatively little theory of any sort, and no integrated theory at all. The subject is now reaching the level of maturity where such theory is being recognised as essential to the provision of adequate courses as an academic discipline. The book provides this integrated theoretical base by focussing on interaction as the key to system design, and particularly by using linguistic models to underpin a communication interpretation of multimedia. This unification is unique, but has been used with students over several years and is well received by those from both science and arts backgrounds. It has been positively received by other academics who have seen it.
This Handbook reviews a wealth of research in cognitive and educational psychology that investigates how to enhance learning and instruction to aid students struggling to learn and to advise teachers on how best to support student learning. The Handbook includes features that inform readers about how to improve instruction and student achievement based on scientific evidence across different domains, including science, mathematics, reading and writing. Each chapter supplies a description of the learning goal, a balanced presentation of the current evidence about the efficacy of various approaches to obtaining that learning goal, and a discussion of important future directions for research in this area. It is the ideal resource for researchers continuing their study of this field or for those only now beginning to explore how to improve student achievement.
Principles of Multimedia introduces and explains the theoretical concepts related to the representation, storage, compression, transmission and processing of various multimedia components, including text, image, graphics, audio, video and animation, as well as their use across various applications. The book provides the necessary programming tools and analysis techniques concepts to perform practical processing tasks in software labs and to solve numerical problems at the post-graduate level. For this new third edition, every chapter has been updated and the book has been carefully streamlined throughout. Chapter 1 provides an overview of multimedia technology, including the definition, major characteristics, hardware, software, standards, technologies and relevant theorems with mathematical formulations. Chapter 2 covers text, including digital text representations, text editing and processing tools, text application areas and text file formats. Chapters 3 and 4 examine image and graphics, including digital image input and output systems, image editing and processing tools, image application areas, image color management and image file formats, as well as 2D and 3D graphics algorithms, transformations matrices, splines, fractals, vectors, projection, application areas and graphics file formats. Chapter 5 covers audio, including digital audio input and output systems, audio editing and processing tools, audio application areas and audio file formats. Chapter 6 looks at video, including digital video input and output systems, video editing and processing tools, video application areas and video file formats. Chapter 7 focuses on animation, covering 2D and 3D animation algorithms, interpolations, modeling, texture mapping, lights, illumination models, camera, rendering, application areas and animation file formats. Finally, chapter 8 covers compression, including lossless and lossy compression techniques, and various algorithms related to text image audio and video compression. Every chapter includes solved numerical problems, coding examples and references for further reading. Including theoretical explanations, mathematical formulations, solved numerical problems and coding examples throughout, Principles of Multimedia is an ideal textbook for graduate and post-graduate students studying courses on image processing, speech and language processing, signal processing, video object detection and tracking, graphic design and modeling, and related multimedia technologies.
The essential e-learning design manual, updated with the latest research, design principles, and examples e-Learning and the Science of Instruction is the ultimate handbook for evidence-based e-learning design. Since the first edition of this book, e-learning has grown to account for at least 40% of all training delivery media. However, digital courses often fail to reach their potential for learning effectiveness and efficiency. This guide provides research-based guidelines on how best to present content with text, graphics, and audio as well as the conditions under which those guidelines are most effective. This updated fourth edition describes the guidelines, psychology, and applications for ways to improve learning through personalization techniques, coherence, animations, and a new chapter on evidence-based game design. The chapter on the Cognitive Theory of Multimedia Learning introduces three forms of cognitive load which are revisited throughout each chapter as the psychological basis for chapter principles. A new chapter on engagement in learning lays the groundwork for in-depth reviews of how to leverage worked examples, practice, online collaboration, and learner control to optimize learning. The updated instructor's materials include a syllabus, assignments, storyboard projects, and test items that you can adapt to your own course schedule and students. Co-authored by the most productive instructional research scientist in the world, Dr. Richard E. Mayer, this book distills copious e-learning research into a practical manual for improving learning through optimal design and delivery. Get up to date on the latest e-learning research Adopt best practices for communicating information effectively Use evidence-based techniques to engage your learners Replace popular instructional ideas, such as learning styles with evidence-based guidelines Apply evidence-based design techniques to optimize learning games e-Learning continues to grow as an alternative or adjunct to the classroom, and correspondingly, has become a focus among researchers in learning-related fields. New findings from research laboratories can inform the design and development of e-learning. However, much of this research published in technical journals is inaccessible to those who actually design e-learning material. By collecting the latest evidence into a single volume and translating the theoretical into the practical, e-Learning and the Science of Instruction has become an essential resource for consumers and designers of multimedia learning.