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The new multimedia standards (for example, MPEG-21) facilitate the seamless integration of multiple modalities into interoperable multimedia frameworks, transforming the way people work and interact with multimedia data. These key technologies and multimedia solutions interact and collaborate with each other in increasingly effective ways, contributing to the multimedia revolution and having a significant impact across a wide spectrum of consumer, business, healthcare, education, and governmental domains. This book aims to provide a complete coverage of the areas outlined and to bring together the researchers from academic and industry as well as practitioners to share ideas, challenges, and solutions relating to the multifaceted aspects of this field.
The new multimedia standards (for example, MPEG-21) facilitate the seamless integration of multiple modalities into interoperable multimedia frameworks, transforming the way people work and interact with multimedia data. These key technologies and multimedia solutions interact and collaborate with each other in increasingly effective ways, contributing to the multimedia revolution and having a significant impact across a wide spectrum of consumer, business, healthcare, education and governmental domains. This book aims to provide a complete coverage of the areas outlined and to bring together the researchers from academic and industry as well as practitioners to share ideas, challenges and solutions relating to the multifaceted aspects of this field.
This two-volume-set constitutes the refereed proceedings of the 6th International Conference on Future Information Technology, FutureTech 2011, held in Crete, Greece, in June 2011. The 123 revised full papers presented in both volumes were carefully reviewed and selected from numerous submissions. The papers are organized in topical sections on future information technology, IT service and cloud computing; social computing, network, and services; forensics for future generation communication environments; intelligent transportation systems and applications; multimedia and semantic technologies; information science and technology.
Spark your students to actually want to learn through the creative application of technology! Type II applications in education make it possible to teach in new and more effective ways. Type II Uses of Technology in Education: Projects, Case Studies, and Software Applications clearly explains methods and strategies presently used by teachers to offer students a creative learning experience through the application of technology. Each chapter presents individual examples of how teachers have applied technology in schools and classrooms, illustrating through case studies, projects, and software applications how to effectively spark students’ interest and learning. Type II Uses of Technology in Education is the third in a series (Internet Applications of Type II Uses of Technology in Education and Classroom Integration of Type II Uses of Technology in Education, both from Haworth) that provides a clear view of the advantagesand challengesinvolved in the use of technology to enhance and actively involve students in the learning process. The applications described and discussed at length here go beyond the mundane educational functions like grading or presenting drill and practice exercises to explore fresh ways of teaching and learning. Students can become involved and actually want to learn, all through the use of creative technology application. The book also includes tables and figures to enhance understanding of the material. Type II Uses of Technology in Education discusses: data collection, analysis, and communication in student research using pocket PCs and laptops the educational effect of using a learning object as a pedagogical model rather than simply being technological in nature examples of integrated Type II activities e-learning courses using interactive video, WebCT, and on-site discussion groups electronic discussion applications in a laptop university teacher education program challenges facing students using computers to enhance and express the extent of their learning information and communication technology (ICT) integration into schoolsusing three illustrative case studies forward planning needed to make the difficult change to technological application for learning a case study that used problem-based learning software with at-risk students using technology to reinforce visual learning strategies digital portfolio development as a Type II application interactive computer technology in art instruction on-demand help features for effective interactive learning experience Personal Educational Tools (PETs) Type II Uses of Technology in Education: Projects, Case Studies, and Software Applications provides numerous illustrations of technology learning in action and is perfect for educators and students in programs dealing with information technology in education, and for public school personnel with interests and responsibilities in using information technology in the classroom.
Why the United States lags behind other industrialized countries in sharing the benefits of innovation with workers and how we can remedy the problem. The United States has too many low-quality, low-wage jobs. Every country has its share, but those in the United States are especially poorly paid and often without benefits. Meanwhile, overall productivity increases steadily and new technology has transformed large parts of the economy, enhancing the skills and paychecks of higher paid knowledge workers. What’s wrong with this picture? Why have so many workers benefited so little from decades of growth? The Work of the Future shows that technology is neither the problem nor the solution. We can build better jobs if we create institutions that leverage technological innovation and also support workers though long cycles of technological transformation. Building on findings from the multiyear MIT Task Force on the Work of the Future, the book argues that we must foster institutional innovations that complement technological change. Skills programs that emphasize work-based and hybrid learning (in person and online), for example, empower workers to become and remain productive in a continuously evolving workplace. Industries fueled by new technology that augments workers can supply good jobs, and federal investment in R&D can help make these industries worker-friendly. We must act to ensure that the labor market of the future offers benefits, opportunity, and a measure of economic security to all.
Computers, communications, digital information, softwareâ€"the constituents of the information ageâ€"are everywhere. Being computer literate, that is technically competent in two or three of today's software applications, is not enough anymore. Individuals who want to realize the potential value of information technology (IT) in their everyday lives need to be computer fluentâ€"able to use IT effectively today and to adapt to changes tomorrow. Being Fluent with Information Technology sets the standard for what everyone should know about IT in order to use it effectively now and in the future. It explores three kinds of knowledgeâ€"intellectual capabilities, foundational concepts, and skillsâ€"that are essential for fluency with IT. The book presents detailed descriptions and examples of current skills and timeless concepts and capabilities, which will be useful to individuals who use IT and to the instructors who teach them.
Until recently, the philosophy and history of science proceeded in a separate way from the philosophy and history of technology, and indeed with respect to both science and technology, philosophical and historical inquiries were also following their separate ways. Now we see in the past quarter-century how the philosophy of science has been profoundly in fluenced by historical studies of the sciences, and no longer concerned so single-mindedly with the analysis of theory and explanation, with the re lation between hypotheses and experimental observation. Now also we see the traditional historical studies of technology supplemented by phi losophical questions, and no longer so plainly focussed upon contexts of application, on invention and practical engineering, and on the mutually stimulating relations between technology and society. Further, alas, the neat division of intellectual labor, those clearly drawn distinctions be tween science and technology, between the theoretical and the applied, between discovery and justification, between internalist and externalist approaches . . . all, all have become muddled! Partly, this is due to internal revolutions within the philosophy and his tory of science (the first result being recognition of their mutual rele vance). Partly, however, this state of 'muddle' is due to external factors: science, at the least in the last half-century, has become so intimately connected with technology, and technological developments have cre ated so many new fields of scientific (and philosophical) inquiry that any critical reflection on scientific and technological endeavors must hence forth take their interaction into account.
Nanoelectronic Device Applications Handbook gives a comprehensive snapshot of the state of the art in nanodevices for nanoelectronics applications. Combining breadth and depth, the book includes 68 chapters on topics that range from nano-scaled complementary metal–oxide–semiconductor (CMOS) devices through recent developments in nano capacitors and AlGaAs/GaAs devices. The contributors are world-renowned experts from academia and industry from around the globe. The handbook explores current research into potentially disruptive technologies for a post-CMOS world. These include: Nanoscale advances in current MOSFET/CMOS technology Nano capacitors for applications such as electronics packaging and humidity sensors Single electron transistors and other electron tunneling devices Quantum cellular automata and nanomagnetic logic Memristors as switching devices and for memory Graphene preparation, properties, and devices Carbon nanotubes (CNTs), both single CNT and random network Other CNT applications such as terahertz, sensors, interconnects, and capacitors Nano system architectures for reliability Nanowire device fabrication and applications Nanowire transistors Nanodevices for spintronics The book closes with a call for a new generation of simulation tools to handle nanoscale mechanisms in realistic nanodevice geometries. This timely handbook offers a wealth of insights into the application of nanoelectronics. It is an invaluable reference and source of ideas for anyone working in the rapidly expanding field of nanoelectronics.
This second of two volumes on applications in information technology is divided into two main sections. The first covers logic devices and concepts, ranging from advanced and non-conventional CMOS and semiconductor nanowire devices, via various spin-controlled logic devices and concepts involving carbon nanotubes, organic thin films, as well as single organic molecules, right up to the visionary idea of intramolecular computation. The second part, architectures and computational concepts, discusses biologically inspired structures and quantum cellular automata, finishing off by summarizing the main principles and current approaches to coherent solid-state-based quantum computation.