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This volume contains the articles presented at the 17th International Meshing Roundtable (IMR) organized, in part, by Sandia National Laboratories and held October 12-15, 2008. The volume presents recent results of mesh generation and adaptation which has applications to finite element simulation. It introduces theoretical and novel ideas with practical potential.
This volume constitutes the thoroughly refereed post-conference proceedings of the 9th International Conference on Mathematical Methods for Curves and Surfaces, MMCS 2016, held in Tønsberg, Norway, in June 2016. The 17 revised full papers presented were carefully reviewed and selected from 115 submissions. The topics range from mathematical theory to industrial applications.
Examines social and cultural phenomena through the lens of different television shows We all have opinions about the television shows we watch, but television criticism is about much more than simply evaluating the merits of a particular show and deeming it ‘good’ or ‘bad.’ Rather, criticism uses the close examination of a television program to explore that program’s cultural significance, creative strategies, and its place in a broader social context. How to Watch Television brings together forty original essays from today’s leading scholars on television culture, writing about the programs they care (and think) the most about. Each essay focuses on a particular television show, demonstrating one way to read the program and, through it, our media culture. The essays model how to practice media criticism in accessible language, providing critical insights through analysis—suggesting a way of looking at TV that students and interested viewers might emulate. The contributors discuss a wide range of television programs past and present, covering many formats and genres, spanning fiction and non-fiction, broadcast and cable, providing a broad representation of the programs that are likely to be covered in a media studies course. While the book primarily focuses on American television, important programs with international origins and transnational circulation are also covered. Addressing television series from the medium’s earliest days to contemporary online transformations of television, How to Watch Television is designed to engender classroom discussion among television critics of all backgrounds.
Written by authors at the forefront of modern algorithms research, Delaunay Mesh Generation demonstrates the power and versatility of Delaunay meshers in tackling complex geometric domains ranging from polyhedra with internal boundaries to piecewise smooth surfaces. Covering both volume and surface meshes, the authors fully explain how and why thes
This volume contains the articles presented at the 18th International Meshing Roundtable (IMR) organized, in part, by Sandia National Laboratories and held October 25-28, 2009 in Salt Lake City, Utah, USA. The volume presents recent results of mesh generation and adaptation which has applications to finite element simulation. It introduces theoretical and novel ideas with practical potential.
The book combines topics in mathematics (geometry and topology), computer science (algorithms), and engineering (mesh generation). The original motivation for these topics was the difficulty faced (both conceptually and in the technical execution) in any attempt to combine elements of combinatorial and of numerical algorithms. Mesh generation is a topic where a meaningful combination of these different approaches to problem solving is inevitable. The book develops methods from both areas that are amenable to combination, and explains recent breakthrough solutions to meshing that fit into this category.The book should be an ideal graduate text for courses on mesh generation. The specific material is selected giving preference to topics that are elementary, attractive, lend themselves to teaching, useful, and interesting.
This book, in essence the proceedings of a NATO Advanced Study Institute with the same title, is designed to provide in-depth coverage of many, but not all, of the major current applications of superconductivity, and of many that still are being developed. It will be of value to scientists and engineers who have interests in the research and production aspects of the technology, as well as in the applications themselves. The ftrst three chapters (by Clarke, Vrba and Wikswo) are devoted to an understanding of the principles, fabrication and uses of SQUID magnetometers and gradiometers, with the greatest emphasis on biomagnetism and nondestructive evaluation (NDE). For the most part, traditional low-temperature superconductor (LTS) SQUIDs are used, but particularly for NDE, high-temperature superconductor (HTS) SQUIDs are proving useful and often more convenient. The succeeding three chapters (by Przybysz, Likharev and Chaloupka) cover broader aspects of superconducting electronics. The ftrst two of these deal primarily with digital L TS circuits, while the third discusses in great detail passive component applications using HTS materials. Currently, HTS ftlters are undergoing intense J3-site testing at cellular telephone base stations. While it is clear that HTS ftlters outperform conventional ftlters in reducing signal loss and allowing for more channels in a given bandwidth, it isn't yet certain that the cellular telephone industry sees sufficient economic beneftts to make a ftrm decision to use HTS ftlters universally in its systems. If this application is generally adapted, the market for these ftlters should be quite large.
Inspired by papers presented at the second international English Across the Curriculum (EAC) conference, this book provides a platform for those involved in the EAC movement to exchange insights, explore new strategies and directions, and share experiences. It speaks not only to EAC practitioners but also to scholars in a range of related fields, whether they are considering starting an EAC-like initiative or are already involved in an established EAC, Content and Language Integrated Learning (CLIL), or Writing Across the Curriculum (WAC) program. The chapters in the book testify to challenges faced, opportunities presented, and a passion displayed for embedding academic English literacy in courses in a range of disciplines at institutions around the world. They also highlight the persistence and determination of teachers in creating and shaping valuable learning experiences and ongoing support for their students.
Geometry processing, or mesh processing, is a fast-growing area of research that uses concepts from applied mathematics, computer science, and engineering to design efficient algorithms for the acquisition, reconstruction, analysis, manipulation, simulation, and transmission of complex 3D models. Applications of geometry processing algorithms already cover a wide range of areas from multimedia, entertainment, and classical computer-aided design, to biomedical computing, reverse engineering, and scientific computing. Over the last several years, triangle meshes have become increasingly popular, as irregular triangle meshes have developed into a valuable alternative to traditional spline surfaces. This book discusses the whole geometry processing pipeline based on triangle meshes. The pipeline starts with data input, for example, a model acquired by 3D scanning techniques. This data can then go through processes of error removal, mesh creation, smoothing, conversion, morphing, and more. The authors detail techniques for those processes using triangle meshes. A supplemental website contains downloads and additional information.
The application of the theory and practice of art to computer science: how aesthetics and art can play a role in computing disciplines.