From Paper to Pixels


Book Description

“From Paper to Pixels” is a guide for musicians making the transition from paper sheet music to digital sheet music readers and apps. From selecting the perfect tablet or computer to finding the right apps and tools for reading and writing music, exploring online sheet music resources and – most importantly – how to get music into your tablet or computer of choice, this comprehensive guide is written in a fun, breezy style, designed to soothe the fears of even the most techno-phobic musician. “From Paper to Pixels” will show you: •10 Reasons Why Pixels Are Better Than Paper •The Four C’s Of Putting Together The Perfect Digital Sheet Music Reader •How To Put Sheet Music Into Your Tablet Or Computer •Cool Things You Never Knew You Could Do With Digital Sheet Music And much, much more! “From Paper to Pixels” was written for every kind of musician reading all types of music, from traditional music notation to lyric sheets, chord charts, and tablature. No matter what style or musical background you come from, you’ll find this book to be an invaluable resource. “From Paper to Pixels” was written by Hugh Sung, a professional classical “paperless pianist” who is a pioneer of digital sheet music and a teacher who loves to empower learners. After performing around the world, recording multiple albums, and serving on the faculty of the venerable Curtis Institute of Music in Philadelphia for 19 years, Hugh combined his passion for music and technology and co-founded AirTurn, a company that develops technologies for musicians (www.airturn.com). For additional materials and tutorials, visit the companion website to this book at www.frompapertopixels.com




Parchment, Paper, Pixels


Book Description

Technological revolutions have had an unquestionable, if still debatable, impact on culture and society—perhaps none more so than the written word. In the legal realm, the rise of literacy and print culture made possible the governing of large empires, the memorializing of private legal transactions, and the broad distribution of judicial precedents and legislation. Yet each of these technologies has its shadow side: written or printed texts easily become static and the textual practices of the legal profession can frustrate ordinary citizens, who may be bound by documents whose implications they scarcely understand. Parchment, Paper, Pixels offers an engaging exploration of the impact of three technological revolutions on the law. Beginning with the invention of writing, continuing with the mass production of identical copies of legal texts brought about by the printing press, and ending with a discussion of computers and the Internet, Peter M. Tiersma traces the journey of contracts, wills, statutes, judicial opinions, and other legal texts through the past and into the future. Though the ultimate effects of modern technologies on our legal system remain to be seen, Parchment, Paper, Pixels offers readers an insightful guide as to how our shifting forms of technological literacy have shaped and continue to shape the practice of law today.




Drawing Ideas


Book Description

A primer for design professionals across all disciplines that helps them create compelling and original concept designs by hand--as opposed to on the computer--in order to foster collaboration and win clients. In today's design world, technology for expressing ideas is pervasive; CAD models and renderings created with computer software provide an easy option for creating highly rendered pieces. However, the accessibility of this technology means that fewer designers know how to draw by hand, express their ideas spontaneously, and brainstorm effectively.In a unique board binding that mimics a sketchbook, Drawing Ideas provides a complete foundation in the techniques and methods for effectively communicating to an audience through clear and persuasive drawings.




Pixel Art Notebook:


Book Description

Pixel ART Notebook | Pixel Paper A4 for your Pixel Art Designs The book consists of small size grids to create your own Pixel Art. 120 squared pages 8.5x11 Inch Format




Practical Computer Vision with SimpleCV


Book Description

Learn how to build your own computer vision (CV) applications quickly and easily with SimpleCV, an open source framework written in Python. Through examples of real-world applications, this hands-on guide introduces you to basic CV techniques for collecting, processing, and analyzing streaming digital images. You'll then learn how to apply these methods with SimpleCV, using sample Python code. All you need to get started is a Windows, Mac, or Linux system, and a willingness to put CV to work in a variety of ways. Programming experience is optional. Capture images from several sources, including webcams, smartphones, and Kinect Filter image input so your application processes only necessary information Manipulate images by performing basic arithmetic on pixel values Use feature detection techniques to focus on interesting parts of an image Work with several features in a single image, using the NumPy and SciPy Python libraries Learn about optical flow to identify objects that change between two image frames Use SimpleCV's command line and code editor to run examples and test techniques




Jim Blinn's Corner: Notation, Notation, Notation


Book Description

The third entry in the Jim Blinn's Corner series, this is, like the others, a handy compilation of selected installments of his influential column. But here, for the first time, you get the "Director's Cut" of the articles: revised, expanded, and enhanced versions of the originals. What's changed? Improved mathematical notation, more diagrams, new solutions. What remains the same? All the things you've come to rely on: straight answers, irreverent style, and innovative thinking. This is Jim Blinn at his best - now even better. - Features 21 expanded and updated installments of "Jim Blinn's Corner," dating from 1995 to 2001, and never before published in book form - Includes "deleted scenes"—tangential explorations that didn't make it into the original columns - Details how Blinn represented planets in his famous JPL flyby animations - Explores a wide variety of other topics, from the concrete to the theoretical: assembly language optimization for parallel processors, exotic usage of C++ template instantiation, algebraic geometry, a graphical notation for tensor contraction, and his hopes for a future world




People and Pixels


Book Description

Space-based sensors are giving us an ever-closer and more comprehensive look at the earth's surface; they also have the potential to tell us about human activity. This volume examines the possibilities for using remote sensing technology to improve understanding of social processes and human-environment interactions. Examples include deforestation and regrowth in Brazil, population-environment interactions in Thailand, ancient and modern rural development in Guatemala, and urbanization in the United States, as well as early warnings of famine and disease outbreaks. The book also provides information on current sources of remotely sensed data and metadata and discusses what is involved in establishing effective collaborative efforts between scientists working with remote sensing technology and those working on social and environmental issues.




The SNES Pixel Book


Book Description




Illuminated Pixels


Book Description

Annotation 'Illuminated Pixels' teaches digital artists how to apply the foundational principles of lighting to digital lighting and design. The book explores the why, what, and how of lighting, integrating classic concepts with modern techniques, explaining the importance and the application of them.




An Interdisciplinary Introduction to Image Processing


Book Description

This book explores image processing from several perspectives: the creative, the theoretical (mainly mathematical), and the programmatical. It explains the basic principles of image processing, drawing on key concepts and techniques from mathematics, psychology of perception, computer science, and art, and introduces computer programming as a way to get more control over image processing operations. It does so without requiring college-level mathematics or prior programming experience. The content is supported by PixelMath, a freely available software program that helps the reader understand images as both visual and mathematical objects. The first part of the book covers such topics as digital image representation, sampling, brightness and contrast, color models, geometric transformations, synthesizing images, stereograms, photomosaics, and fractals. The second part of the book introduces computer programming using an open-source version of the easy-to-learn Python language. It covers the basics of image analysis and pattern recognition, including edge detection, convolution, thresholding, contour representation, and K-nearest-neighbor classification. A chapter on computational photography explores such subjects as high-dynamic-range imaging, autofocusing, and methods for automatically inpainting to fill gaps or remove unwanted objects in a scene. Applications described include the design and implementation of an image-based game. The PixelMath software provides a "transparent" view of digital images by allowing the user to view the RGB values of pixels by zooming in on an image. PixelMath provides three interfaces: the pixel calculator; the formula page, an advanced extension of the calculator; and the Python window.