Subdivision

Subdivision

Author: J. Robert Lennon

Publisher: Graywolf Press

Published: 2021-04-06

Total Pages: 256

ISBN-13: 1644451441

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A heady, inventive, fantastical novel about the nature of memory and the difficulty of confronting trauma An unnamed woman checks into a guesthouse in a mysterious district known only as the Subdivision. The guesthouse’s owners, Clara and the Judge, are welcoming and helpful, if oddly preoccupied by the perpetually baffling jigsaw puzzle in the living room. With little more than a hand-drawn map and vague memories of her troubled past, the narrator ventures out in search of a job, an apartment, and a fresh start in life. Accompanied by an unusually assertive digital assistant named Cylvia, the narrator is drawn deeper into an increasingly strange, surreal, and threatening world, which reveals itself to her through a series of darkly comic encounters reminiscent of Gulliver’s Travels. A lovelorn truck driver . . . a mysterious child . . . a watchful crow. A cryptic birthday party. A baffling physics experiment in a defunct office tower where some calamity once happened. Through it all, the narrator is tempted and manipulated by the bakemono, a shape-shifting demon who poses a distinctly terrifying danger. Harrowing, meticulous, and deranged, Subdivision is a brilliant maze of a novel from the writer Kelly Link has called “a master of the dark arts.” With the narrative intensity and mordant humor familiar to readers of Broken River, J. Robert Lennon continues his exploration of the mysteries of perception and memory.


Subdivision Methods for Geometric Design

Subdivision Methods for Geometric Design

Author: Joe Warren

Publisher: Morgan Kaufmann

Published: 2002

Total Pages: 326

ISBN-13: 9781558604469

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Subdivision Methods for Geometric Design provides computer graphics students and designers with a comprehensive guide to subdivision methods, including the background information required to grasp underlying concepts, techniques for manipulating subdivision algorithms to achieve specific effects, and a wide array of digital resources on a dynamic companion Web site. Subdivision Methods promises to be a groundbreaking book, important for both advanced students and working professionals in the field of computer graphics.


Conservation Design for Subdivisions

Conservation Design for Subdivisions

Author: Randall G. Arendt

Publisher: Island Press

Published: 2012-09-26

Total Pages: 209

ISBN-13: 159726850X

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In most communities, land use regulations are based on a limited model that allows for only one end result: the production of more and more suburbia, composed of endless subdivisions and shopping centers, that ultimately covers every bit of countryside with "improvements." Fortunately, sensible alternatives to this approach do exist, and methods of developing land while at the same time conserving natural areas are available. In Conservation Design for Subdivisions, Randall G. Arendt explores better ways of designing new residential developments than we have typically seen in our communities. He presents a practical handbook for residential developers, site designers, local officials, and landowners that explains how to implement new ideas about land-use planning and environmental protection. Abundantly illustrated with site plans (many of them in color), floor plans, photographs, and renditions of houses and landscapes, it describes a series of simple and straightforward techniques that allows for land-conserving development. The author proposes a step-by-step approach to conserving natural areas by rearranging density on each development parcel as it is being planned so that only half (or less) of the buildable land is turned into houselots and streets. Homes are built in a less land-consumptive manner that allows the balance of property to be permanently protected and added to an interconnected network of green spaces and green corridors. Included in the volume are model zoning and subdivision ordinance provisions that can help citizens and local officials implement these innovative design ideas.


Subdivided

Subdivided

Author: Jay Pitter

Publisher: Coach House Books

Published: 2016-05-23

Total Pages: 281

ISBN-13: 1770564438

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Using Toronto as a case study, Subdivided asks how cities would function if decision-makers genuinely accounted for race, ethnicity, and class when confronting issues such as housing, policing, labor markets, and public space. With essays contributed by an array of city-builders, it proposes solutions for fully inclusive communities that respond to the complexities of a global city. Jay Pitter is a writer and professor based in Toronto. She holds a Masters in Environmental Studies from York University. John Lorinc is a Toronto-based journalist who writes about urban affairs, politics, and business. He co-edited The Ward: The Life and Loss of Toronto's First Immigrant Neighbourhood (Coach House, 2015).


Blender 3D Printing by Example.

Blender 3D Printing by Example.

Author: Vicky Somma

Publisher: Packt Publishing Ltd

Published: 2017-12-22

Total Pages: 430

ISBN-13: 1788394364

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Build four projects using Blender for 3D Printing, giving you all the information that you need to know to create high-quality 3D printed objects. About This Book A project based guide that helps you design beautiful 3D printing objects in Blender Use mesh modeling and intersections to make a custom architectural model of a house Create a real world 3D printed prosthetic hand with organic modeling and texturing painting Who This Book Is For If you're a designer, artist, hobbyist and new to the world of 3D printing, this is the book for you. Some basic knowledge of Blender and geometry will help, but is not essential. What You Will Learn Using standard shapes and making custom shapes with Bezier Curves Working with the Boolean, Mirror, and Array Modifiers Practicing Mesh Modeling tools such as Loop Cut and Slide and Extrude Streamlining work with Proportional Editing and Snap During Transform Creating Organic Shapes with the Subdivision Surface Modifier Adding Color with Materials and UV Maps Troubleshooting and Repairing 3D Models Checking your finished model for 3D printability In Detail Blender is an open-source modeling and animation program popular in the 3D printing community. 3D printing brings along different considerations than animation and virtual reality. This book walks you through four projects to learn using Blender for 3D Printing, giving you information that you need to know to create high-quality 3D printed objects. The book starts with two jewelry projects-- a pendant of a silhouette and a bracelet with custom text. We then explore architectural modeling as you learn to makes a figurine from photos of a home. The final project, a human hand, illustrates how Blender can be used for organic models and how colors can be added to the design. You will learn modeling for 3D printing with the help of these projects. Whether you plan to print at-home or use a service bureau, you'll start by understanding design requirements. The book begins with simple projects to get you started with 3D modeling basics and the tools available in Blender. As the book progresses, you'll get exposed to more robust mesh modeling techniques, modifiers, and Blender shortcuts. By the time you reach your final project, you'll be ready for organic modeling and learning how to add colors. In the final section, you'll learn how to check for and correct common modeling issues to ensure the 3D printer can make your idea a reality! Style and approach The profile pendant teaches background images, Bezier Curves, and Boolean Union. The Mirror Modifier, Boolean Difference, and Text objects are introduced with the coordinate bracelet. Mesh modeling, importing SVG files, and Boolean Intersection help make the house figurine. The human hand illustrates using the Subdivision Surface Modifier for organic shapes and adding color to your designs.


Entrepreneurial Vernacular

Entrepreneurial Vernacular

Author: Carolyn S. Loeb

Publisher: JHU Press

Published: 2001-09-07

Total Pages: 308

ISBN-13: 9780801866180

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During the 1920s, enterprising realtors, housing professionals, and builders developed the models that became the inspiration for the subdivision tract housing now commonplace in the U.S. Originally published in 2001. Suburban subdivisions of individual family homes are so familiar a part of the American landscape that it is hard to imagine a time when they were not common in the U. S. The shift to large-scale speculative subdivisions is usually attributed to the period after World War II. In Entrepreneurial Vernacular: Developers' Subdivisions in the 1920s, Carolyn S. Loeb shows that the precedents for this change in single-family home design were the result of concerted efforts by entrepreneurial realtors and other housing professionals during the 1920s. In her discussion of the historical and structural forces that propelled this change, Loeb focuses on three typical speculative subdivisions of the 1920s and on the realtors, architects, and building-craftsmen who designed and constructed them. These examples highlight the "shared set of planning and design concerns" that animated realtors (whom Loeb sees as having played the "key role" in this process) and the network of housing experts with whom they associated. Decentralized and loosely coordinated, this network promoted home ownership through flexible strategies of design, planning, financing, and construction which the author describes as a new and "entrepreneurial" vernacular.


Divided Spheres

Divided Spheres

Author: Edward S. Popko

Publisher: CRC Press

Published: 2021-08-19

Total Pages: 484

ISBN-13: 1000412431

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Praise for the previous edition [. . .] Dr. Popko’s elegant new book extends both the science and the art of spherical modeling to include Computer-Aided Design and applications, which I would never have imagined when I started down this fascinating and rewarding path. His lovely illustrations bring the subject to life for all readers, including those who are not drawn to the mathematics. This book demonstrates the scope, beauty, and utility of an art and science with roots in antiquity. [. . .] Anyone with an interest in the geometry of spheres, whether a professional engineer, an architect or product designer, a student, a teacher, or simply someone curious about the spectrum of topics to be found in this book, will find it helpful and rewarding. – Magnus Wenninger, Benedictine Monk and Polyhedral Modeler Ed Popko's comprehensive survey of the history, literature, geometric, and mathematical properties of the sphere is the definitive work on the subject. His masterful and thorough investigation of every aspect is covered with sensitivity and intelligence. This book should be in the library of anyone interested in the orderly subdivision of the sphere. – Shoji Sadao, Architect, Cartographer and lifelong business partner of Buckminster Fuller Edward Popko's Divided Spheres is a "thesaurus" must to those whose academic interest in the world of geometry looks to greater coverage of synonyms and antonyms of this beautiful shape we call a sphere. The late Buckminster Fuller might well place this manuscript as an all-reference for illumination to one of nature's most perfect inventions. – Thomas T. K. Zung, Senior Partner, Buckminster Fuller, Sadao, & Zung Architects. This first edition of this well-illustrated book presented a thorough introduction to the mathematics of Buckminster Fuller’s invention of the geodesic dome, which paved the way for a flood of practical applications as diverse as weather forecasting and fish farms. The author explained the principles of spherical design and the three classic methods of subdivision based on geometric solids (polyhedra). This thoroughly edited new edition does all that, while also introducing new techniques that extend the class concept by relaxing the triangulation constraint to develop two new forms of optimized hexagonal tessellations. The objective is to generate spherical grids where all edge (or arc) lengths or overlap ratios are equal. New to the Second Edition New Foreword by Joseph Clinton, lifelong Buckminster Fuller collaborator A new chapter by Chris Kitrick on the mathematical techniques for developing optimal single-edge hexagonal tessellations, of varying density, with the smallest edge possible for a particular topology, suggesting ways of comparing their levels of optimization An expanded history of the evolution of spherical subdivision New applications of spherical design in science, product design, architecture, and entertainment New geodesic algorithms for grid optimization New full-color spherical illustrations created using DisplaySphere to aid readers in visualizing and comparing the various tessellations presented in the book Updated Bibliography with references to the most recent advancements in spherical subdivision methods