My thanks to Nicole Kidman, the chair of the advisory board for the UCLA Women's
Reproductive Cancer Program—whose support and friendship has helped stimulate
this project.
I hope that this book will be a useful resource for my colleagues and for
students of the specialty of gynecology. I look forward to the continued impact
of the specialty on the enhancement of health care for women throughout the
world.
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James Keogh, Ken Davidson, "Data Structures Demystified"
McGraw-Hill Osborne Media | ISBN 0072253592 | 2004 Year | CHM | 2,93 Mb | 300
Pages
“ Whether you are an entry-level or seasoned designer or programmer, learn all
about data structures in this easy-to-understand, self-teaching guide that can
be directly applied to any programming language. From memory and addresses to
hashtables, authors Keogh and Davidson, provide clear explanations that
demystify this “algebra of programming.”
The fast and easy way to understanding the fundamentals of data structures
If you’ve been searching for that quick, easy-to-understand guide to walk you
through data structures, look no further. Data Structures Demystified is all
these things and more. Whether you’re trying to program stacks and linked lists
or figure out hashtables, here you’ll find step-by-step instruction to get the
job done fast.
No longer will you have to wade through thick, dry academic tomes, heavy on
technical language and information you don’t need. In Data Structures
Demystified, each chapter starts off with an example from everyday life to
demonstrate upcoming concepts, making this a totally accessible read. The
authors goes a step further and offer examples at the end of the chapter
illustrating what you’ve just learned in Java and C++.
Simple enough for a beginner, but challenging enough for an advanced student,
Data Structures Demystified is your shortcut to mastering data structures.
This one-of-a-kind self-teaching text offers:
— An easy way to understand data structures
— A quiz at the end of each chapter
— A final exam at the end of the book
— No unnecessary technical jargon
— A time-saving approach
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Steven Kern, Deborah Lynd, "Lotus Notes and Domino 6 Development" (2nd Edition)
Sams | ISBN 0672325020 | 2003 Year | CHM | 14,86 Mb | 1032 Pages
“ Lotus Notes and Domino R6 Development Unleashed provides expert insight and
authoritative advice on all of the core features of Lotus Notes and Domino
development. The authors go beyond what is typically found in the simple
tutorial style of book and deliver a thorough treatment of each design element,
including coverage of the new features found in the R6 Designer. The additions
to the Domino Designer in this release are extensive and powerful. R6 has been
three years in the making, and the results have paid off in a huge improvement
in the development environment. Improvements and additions have been made in
reusability, Agent design and management, ease and flexibility of programming,
development of the presentation layer, connection to external databases, and
more. All of the development languages available for use in the Domino Designer
are covered in the same thorough manner.
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Joe Marini, "Document Object Model: Processing Structured Documents"
Osborne/McGraw-Hill | ISBN 0072224363 | 2002 Year | PDF | 2,22 Mb | 400 Pages
“ Here is the ultimate guide to creating and extending documents within the
application programming interface of the Document Object Model (DOM). The book
examines real-world applications of the DOM, including exclusive case studies of
DOM-based browsers and applications and provides a comprehensive, language-
neutral examination of the DOM and its related applications.
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Nicholas Manton, Paul Sutcliffe, P.V.Landshoff (Series Editor), D.R.Nelson
(Series Editor), D.W.Sciama (Series Editor), S.Weinberg (Series Editor),
"Topological Solitons"
Cambridge University Press | ISBN 0521838363 | 2004 Year | DjVu | 5 Mb | 506
Pages
“ This book introduces the main examples of topological solitons in classical
field theories, discusses the forces between solitons, and surveys in detail
both static and dynamic multi-soliton solutions. Kinks in one dimension, lumps
and vortices in two dimensions, monopoles and Skyrmions in three dimensions, and
instantons in four dimensions are all discussed.
About the Author
Nicholas Manton received his PhD from the University of Cambridge in 1978.
Following postdoctoral positions at the Ecole Normale in Paris, M.I.T. and UC
Santa Barbara, he returned to Cambridge and is now Professor of Mathematical
Physics in the Department of Applied Mathematics and Theoretical Physics, and
currently head of the department's High Energy Physics group. He is a Fellow of
St John's College. He introduced and helped develop the method of modelling
topological soliton dynamics by geodesic motion on soliton moduli spaces. Paul
Sutcliffe received his PhD from the University of Durham in 1992. Following
postdoctoral appointments at Heriot-Watt, Orsay and Cambridge, he moved to the
University of Kent, where he is now Reader in Mathematical Physics. For the past
five years, he was an EPSRC Advanced Fellow. He has researched widely on
topological solitons, especially multi-soliton solutions and soliton dynamics,
and has found surprising relations between different kinds of soliton.
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Eric van der Vlist, "RELAX NG"
O'Reilly | ISBN 0596004214 | 2003 Year | CHM | 0,95 Mb | 304 Pages
“ As developers know, the beauty of XML is that it is extensible, even to the
point that you can invent new elements and attributes as you write XML
documents. Then, however, you need to define your changes so that applications
will be able to make sense of them and this is where XML schema languages come
into play. RELAX NG (pronounced relaxing), the Regular Language Description for
XML Core — New Generation is quickly gaining momentum as an alternative to other
schema languages. Designed to solve a variety of common problems raised in the
creation and sharing of XML vocabularies, RELAX NG is less complex than The
W3C's XML Schema Recommendation and much more powerful and flexible than DTDs.
RELAX NG is a grammar-based schema language that's both easy to learn for schema
creators and easy to implement for software developers In RELAX NG, developers
are introduced to this unique language and will learn a no-nonsense method for
creating XML schemas. This book offers a clear-cut explanation of RELAX NG that
enables intermediate and advanced XML developers to focus on XML document
structures and content rather than battle the intricacies of yet another
convoluted standard.
RELAX NG covers the following topics in depth:
— Introduction to RELAX NG
— Building RELAX NG schemas using XML syntax
— Building RELAX NG schemas using compact syntax, an alternative non-XML syntax
— Flattening schemas to limit depth and provide reusability
— Using external datatype libraries with RELAX NG
— W3C XML Schema regular expressions
— Writing extensible schemas
— Annotating schemas
— Generating schemas form different sources
— Determinism and datatype assignment
and much more.
If you're looking for a schema language that's easy to use and won't leave you
in a labyrinth of obscure limitations, RELAX NG is the language you should be
using. And only O'Reilly's RELAX NG gives you the straightforward information
and everything else you'll need to take advantage of this powerful and
intelligible language.
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James F. Doyle, "Modern Experimental Stress Analysis: Completing the Solution of
Partially Specified Problems"
John Wiley & Sons | ISBN 0470861568 | 2004 Year | PDF | 6,8 Mb | 438 Pages
“ All structures suffer from stresses and strains caused by factors such as wind
loading and vibrations. Stress analysis and measurement is an integral part of
the design and management of structures, and is used in a wide range of
engineering areas.
There are two main types of stress analyses – the first is conceptual where the
structure does not yet exist and the analyst has more freedom to define
geometry, materials, loads etc – generally such analysis is undertaken using
numerical methods such as the finite element method. The second is where the
structure (or a prototype) exists, and so some parameters are known. Others
though, such as wind loading or environmental conditions will not be completely
known and yet may profoundly affect the structure. These problems are generally
handled by an ad hoc combination of experimental and analytical methods.
This book therefore tackles one of the most common challenges facing engineers –
how to solve a stress analysis problem when all of the required information is
not available. Its central concern is to establish formal methods for including
measurements as part of the complete analysis of such problems by presenting a
new approach to the processing of experimental data and thus to experimentation
itself. In addition, engineers using finite element methods will be able to
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