This volume contains a selection of revised and extended research articles written by prominent researchers participating in a large international conference on Advances in Engineering Technologies and Physical Science which was held in San Francisco, California, USA, October 25-27, 2017.
LinKnot Knot Theory by Computer provides a unique view of selected topics in knot theory suitable for students, research mathematicians, and readers with backgrounds in other exact sciences, including chemistry, molecular biology and physics. The book covers basic notions in knot theory, as well as new methods for handling open problems such as...
My primary aim in this book is to understand and explain origins of representational aspects of mind, particularly in representation of the physical world. Under what conditions does accurate objective representation of the physical world begin? Since the inquiry centers on what it is to represent the physical world in this initial way, and...
In these Messenger Lectures, originally delivered at Cornell University and recorded for television by the BBC, Richard Feynman offers an overview of selected physical laws and gathers their common features into one broad principle of invariance. He maintains at the outset that the importance of a physical law is not "how clever...
We are entering the golden age of GPU computing. Since the introduction of CUDA in 2007, more
than 100 million computers with CUDA-capable GPUs have been shipped to end users. Unlike the
previous GPGPU shader programming models, CUDA supports parallel programming in C. From my
own experience in teaching CUDA programming, C programmers...
This volume collects the proceedings of two related international conferences on
foundations and practical applications of mathematical methods of data analysis,
of Formal Concept Analysis and of methods for information extraction from
natural language texts. The first conference, named Knowledge - Ontology -
Theory 2007 (KONT 2007),...
Modeling atmospheric processes in order to forecast the weather or future climate change is an extremely complex and computationally intensive undertaking. One of the main difficulties is that there are a huge number of factors that need to be taken into account, some of which are still poorly understood. The Factor Separation (FS) method is...
One of the most valuable tools acquired in a university education, college algebra is essential for courses from the sciences to computing, engineering to mathematics. It can help you do better on placement exams, even before college, and it's useful in solving the computations...
The genesis of this book arose from our educational consultations with many physiotherapy
and occupational therapy colleagues around the world. In the course of presenting
workshops that were primarily focused on problem-based learning (PBL), it
became very clear to us that educators in the rehabilitation sciences were very...
Organizations are among the most valuable and yet most fragile structures of our civilization. We rely on organizations to obtain information, to comprehend and process information, to accumulate and internalize information, to make decisions based in part on that information, and to execute those decisions. Organizations are ubiquitous because...
Most nonlinear differential equations arising in natural sciences admit chaotic behaviour and cannot be solved analytically. Integrable systems lie on the other extreme. They possess regular, stable, and well behaved solutions known as solitons and instantons. These solutions play important roles in pure and applied mathematics as well as in...
Nutrition research commenced more than 200 years ago in the dawn of the chemical
revolution. The “golden age of nutrition” began in the early 1910s and continued
into the 1940s when nutritional sciences focused primarily on diseases
associated with single nutrient deficiencies. This led to the formulation of the...