Anchored around the county seat of Jasper with a population of less than 500 and one of the most picturesque courthouse squares in the state, Newton County is a nature lover's dream. The majority of t
In many areas of mathematics, science and engineering, from computer graphics to inverse methods to signal processing, it is necessary to estimate parameters, usually multidimensional, by approximation and interpolation. Radial basis functions are a powerful tool which work well in very general circumstances and so are becoming of widespread use as the limitations of other methods, such as least squares, polynomial interpolation or wavelet-based, become apparent. The author's aim is to give a thorough treatment from both the theoretical and practical implementation viewpoints. For example, he emphasises the many positive features of radial basis functions such as the unique solvability of the interpolation problem, the computation of interpolants, their smoothness and convergence and provides a careful classification of the radial basis functions into types that have different convergence. A comprehensive bibliography rounds off what will prove a very valuable work.
This handbook is designed for experimental scientists, particularly those in the life sciences. It is for the non-specialist, and although it assumes only a little knowledge of statistics and mathematics, those with a deeper understanding will also find it useful. The book is directed at the scientist who wishes to solve his numerical and statistical problems on a programmable calculator, mini-computer or interactive terminal. The volume is also useful for the user of full-scale computer systems in that it describes how the large computer solves numerical and statistical problems. The book is divided into three parts. Part I deals with numerical techniques and Part II with statistical techniques. Part III is devoted to the method of least squares which can be regarded as both a statistical and numerical method. The handbook shows clearly how each calculation is performed. Each technique is illustrated by at least one example and there are worked examples and exercises throughout the vo
Modern textbook presentations of production economics typically treat producers as successful optimizers. Conventional econometric practice has generally followed this paradigm, and least squares based regression techniques have been used to estimate production, cost, profit and other functions. In such a framework deviations from maximum output, from minimum cost and cost minimizing input demands, and from maximum profit and profit maximizing output supplies and input demands, are attributed exclusively to random statistical noise. However casual empiricism and the business press both make persuasive cases for the argument that, although producers may indeed attempt to optimize, they do not always succeed. This book develops econometric techniques for the estimation of production, cost and profit frontiers, and for the estimation of the technical and economic efficiency with which producers approach these frontiers. Since these frontiers envelop rather than intersect the data, and sin
Featuring a new collection of more than 125 delicious recipes, this guide to turning cake mix into culinary art covers everything from Peanut Butter Chocolate Squares and Raspberry Dream Bars to Doubl
Don’t know where to begin with a Sudoku puzzle? Let academic Catherine Shaw guide you through the intricacies of the international puzzle craze, unlocking the logic behind ‘magic squares’ and helping
Sew pinwheel blocks, flying geese, and Dresden plates like a pro with a cheery, 11-row sampler quilt and 2 bonus projects. Starting with simple patchwork squares and leading up to more challenging app
Kids will love learning their shapes with help from icky bugs. All the familiar shapes, such as squares, rectangles, circles, stars, and others are covered in this adorable young picture book.
This is practical compilation of tables required for the usual tests based on classical probability distributions and for the more commonly used distribution-free (non-paraetric) tests, which are important in the behavioural sciences. In addition to the tables there is a substantial amount of explanatory text with diagrams and examples. The treatment is non-mathematical and the nature and use of the tabulated functions is clearly explained. The usual (Neymann-Pearson) procedure for testing statistical hypotheses is simply described and numerical examples given. The tables have been designed for use with calculators, and, since most calculators have keys for logarithms, squares, square-roots and reciprocal, these functions have not been included. This, and the fact that maximum use has been made of the space available, has enabled the book to be compact while remaining fully comprehensive. The tables will be invaluable to students in the social, biological and physical sciences and also
The two parts of this book treat probability and statistics as mathematical disciplines and with the same degree of rigour as is adopted for other branches of applied mathematics at the level of a British honours degree. They contain the minimum information about these subjects that any honours graduate in mathematics ought to know. They are written primarily for general mathematicians, rather than for statistical specialists or for natural scientists who need to use statistics in their work. No previous knowledge of probability or statistics is assumed, though familiarity with calculus and linear algebra is required. The first volume takes the theory of probability sufficiently far to be able to discuss the simpler random processes, for example, queueing theory and random walks. The second volume deals with statistics, the theory of making valid inferences from experimental data, and includes an account of the methods of least squares and maximum likelihood; it uses the results of the
The two parts of this book treat probability and statistics as mathematical disciplines and with the same degree of rigour as is adopted for other branches of applied mathematics at the level of a British honours degree. They contain the minimum information about these subjects that any honours graduate in mathematics ought to know. They are written primarily for general mathematicians, rather than for statistical specialists or for natural scientists who need to use statistics in their work. No previous knowledge of probability or statistics is assumed, though familiarity with calculus and linear algebra is required. The first volume takes the theory of probability sufficiently far to be able to discuss the simpler random processes, for example, queueing theory and random walks. The second volume deals with statistics, the theory of making valid inferences from experimental data, and includes an account of the methods of least squares and maximum likelihood; it uses the results of the
This advanced textbook on modeling, data analysis and numerical techniques for marine science has been developed from a course taught by the authors for many years at the Woods Hole Oceanographic Institute. The first part covers statistics: singular value decomposition, error propagation, least squares regression, principal component analysis, time series analysis and objective interpolation. The second part deals with modeling techniques: finite differences, stability analysis and optimization. The third part describes case studies of actual ocean models of ever increasing dimensionality and complexity, starting with zero-dimensional models and finishing with three-dimensional general circulation models. Throughout the book hands-on computational examples are introduced using the MATLAB programming language and the principles of scientific visualization are emphasised. Ideal as a textbook for advanced students of oceanography on courses in data analysis and numerical modeling, the boo
This book revives what was unique, strange and exciting about the variety of performances that took place in the realms of the French kings and Burgundian dukes. Laura Weigert brings together a wealth of visual artifacts and practices to explore this tradition of late medieval performance located not in 'theaters' but in churches, courts, and city streets and squares. By stressing the theatricality rather than the realism of fifteenth-century visual culture and the spectacular rather than the devotional nature of its effects, she offers a new way of thinking about late medieval representation and spectatorship. She shows how images that ostensibly document medieval performance instead revise its characteristic features to conform to a playgoing experience that was associated with classical antiquity. This retrospective vision of the late medieval performance tradition contributed to its demise in sixteenth-century France and promoted assumptions about medieval theater that continue to
Wander the history-filled streets of Savannah. Saunter through Savannah's varied streets and squares with this invaluable guide. Tour the city's oldest buildings and majestic homes, such as the Mercer
Can you draw robots? You can if you start with simple shapes! Circles and squares become a battle bot. Triangles and rectangles make a robotic firefighter. What kind of robot can you draw with shapes?
Can you draw monsters? You can if you start with simple shapes! Triangles and squares become a flying fanged monster. Circles in many sizes make up a multi-eyed monster. What kind of monster can you d
Urban public spaces, from the streets and squares of Buenos Aires to Zuccotti Park in New York City, have become the emblematic sites of contentious politics. The contributors to The City Is the Facto
In (Not that You Asked), Steve Almond documents a life spent brawling with the idiot kings of modern culture. He squares off against Sean Hannity on national TV, takes on Oprah Winfrey, nearly gets ki
The "iron lace" that graces the businesses, homes, squares, and cemeteries of Mobile, Alabama, is as vital a part of that southern port city as it is of New Orleans, Charleston, and Savannah. Until n
This beautifully illustrated board book shows readers how lines make up a whole: a whole square, house, town, city, and universe!Line, Lines Square, Squares Town Line, Lines Circle, Circles Go round T
