Modeling Change and Uncertainty: Machine Learning and Other Techniques (Textbooks in Mathematics)
Part of: Textbooks in Mathematics (111 Books) | Author: William P. Fox and Robert E. Burks
Publisher finelybook 出版社: Chapman & Hall (July 25, 2022)
Language 语言: English
Print Length 页数: 446 pages
ISBN-10: 1032062371
ISBN-13: 9781032062372
Book Description
Mathematical modeling is a powerful craft that requires practice. The more practice the better one will become in executing the art. The authors wrote this book to develop the craft of mathematical modeling and to foster a desire for lifelong learning, habits of mind and develop competent and confident problem solvers and decision makers for the 21st century.
This book offers a problem-solving approach. The authors introduce a problem to help motivate the learning of a particular mathematical modeling topic. The problem provides the issue or what is needed to solve using an appropriate modeling technique. Then principles are applied to the problem and present the steps in obtaining an appropriate model to solve the problem.
Modeling Change and Uncertainty
Covers both linear and nonlinear models of discrete dynamical systems.
Introduces statistics and probability modeling.
Introduces critical statistical concepts to handle univariate and multivariate data.
Establishes a foundation in probability modeling.
Uses ordinary differential equations (ODEs) to develop a more robust solution to problems.
Uses linear programming and machine learning to support decision making.
Introduces the reality of uncertainty and randomness that is all around us.
Discusses the use of linear programing to solve common problems in modern industry.
Discusses he power and limitations of simulations.
Introduces the methods and formulas used in businesses and financial organizations.
Introduces valuable techniques using Excel, MAPLE, and R.
Mathematical modeling offers a framework for decision makers in all fields. This framework consists of four key components: the formulation process, the solution process, interpretation of the solution in the context of the actual problem, and sensitivity analysis.