Tag Archives: Mathematics

Mathematics-Tyson-SCI337

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The Mathematics of Marriage
Dynamic Nonlinear Models

(MIT Press, 2002)
SCI 337

Divorce rates are at an all-time high. But without a theoretical understanding of the processes related to marital stability and dissolution, it is difficult to design and evaluate new marriage interventions. The Mathematics of Marriage provides the foundation for a scientific theory of marital relations. The book does not rely on metaphors, but develops and applies a mathematical model using difference equations. The work is the fulfillment of the goal to build a mathematical framework for the general system theory of families first suggested by Ludwig Von Bertalanffy in the 1960s. The book also presents a complete introduction to the mathematics involved in theory building and testing, and details the development of experiments and models. In one “marriage experiment,” for example, the authors explored the effects of lowering or raising a couple’s heart rates. Armed with their mathematical model, they were able to do real experiments to determine which processes were affected by their interventions.

Applying ideas such as phase space, null clines, influence functions, inertia, and uninfluenced and influenced stable steady states (attractors), the authors show how other researchers can use the methods to weigh their own data with positive and negative weights. While the focus is on modeling marriage, the techniques can be applied to other types of psychological phenomena as well.


(Description Source: MIT Press)


Author

Rebecca Tyson is a professor of Mathematics at the University of British Columbia (Okanagan). Her research area is mathematical biology, chiefly focussed on the population dynamics and spatial movement patterns of biological populations in complex landscapes.  She has also done significant work aimed at understanding how opinion dynamics evolve in human populations, and how they interact with disease dynamics.

John M. Gottman is a professor of Psychology at the University of Washington.

James D. Murray is a professor emeritus of Applied Mathematics at the University of Washington.

Catherine Swanson is a software engineer at the University of Washington.

Kristin R. Swanson is a senior fellow in Pathology and Applied Mathematics at the University of Washington.


UBC Library Holdings

http://tinyurl.com/y4towxtz


How to Purchase this Book

From the Publisher – MIT Press
From Used-book Sellers – ABE, Amazon, Antiqbook, Biblio, Vialibri

Hardcover ISBN: 9780262072267
Paperback ISBN: 9780262572309


UBC Okanagan Classroom Artwork Project

The University of British Columbia Okanagan Classroom Artwork Project aims to display academically inspiring artwork in classrooms and other teaching areas of the university.

Artwork displayed as part of this project – including the covers of books and journals containing work written or edited by UBCO scholars and researchers – is intended to help enliven university teaching spaces, educate classroom users about the connections between research and teaching, and introduce members of the broader public to some of the research and scholarship carried out at UBCO.


How to Submit Artwork

If you know of other book or journal covers, or other academically inspiring artwork that is connected to work carried out by UBCO artists, scholars or researchers and that is consistent with UBCO’s educational mission, please email your suggestions to classroom.artwork@ubc.ca.

The UBC Okanagan Classroom Artwork Project began in 2019 with support from the Irving K. Barber School of Arts and Sciences. It is now a joint project of UBCO’s Faculties and the Office of the Provost.

Artwork and other images that are a part of this project are displayed solely for educational purposes.

Derivative-Hare-SCI337

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Derivative-Free and Blackbox Optimization

(Springer, 2017)
SCI 337

This book is designed as a textbook, suitable for self-learning or for teaching an upper-year university course on derivative-free and blackbox optimization.

The book is split into 5 parts and is designed to be modular; any individual part depends only on the material in Part I.  Part I of the book discusses what is meant by Derivative-Free and Blackbox Optimization, provides background material, and early basics while Part II focuses on heuristic methods (Genetic Algorithms and Nelder-Mead).  Part III presents direct search methods (Generalized Pattern Search and Mesh Adaptive Direct Search) and Part IV focuses on model-based methods (Simplex Gradient and Trust Region).  Part V discusses dealing with constraints, using surrogates, and bi-objective optimization.

End of chapter exercises are included throughout as well as 15 end of chapter projects and over 40 figures.  Benchmarking techniques are also presented in the appendix.

(Description Source: Springer)


Authors

Warren Hare is a professor of Mathematics at the University of British Columbia Okanagan campus, which he joined in 2009. He received his PhD in Mathematical Optimization from Simon Fraser University.  He completed his postdoctoral research at IMPA (Brazil) and McMaster (Canada). He serves as an Associate Editor with Set Valued and Variational Analysis and the Pacific Journal of Optimization. He is the co-author of the book Derivative-Free and Blackbox Optimization, and his research focuses on structured blackbox optimization.

Charles Audet is a professor of Mathematics at the École Polytechnique de Montréal.


UBC Library Holdings

http://tinyurl.com/y6z8qtyg


How to Purchase this Book

From the Publisher – Springer
From Used-book Sellers – ABE, Amazon, Antiqbook, Biblio, Vialibri

Paper ISBN: 9783319886800
Hardcover ISBN: 9783319689128
eBook ISBN: 9783319689135


UBC Okanagan Classroom Artwork Project

The University of British Columbia Okanagan Classroom Artwork Project aims to display academically inspiring artwork in classrooms and other teaching areas of the university.

Artwork displayed as part of this project – including the covers of books and journals containing work written or edited by UBCO scholars and researchers – is intended to help enliven university teaching spaces, educate classroom users about the connections between research and teaching, and introduce members of the broader public to some of the research and scholarship carried out at UBCO.


How to Submit Artwork

If you know of other book or journal covers, or other academically inspiring artwork that is connected to work carried out by UBCO artists, scholars or researchers and that is consistent with UBCO’s educational mission, please email your suggestions to classroom.artwork@ubc.ca.

The UBC Okanagan Classroom Artwork Project began in 2019 with support from the Irving K. Barber School of Arts and Sciences. It is now a joint project of UBCO’s Faculties and the Office of the Provost.

Artwork and other images that are a part of this project are displayed solely for educational purposes.

Fuzzy-Kaur-SCI247

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Fuzzy Transportation and Transshipment Problems

(Springer, 2020)
SCI 247

This book presents a novel approach to the formulation and solution of three classes of problems: the fully fuzzy transportation problem, the fully fuzzy transshipment problem, and fully fuzzy solid transportation problem. It points out some limitations of the existing formulations and approaches, indicating some possible, conceptually and algorithmically attractive solutions to alleviate them. In particular, the book describes new conceptual and algorithmic solutions for finding the fuzzy optimal solutions of the single-objective fully fuzzy transportation problems, the fully fuzzy transshipment problems and the fully fuzzy solid transportation problems. Moreover, based on the novel concepts and solutions proposed by combining the concept of a fully fuzzy solid transportation problem and a fully fuzzy transshipment problem, it describes a new class of problems, i.e. the fully fuzzy solid trans-shipment problem, together with its fuzzy linear programming formulation and some methods to find its fuzzy optimal solution. The book offers the readers a timely piece of literature in the field of fuzzy linear programming, and is expected to act as a source of inspiration for future research and applications.

(Description Source: Springer)


Authors

Amarpreet Kaur earned her Ph.D. in Applied Mathematics from India in 2012. Her research area was fuzzy optimization. Afterwards, she served as an Assistant Professor at Central University of Punjab, India. While teaching, she became interested in interdisciplinary fields, and further explored them by joining the Interdisciplinary Ph.D. Program (Sustainability Theme) at UBC Okanagan’s Department of Economics. Currently, her research investigates the impact of drinking water quality on residential property.

Janusz Kacprzyk is a professor of computer science at the Systems Research Institute and an academician of the Polish Academy of Sciences.

Amit Kumar is an associate professor of Mathematics at Thapar Institute of Engineering & Technology, Patiala, India.


UBC Library Holdings

http://tinyurl.com/y6fpvdkq


How to Purchase this Book

From the Publisher – Springer
From Used-book Sellers – ABE, Amazon, Antiqbook, Biblio, Vialibri

Paper ISBN: 9783030266783
eBook ISBN: 9783030266769
Hardcover ISBN: 9783030266752


UBC Okanagan Classroom Artwork Project

The University of British Columbia Okanagan Classroom Artwork Project aims to display academically inspiring artwork in classrooms and other teaching areas of the university.

Artwork displayed as part of this project – including the covers of books and journals containing work written or edited by UBCO scholars and researchers – is intended to help enliven university teaching spaces, educate classroom users about the connections between research and teaching, and introduce members of the broader public to some of the research and scholarship carried out at UBCO.


How to Submit Artwork

If you know of other book or journal covers, or other academically inspiring artwork that is connected to work carried out by UBCO artists, scholars or researchers and that is consistent with UBCO’s educational mission, please email your suggestions to classroom.artwork@ubc.ca.

The UBC Okanagan Classroom Artwork Project began in 2019 with support from the Irving K. Barber School of Arts and Sciences. It is now a joint project of UBCO’s Faculties and the Office of the Provost.

Artwork and other images that are a part of this project are displayed solely for educational purposes.

What-Siam-Lucet-SCI236

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“What Shape is Your Conjugate? A Survey of Computational Convex Analysis and Its Applications”
Siam Review, 52(3): 505-542

SCI 236

Computational convex analysis algorithms have been rediscovered several times in the past by researchers from different fields. To further communications between practitioners, we review the field of computational convex analysis, which focuses on the numerical computation of fundamental transforms arising from convex analysis. Current models use symbolic, numeric, and hybrid symbolic-numeric algorithms. Our objective is to disseminate widely the most efficient numerical algorithms useful for applications in image processing (computing the distance transform, the generalized distance transform, and mathematical morphology operators), partial differential equations (solving Hamilton-Jacobi equations and using differential equations numerical schemes to compute the convex envelope), max-plus algebra (computing the equivalent of the fast Fourier transform), multifractal analysis, etc. The fields of applications include, among others, computer vision, robot navigation, thermodynamics, electrical networks, medical imaging, and network communication.

Description Source: SIAM Review. Published 2010 (3).


Author

Yves Lucet is a professor and the Associate Head of Computer Science at the University of British Columbia (Okanagan). His research is at the boundary between Mathematics and Computer Science and is roughly split in two directions: designing new algorithms in Comuter-Aided Convex Analysis to compute operators arising in convex analysis, and Modeling and applications of optimization. He’s also the Director at the Centre for Optimization, Convex Analysis and Nonsmooth Analysis at UBC Okanagan.


UBC Library Holdings

https://tinyurl.com/yyc6r6jy


How to Purchase this Journal

Siam Review

ISSN (print): 1052-6234
ISSN (online): 1095-7189


UBC Okanagan Classroom Artwork Project

The University of British Columbia Okanagan Classroom Artwork Project aims to display academically inspiring artwork in classrooms and other teaching areas of the university.

Artwork displayed as part of this project – including the covers of books and journals containing work written or edited by UBCO scholars and researchers – is intended to help enliven university teaching spaces, educate classroom users about the connections between research and teaching, and introduce members of the broader public to some of the research and scholarship carried out at UBCO.


How to Submit Artwork

If you know of other book or journal covers, or other academically inspiring artwork that is connected to work carried out by UBCO artists, scholars or researchers and that is consistent with UBCO’s educational mission, please email your suggestions to classroom.artwork@ubc.ca.

The UBC Okanagan Classroom Artwork Project began in 2019 with support from the Irving K. Barber School of Arts and Sciences. It is now a joint project of UBCO’s Faculties and the Office of the Provost.

Artwork and other images that are a part of this project are displayed solely for educational purposes.