This inaugural talk unveils the secrets of effective problem solving, delving into innovative approaches that spark creativity. Drawing inspiration from the enchanting beauty of butterfly wings, the book uncovers the hidden artistry within their symmetrical and intricate patterns through combinatorial processes, resulting in stunning and aesthetically pleasing designs. Discover the ingenious half-butterfly technique, generating n! elements inspired by the delicate flutter of butterfly wings. Witness the emergence of the extraordinary “wing sequence,” meticulously crafted through the categorization of wing movements. Experience the captivating elegance of the butterfly triple system, a remarkable combinatorial design that showcases the symmetrical patterns found in butterflies. Moreover, the book introduces the Explore, Discover & Develop (ExDiD) method—a revolutionary teaching and learning approach that nurtures critical and creative thinking skills by exploring combinatorics in problem solving. Prepare to be inspired and enhance your problem solving abilities, contributing to the advancement of the field. Combinatorics unlocks endless possibilities and reshapes our understanding of problem solving.
Many transport companies face problems in regulating their transport services due to various challenges and issues. These problems affect the quality of the services provided especially in a university campus environment, where students heavily depend on the university transport services for their daily commuting.What are the problems faced by the management of the campus transport company? What are the issues raised by the drivers operating the on-campus buses? Hence, in assisting the management of the transport company the authors have identified the inefficiency of their bus driver scheduling system as one of the main problems, which needed to be tackled. For that reason, the authors developed an efficient bus driver scheduling model based on the Genetic Algorithm (GA) approach. The GA model is able to provide some resolutions and insight in relation to these inquiries: What are the constraints being considered in this bus driver scheduling problem? - How were the drivers’ break times being distributed in this GA approach? - How was the time taken to generate an efficient schedule? - For more information please visit: http://uumpress.uum.edu.my/
This monograph offers design for fast and reliable technique in the dense motion estimation. This Multilevel Optimization for Dense Motion Estimation work blends both theory and applications to equip reader with an understanding of basic concepts necessary to apply in solving dense motion in a sequence of images. Illustrating well-known variation models for dealing with optical flow estimation, this monograph introduces variation models with applications. A host of variation models are outlines such as Horn-Schunck model, Contrast Invariation Models and Models for Large Displacement. Special attention is also given to multilevel optimization techniques namely multiresolution and multigrid methods to improve the convergence of the global optimum when compared to using only one level resolution in the context of computer vision. This monograph is a robust resource that provides insightful introduction to the field of image processing with its theory and applications. Overall, Multilevel Optimization for Dense Motion Estimation is highly recommended for scientists and engineers for an excellent choice for references and self-study.
Complete Graph Decomposition through Artistic Impressions is a book that presents state-of-the-art of graph theory in resolving problems by graphical visualization. The book is unique in terms of the followings: • Each chapter begins with visual illustrations of ideas to represent (in pictures, figures etc.) and describe the problems that occur in the construction of algorithms. • The abstract concepts in graph theory are presented in a more relaxed and easily digestible form. • This book inspires readers to visualize hardcore mathematical concepts with a more meaningful and tangible story.
Complete Graph Decomposition through Artistic Impressions is a book that presents state-of-the-art of graph theory in resolving problems by graphical visualization. The book is unique in terms of the followings: • Each chapter begins with visual illustrations of ideas to represent (in pictures, figures etc.) and describe the problems that occur in the construction of algorithms. • The abstract concepts in graph theory are presented in a more relaxed and easily digestible form. • This book inspires readers to visualize hardcore mathematical concepts with a more meaningful and tangible story.
This monograph offers design for fast and reliable technique in the dense motion estimation. This Multilevel Optimization for Dense Motion Estimation work blends both theory and applications to equip reader with an understanding of basic concepts necessary to apply in solving dense motion in a sequence of images. Illustrating well-known variation models for dealing with optical flow estimation, this monograph introduces variation models with applications. A host of variation models are outlines such as Horn-Schunck model, Contrast Invariation Models and Models for Large Displacement. Special attention is also given to multilevel optimization techniques namely multiresolution and multigrid methods to improve the convergence of the global optimum when compared to using only one level resolution in the context of computer vision. This monograph is a robust resource that provides insightful introduction to the field of image processing with its theory and applications. Overall, Multilevel Optimization for Dense Motion Estimation is highly recommended for scientists and engineers for an excellent choice for references and self-study.
Many transport companies face problems in regulating their transport services due to various challenges and issues. These problems affect the quality of the services provided especially in a university campus environment, where students heavily depend on the university transport services for their daily commuting.What are the problems faced by the management of the campus transport company? What are the issues raised by the drivers operating the on-campus buses? Hence, in assisting the management of the transport company the authors have identified the inefficiency of their bus driver scheduling system as one of the main problems, which needed to be tackled. For that reason, the authors developed an efficient bus driver scheduling model based on the Genetic Algorithm (GA) approach. The GA model is able to provide some resolutions and insight in relation to these inquiries: What are the constraints being considered in this bus driver scheduling problem? - How were the drivers’ break times being distributed in this GA approach? - How was the time taken to generate an efficient schedule? - For more information please visit: http://uumpress.uum.edu.my/
This inaugural talk unveils the secrets of effective problem solving, delving into innovative approaches that spark creativity. Drawing inspiration from the enchanting beauty of butterfly wings, the book uncovers the hidden artistry within their symmetrical and intricate patterns through combinatorial processes, resulting in stunning and aesthetically pleasing designs. Discover the ingenious half-butterfly technique, generating n! elements inspired by the delicate flutter of butterfly wings. Witness the emergence of the extraordinary “wing sequence,” meticulously crafted through the categorization of wing movements. Experience the captivating elegance of the butterfly triple system, a remarkable combinatorial design that showcases the symmetrical patterns found in butterflies. Moreover, the book introduces the Explore, Discover & Develop (ExDiD) method—a revolutionary teaching and learning approach that nurtures critical and creative thinking skills by exploring combinatorics in problem solving. Prepare to be inspired and enhance your problem solving abilities, contributing to the advancement of the field. Combinatorics unlocks endless possibilities and reshapes our understanding of problem solving.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.