Optical Color Computing: Fuzzy Logic and Digital Calculations: River Publishers Rapids Series in Computer Engineering and Information Science and Technology
Editat de Victor Timchenko, Vladik Kreinovich, Yuriy Kondratenkoen Limba Engleză Paperback – mai 2026
The book examines the principles of optical computing, fuzzy data processing, and logical operations based on color representation as an information set. It introduces an innovative approach that uses light radiation of specific colors as fuzzy variables—enhancing the efficiency and speed of logical systems through optical parallelism.
Practical implementation of this architecture is demonstrated through a decision support model for managing intensive sea and air traffic, illustrating how real-time multifactorial fuzzy color databases can improve operational decision-making. Performance evaluations show that optical computation delivers higher processing speed due to fewer required operations and parallel data structures.
These results have broad applications for higher education, large enterprises, and infrastructure facilities—such as airports, seaports, and oil and gas terminals—where artificial intelligence systems support automated control and decision-making.
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Specificații
ISBN-13: 9788743810315
ISBN-10: 8743810314
Pagini: 80
Ilustrații: 26
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: River Publishers
Colecția River Publishers
Seria River Publishers Rapids Series in Computer Engineering and Information Science and Technology
ISBN-10: 8743810314
Pagini: 80
Ilustrații: 26
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: River Publishers
Colecția River Publishers
Seria River Publishers Rapids Series in Computer Engineering and Information Science and Technology
Public țintă
Academic, Postgraduate, and Professional Practice & DevelopmentCuprins
1. Fundamentals of Optical Computing 2. Optical Color Computing Architecture in Digital Support Systems
Notă biografică
Victor Timchenko received his master's degree in Electrical Engineering from Admiral Makarov National University of Shipbuilding (AMNUS) in 1982, his philosophy of doctorate degree in Design of Ships from AMNUS in 1988, and his doctor of science degree in Automation Control from Odessa National Polytechnic University in 2013. He is currently working as a Professor at the Department of Computer Engineering at Automation and Electrical Institute of AMNUS. His research areas include robust optimal control systems, optical architecture and computing, and decision support systems.
Vladik Kreinovich is Professor of Computer Science, University of Texas at El Paso, El Paso, Texas, USA, Vice President of International Fuzzy Systems Association (IFSA), Vice President of European Society of Fuzzy Logic and Technology (EUSFLAT), and AT&T Fellow in Information Technology. His areas of interest are interval computations, intelligent control (including fuzzy and neural approaches), and reasoning under uncertainty. He is the author of more than 1500 publications.
Yuriy Kondratenko is a Doctor of Science, Professor, Honour Inventor of Ukraine (2008), Corr. Academician of Royal Academy of Doctors (Barcelona, Spain), Head of the Department of Intelligent Information Systems at Petro Mohyla Black Sea National University (PMBSNU), Ukraine, Leading Researcher of the Institute of Artificial Intelligence Problems of MES and NAS of Ukraine, and Fulbright Scholar. He received a Ph.D. (1983) and Dr.Sc. (1994) at Odessa National Polytechnic University, and several international grants and scholarships for conducting research at P.R. of China, Germany, and the USA. He has been guest editor of 3 special issues of River Publishers’ Journal of Mobile Multimedia and an editor of several River Publishers’ monographs, including Advances in Intelligent Robotics and Collaborative Automation (2015), Control Systems: Theory and Applications (2018), Advanced Control Systems: Theory and Applications (2021), Recent Developments in Automatic Control Systems (2022) and Research Tendencies and Prospect Domains for AI Development and Implementation (2024). His research interests include robotics, automation, sensors and control systems, intelligent decision support systems, and fuzzy logic.
Vladik Kreinovich is Professor of Computer Science, University of Texas at El Paso, El Paso, Texas, USA, Vice President of International Fuzzy Systems Association (IFSA), Vice President of European Society of Fuzzy Logic and Technology (EUSFLAT), and AT&T Fellow in Information Technology. His areas of interest are interval computations, intelligent control (including fuzzy and neural approaches), and reasoning under uncertainty. He is the author of more than 1500 publications.
Yuriy Kondratenko is a Doctor of Science, Professor, Honour Inventor of Ukraine (2008), Corr. Academician of Royal Academy of Doctors (Barcelona, Spain), Head of the Department of Intelligent Information Systems at Petro Mohyla Black Sea National University (PMBSNU), Ukraine, Leading Researcher of the Institute of Artificial Intelligence Problems of MES and NAS of Ukraine, and Fulbright Scholar. He received a Ph.D. (1983) and Dr.Sc. (1994) at Odessa National Polytechnic University, and several international grants and scholarships for conducting research at P.R. of China, Germany, and the USA. He has been guest editor of 3 special issues of River Publishers’ Journal of Mobile Multimedia and an editor of several River Publishers’ monographs, including Advances in Intelligent Robotics and Collaborative Automation (2015), Control Systems: Theory and Applications (2018), Advanced Control Systems: Theory and Applications (2021), Recent Developments in Automatic Control Systems (2022) and Research Tendencies and Prospect Domains for AI Development and Implementation (2024). His research interests include robotics, automation, sensors and control systems, intelligent decision support systems, and fuzzy logic.
Descriere
This book explores recent advances in intelligent optical computing for real-time decision-making with fuzzy input data. Based on US–Ukraine research, it examines principles of optical and color computing, data processing, and logical operations for faster, more efficient AI-driven control and decision support systems.