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This book seeks to examine the profound transformations brought about by the convergence of human-centered principles and advancing cyber-technologies across diverse fields, including industry, environment, healthcare, and interactive media. Each chapter contributes to a broader understanding of how technological progress influences and shapes our social, economic, and ecological landscapes. Part I of the book focuses on the emergence of human-centricity in flexible industries and organizations. The formation of human-centric approaches in management strategies ensures that businesses remain adaptable to rapid changes while maintaining a focus on people. The incorporation of digital configurations allows for greater control over complex organizational systems, fostering flexibility and responsiveness. Additionally, models like Haken s framework help assess socio-economic conditions, enabling regions to make informed decisions about growth and sustainability. The influence of market dynamics, particularly the effects of demand and cost fluctuations in oligopolistic markets, underscores the complexity of contemporary business ecosystems. Moreover, optimization techniques such as those employed in airline crew scheduling demonstrate the potential for enhanced efficiency when driven by advanced algorithms. Finally, the creation of cargo port risk management models illustrates how technology can mitigate systemic vulnerabilities. In Part II, attention shifts to environmental and ecological challenges. Multidimensional statistical tools analyze agricultural productivity, while small data sample modeling aids in optimizing resource-intensive processes like floodwater management. Innovative machine learning methods further refine the prediction of river flows and other hydrological phenomena. Simulations of fine dust particle dynamics provide deeper insights into atmospheric turbulence, while analyses of vehicular emissions shed light on urban pollution patterns. Part III turns to healthcare innovations, highlighting the role of machine learning in detecting breast cancer risks. Features derived from diagnostic models enhance the precision of detection, and cyber-physical systems leverage thermographic imagery to predict malignancies with greater accuracy.
Table des matières
Formation of human centricity in the management of flexible industries and organizations.- Development of Technology for Organizational System Digital Configuration Control.- Hakens model for assessing the socio economic condition of the region.- Influence of demand and cost functions on conjectured variations in oligopoly game.- Airline crew scheduling system based on genetic algorithm.- Cargo Port Risk Management Ontological Model.- Multidimensional statistical analysis tool for the yield of grain crops.- Small data samples modeling of well interaction for analyzing the effectiveness of flooding systems.- Method for determining river flow characteristics based on gauging stations data and machine learning.- Method for determining turbulent diffusion in the atmosphere boundary layer based on simulation of the dynamics of fine dust particles.
Résumé
This book seeks to examine the profound transformations brought about by the convergence of human-centered principles and advancing cyber-technologies across diverse fields, including industry, environment, healthcare, and interactive media. Each chapter contributes to a broader understanding of how technological progress influences and shapes our social, economic, and ecological landscapes. Part I of the book focuses on the emergence of human-centricity in flexible industries and organizations. The formation of human-centric approaches in management strategies ensures that businesses remain adaptable to rapid changes while maintaining a focus on people. The incorporation of digital configurations allows for greater control over complex organizational systems, fostering flexibility and responsiveness. Additionally, models like Haken’s framework help assess socio-economic conditions, enabling regions to make informed decisions about growth and sustainability. The influence of market dynamics, particularly the effects of demand and cost fluctuations in oligopolistic markets, underscores the complexity of contemporary business ecosystems. Moreover, optimization techniques such as those employed in airline crew scheduling demonstrate the potential for enhanced efficiency when driven by advanced algorithms. Finally, the creation of cargo port risk management models illustrates how technology can mitigate systemic vulnerabilities. In Part II, attention shifts to environmental and ecological challenges. Multidimensional statistical tools analyze agricultural productivity, while small data sample modeling aids in optimizing resource-intensive processes like floodwater management. Innovative machine learning methods further refine the prediction of river flows and other hydrological phenomena. Simulations of fine dust particle dynamics provide deeper insights into atmospheric turbulence, while analyses of vehicular emissions shed light on urban pollution patterns. Part III turns to healthcare innovations, highlighting the role of machine learning in detecting breast cancer risks. Features derived from diagnostic models enhance the precision of detection, and cyber-physical systems leverage thermographic imagery to predict malignancies with greater accuracy.
