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This book summarises the research findings of the COVID-19 AI & Simulation Project in Japan. The COVID-19 pandemic presented unprecedented challenges to public health systems and socioeconomic stability worldwide, necessitating rapid, computational and evidence-based decision-making under extreme uncertainty. The project exemplifies the integration of advanced computational modeling with public policy formation. The project developed a comprehensive framework for pandemic response that bridged the gap between scientific analysis and practical policy implementation by deploying artificial intelligence, complex network analysis, multi-agent simulations, fluid simulation, and laser optics.
In the project, implementing deep learning technologies has enabled access to extensive infection spread data, allowing for machine learning-based predictions. Additionally, agent-based simulation was extensively utilized in this project. Agent-based simulation involves recreating a virtual real-world environment where numerous human-like agents interact dynamically. This approach facilitates the reproduction of complex societal problems and the exploration of potential solutions, which can be fed back into real-world problem-solving.
This book serves as a valuable record of how AI and simulation technologies were applied in response to the unprecedent crisis posed by the COVID-19 in Japan. The insights gained from this endeavor will contribute to preparedness for the next inevitable pandemic.
Inhaltsverzeichnis
Chapter 1 Leveraging Artificial Intelligence and Complex Systems Simulation for Computational Pandemic Response: The Japanese Government's COVID-19 AI & Simulation Project.- Chapter 2 Projection of COVID-19 positive cases considering new viral variants and vaccination effectiveness models: Deep learning approach.- Chapter 3 Projections of COVID-19 Severity and Case Fatality Rates in Tokyo: Real-Time Analysis and Ex-post Assessment.- Chapter 4 Prefecture-Level Projections for COVID-19 Hospital Bed Demand in Japan.- Chapter 5 Driven by Models, Data, and People toward Lessons from Stay with Your Community .- Chapter 6 Risk of COVID-19 infection at home and in the office.- Chapter 7 Individual-based epidemic simulation with one million agents.- Chapter 8 Effect of small-world network on infection diffusion: A multi-agent simulation reflecting human travel network.- Chapter 9 A multi-layered AI simulation for assessing the impact of infection control measures.- Chapter 10 The Effects of Reopening the Border on Covid-19 Infection: A Simulation Study for Japan in the Summer of 2022.- Chapter 11 Forecasting COVID-19 Infection with Model Averaging: A Real-Time Evaluation 1.
Über den Autor / die Autorin
Satoshi Kurihara (Ph.D.) Professor of Faculty of Science and Technology, Keio Univ. Director of Center of Advanced Research for Human-AI Symbiosis Society, Keio Univ. President of Japanese Society for Artificial Intelligence (JSAI). After working at NTT Basic Research Laboratories, Osaka University and the University of Electro-Communications, he has been in her current position since 2018. Research areas include multi-agent, complex network science and computational social science. Kaoru Endo, Satoshi Kurihara, Takashi Kamihigashi, Fujio Toriumi (eds.), Reconstruction of the Public Sphere in the Socially Mediated Age, springer, 2017., Akira Namatame, Satoshi Kurihara, Hideyuki Nakashima(eat.), Emergent Intelligence of Networked Agents, Springer, 2007., etc.
Zusammenfassung
This book summarises the research findings of the COVID-19 AI & Simulation Project in Japan. The COVID-19 pandemic presented unprecedented challenges to public health systems and socioeconomic stability worldwide, necessitating rapid, computational and evidence-based decision-making under extreme uncertainty. The project exemplifies the integration of advanced computational modeling with public policy formation. The project developed a comprehensive framework for pandemic response that bridged the gap between scientific analysis and practical policy implementation by deploying artificial intelligence, complex network analysis, multi-agent simulations, fluid simulation, and laser optics.
In the project, implementing deep learning technologies has enabled access to extensive infection spread data, allowing for machine learning-based predictions. Additionally, agent-based simulation was extensively utilized in this project. Agent-based simulation involves recreating a virtual real-world environment where numerous human-like agents interact dynamically. This approach facilitates the reproduction of complex societal problems and the exploration of potential solutions, which can be fed back into real-world problem-solving.
This book serves as a valuable record of how AI and simulation technologies were applied in response to the unprecedent crisis posed by the COVID-19 in Japan. The insights gained from this endeavor will contribute to preparedness for the next inevitable pandemic.
