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Technology Introduction: The All-Hazard Wargaming Platform integrates digital twin technology, 3D visualization, and cross-domain data fusion to establish a compound disaster timeline simulation and exercise system. It supports multiple scenarios such as typhoons, heavy rainfall, flooding, landslides, earthquakes, radiation, and chemical hazards. The system enables real-time calculation of affected areas, estimation of population exposure, medical capacity, shelter demand, and infrastructure impact, while also simulating transportation disruption and energy loss. Designed with modular components, the platform incorporates role-based collaboration and live data integration, breaking through the limitations of traditional paper-based and static exercises, and significantly enhancing inter-agency coordination efficiency and disaster decision-making resilience. Industry Applicability: The platform offers high industrial applicability. In addition to supporting disaster preparedness exercises for central and local governments, it can be extended to sectors such as transportation, energy, healthcare, and critical infrastructure for risk assessment and contingency planning. The system simulates disaster impacts on power supply, water supply, transportation networks, and medical capacity, assisting industries in developing Business Continuity Plans (BCP) and deploying resources in advance. Through cross-domain integration and dynamic exercise capabilities, the platform effectively enhances disaster resilience while reducing operational disruptions and economic losses.
Future Tech | Information & CommunicationsTechnology Introduction: The focal plane assembly is the remote sensing component which converts the light to electrical signal. The Focal plane assembly applied on Formosat-8 telescope will perform the ground sample distance one meter of P band, two meter of MS band. In order to improve the image signal to noise ratio (SNR), Formosat-8 FPA has the time delay integration technique to perform high SNR and quality image. Industry Applicability: Automated Optical Inspection at low-light situation、Wafer inspection、Panel inspection.
Future Tech | Information & CommunicationsTechnology Introduction: The Optical System Assembly (OSA) in the FORMOSAT-8A optical remote sensing instrument is equipped with a high-resolution Ritchey–Chrétien optical system with 396mm aperture and 3927mm effective focal length. This system can capture high-resolution images with ground sampling distance of 1.0 meter, using a 7μm pixel-size image sensor while orbiting at an altitude of 561km (0.7m GSD with post image processing). Industry Applicability: Based on the technologies developed from the FS8A/B RSI OSA, it can be made available for the development of small-space optical systems in the optical industry.
Future Tech | Information & CommunicationsTechnology Introduction: Climate change is impacting life and the economy in Taiwan, with mounting risks from shrinking mountain snowpacks and coral bleaching to more frequent typhoons and extreme heat. The Climate Change Division of the National Science and Technology Center for Disaster Reduction (NCDR) has developed the High-Resolution Climate Data and Adaptation Application Platform, integrating high-resolution climate data, localized case studies, translated scientific reports, an adaptation toolbox, and intelligent search. It provides cross-sector, science-based adaptation information to support governments, industries, and society in developing risk management and sustainability strategies. Industry Applicability: The platform leverages high-resolution climate data, localized case studies, and adaptation resources to support industries in assessing climate change risks, enhancing their resilience and competitiveness in the face of climate challenges.
Future Tech | Information & CommunicationsTechnology Introduction: The operational safety and cost are superior to the traditional space propulsion systems by utilizing nontoxic high-test peroxide (HTP) as the propellant. All components are developed and verified by TASA. A total solution for satellite applications with design flexibility can be provided to satisfy the versatility of mission requirements. Industry Applicability: High test peroxide can be used as the monopropellant and the oxidizer of the bi-propellant propulsion system, therefore, the compatibility issue of the material is a key to meet the requirement of the versatility of the mission. The application of aerospace can be a satellite reaction control system, anti-collision system of the satellite, apogee kick motor and landing system for moon or planet. In addition, the same technology can be also applied to the underwater propulsion system.
Future Tech | Information & CommunicationsTechnology Introduction: By integrating a miniaturized melt spinning device with an advanced synchrotron beamline, in-situ experiments can be conducted to observe real-time process control and microstructural evolution during melt spinning, opening up a new frontier in high-performance fiber development. Industry Applicability: Taiwan’s synthetic fiber industry is primarily based on melt spinning technology. This technology offers a miniaturized in-situ melt spinning research platform that combines real-time process control with microstructure tracking, effectively reducing R&D costs, shortening development cycles, and significantly boosting innovation efficiency in the industry.
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