Handbook of Dynamic Data Driven Applications Systems
Inhalt
The Handbook of Dynamic Data Driven Applications Systems establishes an authoritative reference of the DDDAS paradigm to benefit science and technology researchers and practitioners developing DDDAS-based technologies.
This Third Volume in the series contains 35 chapters contributed by leading experts and is organized in nine thematic areas, spanning natural, engineered, or societal systems to enable an accurate understanding, analysis, and control of corresponding complex systems. The thematic areas cover fundamental and foundational methods; materials, structural, and energy systems; healthcare and situation awareness systems; air and space, communications, and cyber systems.
The work presented shows how DDDAS unifies the computational and instrumentation aspects of an application system, extends computing notions to span from the high-end to the edge computing and real-time data acquisition and control, adaptively manages the operation of complex, distributed, multimodal systems through high-dimensional, systems-cognizant model-coordination and multi-objective optimization of resources and service delivery; supports methodologies for achieving autonomic and enhanced AI capabilities; DDDAS is foundational concept for Predictive Digital Twins and Dynamic Digital Twins.
Advance Praise: DDDAS opened the way to combine real-time data sensing with simulation modeling, thereby creating a way to produce fast predictions with unprecedented accuracy. The adoption of the technique has impacted a broad spectrum of applications. The March 2023 US National Academies (NASEM) Report on “Foundational Research Gaps and Future Directions for Digital Twins" identifies DDDAS as an early concept that has all of the elements of a digital twin, including the physical, the virtual, and the two-way interaction via a feedback loop. The Report also characterizes Digital Twins as holding "immense promise in accelerating scientific discovery and revolutionizing industries." The chapters in this volume give insight to that cited power of Digital Twins through the accomplishments reported for DDDAS, allowing S&T experts to dig deeply in specific areas, as well as providing hints for new ways to deploy it.- Harold Stone, Ph.D. (Fellow Emeritus, NEC Research Institute)
- Michael Seablom (Associate Director for Technology in the Earth Science Division and Head of the Earth Science Technology Office (ESTO), NASA Headquarters)