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A Step-by-Step Guide to Establishing Space-Based Computing Infrastructure
Setting up a data center in space, a process often referred to as Orbital Cloud Computing (OCC) or Satellite Edge Computing (OEC), is an intensely complex engineering, financial, and policy endeavor. The following guide synthesizes the critical strategic drivers, technological requirements, and necessary policy considerations identified in the analysis of this emerging field. This step-by-step…
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Accelerating Research Gap Discovery with AI: A Systematic Review of Methods, Tools, and Trends
Researchers have increasingly adopted Artificial Intelligence, using powerful techniques like topic modeling, citation network analysis, and advanced transformer models to automate the laborious process of reviewing scientific literature and discovering research trends. Summary Researchers today are confronted with an unprecedented explosion of scientific literature. This deluge of information makes traditional manual literature reviews incredibly time-consuming…
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The Reusable Rocket Revolution: A Comprehensive Guide to the Technology, Economics, and Future of Spaceflight
For decades, the concept of a fully reusable rocket capable of airline-like operations has been the ultimate goal in spaceflight, promising to dramatically lower the cost of accessing orbit, AND with the advent of systems like the Space Shuttle and the modern success of SpaceX’s Falcon 9, the world has proven that recovering and reflying…
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The AI-Thermodynamics Revolution: Accelerating Scientific Discovery and Engineering a Sustainable Future
The application of Artificial Intelligence (AI), particularly Machine Learning (ML), has demonstrated remarkable success in thermodynamics, enabling the development of highly accurate and efficient models for molecular simulation, materials design, and property prediction. Pioneering work, such as the creation of High-Dimensional Neural Network Potentials (HDNNPs) by Behler and Parrinello [1] and the subsequent rise of…
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Artificial Intelligence in Fluid Dynamics: A Literature Review of Applications, Challenges, and Future Directions
Summary Decoding Fluid Dynamics: How AI is Redefining Computational Science The study of fluid dynamics (FD) is undergoing a profound transformation, moving from traditional Computational Fluid Dynamics (CFD) to a new paradigm powered by Artificial Intelligence (AI) and Machine Learning (ML). This shift is not merely an optimization of existing methods but a fundamental change…
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Vacuum Fluctuations and Their Impact on Quantum Computing Architectures
Executive Summary: A Structured Literature Review on Vacuum Fluctuations and Their Impact on Quantum Computing Architectures The “empty” space of a vacuum, far from being a void, is in fact a seething sea of quantum fluctuations, a consequence of fundamental physics that challenges the very foundations of how we build quantum computers. This literature review…
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Vacuum-Induced Phase Changes in Liquids: A Comprehensive Review of Thermodynamic Behavior and Experimental Studies
The literature on vacuum liquid phase transitions provides a fascinating and relevant context for the Navier-Stokes Millennium Problem, not by offering a direct solution to the existence and smoothness of its solutions, but by highlighting the precise physical conditions under which the equations’ underlying assumptions break down. Vacuum-Induced Phase Changes in Liquids: A Comprehensive Review…
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Circular Astronomy 