Network Coding-based Multi-Path Forward Erasure Correction for Tactical Scenarios

Schütz, Bertram; Thieme, Stefanie; Fuchs, Christoph; Weber, Daniel; Aschenbruck, Nils

doi:10.1109/milcom52596.2021.9653103

Cited by 4 publications

(1 citation statement)

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“…Network coding-based forward error correction (FEC) represents another significant area of innovation in communication protocols. Schütz (2021) work bridges the gap between information theory and real-world applications of network coding-based FEC. This research focuses on integrating coding into UDP-based IoT protocols to enhance data transfers in lossy scenarios, demonstrating the practical applications and benefits of network coding in improving the robustness of data streams against packet loss.…”

Section: Breakthroughs In Communication Protocolsmentioning

confidence: 99%

Next-Generation Electro-Mechanical Interfaces: A Deep Dive Into the Future of Electromechanical Connections and Communications

Abimbola Oluwatoyin Adegbite,

Chinedu Nnamdi Nwasike,

Nwabueze Kelvin Nwaobia

et al. 2023

Eng. sci. technol. j.

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This study presents a comprehensive review and forward-looking analysis of the future of electromechanical connections and communications, a field at the forefront of technological innovation. The aim is to explore the evolving role of electromechanical interfaces in modern technology, assess current advancements, and project future trends and innovations. The research methodology includes a systematic literature review, focusing on peer-reviewed articles, conference papers, and industry reports from 2015 to 2023. The study identifies key historical developments, current state-of-the-art technologies, and future prospects in electromechanical communications. It highlights the integration of AI and IoT in these systems and their increasing importance in sectors like robotics, telecommunications, and industrial automation. The study also addresses the challenges and opportunities in advancing electromechanical communications, such as the need for standardization and the potential of emerging technologies like quantum computing. Recommendations for industry leaders and policymakers are provided, emphasizing the importance of innovation, regulatory frameworks, and workforce training. The study concludes with suggestions for future research directions, particularly focusing on sustainable and eco-friendly approaches, and the socio-economic impacts of advanced electromechanical systems. This review serves as a valuable resource for researchers, industry professionals, and policymakers, offering insights into the future landscape of electromechanical communications and their role in shaping technological advancements. Keywords: Electromechanical Connections, Communication Technologies, Technological Innovations.

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Section: Breakthroughs In Communication Protocolsmentioning

confidence: 99%