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| Title | Exploring The Convergence Of 6G, Internet Technologies, And Nonacoustical Devices: A New Horizon For Acoustic Science And Information Networks |
|---|---|
| ID_Doc | 25667 |
| Authors | Jawad A.M. |
| Year | 2025 |
| Published | Radioelektronika, Nanosistemy, Informacionnye Tehnologii, 17, 3 |
| DOI | http://dx.doi.org/10.17725/j.rensit.2025.17.343 |
| Abstract | The dramatic progress in sixth-generation (6G) wireless communication technologies, as well as the exponential expansion of internet-related technologies and nonacoustical elements, are completely reshaping acoustic science and information networks. This convergence presents new paradigms for transmitting, processing, and sensing signals in regimes where classical acoustical techniques may be severely limited. Aspects of existing systems, namely the proliferation of nonacoustical interfaces (optical, electromagnetic, and tactile) – both within the human body and in the external environment create new complexities in signal interpretation and multidomain integration. Th article explores the convergence of 6G, Internet of Things (IoT), and nonacoustical devices to find new solutions for building next-generation acoustic-informational systems with improved network efficiency, environmental perception, and human-machine interaction. By scrutinizing their multilayered interactions, we developed an all-in-one framework, exploiting their 6G communication protocols, low-latency IoT infrastructures, and nonacoustical data sources. The approach included simulations and architectural modelling of signaling behaviour, data exchange models and interconnectibility of devices based on principles of system integration theory and spectral analysis. Cross-layer protocol mapping and heterogeneous device synchronization was this was analyzed to determine interoperability between signal domains. The article found that the converged model is able to provide greater spectrum efficiency and lower latency, while also enabling data to be shared in places that are impractical for acoustical methods! Nonacoustical devices did in 6G-IoT frameworks achieved better environmental sensitivity and reliability. This integration provided the basis for hybrid sensing mechanisms, where robust connections among physical, cyber, and human layers enabled seamless networked Interaction. Through 6G and the evolution of internet-tech and nonacoustical interface, we are extending the boundaries of this acoustic science. This paves the way for resilient, adaptive, and intelligent system architectures, promising developments in these immersive communication environments and next-generation applications like smart cities, autonomous systems, and biomedical monitoring. © 2025 Russian Academy of Natural Science. All rights reserved. |
| Author Keywords | 6G; acoustic science; human-machine communication; information networks; Internet of Things (IoT); next-generation networks; nonacoustical devices; smart sensing; spectrum efficiency; tactile interfaces |
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