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Review Article Open Access December 27, 2021

Advancements in Smart Medical and Industrial Devices: Enhancing Efficiency and Connectivity with High-Speed Telecom Networks

Sai Teja Nuka 1,*, Venkata Narasareddy Annapareddy 2, Hara Krishna Reddy Koppolu 3 and Sathya Kannan 4
1
Validation Engineer, TE Connectivity, Plymouth, MN, USA
2
Enterprise Data Engineer, SunPower Corporation, Austin, USA
3
Data Engineering Lead, CSG Systems International, Englewood, USA
4
Sr AI Developer, John Deere, Moline, USA
Publihed in: Current Research in Public Health (Volume 1, Issue 1, 2021)
Page(s): 55-72
DOI: 10.31586/ojms.2021.1295
Received
September 02, 2021
Revised
October 26, 2021
Accepted
November 30, 2021
Published
December 27, 2021
Keywords
Smart Medical Instruments; Advanced Industrial Equipment; AI Algorithms; Data-Driven Insights; Cost-Effective Diagnosis; High-Speed Telecommunications; Ultra-Reliable Infrastructure; Cloud Model; Off-Device Aggregation; Latency Challenges; Bandwidth Limitations; Edge AI Processing; Machine Learning; Processing Subsystems; Communication Links; 5G Networks; Telemedicine Facilities; End-to-End Demonstrations; Industry Collaboration; Technological Advancements
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.
Copyright: Copyright © The Author(s), 2021. Published by Scientific Publications
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Cite This Article

APA Style
Nuka, S. T. , Nuka, S. T. Annapareddy, V. N. , Annapareddy, V. N. Koppolu, H. K. R. , & Koppolu, H. K. R. (2021). Advancements in Smart Medical and Industrial Devices: Enhancing Efficiency and Connectivity with High-Speed Telecom Networks. Current Research in Public Health, 1(1), 55-72. https://doi.org/10.31586/ojms.2021.1295
ACS Style
Nuka, S. T. ; Nuka, S. T. Annapareddy, V. N. ; Annapareddy, V. N. Koppolu, H. K. R. ; Koppolu, H. K. R. Advancements in Smart Medical and Industrial Devices: Enhancing Efficiency and Connectivity with High-Speed Telecom Networks. Current Research in Public Health 2021 1(1), 55-72. https://doi.org/10.31586/ojms.2021.1295
Chicago/Turabian Style
Nuka, Sai Teja, Sai Teja Nuka. Venkata Narasareddy Annapareddy, Venkata Narasareddy Annapareddy. Hara Krishna Reddy Koppolu, and Hara Krishna Reddy Koppolu. 2021. "Advancements in Smart Medical and Industrial Devices: Enhancing Efficiency and Connectivity with High-Speed Telecom Networks". Current Research in Public Health 1, no. 1: 55-72. https://doi.org/10.31586/ojms.2021.1295
AMA Style
Nuka ST, Nuka STAnnapareddy VN, Annapareddy VNKoppolu HKR, Koppolu HKR. Advancements in Smart Medical and Industrial Devices: Enhancing Efficiency and Connectivity with High-Speed Telecom Networks. Current Research in Public Health. 2021; 1(1):55-72. https://doi.org/10.31586/ojms.2021.1295 
@Article{crph1295,
AUTHOR = {Nuka, Sai Teja and Annapareddy, Venkata Narasareddy and Koppolu, Hara Krishna Reddy and Kannan, Sathya},
TITLE = {Advancements in Smart Medical and Industrial Devices: Enhancing Efficiency and Connectivity with High-Speed Telecom Networks},
JOURNAL = {Current Research in Public Health},
VOLUME = {1},
YEAR = {2021},
NUMBER = {1},
PAGES = {55-72},
URL = {https://www.scipublications.com/journal/index.php/OJMS/article/view/1295},
ISSN = {2831-5162},
DOI = {10.31586/ojms.2021.1295},
ABSTRACT = {Emerging smart medical instruments combined with advanced smart industrial equipment facilitate the collection of vast volumes of critical data. This data not only enables significantly more accurate and cost-effective diagnosis and maintenance but also enriches the datasets available for AI algorithms, leading to improved insights and outcomes. The integration of high-speed and ultra-reliable telecommunications infrastructure is crucial, as it supports the cloud model. This model allows for off-device aggregation in the cloud, which effectively offloads infrastructure demands and provides an extended runway for future technological improvements before the deployment of the next generation of devices. However, in certain scenarios, latency and bandwidth limitations present significant challenges. These limitations require that a substantial amount of AI and machine learning processing is conducted directly on the transmitted data, which places rigorous demands on both the processing subsystems and the communications links themselves. The current project directly addresses the accelerator side of this multifaceted issue. It will carry out comprehensive end-to-end demonstrations leveraging pilot 5G networks and telemedicine facilities, collaborating closely with major industry participants to showcase the capabilities and potential of this innovative technology. This collaborative effort is essential to pushing the boundaries of what is possible in smart medical instruments and industrial applications [1].},
}
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%A Annapareddy, Venkata Narasareddy
%A Koppolu, Hara Krishna Reddy
%A Kannan, Sathya
%D 2021
%J Current Research in Public Health

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%M doi:10.31586/ojms.2021.1295
%U https://www.scipublications.com/journal/index.php/OJMS/article/view/1295

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AU  - Kannan, Sathya
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AB  - Emerging smart medical instruments combined with advanced smart industrial equipment facilitate the collection of vast volumes of critical data. This data not only enables significantly more accurate and cost-effective diagnosis and maintenance but also enriches the datasets available for AI algorithms, leading to improved insights and outcomes. The integration of high-speed and ultra-reliable telecommunications infrastructure is crucial, as it supports the cloud model. This model allows for off-device aggregation in the cloud, which effectively offloads infrastructure demands and provides an extended runway for future technological improvements before the deployment of the next generation of devices. However, in certain scenarios, latency and bandwidth limitations present significant challenges. These limitations require that a substantial amount of AI and machine learning processing is conducted directly on the transmitted data, which places rigorous demands on both the processing subsystems and the communications links themselves. The current project directly addresses the accelerator side of this multifaceted issue. It will carry out comprehensive end-to-end demonstrations leveraging pilot 5G networks and telemedicine facilities, collaborating closely with major industry participants to showcase the capabilities and potential of this innovative technology. This collaborative effort is essential to pushing the boundaries of what is possible in smart medical instruments and industrial applications [1].
DO  - Advancements in Smart Medical and Industrial Devices: Enhancing Efficiency and Connectivity with High-Speed Telecom Networks
TI  - 10.31586/ojms.2021.1295
ER  -