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Benefits of Positioning-Aided Communication Technology in High-Frequency Industrial IoT

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Benefits of Positioning-Aided Communication Technology in High-Frequency Industrial IoT. / Lohan, Elena Simona; Koivisto, Mike; Galinina, Olga; Andreev, Sergey; Tölli, Antti; Destino, Giuseppe; Costa, Mário; Leppänen, Kari; Koucheryavy, Yevgeni; Valkama, Mikko.

In: IEEE Communications Magazine, Vol. 56, No. 12, 8535084, 14.11.2018, p. 142-148.

Research output: Contribution to journalArticleScientificpeer-review

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Lohan, Elena Simona ; Koivisto, Mike ; Galinina, Olga ; Andreev, Sergey ; Tölli, Antti ; Destino, Giuseppe ; Costa, Mário ; Leppänen, Kari ; Koucheryavy, Yevgeni ; Valkama, Mikko. / Benefits of Positioning-Aided Communication Technology in High-Frequency Industrial IoT. In: IEEE Communications Magazine. 2018 ; Vol. 56, No. 12. pp. 142-148.

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@article{806affd6608b47b18717e8adc54651d8,
title = "Benefits of Positioning-Aided Communication Technology in High-Frequency Industrial IoT",
abstract = "The future of industrial applications is shaped by intelligent moving IoT devices, such as flying drones, advanced factory robots, and connected vehicles, which may operate (semi-)autonomously. In these challenging scenarios, dynamic radio connectivity at high frequencies, augmented with timely positioning-related information, becomes instrumental to improve communication performance and facilitate efficient computation offloading. Our work reviews the main research challenges and reveals open implementation gaps in IIoT applications that rely on location awareness and multi-connectivity in super high and extremely high frequency bands. It further conducts a rigorous numerical investigation to confirm the potential of precise device localization in the emerging IIoT systems. We focus on positioning- aided benefits made available to multi-connectivity IIoT device operation at 28 GHz, which notably improve data transfer rates, communication latency, and the extent of control overhead.",
author = "Lohan, {Elena Simona} and Mike Koivisto and Olga Galinina and Sergey Andreev and Antti T{\"o}lli and Giuseppe Destino and M{\'a}rio Costa and Kari Lepp{\"a}nen and Yevgeni Koucheryavy and Mikko Valkama",
year = "2018",
month = "11",
day = "14",
doi = "10.1109/MCOM.2018.1701057",
language = "English",
volume = "56",
pages = "142--148",
journal = "IEEE Communications Magazine",
issn = "0163-6804",
publisher = "IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC",
number = "12",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Benefits of Positioning-Aided Communication Technology in High-Frequency Industrial IoT

AU - Lohan, Elena Simona

AU - Koivisto, Mike

AU - Galinina, Olga

AU - Andreev, Sergey

AU - Tölli, Antti

AU - Destino, Giuseppe

AU - Costa, Mário

AU - Leppänen, Kari

AU - Koucheryavy, Yevgeni

AU - Valkama, Mikko

PY - 2018/11/14

Y1 - 2018/11/14

N2 - The future of industrial applications is shaped by intelligent moving IoT devices, such as flying drones, advanced factory robots, and connected vehicles, which may operate (semi-)autonomously. In these challenging scenarios, dynamic radio connectivity at high frequencies, augmented with timely positioning-related information, becomes instrumental to improve communication performance and facilitate efficient computation offloading. Our work reviews the main research challenges and reveals open implementation gaps in IIoT applications that rely on location awareness and multi-connectivity in super high and extremely high frequency bands. It further conducts a rigorous numerical investigation to confirm the potential of precise device localization in the emerging IIoT systems. We focus on positioning- aided benefits made available to multi-connectivity IIoT device operation at 28 GHz, which notably improve data transfer rates, communication latency, and the extent of control overhead.

AB - The future of industrial applications is shaped by intelligent moving IoT devices, such as flying drones, advanced factory robots, and connected vehicles, which may operate (semi-)autonomously. In these challenging scenarios, dynamic radio connectivity at high frequencies, augmented with timely positioning-related information, becomes instrumental to improve communication performance and facilitate efficient computation offloading. Our work reviews the main research challenges and reveals open implementation gaps in IIoT applications that rely on location awareness and multi-connectivity in super high and extremely high frequency bands. It further conducts a rigorous numerical investigation to confirm the potential of precise device localization in the emerging IIoT systems. We focus on positioning- aided benefits made available to multi-connectivity IIoT device operation at 28 GHz, which notably improve data transfer rates, communication latency, and the extent of control overhead.

U2 - 10.1109/MCOM.2018.1701057

DO - 10.1109/MCOM.2018.1701057

M3 - Article

VL - 56

SP - 142

EP - 148

JO - IEEE Communications Magazine

JF - IEEE Communications Magazine

SN - 0163-6804

IS - 12

M1 - 8535084

ER -