Experimental performance analysis of cellular IoT channel modelling applied to smart grid applications

Name: Tanayoot Sangsuwan

Organization : King Mongkut's University of Technology North Bangkok (KMUTNB). The Sirindhorn International Thai-German Graduate School of Engineering (TGGS)

Email : s6109101960057@email.kmutnb.ac.th

Name: Chaiyod Pirak

Organization : King Mongkut's University of Technology North Bangkok (KMUTNB). The Sirindhorn International Thai-German Graduate School of Engineering (TGGS)

Email : chaiyod.p@tggs.kmutnb.ac.th

keyword: Cellular communication systems

LCSH: Internet of things

; Channel modeling

LCSH: Smart power grids

Abstract: in smart grid applications, reliable wireless communication at the cell edge is critical for maintaining data integrity and system responsiveness, particularly for Advanced Metering Infrastructure (AMI). Cellular IoT (CIoT) technologies such as NB-IoT and LTE-M are widely adopted due to their extended coverage and low-power capabilities. However, their performance can vary significantly under different wireless channel conditions. This study utilizes real-world Reference Signal Received Power (RSRP) measurements collected from an existing LTE-M-based deployment to evaluate the suitability of three wireless channel models-Rayleigh, Rician, and Nakagami-for representing channel behavior in cell-edge environments. Each model is assessed by comparing its probability density function (PDF) against the empirical RSRP distribution. This analysis helps identify which fading model best represents the actual field data and supports more accurate channel-aware network selection strategies for CIoT in smart grid applications. From the experimental results, the Rayleigh distribution demonstrated the best overall fit to the empirical data, followed by Nakagami, while Rician exhibited the least accuracy. These findings highlight the importance of selecting an appropriate fading model to ensure reliable communication performance in real-world smart grid deployments.

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2025

Modified: 2026-01-08

Issued: 2026-01-08

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BibliograpyCitation : In IEEE Thailand Section. Antennas and Propagation/Electron Devices/Microwave Theory and Techniques Joint Chapter, Electrical Engineering/Electronics, Computer, Telecommunications, and Information Technology Association, and King Mongkut's University of Technology North Bangkok. The 5th Research, Invention and Innovation Congress (RI2C 2025) (pp.290-293). Bangkok : IEEE Thailand Section

eng

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