Archive/Narrowband IoT Channel Characterisation Across Multiple Environments in Thailand
Narrowband IoT Channel Characterisation Across Multiple Environments in Thailand
Kittiwat Srivilas, Chaiyod Pirak
5. Juli 2026
en

Abstract

Narrowband Internet of Things (NB-IoT) is a 3GPP-standardised low-power wide-area network (LPWAN) technology designed for massive machine-type communications in challenging propagation environments. Despite its growing deployment, empirical channel data for Thailand’s diverse terrain—urban dense, urban outdoor, suburban, rural, and forest/mountain—remains limited in the open literature. This paper presents a composite channel characterisation study encompassing sixteen measurement sites across five environment classes in central and western Thailand. A composite channel model combining log-distance path loss, log-normal shadowing, and Nakagami-m fast fading is applied across all sites, yielding 8000 reference signal received power (RSRP) samples. Path loss exponents range from n = 2.2 (rural) to n = 4.0 (forest/mountain), back-calculated Nakagami-m parameters from m = 0.44 to m = 3.51, and shadowing standard deviations from σsh = 4.16 to 8.38 dB; ECL distributions are derived for all five environment classes. The back-calculated Nakagami-m parameters reveal a coherence gradient from sub-Rayleigh forest terrain (m < 1) through urban Rayleigh (m = 1.00) to near-Rician rural conditions (m > 2)—a fading hierarchy not previously reported for NB-IoT in Thailand. Results confirm that the composite channel model accurately characterises RSRP distributions and provides actionable network planning parameters for NB-IoT deployment in varied Thai terrain.

IPC Classification

G06H04H01

Keywords

narrowbandchannelcharacterisationacrossmultipleenvironmentsthailandinternetthingsnb-iot3gpp-standardisedlow-powerwide-areanetworklpwantechnologydesignedmassivemachine-typecommunicationschallengingpropagationdespitegrowing
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