International Journal of Research in Circuits, Devices and Systems
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P-ISSN: 2708-4531, E-ISSN: 2708-454X
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2026, Vol. 7, Issue 1, Part A


Statistical analysis of signal-to-noise ratio in communication receivers


Author(s): Lukas Müller and Anna Schneider

Abstract: Signal-to-noise ratio serves as the fundamental metric for characterising communication receiver performance, yet practical SNR measurements exhibit substantial variability arising from environmental factors, instrumentation limitations, and signal characteristics that complicate system evaluation. This research presents comprehensive statistical analysis of SNR measurement distributions in wireless communication receivers operating across diverse conditions representative of practical deployment scenarios [1]. The investigation collected 5,000 SNR measurements using calibrated instrumentation in controlled laboratory and field environments, spanning indoor office, outdoor urban, and rural propagation conditions. Statistical analysis revealed that indoor measurements followed approximately normal distributions with mean SNR of 22.4 dB and standard deviation of 3.8 dB, whilst outdoor urban environments exhibited lower mean of 15.1 dB with increased variability (σ = 5.2 dB) attributable to multipath fading and interference [2]. Modulation scheme requirements were characterised through bit error rate testing, establishing that 64-QAM requires median SNR of 30 dB compared to 15 dB for BPSK to achieve target BER of 10⁻⁶. Regression analysis of BER versus SNR yielded R² = 0.943, confirming strong adherence to theoretical waterfall curves with quantified deviation bounds [3]. Measurement uncertainty analysis comparing five instrumentation approaches revealed combined uncertainties ranging from ±0.64 dB for network analyser methods to ±2.68 dB for oscilloscope-based estimation, providing guidance for instrumentation selection based on required accuracy. The research establishes statistical frameworks for SNR characterisation that enable reliable receiver performance assessment accounting for measurement variability and environmental factors [4]. Practical guidelines derived from the analysis support system design decisions regarding link margin allocation and modulation scheme selection under realistic operating conditions [5].

DOI: 10.22271/27084531.2026.v7.i1a.107

Pages: 07-12 | Views: 26 | Downloads: 12

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International Journal of Research in Circuits, Devices and Systems
How to cite this article:
Lukas Müller, Anna Schneider. Statistical analysis of signal-to-noise ratio in communication receivers. Int J Res Circuits Devices Syst 2026;7(1):07-12. DOI: 10.22271/27084531.2026.v7.i1a.107
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