Authors: Yayla, Mikail
Toma, Anas
Chen, Kuan-Hsun
Lenssen, Jan Eric
Shpacovitch, Victoria
Hergenröder, Roland
Weichert, Frank
Chen, Jian-Jia
Title: Nanoparticle classification using frequency domain analysis on resource-limited platforms
Language (ISO): en
Abstract: A mobile system that can detect viruses in real time is urgently needed, due to the combination of virus emergence and evolution with increasing global travel and transport. A biosensor called PAMONO (for Plasmon Assisted Microscopy of Nano-sized Objects) represents a viable technology for mobile real-time detection of viruses and virus-like particles. It could be used for fast and reliable diagnoses in hospitals, airports, the open air, or other settings. For analysis of the images provided by the sensor, state-of-the-art methods based on convolutional neural networks (CNNs) can achieve high accuracy. However, such computationally intensive methods may not be suitable on most mobile systems. In this work, we propose nanoparticle classification approaches based on frequency domain analysis, which are less resource-intensive. We observe that on average the classification takes 29 μ s per image for the Fourier features and 17 μ s for the Haar wavelet features. Although the CNN-based method scores 1–2.5 percentage points higher in classification accuracy, it takes 3370 μ s per image on the same platform. With these results, we identify and explore the trade-off between resource efficiency and classification performance for nanoparticle classification of images provided by the PAMONO sensor.
Subject Headings: Nanoparticles
Frequency domain analysis
Mobile sensors
PAMONO biosensor
Surface plasmon resonance
Embedded systems
Subject Headings (RSWK): Nanopartikel
Eingebettetes System
Issue Date: 2019-09-24
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Appears in Collections:Entwurfsautomatisierung für Eingebettete Systeme

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