Standoff detection: classification of biological aerosols using laser induced fluorescence (LIF) technique

Hausmann, Anita; Duschek, Frank; Fischbach, Thomas; Pargmann, Carsten; Aleksejev, Valeri; Poryvkina, Larisa; Sobolev, Innokenti; Babichenko, Sergey; Handke, Jürgen

doi:10.1117/12.2049923

Cited by 7 publications

(6 citation statements)

References 9 publications

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“…Experiments show that it can detect and distinguish bioaerosols [23] . In 2014, the 280nm and 355nm dual wavelength UV laser-induced fluorescence system proposed by German Aerospace Center for aerosol detection and classification realized the preliminary judgment of different kinds of compounds by using spectral pattern recognition software [24] . Through different data under multi-wavelength excitation, more specific fluorescence characteristics of bioaerosols can be obtained, and the classification accuracy of bioaerosols can be further improved.…”

Section: Bioaerosol Classificationmentioning

confidence: 99%

Development of bioaerosol lidar system

Yang

2022

Fifth International Conference on Mechatronics and Computer Technology Engineering (MCTE 2022)

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As a popular bioaerosol remote sensing technology, laser-induced fluorescence lidar technology can realize in-situ, fast, lossless, high temporal and spatial resolution and wide-range bioaerosol remote sensing detection under certain conditions. It provides support for the research of bioaerosol and has been applied in many detection practices. This paper introduces the basic principle of lidar detection, summarizes and lists the development status of lidar system for bioaerosol detection, analyzes it, and finally gives the corresponding conclusions.

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Section: Bioaerosol Classificationmentioning

confidence: 99%

Development of bioaerosol lidar system

Yang

2022

Fifth International Conference on Mechatronics and Computer Technology Engineering (MCTE 2022)

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“…In literature, several studies show the capability of the LIF technique to detect and classify biological agents [7,8]. Currently, the main weakness of the LIF technique is connected to the…”

Section: Introductionmentioning

confidence: 99%

An UltraViolet Laser-Induced Fluorescence (UV-LIF) system to detect, identify and measure the concentration of biological agents in the environment: a preliminary study

Gabbarini¹,

Rossi²,

Ciparisse³

et al. 2019

J. Inst.

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A: Detection and classification of biological agents are not easy, especially at an early stage of contamination and when more than one species is aerodispersed in the environment. This research aims at demonstrating the capability of UltraViolet Laser-Induced Fluorescence (UV-LIF) technique to detect, classify and measure the concentration of biological agents in aqueous samples, exploiting ubiquitous endogenous fluorophores. The incident radiation is a third harmonic Nd:YAG laser emitting at 355 nm. A spectrometer collects the fluorescence spectra that are subsequently analysed in order to achieve information about the classification and the concentration of each agent in the sample. The benefits of the UV-LIF combined with data analysis techniques concern the speed of the analysis, the limited costs for the equipment, and the possibility analyse the airflow without the need for sampling. A LIF-based system may find its applicability in different contexts (e.g. for the monitoring of HVAC systems in healthcare settings or in crowded places, such as schools or airports) allowing a fast and targeted response in the event of contamination. In this work, the experimental setup and the capability of the classification and measurement techniques will be discussed. The first measurements are shown to validate the potentialities of the LIF.

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“…In cooperation with LDI Innovations (Estonia), we presented a setup for dual-excitation wavelength (280 nm, 355 nm) LIF detection and classification of different bioorganic substances [20,21]. The online classifier used therein relies on spectral feature extraction and selection and has been trained with a basic set of experimental spectra by bootstrap aggregation and a decision tree classification.…”

Section: Introductionmentioning

confidence: 99%

Standoff detection and classification of bacteria by multispectral laser-induced fluorescence

Duschek

Fellner

Gebert

et al. 2017

Advanced Optical Technologies

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Abstract:Biological hazardous substances such as certain fungi and bacteria represent a high risk for the broad public if fallen into wrong hands. Incidents based on bio-agents are commonly considered to have unpredictable and complex consequences for first responders and people. The impact of such an event can be minimized by an early and fast detection of hazards. The presented approach is based on optical standoff detection applying laser-induced fluorescence (LIF) on bacteria. The LIF bio-detector has been designed for outdoor operation at standoff distances from 20 m up to more than 100 m. The detector acquires LIF spectral data for two different excitation wavelengths (280 and 355 nm) which can be used to classify suspicious samples. A correlation analysis and spectral classification by a decision tree is used to discriminate between the measured samples. In order to demonstrate the capabilities of the system, suspensions of the low-risk and non-pathogenic bacteria Bacillus thuringiensis, Bacillus atrophaeus, Bacillus subtilis, Brevibacillus brevis, Micrococcus luteus, Oligella urethralis, Paenibacillus polymyxa and Escherichia coli (K12) have been investigated with the system, resulting in a discrimination accuracy of about 90%.

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Standoff detection: classification of biological aerosols using laser induced fluorescence (LIF) technique

Cited by 7 publications

References 9 publications

Development of bioaerosol lidar system

Development of bioaerosol lidar system

An UltraViolet Laser-Induced Fluorescence (UV-LIF) system to detect, identify and measure the concentration of biological agents in the environment: a preliminary study

Standoff detection and classification of bacteria by multispectral laser-induced fluorescence

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