Electronic Military & Defense Annual Resource

6th Edition

Electronic Military & Defense magazine was developed for engineers, program managers, project managers, and those involved in the design and development of electronic and electro-optic systems for military, defense, and aerospace applications.

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Techniques diameter of 50 meters, the detection limits usually are in the lower parts-per-million (ppm) range. Liquid contaminations can be identified in low microliter quantities. n References Harig, R., Matz, G., Rusch, P., Gerhard, H-H., Gerhard, J-H., Schlabs, V.: Infrared Remote Sensing of Hazardous Vapours: Surveillance of Public Areas during the FIFA Football World Cup 2006, Proc. SPIE 6538 (2007). Harig, R., Rusch, P., Dyer, C., Jones, A., Moseley, R., Truscott, B.: Remote Measurement of Highly Toxic Vapours by Scanning Imaging Fourier-Transform Spectrometry, SPIE 5995, 599510, (2005). Harig, R., Grutter, M., Matz, G., Rusch, P., Gerhard, J-H.: Remote Measurement of Emissions by Scanning Imaging Infrared Spectrometry, CEM2007, 8th International Conference on Emissions Monitoring, Zürich, 34-39, (2007). Sabbah, S., Harig, R., Rusch, P., Eichmann, J., Keens, A., Gerhard, J-H.: Remote Sensing of Gases by Hyperspectral Imaging: System Performance and Measurements, Opt. Eng. 51, 111717 (2012), DOI:10.1117/1.OE.51.11.111717. Harig, R., Braun, R. Dyer, C., Howle, C., Truscott, B.: Short-range remote detection of liquid surface contamination by active imaging Fourier transform spectrometry, Opt. Express 16, 5708-5714, (2008). Braun, R., Eichmann, J., Sabbah, S., Harig, R., Howle, C. R.: Remote Detection of Liquid Surface Contamination by Imaging Infrared Spectroscopy: Measurements and Modelling, SPIE 8189, 81890G (2011). Braun, R., Harig, R.: Identification and Mapping of Spilled Liquids by Passive Hyperspectral Imaging, SPIE 8546 (2012). Braun, R., Harig, R.: Stand-Off Identification and Mapping of Liquid Surface Contaminations by Passive Hyperspectral Imaging, SPIE 871004 (2013). Electronic Military & Defense Annual Resource, 6th Edition 33 Figure 6: Massive parallelization of the identification routines. René Braun studied electrical engineering at the Technical University of Hamburg-Harburg. He started working on remote sensing systems with Prof. Dr. Roland Harig in 2006 and joined Bruker Optik GmbH in 2013.

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