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Timely recognition of threats can be significantly supported by security assistance systems that work continuously in time and call the security personnel in case of anomalous events in the surveillance area. We describe the concept and the realization of an indoor security assistance system for real-time decision support. The system consists of a computer vision module and a person classification module. The computer vision module provides a video event analysis of the entrance region in front of the demonstrator. After entering the control corridor, the persons are tracked, classified, and potential threats are localized inside the demonstrator. Data for the person classification are provided by chemical sensors detecting hazardous materials. Due to their limited spatio-temporal resolution, a single chemical sensor cannot localize this material and associate it with a person. We compensate this deficiency by fusing the output of multiple, distributed chemical sensors with kinematical data from laser-range scanners. Considering both the computer vision formation and the results of the person classification affords the localization of threats and a timely reaction of the security personnel.
Asymmetric threats require powerful surveillance technology which helps to preserve the security. Security checks which focus on Improvised Explosive Devices (IED’s) or the identification of persons carrying hazardous substances are the major task of our research within the HAMLeT+ (Hazardous Material Localization and Person Tracking) project. Further on, there is a pressing need for assisting the security personnel, either civil or military, by extending the detection capabilities and to deliver efficient and reliable, real time decision support for their task to percept threats. Military camp protection with heterogeneous net-worked sensors and comprehensive sensor data fusion could be such an element. The technology developments concentrate on the integration of different sensor types (video, tracking sensors, CBRNE sensors) in order to get a better and comprehensive understanding in a defined entry area. Data fusion is used to combine kinematic data of persons (where, when) with additional attribute information of them (what) in order to identify that single person carrying the attributes and to classify the threat. The project was initiated as a Supporting Activity funded by the EU within the PASR 2006 scheme. With regards to the specific task for military camp protection it was extended and redesigned. In HAMLeT+ several chemical sensors for hydrocarbons like fuels, alcohols or solvents were used. Such chemicals are available in bigger amounts on the free market. Using them e.g. as fire accelerants they can cause a huge damage. Therefore their detection or the detection of persons carrying such substances or having contaminations on their clothes is of great interest. Sensitive devices for the detection of these analytes are e.g. metal oxide sensors [1]. Our presentation illustrates experimental data, which were gathered with the experimental system HAMLeT+ during the NATO “Defense Against Terrorism (DAT)” campaign „COMMON SHIELDS” in August and September 2008.
Gas chromatography with flame-ionization detection (FID) and gas chromatography-mass spectrometry (GC/MS) has been used for structure elucidation of long-chain primary n-alkyl amines after derivatization with trifluoroacetic anhydride (TFAA). Electron impact ionization- (EI) and positive chemical ionization- (PCI) mass spectra of trifluoroacetylated derivatives of the identified nalkyl amines are presented. The corrosion inhibiting n-alkyl amines were applied in the investigation of a new anticorrosive and antifouling formulation for water-steam circuit of energy systems in the power industry. The presented results are part of an EU-funded international collaboration with partners from research institutes and industry from Poland, Lithuania, Romania, France and Germany (EUREKA project BOILTREAT E!2426).
A method for the identification of polymeric residues in recycled aluminium by using analytical pyrolysis at 700°C hyphenated to gas chromatography-mass spectrometry (Py-GC/MS) was presented for the first time. The polymeric residues in recycled aluminium were identified as a mixture of polyethylene, polystyrene, and phenolic resin. The described method could be useful for the aluminium industry as a part of the quality control of the recycled aluminium production.
Die analytische Pyrolyse ist eine universell einsetzbare Messtechnik zur Untersuchung von hoch molekularen organischen Verbindungen. Bei der Pyrolyse der hochmolekularen organischen Ver bindungen entstehen durch thermische Zersetzung bei 500-1400°C in einem Inertgasstrom nieder molekulare Verbindungen. Diese niedermolekularen Pyrolyse-Produkte werden dann den her kömmlichen Analyseverfahren wie GC-FID, GC/MS oder GC/FTIR unterworfen, die Rück schlüsse auf chemische Zusammensetzung und Struktur der Ausgangsstoffe erlauben. Die Festphasen mikroextraktion (SPME) ist eine lösungsmittelfreie Mikroextraktionstechnik. Im Headspace-Modus (HS) wurde SPME in den letzten Jahren für die Bestimmung von Rest mono meren und gesund heits gefährdenden, leichtflüchtigen organischen Verbindungen (VOCs) in Kunststoffen verwendet.
Refers To: Peter Kusch, Gerd Knupp, Marcus Hergarten, Marian Kozupa, Maria Majchrzak: Solid-phase extraction-gas chromatography and solid-phase extraction-gas chromatography–mass spectrometry determination of corrosion inhibiting long-chain primary alkyl amines in chemical treatment of boiler water in water-steam systems of power plants. - Journal of Chromatography A, Volume 1113, Issues 1–2, 28 April 2006, Pages 198-205
Der zunehmende Einsatz der Polymerwerkstoffe in der Automobilindustrie erfordert empfindliche und zuverlässige Methoden zur Analyse der verwendeten Stoffe. Bei Schadenanalysen an Komponenten in Kraftfahrzeugen stehen oftmals nur wenige Informationen über das Bauteil selbst, wie die chemische Zusammensetzung, die Temperaturbeständigkeit, mögliche Kontaminierungs stoffe oder mechanische Eigenschaften zur Verfügung. Der Schadensbereich ist meistens be grenzt und nicht immer homogen. Zur Klärung des Schadens stehen häufig nur kleine Proben mengen zur Verfügung, die jedoch für die Erkennung der Schadensursache von großer Bedeutung sein können.
Die Wiederverwertung von Kunststoffen (Kunststoffrecycling) kann in die werkstoffliche (materielle), die rohstoffliche (chemische) und die energetische Verwertung unterteilt werden. Beim werkstofflichen Kunststoffrecycling werden sortenreine Kunststoffreste gewaschen, gemahlen und von der Kunststoff verarbeitenden Industrie als Rohmaterial eingesetzt. Der chemische Aufbau des erhaltenen Werkstoffs (Re-Granulats) bleibt erhalten. Bei der rohstofflichen Verwertung werden Kunststoffreste zu Monomeren zurückgeführt. Die erhaltenen Monomere werden dann bei der Herstellung neuer Kunststoffe verwendet. Bei der energetischen Verwertung werden die Kunststoffreste der Zement- oder Stahlindustrie als Energieträger zugeführt.
We introduce our Lessons Learned from the NATO CNAD PoW “Defense Against Terrorism (DAT)” campaign „COMMON SHIELD” from August and September 2008, present our data and illustrate our experience, which were gathered with the experimental system HAMLeT+ (Hazardous Material Localization and Person Tracking Plus) for military camp protection. The focus of „COMMON SHIELD” was the network-centric operation and demon-stration of innovative technologies for Intelligence, Surveillance, Reconnaissance and Target Acquisition of Terrorists (ISRTA). With regard to the specific task for military camp protection, the original demonstrator HAMLeT [1], which was initiated as a Supporting Activity funded by the EU within the PASR 2006 scheme, was extended and redesigned as HAMLeT+. In HAMLeT+ several chemical sensors for hydrocarbons like fuels, alcohols or solvents were used. The identification of persons carrying hazardous substances and the classification of those substances are the major task of our research. Further on, there is a pressing need for assistance systems for the guards, to extend the spectra of detection capabilities and to receive efficient and reliable, real time decision support for the task to percept threats, which so far could not even be realized at an entry control facility. Security assistance by means of heterogeneous net-worked sensors and comprehensive sensor data fusion could be such an element for better protection. New technological developments concentrate on the integration of different sensor types (video, tracking sensors, CRE sensors) in order to get a better and comprehensive understanding of potential threats in a defined area. Multiple sensors data fusion can be used to combine complementary types of data e.g. kinematic data of objects (where, when) with additional attribute information (what) in order to identify those objects carrying the attributes of interest and give a classification of the potential threat.