Sniffer for concealed people discovery

SNOOPY

Funded by: European Commission  
Calls: FP7-SECURITY
Start date: 2014-01-01  End date: 2016-12-31
Total Budget: EUR 2.605.285,00  INO share of the total budget: EUR 281.878,00
Scientific manager: Sberveglieri Giorgio   and for INO is: Ponzoni Andrea

Web Site: Visit

Organization/Institution/Company main assignee: Università degli Studi di Brescia

other Organization/Institution/Company involved:
Airbus
C-Tech Innovation
KEMEA – Center for Security Studies
Università degli Studi di Brescia
Università degli studi di Roma Tor Vergata

other INO’s people involved:

Baratto Camilla
Falasconi Matteo
Kholmanov Iskandar


Abstract: Illegal traffic of people is a major issue in security. The need to face this crime as well as the planning of countermeasures and the identification of missing capabilities has been the subject of several security programs proposed both at a world-wide and an European level. Nowadays, dogs represent the most effective “tool” to face these traffics, but they present intrinsic drawbacks that limit their continuous and systematic use: they can’t work in a 24/7 way (24 hours per day and 7 days per week).
The SNOOPY project aims to the development of a handheld artificial sniffer system for customs/police inspection purposes, e.g. the control of freight containers. The artificial system should be able to seek hidden, living persons. The instrument consists of a vapor sampling pump unit, an enrichment unit, a desorption unit, a detection unit (sensor array) and an alarm indicator unit. Different kinds of sensors will be used together with pattern recognition software, so that each target can be detected as selective as possible. The sniffer instrument will be benchmarked towards dogs and towards ion mobility spectrometry.
Most of human odors are produced by the skin. Human odor results from the combined action of both the skin glands and the bacterial populations localized at skin surfaces, which live by metabolizing and transforming organic compounds that they are able to absorb on the skin surface. The identification and the detection of this particular molecules is the fundamental point of the development of SNOOPY instrument.
The SNOOPY sniffer will be:
1) portable, thanks to the use of low-weight, small size and low-power consumption technologies;
2) suited to work in a 24/7 way;
3) able to recognize the presence of hidden people;
4) Equipped with a small pipe to collect odors in proximity of small apertures;
5) user friendly: the user will receive a direct information and him/her will not be required to have scientific or technical competences to interpret the instrument display.
The instruments will be used together with K9-Units to identify the complementarity of the two approaches.

INO’s Experiments/Theoretical Study correlated:
Artificial Olfactive Systems
Electrical and optical chemical gas sensing
Advanced applications of quasi 1d oxides
Preparation of oxide quasi 1D structures
Electron microscopy and EBL

The Scientific Results:
1) A Novel Electronic Nose as Adaptable Device to Judge Microbiological Quality and Safety in Foodstuff
2) Effects of metal nanoparticles functionalization on tin oxide nanowires gas sensors
3) Copper Oxide nanowires for surface ionization based gas sensors