The DIAMINE Landmine Detection System (CROSBI ID 495887)
Prilog sa skupa u zborniku | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Viesti, G. ; Palomba, M. ; Abbrescia, M. ; Iaselli, G. ; Loddo, F. ; Paticchio, V. ; Ranieri, T. ; Trentadue, R. ; Colla, A. ; Musso, A. ; Piccotti, A. ; Poggio, F. ; Dellacasa, G. ; Lazzizzera, I. ; Lecca, P. ; Obhođaš, Jasmina ; Sudac, Davorin ; Nađ, Karlo ; Valković, Vladivoj ; Brusegan, A. ; Lobo, G. ; Jurković, M. ; Hlavac, S. ; Catarsi, F. ; Franchi, G. ; Chianella, M.A. ; Galimberti, D. ; Pavesi, L. ; Zorat, A. ; Koester, A. ; Plein, M. ; Merz, A. ; Schneider, H. ; Vallon, G. et al.
engleski
The DIAMINE Landmine Detection System
The DIAMINE sensor makes use of the neutron backscattering techniques (NBT). The presence of a buried land-mine causes a localized strong increase of a yield of low energy neutrons, due to the hydrogen content of the explosive and of plastic case of the mine. In some conditions, the hit distribution could provide an "image" of the hidden object. Coupling of the NBT sensor with a metal detector (MD) will provide the operator with a compact device, reducing the false alarm rate of the single sensors. The laboratory tests of the DIAMINE system demonstrate the possibility to detect small APM up to 10 cm depth in sand. The best use of the NBT technique is presented in the frame of the Humanitarian De-mining requirements.
neutron backscattering techniques (NBT) ; land-mine
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Podaci o prilogu
924-927.
2003.
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objavljeno
0-7354-0149-7
10.1063/1.1619859
Podaci o matičnoj publikaciji
AIP Conference Proceedings
Duggan, J.L. ; Morgan, I.L.
American Institute of Physics (AIP)
0094-243X
1551-7616
Podaci o skupu
Nepoznat skup
predavanje
29.02.1904-29.02.2096