For the first time research on the scattering of sound by a human body has been carried out combining computer and theoretical modelling with experimental tests. Additionally, new techniques for calibration of low freq sound velocity probes has been developed. After preparing a conceptual and preliminary design of the first prototypes for sound, mmwave and Thz interrogation prototypes, they have been manufactured and tested in the 2RP. A blast proof cabin has been developed able to host the devices but also useful for other purposes. This cabin is additionally provided with a Counterfog(r) fast disinfection system so that it can be easily, automatically and fast decontaminated in case any biological agent may be present or a contagious person has walked through. Additionally a Bioaerosol Fast Sampler (BIAFTS) has already been installed for detection of Biological pathogens or chemical aerosols or vapours.
Blast tests were conducted with charges both inside and outside -according to ASIAD regulations-.
Several prorotypes of sound, mm-wave and THz devices have been designed, manufactured, tested and improved. FInally demonstrationd in operational envirornments were successfully undertaken.