Today’s technologies for scanning people and detecting potential harmful objects or materials still require bulky technologies and infrastructures that usually slow down or block the flow of people coming in and out of a building or a structure. While this might still be seen as acceptable for specific military facilities with low level of check-in, possible threats to the population in transport hubs such as airports, train stations or specific facilities such as power plants or prison administrations, would require more adapted technologies, more transparent, with passive and stand-off scanning and respecting ethical issues of no personal body imaging. Recent terrorist attacks are calling for adapted measures that could detect harmful or prohibited objects in real time without generating bolts in people transit.
Based on a technology studied in the FP7 project EFFISEC (Grant #217991) that finished in January 2014, the French company MC2 aims at developing an innovation system that will transform the protection of EU infrastructures into more freely flowing processes with faster scanning, adapted ethics-respecting imaging, passive detection without harmful waves and stand-off scanning, with more transparent equipment.
In the SPIDERS project, MC2-Technologies will build from its experience in the field of security, from its staff and equipment resources and its existing and growing commercial network a new innovative solution to meet a transforming market and that will answer to the following industrial and scientific objectives:
MC2-Technologies will develop from its existing MM-Imager technology, a new passive millimeter wave system working in real time with a large field of view allowing to scan at the same time several persons in 1 to 10 m distance range by keeping a good resolution. This new technology will allow to reduce the size and weight of the complete system in order to be deployed for applications as railway station, metro, terminal airports, stadium, nuclear power plants and so on. The SPIDERS technology will offer capabilities of automatic hidden objects detection in real time and will be capable to detect a large spectrum of materials solid (metal or not), liquid, powder, explosive, drug…
The main Industrial objectives are:
– Development of camera real-time treatment adapted to a moving environment
- Pilot demonstration with evaluation by an External Advisory Board constituted
- Demonstration show for other usages at trade fairs
– Competitive cost
These industrial objectives for the two-year project will be supported by scientific and technical advancements.
Scientific objectives:
– Millimetric wave range (100-200 GHz) frequency definition and analysis with regards to the aimed usage
– In order to tackle any ethical issue, imaging and vision treatment to deal with restricted body visualisation
– In order to reach a near real-time process, 2 to 10 frames per second scanning, depending on required sensitivity
– In order to be more competitive and reach IO4, study, development and integration of time reversal technology