An explosive device detection and expulsion system broadly comprising a detection subsystem for sensing an IED attached to a vehicle and an expulsion subsystem for expelling the IED from the vehicle. The detection subsystem includes a sensor for detecting an IED via an electromagnetic field change or capacitance change, vibrations, and/or heat, and a controller for activating the expulsion subsystem upon receiving a detection signal from the sensor. The expulsion subsystem includes a deployable panel configured to be attached to the vehicle and a deployable mechanism for shifting the deployable panel from an undeployed state to a deployed state so as to expel the IED from the vehicle.

A system may include a surface penetrating radar system. The system may further include a battery system of a vehicle. At least a portion of the battery system of the vehicle may also be at least a portion of the surface penetrating radar system.

Method and apparatus is a handheld ground penetrating radar which transmits radar pulses and acquires and processes received data for presentation on a display allowing a user to identify buried targets. Novel low cost approach to portable high-resolution light weight penetrating imaging. Method and apparatus for a portable penetrating radar incorporating a display depicting permittivity variation versus distance and time as the medium is scanned.

Method and apparatus is a handheld ground penetrating radar which transmits radar pulses and acquires and processes received data for presentation on a display allowing a user to identify buried targets. Novel low cost approach to portable high-resolution light weight penetrating imaging. Method and apparatus for a portable penetrating radar incorporating a display depicting permittivity variation versus distance and time as the medium is scanned.

Airborne systems and methods for the detection, location and obtaining of images of buried objects and for the characterization of the composition of the subsoil. The systems comprise at least one aerial module with a radar unit that emits and/or captures radar signals and a positioning and guidance system with an accuracy equal to or less than 3 cm, and a ground station with a flight control system and a radar signal processing unit where radar signal processing algorithms are applied. The invention also comprises a method for the detection, localization and obtaining of images of buried objects and a method for the characterization of the composition of the subsoil. Applicable in sectors where it is necessary to perform the detection of buried objects, as for example in civil applications (detection of antipersonnel mines), pipeline inspection or in archaeology.

The invention relates to a dual detector comprising a detection head having: an inductive sensor which is mounted on the platform (11) and includes a transmitter coil (12) and a separate receiver coil (13), the transmitter coil (12) and the receiver coil (13) each forming a loop, a soil penetrating radar (60) comprising a transmitter antenna (61) and a receiver antenna (62), the transmitter antenna (61) and the receiver antenna (62) each being accommodated in the center of one of the loops of the transmitter and receiver coils (12) (13), the transmitter antenna (61) and the receiver antenna (62) having a maximum thickness (e) of one micron in order to limit interference with the inductive sensor (12).

A mine sweeping vehicle includes an arm mechanism and a detector integrated to the arm mechanism. The detector scans the underground by an orbital movement. The mine sweeping vehicle includes at least one data recording element for delivering position information of a mine, the position information of the mine is detected by a detector and provided by a positioning system, and the position information of the mine is delivered to a display element.

A mine sweeping vehicle includes an arm mechanism and a detector integrated to the arm mechanism. The detector scans the underground by an orbital movement. The mine sweeping vehicle includes at least one data recording element for delivering position information of a mine, the position information of the mine is detected by a detector and provided by a positioning system, and the position information of the mine is delivered to a display element.

A weapons and explosives detector that comprises at least one controlled magnetic field sensor (10) connected to at least one antenna (11); where this antenna (11) is configured as one electrode; and where the controlled electrostatic field sensor (10) is configured to detected a disturbance in the electrostatic field (3) generated by at least one antenna (11) connected with that sensor (10); and where at least one antenna (11) is prepared in a pole (1); or on the perimeter of the vehicle's (2) bodywork; or in an individual combat weapon; where each sensor (10) is connected to at least one control device (100).

A weapons and explosives detector that comprises at least one controlled magnetic field sensor (10) connected to at least one antenna (11); where this antenna (11) is configured as one electrode; and where the controlled electrostatic field sensor (10) is configured to detected a disturbance in the electrostatic field (3) generated by at least one antenna (11) connected with that sensor (10); and where at least one antenna (11) is prepared in a pole (1); or on the perimeter of the vehicle's (2) bodywork; or in an individual combat weapon; where each sensor (10) is connected to at least one control device (100).