A landmine, unexploded ordnance (UEO) or improvised explosive device (IED) detection and destruction system which uses ground penetrating (GPR) radar to detect and guide a ballistic weapon to destroy it. The positions of which are also visually communicated through smart helmets or headgear having heads up display visors worn by the personnel, soldiers, combatants or any endangered persons in the vicinity.

The present disclosure is directed to mobile correctional facility robots and systems and methods for coordinating mobile correctional facility robots to perform various tasks in a correctional facility. The mobile correctional facility robots can be used to perform many of the tasks traditionally assigned to correctional facility guards to help reduce the number of guards needed in any given correctional facility. When cooperation is employed among multiple mobile correctional facility robots to execute tasks, a central controller can be used to coordinate the efforts of the multiple robots to improve the performance of the overall system of robots as compared to the performance of the robots when working in uncoordinated effort to execute the tasks.

Provided is a telerobotic mining device for underground mining, and specifically for stope mining, as well as a method of mining using such a device. The telerobitic mining device is capable of remotely moving about a mine and utilizing drill arms to drill a hole within a chosen rock bed. Explosive placement arms on the telerobot may be utilized to place an explosive within the drilled hole to blast away rock. Control over the device is achieved by way of operational commands that may be wirelessly sent to the device from a command center located outside the mine.

A security robot comprises a mobile base module with a head module supported in a raised position centrally above the mobile base. The head module includes an upwardly opening cavity interior thereto that receives an inter-changeable payload bucket unit. The inter-changeable payload bucket has a displaceable cap member movable between a closed position and an elevated position. The cap member in the closed position closes an upper surface of the payload bucket and conceals any payload enclosed therein. The cap member in the elevated position is positioned above and allows top access to any payload located in the payload bucket unit. Preferably, the mobile base is provided with a holonomic drive arrangement. An elevating platform can also be associated with the cap member and can support sensors and/or conflict devices. The ability to easily alter the payload increases the possible applications and/or allows for multipurpose applications.

A recoil managed disruptor includes a disruptor device having a barrel from which a slug of material is fired. A piston is mechanically coupled to the disruptor device. A housing which supports the disruptor on a positioning device includes a deformable recoil absorber (DRA) constraint. The DRA constraint is configured to receive a sacrificial DRA structure comprised of a semi-rigid material. The piston is responsive to a recoil force produced when the disruptor device is fired to travel along an axial length of the housing and permanently deform the DRA structure within the DRA constraint.

A method comprising the steps of providing an Explosive Initiation Safety and Handling System (EISS) coupled to a robot, operatively coupling a charge carrier table and a manipulator to the robot; securing a charge to the charge carrier table; installing a shock tube spool on the shock tube spooling mechanism and locking with an indexing nut; inserting the shock tube that has been uncoiled from the spooling mechanism into the interrupter and replacing the cap; attaching the shock tube to the charge; making an initiator-to-interrupter connection with the shock tube; retracting the manipulator on the robot to a fully stowed position and rotating the charge carrier in front of the robot; picking up the charge with the manipulator, extending the manipulator forward and placing the charge at a threat; stowing the charge carrier; positioning the robot at a distance from the threat, allowing the shock tube to spool out; remotely activating a first firing circuit on the robot to arm the system; cutting the shock tube inside the interrupter and aligning the shock tube with the initiator; and firing a second circuit to initiate the shock tube.

A two wheeled throwable robot comprises an elongate chassis with two ends, a motor at each end, drive wheels connected to the motors, and a tail extending from the elongate chassis. The throwable robot includes a pair of torque limiting mechanisms, each torque limiting mechanism being operatively coupled between a motor and a drive wheel. Each torque limiting mechanism comprises a drive flange portion, a driven flange portion and a plurality of rollers. A spring element provides a ring force that biases the rollers toward the driven flange portion.

The following invention relates to smart material couplings, particularly to shape memory alloy suspension systems to mitigate against shock or blast. There is provided A land vehicle comprising: an armoured v shaped hull; at least one wheel set with a hub, and at least one suspension device comprising a shape memory material operably connecting the hull to the wheel set.

A tugger train trailer is disclosed, including a frame and drive-on surfaces for holding a trolley cart. Transport vehicle drive-on surfaces for an autonomous transport vehicle moving the trolley cart are also provided such that a unit of trolley cart and autonomous transport vehicle can drive on the drive-on surfaces.

A two wheeled throwable robot comprises an elongate chassis with two ends, a motor at each end, drive wheels connected to the motors, and a tail extending from the elongate chassis. The throwable robot includes an enable/disable arrangement comprising a pair of magnets generating a magnetic field and a magnetic field sensor positioned in proximity to the pair of magnets. The sensor is activated upon the occurrence of a specific modification of the magnetic field. The throwable robot may include a key member formed of a material to modify the magnetic field to enable the robot.