A mounting adapter for a mounting and fastening system includes: a radially inward portion including a throughbore having a throughbore axis; an inboard end including an adapter inboard surface extending transversely with respect to the axis, and an inboard counterbore in the adapter inboard surface in communication with the throughbore; an outboard end including an adapter outboard surface extending transversely with respect to the axis; and a radially outward portion having a tapered outward surface that tapers in an axially inboard and radially inward direction.

A mounting and fastening system includes a mounting adapter configured to adapt mounting of a second component with respect to a first component, and having a radially inward portion including a throughbore, and a radially outward portion with a tapered outward surface that tapers in an axially inboard and radially inward direction and that cooperates with a tapered surface of the second component and such that an adapter inboard surface faces a first outboard surface of the first component. A mounting bolt for a mounting a fastening system includes: a head including flat opposite sides and semi-cylindrical opposite sides interposed between the flat opposite sides; a shank extending from the head; an external thread on at least a portion of the shank; a passage extending through the head and into at least a portion of the shank; and an internal thread in at least a portion of the passage.

A mounting and fastening system clamp has an inboard-outboard axis, and includes a clamp inboard surface extending transversely with respect to the axis; a clamp outboard surface extending transversely with respect to the axis; a clamp outward surface extending between the inboard and outboard surfaces; a tapered inward surface extending between the inboard and outboard surfaces and tapering in an axially inboard and radially inward direction; and a rail mating inward surface extending between the inboard and outboard surfaces.

A mounting and fastening system rail has an inboard-outboard axis, and comprises: a rail inboard surface extending transversely with respect to the axis; a rail outboard surface extending transversely with respect to the axis; at least one sidewall extending between the rail inboard and outboard surfaces and having at least one hanger mounting edge; and at least one endwall extending between the rail inboard and outboard surfaces and having an incurvate tapered surface extending between the rail inboard and outboard surfaces and tapering in an axially inboard and radially inward direction.

A system with a spool base frame having an initiator, an interrupter, control electronics, and a proximity sensor connected thereto, wherein the spool base frame is configured to hold a shock tube spooling mechanism, the interrupter is configured to allow installation and spooling of a spool of shock tube disposed on the shock tube spooling mechanism, the interrupter is configured to cut spooled shock tube from the spool of shock tube, the control electronics are configured to send a signal directing the interrupter to cut the spooled shock tube from the spool, the interrupter is configured to physically redirect and splice the cut shock tube to a second shock tube connected to the initiator, and the interrupter is configured to discharge the cut shock tube after the shock tube is fired and spent.

The use of shielded material in a deployable vehicle arresting and containment device that, when used for the interception of an unmanned vehicle, effectively achieves RF isolation of that vehicle, breaking all external communications with that vehicle. This apparatus, which may have internal and external antennas, could enable a variety of advanced effects such as localized GPS and command and control link spoofing and jamming as well as providing a vehicle for signal intercept and intelligence solutions. Additionally, due to the shielding properties of the arresting and containment device, semi-destructive means such as localized EMPs could be used to damage the encapsulated unmanned vehicle electronics.

The target marking device comprises a small-size flying unit, said flying unit being configured to fly at low height and to be guided with the aid of guidance commands, said flying unit being furnished with at least one sensor able to measure at least one parameter of the environment, a data transmission unit configured to emit at least data relating to measurements carried out by the sensor from the flying unit and to receive guidance orders at the flying unit, and at least one emitter able to emit position information.

A two wheeled throwable robot comprises an elongate robot body with an axis supporting two drive wheels and a rearward tail extending from the robot body. The robot body comprising an elongate chassis with two ends, a motor at each end, the motors connecting to the drive wheels through gear and clutch systems supported by the chassis, sensors and operational components positioned at the front of the chassis, processing circuitry, radio, memory, power control circuitry are located in the chassis such as the circuitry compartments and may be sealingly contained therein. The chassis having a main chassis body that provides enhanced structural strength by supporting the drive motors in conforming bores and having a plurality of U-shaped recesses for receiving a forward chassis body component and a battery module. Additional recesses on the ends of the main body component, along with end chassis caps define drive system compartments for gear systems and clutch mechanism that are isolated from the interior circuitry compartments and the drive motors.

This invention provides impact detection and vehicle cooperation to achieve particular goals and determine particular threat levels. For example, an impact/penetration sensing device may be provided on a soldier's clothing such that when this clothing is impacted/penetrated (e.g., penetrated to a particular extent) a medical unit (e.g., a doctor or medical chopper) may be autonomously, and immediately, provided with the soldiers location (e.g., via a GPS device on the soldier) and status (e.g., right lung may be punctured by small-arms fire).

This invention provides impact detection and vehicle cooperation to achieve particular goals and determine particular threat levels. For example, an impact/penetration sensing device may be provided on a soldier's clothing such that when this clothing is impacted/penetrated (e.g., penetrated to a particular extent) a medical unit (e.g., a doctor or medical chopper) may be autonomously, and immediately, provided with the soldiers location (e.g., via a GPS device on the soldier) and status (e.g., right lung may be punctured by small-arms fire).