Embodiments disclosed herein address these and other issues by enabling rocket/missile artillery unit integration into the TES environment without the need to incorporate anything into the existing fire control system of the rocket/missile artillery units. Embodiments include a vibration sensor, orientation sensors, and a military communications unit, where the vibration sensor detects the vibrational signature of the ARM switch of the artillery unit and informs the military communications device that the launcher is engaged. The military communications unit can obtain orientation from the orientation sensors and pass engagement data (and orientation) to TES backend.

A device for mounting a weapon system to an aircraft includes an adaptor to couple to an internal structure of the aircraft. The device also include a gun mount and a deployment system. The deployment system is coupled to the adaptor to the gun mount and is configured to move the gun mount from a first position internal to the aircraft to a second position at least partially external to the aircraft.

A digital positioning system that interfaces with a portable weapon to automatically realign the weapon through and after a firing shock that saturates electronic components of the portable weapon. The digital positioning system includes a digital fire control device that receives target destination data. The digital fire control device transmits the target destination data to an automatic calibration and pointing device, which, in turn, generates a reference orientation from the target destination data. In response to the firing shock, the automatic calibration and pointing device acquires a current orientation of the portable weapon, independently of the saturated electronic components, and compares the current orientation to the stored reference orientation for causing a mechanical alignment and orientation mechanism to reposition the portable weapon.

A digital positioning system that interfaces with a portable weapon to automatically realign the weapon through and after a firing shock that saturates electronic components of the portable weapon. The digital positioning system includes a digital fire control device that receives target destination data. The digital fire control device transmits the target destination data to an automatic calibration and pointing device, which, in turn, generates a reference orientation from the target destination data. In response to the firing shock, the automatic calibration and pointing device acquires a current orientation of the portable weapon, independently of the saturated electronic components, and compares the current orientation to the stored reference orientation for causing a mechanical alignment and orientation mechanism to reposition the portable weapon.