An aircraft weapons control system including a weapons stores processor panel for receiving input signals from a weapons input; a weapons interface for receiving fire signals from the weapons stores processor panel to control firing of aircraft weapons; and a flight management system in communication with the weapons stores processor panel and the weapons interface, the flight management system providing control signals to the weapons interface; wherein the weapons stores processor panel implements safety interlocks to prevent or enable firing of the aircraft weapons.

An aircraft weapons control system including a weapons stores processor panel for receiving input signals from a weapons input; a weapons interface for receiving fire signals from the weapons stores processor panel to control firing of aircraft weapons; and a flight management system in communication with the weapons stores processor panel and the weapons interface, the flight management system providing control signals to the weapons interface; wherein the weapons stores processor panel implements safety interlocks to prevent or enable firing of the aircraft weapons.

A security camera and weapon system. The system comprises a camera for capturing images of an area and a display screen for displaying those images. A weapon is co-located with the camera and controllable by a user to fire a projectile. The weapon comprises primer contacts in contact with a projectile primer which is in contact with a propellant. The user controls application of a voltage to the primer contacts, thereby igniting the primer and the propellant and firing the projectile from a weapon barrel. The weapon is aimed and fired by the user from a system controller based on images captured by the camera and presented on the display screen, the images are overlaid with projectile aiming indicia.

A security camera and weapon system. The system comprises a camera for capturing images of an area and a display screen for displaying those images. A weapon is co-located with the camera and controllable by a user to fire a projectile. The weapon comprises primer contacts in contact with a projectile primer which is in contact with a propellant. The user controls application of a voltage to the primer contacts, thereby igniting the primer and the propellant and firing the projectile from a weapon barrel. The weapon is aimed and fired by the user from a system controller based on images captured by the camera and presented on the display screen, the images are overlaid with projectile aiming indicia.

According to one embodiment, an apparatus includes an outer shell having a shape substantially similar to a weapon. The outer shell is configured to be coupled to an aircraft at a weapon attachment point. The apparatus further includes one or more electrical connections configured to be coupled to a weapons control system of the aircraft. The apparatus further includes a life support package comprising an inflatable raft and a stabilization system configured to stabilize the inflatable raft in water.

According to one embodiment, an apparatus includes an outer shell having a shape substantially similar to a weapon. The outer shell is configured to be coupled to an aircraft at a weapon attachment point. The apparatus further includes one or more electrical connections configured to be coupled to a weapons control system of the aircraft. The apparatus further includes a life support package comprising an inflatable raft and a stabilization system configured to stabilize the inflatable raft in water.

A projectile propulsion system comprises a housing defining a chamber, a propulsive charge including a propulsive charge material loadable into the chamber, a projectile loadable into the chamber proximate to the propulsive charge material, an electric pulse discharge subsystem that provides an electric pulse having a specified pulse amperage for a specified pulse period, a current delivery subsystem electrically connecting the electric pulse discharge subsystem to the chamber to deliver the electric pulse to the propulsive charge material, wherein the specified pulse amperage and the specified pulse period are sufficient to cause at least a portion of the propulsive charge material to generate a propulsive force that is at least partially directed onto the projectile to drive the projectile out of the chamber, and a barrel in fluid communication with the chamber configured to receive the projectile as it is driven from the chamber.

A pyrotechnic projectile, an electronic controller for a pyrotechnic projectile, and a method of controlling a pyrotechnic projectile are provided. The pyrotechnic projectile comprises: a burst charge, configured to provide an a visual and/or audible effect upon activation thereof; an electronic match configured to activate the burst charge; and an electronic controller, coupled to the electronic match. The electronic controller is configured to determine an altitude of the pyrotechnic projectile and cause the electronic match to activate the burst charge at least in part according to the altitude of the pyrotechnic projectile.

The present application provides a remote-controlled gun, comprising a gun base, a gun body, an angle adjustment device, a camera, and a remote controller, wherein the angle adjustment device is connected with the gun body and the gun base, and configured for adjusting a pitch shooting angle of the gun body with respect to the gun base in a vertical plane and a left and right swing angle of the gun body with respect to the gun base in a horizontal plane; the camera is configured for monitoring a shooting target and a front sight of the gun body; the remote controller is connected with the camera and configured for displaying a monitoring image of the camera; and the remote controller is also connected with the angle adjustment device and configured for controlling the gun body to rotate with respect to the gun base until the front sight is aligned with the shooting target within a monitoring area; and the remote controller is also connected with the gun body, and configured for controlling the shooting of the gun body. Compared with the prior arts, this remote-controlled gun makes the user's shooting behavior be changed from operation at site to remote operation, which greatly increases the safety of use; the flexibility of operation be greatly increased, the user can concentrate on a screen of the remote controller to find a target; the aiming be improved, without the need to aim by a naked eye and manual firing, reducing effects due to human factors.

The present application provides a remote-controlled gun, comprising a gun base, a gun body, an angle adjustment device, a camera, and a remote controller, wherein the angle adjustment device is connected with the gun body and the gun base, and configured for adjusting a pitch shooting angle of the gun body with respect to the gun base in a vertical plane and a left and right swing angle of the gun body with respect to the gun base in a horizontal plane; the camera is configured for monitoring a shooting target and a front sight of the gun body; the remote controller is connected with the camera and configured for displaying a monitoring image of the camera; and the remote controller is also connected with the angle adjustment device and configured for controlling the gun body to rotate with respect to the gun base until the front sight is aligned with the shooting target within a monitoring area; and the remote controller is also connected with the gun body, and configured for controlling the shooting of the gun body. Compared with the prior arts, this remote-controlled gun makes the user's shooting behavior be changed from operation at site to remote operation, which greatly increases the safety of use; the flexibility of operation be greatly increased, the user can concentrate on a screen of the remote controller to find a target; the aiming be improved, without the need to aim by a naked eye and manual firing, reducing effects due to human factors.