New forms of suppressive gunfire decoys are provided. In some aspects, a pin-pull device may be used to program and adjust several settings of the decoy devices, activating such devices immediately before deployment. In some aspects, the pin-pull device may serve as a remote control unit. In a preferred method of deployment, the devices are thrown to a location different from that occupied by the user(s), simulating another source of gunfire, distracting and misleading an enemy, and providing the effects of suppressive fire. In some embodiments, a networked computer system(s) may be used as a remote control unit, and the decoy device may include cameras and other sensors for tactical surveillance. In still other aspects, the gunfire decoy device may be capable of locomotion, and may be self-relocating in response to certain commands, or in reaction to stimuli, to confuse the enemy regarding sources of gunfire and troop locations.

Haptic feedback system that simulates a detonation or explosive event. The system includes a power supply, an energy storage circuit, a switching circuit, and a conductor operatively connected to said energy storage circuit through said switching circuit whereby said conductor causes a haptic event when said energy storage circuit is electrically connected to said conductor by operation of said switching circuit. The system creates shock waves and pressure waves in a safe manner for use in a simulator.

The disclosed device is based on the Thompson submachine gun. The disclosed device is specifically designed to only fire blanks, or a firearm cartridge that contains gunpowder but no bullet, shot, or projectile. Blanks can be fired in fully automatic fashion, just as a standard machine gun. Numerous features are disclosed that prevent the disclosed device from being modified to fire live cartridges. The result is a blank-firing device with the appearance of a genuine firearm, while being unable to fire live cartridges, and thus not regulated by state or federal laws, or regulations to possess, use, and/or transfer.

The disclosed device is based on the Thompson submachine gun. The disclosed device is specifically designed to only fire blanks, or a firearm cartridge that contains gunpowder but no bullet, shot, or projectile. Blanks can be fired in fully automatic fashion, just as a standard machine gun. Numerous features are disclosed that prevent the disclosed device from being modified to fire live cartridges. The result is a blank-firing device with the appearance of a genuine firearm, while being unable to fire live cartridges, and thus not regulated by state or federal laws, or regulations to possess, use, and/or transfer.

A training method and apparatus are disclosed. The training method may include converting a firearm capable of firing live ammunition to a pneumatic training device incapable of firing live ammunition. The training method may further include cycling a pneumatic training device through one or more cycles. Each of the cycles may simulate an actual firing of the firearm. Each of the cycles may also include triggering a trigger assembly of the pneumatic training device, using a charge of a pressurized gas to reset the trigger assembly, and advancing a counter of the pneumatic training device. After a certain number of cycles have been completed, a next cycle may be attempted, but not completed. Accordingly, the training method may enable a user to safely and realistically practice reloading, jam or malfunction clearing, or the like.

A training method and apparatus are disclosed. The training method may include converting a firearm capable of firing live ammunition to a pneumatic training device incapable of firing live ammunition. The training method may further include cycling a pneumatic training device through one or more cycles. Each of the cycles may simulate an actual firing of the firearm. Each of the cycles may also include triggering a trigger assembly of the pneumatic training device, using a charge of a pressurized gas to reset the trigger assembly, and advancing a counter of the pneumatic training device. After a certain number of cycles have been completed, a next cycle may be attempted, but not completed. Accordingly, the training method may enable a user to safely and realistically practice reloading, jam or malfunction clearing, or the like.

A device for simulation of the mechanical functions of a real weapon using electronic and mechanical solutions is described. The simulation device can be mounted on a real weapon.

A device for simulation of the mechanical functions of a real weapon using electronic and mechanical solutions is described. The simulation device can be mounted on a real weapon.

A simulated firearm includes a body, a camera, a memory, and a processor. The body has a handle, a trigger, and a barrel portion. The barrel portion defines a shooting axis. The camera is coupled to the body and aligned with the shooting axis. The camera is configured to capture an image in response to actuation of the trigger. The memory is coupled to the body and stores marker data corresponding to at least one target marker. The processor is coupled to the body and configured to determine whether a portion of the image captured by the camera matches any one or more of the at least one target marker.

The invention relates to programmable practice ammunition. For this purpose, a projectile head of a practice projectile of the practice ammunition has at least one electronic system in the form of an electronic fuze replacement system and a signal transmitter. Optionally, an explosive charge can be introduced into the projectile head. The explosive charge is preferably a pyrotechnic. A light signal, an infrared signal, a radio signal, or another suitable electronic or optical signal, even a color signal, can be output and transmitted via the signal transmitter. Optionally, the explosive charge can be triggered and deployed via the signal transmitter. The projectile is provided with radial openings for this purpose. The invention additionally relates to a training system for a realistic practice using an explosive representation at the target or in the target area.