Systems, methods, and devices for electronically displaying individual shots from multiple shots on one physical target including at least one camera directed at a physical target that is in data communication with a computer, the computer running software that allows for capture of successive images after each shot is taken, and isolation and highlighting of each shot from all other shots on the computer's display. In some examples, systems include the ability to generate and present overlays on the target images. In some further examples, systems include multiple cameras for capturing associated information with each shot such as shooter position, wind speed, and projectile speed.

There is a need in the firearm training field for a firearm that can analyze the shooter's grip, aim, position, and anything else that could affect a shooter's technique. The invention is designed to monitor the shooter's technique in real-time using motion sensors to determine any movement by the firearm or the shooter. A light based detection system also tracks the shooter's and firearm's movement by detecting the amount of time it takes for light emitted from the device to reflect back to the device. The motion detected is analyzed and converted into a haptic feedback for the device to emit to the user, usually in the form of a vibration or shaking. The shooter can interpret the haptic feedback in real-time and correct their shooting technique without having to interrupt their shooting session.

There is a need in the firearm training field for a firearm that can analyze the shooter's grip, aim, position, and anything else that could affect a shooter's technique. The invention is designed to monitor the shooter's technique in real-time using motion sensors to determine any movement by the firearm or the shooter. A light based detection system also tracks the shooter's and firearm's movement by detecting the amount of time it takes for light emitted from the device to reflect back to the device. The motion detected is analyzed and converted into a haptic feedback for the device to emit to the user, usually in the form of a vibration or shaking. The shooter can interpret the haptic feedback in real-time and correct their shooting technique without having to interrupt their shooting session.