The disclosure relates to a viewing optic. In one embodiment, the disclosure relates to a viewing optic having an integrated display system. In one embodiment, the disclosure relates to a viewing optic having an integrated display system for generating images that are projected into the first focal plane of an optical system.

The present invention relates to the process where a gun video camera is controlled by logic functions using inputs from sensors monitoring the gun and environmental characteristics. More particularly, a control signal is generated which determines the wake-up time of a camera in sleep mode and the recording time of video and data capture of the camera.

At least one shooter-side image sensor captures images of a plurality of shooters and a plurality of respective firearms periodically fired by the shooters. At least one target-side sensor collects data indicative of projectile strikes on a target area associated with at least one target. A processing unit analyzes images captured by the shooter-side image sensor and detects projectile discharges in response to firing of the firearms, and uniquely identifies each of the shooters associated with the detected projectile discharges. The processing unit detections of projectile strikes, based on the data collected by the target-side sensor, and the detected projectile discharges and identifies, for each detected projectile strike on the target area, the correspondingly fired firearm associated with the uniquely identified shooter.

A turret display device is used for rapidly zeroing a riflescope. The turrets on an improved riflescope provide a turret position signal. A display of the turret display device comprises turret display cross hairs displayed relative to a target icon. When the turret display device receives a turret position signal, turret display cross hairs move to show the relative movement as indicated by the received turret position signal. When a distance is processed by the turret display device, the turret display cross hairs move to show an aiming point relative to a target icon based on the current zero of the riflescope. The user zeroes the riflescope to any distance by turning the turrets until the turret display cross hairs are centered for the desired distance. In some embodiments the turret display device is integrated into a hand held rangefinder, smart phone, or riflescope. A riflescope having turrets which each provide a turret position signal.

A system for monitoring a user of a firearm generally includes an inertial measurement unit configured to be disposed inside a grip of the firearm for measuring motion of the firearm. The system also includes an event detection system for detecting a detected event that includes at least one of gripping of the firearm, raising of the firearm, aiming of the firearm, and discharging of the firearm based on the motion of the firearm measured by the inertial measurement unit. The system further includes a communication system for wirelessly communicating the detected event.

A system trains usage of a firearm and includes an end unit, a processing subsystem, and a control subsystem remotely located from the end unit. The end unit includes an image sensor that is positioned against a target that has a bar code. The image sensor defines a field of view of a scene that includes the target, and the bar code stores encoded information that defines a target coverage zone. The system selectively operates in a first mode and a second mode according to input from the control subsystem. In the first mode the end unit scans the bar code to extract the target coverage zone. In the second mode the image sensor captures a series of images of the target coverage zone, and the processing subsystem analyzes regions of the captured series of images to determine a strike, by a projectile of the firearm, on the target.

The disclosure relates to a viewing optic. In one embodiment, the disclosure relates to a viewing optic having an integrated display system. In one embodiment, the disclosure relates to a viewing optic having an integrated display system for generating images that are projected into the first focal plane of an optical system.

A shooting simulation system and method. The system includes a plurality of firearms. Each firearm is associated with a separate soldier having a man-worn computer, a location device for determining a location of the soldier, an optical system for capturing an image where the captured image provides information on a trajectory of a virtual bullet fired from a shooting firearm, and an orientation device for obtaining the orientation of the firearm when shooting the firearm. The optical system is aligned with a sight of the shooting firearm and captures the image when shooting the firearm. The system also includes a shooter/target location resolution module for identifying a valid target and a target image recognition module for determining an impact location where a virtual bullet from the shooting firearm would impact within the captured image and determining if an identified target from the captured image is a hit or a miss.

The disclosure relates to a viewing optic. In one embodiment, the disclosure relates to a viewing optic having an integrated display system. In one embodiment, the disclosure relates to a viewing optic having an integrated display system for generating images that are projected into the first focal plane of an optical system.

At least one shooter-side image sensor captures images of a plurality of shooters and a plurality of respective firearms periodically fired by the shooters. At least one target-side sensor collects data indicative of projectile strikes on a target area associated with at least one target. A processing unit analyzes images captured by the shooter-side image sensor and detects projectile discharges in response to firing of the firearms, and uniquely identifies each of the shooters associated with the detected projectile discharges. The processing unit detections of projectile strikes, based on the data collected by the target-side sensor, and the detected projectile discharges and identifies, for each detected projectile strike on the target area, the correspondingly fired firearm associated with the uniquely identified shooter.