Disclosed embodiments provide systems and methods for simulation of firearm discharge and training of armed forces and/or law enforcement personnel. A motion tracking system tracks motion of one or more users. In embodiments, the users wear one or more sensors on their bodies to allow tracking by the motion tracking system. A scenario management system utilizes position, orientation, and motion information provided by the motion tracking system to evaluate user performance during a scenario. A weapon simulator includes sensors that indicate position of the weapon and/or orientation of the weapon. The weapon simulator may further provide trigger activation indications to the scenario management system. In embodiments, the scenario management system generates, plays, reviews, and/or evaluates simulations. The evaluation can include scoring based on reaction times, posture, body position, body orientation, and/or other attributes.

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.

Provided herein are systems and methods for shooting simulation of a target with a projectile. More particularly, the invention relates to virtual reality optical projection systems to monitor and simulate shooting.

A video screen apparatus for hitting, including a first rotation rod on which a screen fabric is wound, and a second rotation rod having rotation rings are provided at both left and right sides, in which the first rotation rod is provided below a support in a horizontal direction, the second rotation rod is provided above the support in the horizontal direction, the screen is formed between a first support rod and a second support rod, a screen mounting board for mounting and separating the first rotation rod is provided below the support in the horizontal direction, a rotation support for mounting and separating the second rotation rod is provided above the support in the horizontal direction, and the second rotation rod provided above the support is configured by a separation and joining means configured to separate and join the second rotation rod from and to a motor.

Disclosed embodiments provide systems and methods for training participants in simulation of firearm discharge and training of armed forces, law enforcement personnel, or the like. A motion tracking system tracks motion of one or more training participants. A wireless independent tracking system (WITS) device is coupled firmly to a simulated weapon in a virtual reality (VR) training environment.

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.

Provided is a shooting training system using a laser beam comprising: a beam projector that projects training images for various types of shooting onto a shooting screen; a shooting device that applies a laser beam to an aiming point on the shooting screen when a user aims at the aiming point and pulls a trigger; a camera module that photographs the laser beam applied to the shooting screen; a computer device that determines whether the laser beam has hit the target area of the shooting training image projected onto the shooting screen by comparing the target area and the point where the laser beam has been detected, and outputs an image and a sound according to the determination result; and a control unit that detects whether the shooting device has been fired and when the shooting device was fired.

Training apparatus (1) for at least one user (2), including a weapon (3) and consisting of a device for detecting a hit and a display device (6) for displaying virtual targets (13), wherein: the display device (6), worn by the user, takes the form of an augmented reality (AR) device, which visually displays to the user (2) at least the target (13) to be hit; the weapon (3) takes the form of a firearm, which fires at least one projectile (7); and the projectile (7) is detected by at least one laser (9, 11), evaluated and visually displayed on the display device (6).

A ballistic detection system includes a first camera; a second camera; a solar block device associated with at least one camera of the first and second cameras, wherein the solar block device is configured and arranged to block a solar disc in a field of view of the at least one camera; and a ballistics analysis computer configured to obtain image data captured by the first and second cameras, determine at least two points in three-dimensional space, which correspond to image artifacts of a projectile, using intrinsic and extrinsic parameters of the first and second cameras, define a trajectory of the projectile within a target volume using the at least two points in three-dimensional space, and find a point of intersection of the trajectory of the projectile with an object associated with the target volume.

Provided herein are systems and methods for shooting simulation of a target with a projectile. More particularly, the invention relates to virtual reality optical projection systems to monitor and simulate shooting.