Abstract: A training disruptor device simulation system is described. The training disruptor device simulation system can include a training disruptor device and a simulator system. The training disruptor device can be configured to mimic a conducted electrical weapon and generate signals that can be detected and analyzed by the simulator system.

Abstract: A system and method for determining a projectile impact location is described. Embodiments of the projectile impact location system can include, but is not limited to, a control module, a camera with removable filter, a projector, and a light source. The projectile impact location system can be implemented to determine a location of a projectile impact and generate coordinates of the impact location for use by an animation engine.

Abstract: A multi-configuration simulator screen system and methods of use are described. Embodiments of the present invention include a multi-configuration screen assembly and a simulator system for running training scenarios on the multi-configuration screen assembly. The multi-configuration screen assembly can include a pair of screens rotatably coupled to a middle screen. The pair of screens can be rotated relative to the middle screen allowing for the simulator system to be implemented with a plurality of differently configured screens.

Abstract: A system and method for determining a projectile impact location is described. Embodiments of the projectile impact location system can include, but is not limited to, a control module, a camera with removable filter, a projector, and a light source. The projectile impact location system can be implemented to determine a location of a projectile impact and generate coordinates of the impact location for use by an animation engine.

Abstract: A disruptor device simulation system is described. Embodiments of the of the simulation system include a disruptor device, one or more training cartridges, and a simulator system. The disruptor device can be loaded with training cartridges and implemented in a training scenario. The training cartridges can include a pair of infrared lasers and an infrared emitter. The simulator system can alter the training scenario based detecting pulses of light generated by the lasers and signals from the infrared emitter. In one embodiment, the simulator system can be adapted to determine when a trigger of the disruptor device is pulled and when an arc switch of the disruptor device is pressed. The simulator system can include a sensor adapted to detect the pulses of light generated by the pair of lasers. The simulator system can further include a receiver adapted to detect signals generated by the emitter.

Abstract: A multi-configuration simulator screen system and methods of use are described. Embodiments of the present invention include a multi-configuration screen assembly and a simulator system for running training scenarios on the multi-configuration screen assembly. The multi-configuration screen assembly can include a pair of screens rotatably coupled to a middle screen. The pair of screens can be rotated relative to the middle screen allowing for the simulator system to be implemented with a plurality of differently configured screens.

Abstract: A disruptor device simulation system is described. Embodiments of the of the simulation system include a disruptor device, one or more training cartridges, and a simulator system. The disruptor device can be loaded with training cartridges and implemented in a training scenario. The training cartridges can include a pair of infrared lasers and an infrared emitter. The simulator system can alter the training scenario based detecting pulses of light generated by the lasers and signals from the infrared emitter. In one embodiment, the simulator system can be adapted to determine when a trigger of the disruptor device is pulled and when an arc switch of the disruptor device is pressed. The simulator system can include a sensor adapted to detect the pulses of light generated by the pair of lasers. The simulator system can further include a receiver adapted to detect signals generated by the emitter.

Abstract: A disruptor device simulation system is described. Embodiments of the of the simulation system include a disruptor device, one or more training cartridges, and a simulator system. The disruptor device can be loaded with training cartridges and implemented in a training scenario. The training cartridges can include a pair of infrared lasers and an infrared emitter. The simulator system can alter the training scenario based detecting pulses of light generated by the lasers and signals from the infrared emitter. In one embodiment, the simulator system can be adapted to determine when a trigger of the disruptor device is pulled and when an arc switch of the disruptor device is pressed. The simulator system can include a sensor adapted to detect the pulses of light generated by the pair of lasers. The simulator system can further include a receiver adapted to detect signals generated by the emitter.

Abstract: A use of force training system is described. Embodiments of the use of force training system can include a weapon, a simulator system, and an eye tracking device. Typically, a trainee can be outfitted with the weapon and the eye tracking device. The eye tracking device can be implemented to track where the trainee is focusing while interacting with a training scenario. Typically, an instructor can provide feedback to the trainee based on information provided by the eye tracking device in a use of force simulation setting. In some embodiments, the simulator system can be adapted to alter a training scenario based on data received from the eye tracking device.

Abstract: A disruptor device simulation system is described. Embodiments of the of the simulation system include a disruptor device, one or more training cartridges, and a simulator system. The disruptor device can be loaded with training cartridges and implemented in a training scenario. The training cartridges can include a pair of infrared lasers and an infrared emitter. The simulator system can alter the training scenario based detecting pulses of light generated by the lasers and signals from the infrared emitter. In one embodiment, the simulator system can be adapted to determine when a trigger of the disruptor device is pulled and when an arc switch of the disruptor device is pressed. The simulator system can include a sensor adapted to detect the pulses of light generated by the pair of lasers. The simulator system can further include a receiver adapted to detect signals generated by the emitter.

Abstract: A disruptor device simulation system is described. Embodiments of the of the simulation system include a disruptor device, one or more training cartridges, and a simulator system. The disruptor device can be loaded with training cartridges and implemented in a training scenario. The training cartridges can include a pair of infrared lasers and an infrared emitter. The simulator system can alter the training scenario based detecting pulses of light generated by the lasers and signals from the infrared emitter. In one embodiment, the simulator system can be adapted to determine when a trigger of the disruptor device is pulled and when an arc switch of the disruptor device is pressed. The simulator system can include a sensor adapted to detect the pulses of light generated by the pair of lasers. The simulator system can further include a receiver adapted to detect signals generated by the emitter.

Abstract: A system, apparatus and method may simulate the operation of a demobilization instrument such as a taser, using, for example, a taser launching device with a cartridge to enable generation and firing of a plurality of simulated projectile probes. A plurality of laser events may be emitted at a simulated target. The events may be validated as valid laser pulses, the simulated projectile probe strike locations and identities may be determined, and an automated reaction may be generated. A laser system may be contained in a cartridge separable from a taser launching device or other holder.