A system for interoperating and communicating data from a device having a communications gateway and at least one tactical device connected to an electrified rail providing electrical power. The system includes at least one processor, and at least one non-transitory computer-readable data storage device storing data instructions that, when executed by the at least one processor, cause the system to receive an event from the device, determine whether the event triggers a workflow, and execute an action on the device in response to the workflow being triggered.

A system for interoperating and communicating data from a device having a communications gateway and at least one tactical device connected to an electrified rail providing electrical power. The system includes at least one processor, and at least one non-transitory computer-readable data storage device storing data instructions that, when executed by the at least one processor, cause the system to receive an event from the device, determine whether the event triggers a workflow, and execute an action on the device in response to the workflow being triggered.

Systems and methods are provided for monitoring geolocations of a plurality of weapons within a deployment location, where each of the weapons includes one or more sensors that produce more or more signals, including a response infrastructure configured for management of the weapons, a server device running application software that uses the one or more signals received from each of the weapons to detect a geolocation of a weapon and causes the response infrastructure to determine if the detected geolocation of the weapon conforms to the stored rule regarding the permitted weapon geolocation, and a threat detection and analysis module that performs an action based on a confirmation that the detected geolocation of the weapon does not conform to the stored rule regarding the permitted weapon geolocation.

A firearm front sight post that is comprised of a camera assembly which captures an image or video, or a series of images or videos of what is in front of the firearm at the instant that the firearm is first fired, and at the instant that each and every subsequent shot is fired. The camera assembly is actuated by a actuation mechanism in communication with the trigger assembly of the firearm, and is activated when the trigger wall is met in the act of pulling the trigger of a firearm. The system is also comprised of a wireless transmitter that automatically sends the image/video from the camera assembly to a mobile application on a smartphone or other smart device, wherein the images/videos are encrypted, time-stamped and dated.

The projectile-launcher operation monitoring device includes at least one displacement-sensor and a processor coupled with the displacement-sensor. The displacement-sensor acquires measurements relating to the displacement of the projectile-launcher and to produce a sampled time signal of values relating to the displacement. The processor receives from the displacement-sensor the sampled time signal to determine projectile-launcher operation parameters therefrom, by employing a deep-learning system. The deep-learning system includes an encoder receiving sample-frames from the sampled time signal producing codes relating to the sample-frames. Each of the codes is a vector of values relating to the probabilities of features in the received sample-frames.

The projectile-launcher operation monitoring device includes at least one displacement-sensor and a processor coupled with the displacement-sensor. The displacement-sensor acquires measurements relating to the displacement of the projectile-launcher and to produce a sampled time signal of values relating to the displacement. The processor receives from the displacement-sensor the sampled time signal to determine projectile-launcher operation parameters therefrom, by employing a deep-learning system. The deep-learning system includes an encoder receiving sample-frames from the sampled time signal producing codes relating to the sample-frames. Each of the codes is a vector of values relating to the probabilities of features in the received sample-frames.

This invention is a gunshot detection device that provides very reliable inside and outside real-time situational awareness of gunshot events, while reducing Gunshot Detection False Positives and Negatives.

A system for firearm target shooting monitoring, training, and feedback includes a camera directed at the aiming point of a firearm or a firearm training device. Embodiments include a trigger sensor and a laser emitter aimed at the aiming point of the firearm or firearm training device. A computer module can analyze video captured by the camera and determine if the firearm or firearm training device was aimed at a target region at the time of a trigger pull. User performance can be monitored, recorded, tracked, and reported to the user. Training and instruction modules can provide directed instruction and training exercises for a user to work on particular skills for which the user desires to raise proficiency.

A monitoring apparatus and system for recording, differentiating, and reporting the discharge of firearms. The monitoring apparatus can be mounted to a firearm and may be automatically activated when the firearm is drawn from a holster thus enabling the monitoring apparatus to record information such as sound, video, location, time, and the like. The apparatus may use this information to differentiate between shots fired by the firearm and shots fired by other firearms. The device may report this distinction to a remote computer configured to receive updates from the weapon mounted apparatus in real time. The remote computer may display the information on a user interface such as a map display, and/or distribute the information according to rules defining how the information should be processed.

Systems, devices, and methods, wherein a device is attachable to a firearm and includes a pressure sensor configured to sense pressure generated from the firearm and provide a corresponding signal, a weapon movement sensor configured to sense at least one movement of the firearm and provide a corresponding signal, at least one processor; and memory including computer instructions, the computer instructions configured to, when executed by the at least one processor, cause the at least one processor to determine an event of the firearm based on the corresponding signal provided by the pressure sensor and the corresponding signal provided by the weapon movement sensor. Systems that include the device may record event data and transmit the event data to various user systems for situational awareness, record keeping, training, and other organizational or legal-process purposes.