A fluid lubricated projectile trap includes a substantially cylindrical chamber defined by a forward concave wall and a rearward concave wall. A bullet funnel extending forwardly therefrom. The funnel having a lower panel connecting to the forward concave wall in conjunction with an end plate defines a pressurized fluid containment with discharge outlets directed to the rearward concave wall. All plumbing may be secured below the ramp and forward of the chamber.

A fluid lubricated projectile trap includes a substantially cylindrical chamber defined by a forward concave wall and a rearward concave wall. A bullet funnel extending forwardly therefrom. The funnel having a lower panel connecting to the forward concave wall in conjunction with an end plate defines a pressurized fluid containment with discharge outlets directed to the rearward concave wall. All plumbing may be secured below the ramp and forward of the chamber.

A modular firing range includes a first subset of modular containers that form a first end of the firing range. The first subset includes outer walls that define the first end of the firing range and side walls that define a portion of a side of the firing range. A second subset of modular containers form a second end of the firing range. The second subset includes outer walls that define the second end of the firing range and side walls that define a portion of the side of the firing range. A third subset of modular containers is coupleable between the first subset and the second subset to form a medial portion of the firing range. The third subset includes outer walls that define a portion of the side of the firing range. The firing range includes an armored outer perimeter that provides complete ballistic containment in all directions.

A system and method for detecting hits to a target carrier and taking corrective measures and/or for detecting hits to a target carried by the target carrier may include one or more sensors or cameras disposed in conjunction with the target carrier. The target carrier may be provided with a processor in communication with a sensor, and the processor may also be in communication with a motor and/or actuator of the target carrier. The sensor may be able to sense hits to the target carrier and send a strike signal to the processor in response to such hits. The processor may then take corrective action, such as causing the target carrier to return to a home position, cause the target actuator to turn or edge the target, and/or send a signal to the range operators that the target carrier has been hit. The target carrier may also be provided with a camera for visualizing a target carried by the target carrier.

Systems and methods for creating an immersive training environment for urban operations training that simulates a mission site and related computer program products are provided. Data specific to a mission site to be simulated can be provided. The data can be analyzed to create an accurate depiction of the mission site to be simulated. Visual imagery of one or more structures of the mission site can be generated based on the analysis of the data. One or more structures that have the visual imagery of the mission site to be simulated can be created. Further, the one or more structures can be positioned to provide a physical simulation of the mission site based on the analysis of the data.

Systems and methods for creating an immersive training environment for urban operations training that simulates a mission site and related computer program products are provided. Data specific to a mission site to be simulated can be provided. The data can be analyzed to create an accurate depiction of the mission site to be simulated. Visual imagery of one or more structures of the mission site can be generated based on the analysis of the data. One or more structures that have the visual imagery of the mission site to be simulated can be created. Further, the one or more structures can be positioned to provide a physical simulation of the mission site based on the analysis of the data.

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.

A target sight scope mounting assembly is presented. Additionally, a target sight scope and a plurality of support members are configured to provide a support for the target sight scope. The scope is coupled to one of the support members and pivotally engages the support member. A dampening material may be integrated within at least the first support member thereby dampening the vibrations attendant to a shooting environment.

A system is disclosed. The system has a target assembly having a reflective surface, a plurality of acoustic sensors disposed at the target assembly, and at least one optical sensor. The target assembly includes sound-absorbing material. The at least one optical sensor is configured to image a plurality of users of the system.

A system is disclosed. The system has a target assembly having a reflective surface, a plurality of acoustic sensors disposed at the target assembly, and at least one optical sensor. The target assembly includes sound-absorbing material. The at least one optical sensor is configured to image a plurality of users of the system.