A direct fire weapon system training and firing aid having a shoulder bar attachment for elevating and/or traversing a direct fire weapon system. It has an elongate arm for attachment to the weapon system and extending in a generally rearward direction from the weapon system.

A weapon system training and firing aid comprising a shoulder bar attachment for elevating and/or traversing a weapon system is disclosed. It may have an elongate arm for attachment to the weapon system and extending in a generally rearward direction from the weapon system. Once coupled to a weapon system, it gives a user a stable method of supporting and moving the weapon system, allowing the user to quickly elevate and traverse the weapon system by giving the user an additional point of contact, for example at the shoulder or under the arm, to support and stabilize the weapon system.

The present invention provides devices, methods and systems for use with interactive equipment in a simulated or augmented environment, or in real world operations. The inventive devices, methods and systems allow for interactive operation equipment in a virtual or augmented reality environment while eliminating virtual drift of the operational equipment. The present invention further eliminates the need to reset a simulated environment to accommodate swapping out equipment, allowing a seamless simulation to provide an optimal virtual training environment. Finally, the present invention provides for a highly accurate operational equipment to be used in a virtual or augmented environment allowing for optimal training, while minimizing down time.

The present invention provides devices, methods and systems for use with interactive equipment in a simulated or augmented environment, or in real world operations. The inventive devices, methods and systems allow for interactive operation equipment in a virtual or augmented reality environment while eliminating virtual drift of the operational equipment. The present invention further eliminates the need to reset a simulated environment to accommodate swapping out equipment, allowing a seamless simulation to provide an optimal virtual training environment. Finally, the present invention provides for a highly accurate operational equipment to be used in a virtual or augmented environment allowing for optimal training, while minimizing down time.

A direct fire weapon system training and firing aid comprising a shoulder bar attachment for elevating and/or traversing a direct fire weapon system is disclosed. It may have an elongate arm for attachment to the weapon system and extending in a generally rearward direction from the weapon system. Once coupled to a weapon system, it gives a user a stable method of supporting and moving the weapon system, allowing the user to quickly elevate and traverse the weapon system by giving the user an additional point of contact, for example at the shoulder or under the arm, to support and stabilize the weapon system.

A system and method for measuring, characterizing, and making recommendations for improving the performance of a shooter and one or more associated firearms. A data collection environment comprises an operator device and a server and data management module configured to receive and transmit one or more data sets over a network. A rig, which may be configured with sensors, may comprise a base assembly, a stock assembly, a grip/trigger assembly, a forend assembly a remote trigger assembly, and a safety lanyard assembly.

A weapon training system for an indirect firing weapon. The weapon training system includes a firing box including at least one processor, and a firing mechanism communicatively coupled with the firing box. Activation of the firing mechanism causes a simulated firing of the indirect firing weapon. The weapon training system also includes a round sensor communicatively coupled with the firing box. The round sensor is operable to be attached to or integrated with a round compatible with the weapon. The round is operable to be inserted into a breech of the weapon. The weapon training system further includes a breech sensor communicatively coupled with the firing box. The breech sensor is configured to detect an insertion of the round into the breech of the weapon via detection of the round sensor.

A weapon training system for an indirect firing weapon. The weapon training system includes a firing box including at least one processor, and a firing mechanism communicatively coupled with the firing box. Activation of the firing mechanism causes a simulated firing of the indirect firing weapon. The weapon training system also includes a round sensor communicatively coupled with the firing box. The round sensor is operable to be attached to or integrated with a round compatible with the weapon. The round is operable to be inserted into a breech of the weapon. The weapon training system further includes a breech sensor communicatively coupled with the firing box. The breech sensor is configured to detect an insertion of the round into the breech of the weapon via detection of the round sensor.

The present invention provides devices, methods and systems for use with interactive equipment in a simulated or augmented environment, or in real world operations. The inventive devices, methods and systems allow for interactive operation equipment in a virtual or augmented reality environment while eliminating virtual drift of the operational equipment. The present invention further eliminates the need to reset a simulated environment to accommodate swapping out equipment, allowing a seamless simulation to provide an optimal virtual training environment. Finally, the present invention provides for a highly accurate operational equipment to be used in a virtual or augmented environment allowing for optimal training, while minimizing down time.

The present invention provides devices, methods and systems for use with interactive equipment in a simulated or augmented environment, or in real world operations. The inventive devices, methods and systems allow for interactive operation equipment in a virtual or augmented reality environment while eliminating virtual drift of the operational equipment. The present invention further eliminates the need to reset a simulated environment to accommodate swapping out equipment, allowing a seamless simulation to provide an optimal virtual training environment. Finally, the present invention provides for a highly accurate operational equipment to be used in a virtual or augmented environment allowing for optimal training, while minimizing down time.