The invention relates to a portable electronic signal generator, and in particular a programmable multi-waveform radiofrequency generator for use as battlefield decoy.

The invention relates to a portable electronic signal generator, and in particular a programmable multi-waveform radiofrequency generator for use as battlefield decoy.

Systems and methods are provided for weapon system monitoring and virtual deployment presentation, including a connection point that receives signals from a plurality of weapons within a deployment location, the signals including sensor information recorded using sensors of the weapons, a server device running application software that receives the signals from the connection point and processes the signals to generate a virtual reality depiction of the deployment location, and a graphical user interface presenting a field of view of the virtual reality depiction of the deployment location with icons indicating at least one of the positions, orientations or affiliations of the plurality of weapons.

The system and method for dynamic mode forming for a global positioning/global navigation system. The system having a controlled reception pattern antenna (CRPA) mounted on a platform; an antenna electronics subsystem configured for dynamically maximizing gain in the controlled reception pattern antenna; and a global positioning/global navigation receiver subsystem configured for null processing, wherein a state of the platform is used to modify a reference mode and a plurality of auxiliary modes for the controlled reception pattern antenna in real-time based on an apriori look up table (LUT) to dynamically maximize a gain of the controlled reception pattern antenna.

Systems and methods are provided for firearm monitoring and remote support of a plurality of firearms within a deployment location, wherein each firearm includes one or more sensors that record sensor information used to produce a signal, a response infrastructure configured for deployment to the deployment location, and a server device running application software that uses the signals received from each of the firearms to detect a threat within the deployment location and causes the deployment of the response infrastructure to the deployment location, wherein the response infrastructure supports users of the plurality of firearms in addressing the detected threat.

Methods and systems of firearm monitoring and firearm resupply are provided, including application software that receives signals from firearms and firearm-based sensors related, in part, to ammunition levels associated with at least one firearm, and evaluating, via an event model, the sensor information, and determining, via the evaluation, the occurrence of one or more of specified and monitored events in order to display, in response to determining that a monitored event will occur, a recommended action such as a resupply of ammunition.

Systems and methods are provided for monitoring a state of ammunition supply among a plurality of firearms within a deployment location, where each firearm includes one or more sensors that record sensor information used to produce a signal. A response infrastructure may be configured for deployment to the deployment location, and a server device running application software that uses the signals received from each of the firearms may detect an ammunition level of a firearm within the deployment location and cause the deployment of the response infrastructure to the deployment location, where the response infrastructure supports a resupply of at least one firearm in the deployment location.

A method of synchronizing flashing between a plurality of marker system components mounted on a helmet includes receiving a signal from at least one global positioning satellite receiver, the signal comprising a time value. When the time value indicates illumination is needed, initiating illumination of at least one light emitting device of each the marker system components, thereby, synchronizing of the initiating of illumination to the time value for all marker system components.

A firearm usage monitoring system configured to store data about location, movement, orientation, and direction of a firearm while in use and includes a hard-wired data and power connection, configured to receive data and power from a wired source. A serial communication system is communicatively coupled to the data and power connection and configured to send data to and receive data from the data and power connection. A microprocessor sends data to and receives data from the serial communication system. A motion monitor is communicatively coupled to the microprocessor module further comprising a gyroscope, an accelerometer and a compass configured to communicate data about movement, orientation, and direction of the firearm. Memory is communicatively coupled to the microprocessor and the motion monitor. Data about the location and position of the firearm in 3D space is transmitted from the motion monitor and GPS and then stored in the memory.

Systems and methods are provided for weapon system monitoring and virtual deployment presentation, including a connection point that receives signals from a plurality of weapons within a deployment location, the signals including sensor information recorded using sensors of the weapons, a server device running application software that receives the signals from the connection point and processes the signals to generate a virtual reality depiction of the deployment location, and a graphical user interface presenting a field of view of the virtual reality depiction of the deployment location with icons indicating at least one of the positions, orientations or affiliations of the plurality of weapons.