A system for securing two-way communications using a radio frequency wireless network between N weapons systems to be remotely operated, with N1, and a control station, includes: a remote-control station accommodating at least one operator, with a first field data bus to which a first controller is connected with at least a first transceiver system as a client; and N conventional weapons systems, each with a second field data bus and at least one client, the system including an additional client provided with a second transceiver system to be connected to each of the N weapons systems, permanently or removably, for operation in remote operation mode, the first controller with the first transceiver thereof receiving data from and/or sending commands to the client via the radio frequency wireless network.

A system for securing two-way communications using a radio frequency wireless network between N weapons systems to be remotely operated, with N1, and a control station, includes: a remote-control station accommodating at least one operator, with a first field data bus to which a first controller is connected with at least a first transceiver system as a client; and N conventional weapons systems, each with a second field data bus and at least one client, the system including an additional client provided with a second transceiver system to be connected to each of the N weapons systems, permanently or removably, for operation in remote operation mode, the first controller with the first transceiver thereof receiving data from and/or sending commands to the client via the radio frequency wireless network.

A system for securing two-way communications using a radio frequency wireless network between N weapons systems to be remotely operated, with N1, and a control station, includes: a remote-control station accommodating at least one operator, with a first field data bus to which a first controller is connected with at least a first transceiver system as a client; and N conventional weapons systems, each with a second field data bus and at least one client, the system including an additional client provided with a second transceiver system to be connected to each of the N weapons systems, permanently or removably, for operation in remote operation mode, the first controller with the first transceiver thereof receiving data from and/or sending commands to the client via the radio frequency wireless network.

A device for determining an angular deviation between a line of sight and a line of fire of a gun is proposed. The device comprises: at least one clocked light source for generating at least one coherent light beam and for emitting the at least one generated coherent light beam, at least one neuromorphic camera for receiving at least the at least one emitted coherent light beam and for providing detection data at least from the received light beam, and a computing unit for determining the angular deviation by means of a correction value indicative of the angular deviation, wherein the computing unit is configured to determine the correction value as a function of at least one specific base calibration value and the provided detection data.

A device for determining an angular deviation between a line of sight and a line of fire of a gun is proposed. The device comprises: at least one clocked light source for generating at least one coherent light beam and for emitting the at least one generated coherent light beam, at least one neuromorphic camera for receiving at least the at least one emitted coherent light beam and for providing detection data at least from the received light beam, and a computing unit for determining the angular deviation by means of a correction value indicative of the angular deviation, wherein the computing unit is configured to determine the correction value as a function of at least one specific base calibration value and the provided detection data.