The system for aiding the landing of an aircraft on a landing runway of an airport equipped with an Instrument Landing System (ILS) corresponding to an axis of a predetermined approach, includes: an ILS signals receiver and a processing unit. The processing unit is configured to, when the ILS signals receiver) has not yet captured a Glide signal corresponding to a Glide axis of the approach as a function of items of information relating to the predetermined approach, acquired from a database, determine a protection volume in which there is no risk of the ILS signals receiver detecting a replica of the Glide signal; and when a current position of the aircraft is above the protection volume, inhibit the capture of the Glide signal by the ILS signals receiver and instruct the emission of an alert item of information in the cockpit of the aircraft.

The system for aiding the landing of an aircraft on a landing runway of an airport equipped with an Instrument Landing System (ILS) corresponding to an axis of a predetermined approach, includes: an ILS signals receiver and a processing unit. The processing unit is configured to, when the ILS signals receiver) has not yet captured a Glide signal corresponding to a Glide axis of the approach as a function of items of information relating to the predetermined approach, acquired from a database, determine a protection volume in which there is no risk of the ILS signals receiver detecting a replica of the Glide signal; and when a current position of the aircraft is above the protection volume, inhibit the capture of the Glide signal by the ILS signals receiver and instruct the emission of an alert item of information in the cockpit of the aircraft.

The system and method for using a wideband dielectric lens array to instantaneously and unambiguously determining azimuthal angle of arrival (AoA) of RF energy over a frequency bandwidth of greater than four octaves. By forming two omnidirectional modes with a constant and linear phase response versus azimuth respectively, the AoA of the incident RF signal can be determined unambiguously using a one or two channel receiver architecture that is capable of measuring the phase between the two modal outputs.

The system and method for using a wideband dielectric lens array to instantaneously and unambiguously determining azimuthal angle of arrival (AoA) of RF energy over a frequency bandwidth of greater than four octaves. By forming two omnidirectional modes with a constant and linear phase response versus azimuth respectively, the AoA of the incident RF signal can be determined unambiguously using a one or two channel receiver architecture that is capable of measuring the phase between the two modal outputs.

An automatic cleaning system including a charging base and a cleaning robot is provided. The charging base includes a signal transmitter and a power supply portion. The charging base determines whether to transmit a start signal by the signal transmitter according to a preset time. The cleaning robot includes a signal receiver and a power receiving portion. The power receiving portion is configured to be electrically connected to the power supply portion of the charging base when the cleaning robot performs a charging operation. When the signal receiver receives the start signal, the cleaning robot leaves the charging base, and performs a cleaning operation. In addition, a charging base suitable for charging an automatic cleaning device is also provided.

An automatic cleaning system including a charging base and a cleaning robot is provided. The charging base includes a signal transmitter and a power supply portion. The charging base determines whether to transmit a start signal by the signal transmitter according to a preset time. The cleaning robot includes a signal receiver and a power receiving portion. The power receiving portion is configured to be electrically connected to the power supply portion of the charging base when the cleaning robot performs a charging operation. When the signal receiver receives the start signal, the cleaning robot leaves the charging base, and performs a cleaning operation. In addition, a charging base suitable for charging an automatic cleaning device is also provided.

A method for energy management robotic device includes providing a base station for mating with the robotic device, determining a quantity of energy stored in an energy storage unit of the robotic device, and performing a predetermined task based at least in part on the quantity of energy stored. Also disclosed are systems for emitting avoidance signals to prevent inadvertent contact between the robot and the base station, and systems for emitting homing signals to allow the robotic device to accurately dock with the base station.

A method for energy management robotic device includes providing a base station for mating with the robotic device, determining a quantity of energy stored in an energy storage unit of the robotic device, and performing a predetermined task based at least in part on the quantity of energy stored. Also disclosed are systems for emitting avoidance signals to prevent inadvertent contact between the robot and the base station, and systems for emitting homing signals to allow the robotic device to accurately dock with the base station.

An electronic monitoring device for monitoring at least one radionavigation signal during an approach phase to a landing runway, related monitoring method and computer program are disclosed. In one aspect, the each radionavigation signal is obtained from a reception chain on board an aircraft. The device includes a calculation module configured to calculate an angular displacement value in a reference plane, a comparison module configured to compare the angular displacement value with the corresponding radionavigation signal, and a warning module to generate a warning signal based on the comparison between the angular displacement value and the corresponding radionavigation signal. The calculation module is configured to calculate the angular displacement value as a function of a magnitude relating to the aircraft course and glide path according to the monitored radionavigation signal, from avionics equipment independent from the reception chain.

A method for energy management in a robotic device includes providing a base station for mating with the robotic device, determining a quantity of energy stored in an energy storage unit of the robotic device, and performing a predetermined task based at least in part on the quantity of energy stored. Also disclosed are systems for emitting avoidance signals to prevent inadvertent contact between the robot and the base station, and systems for emitting homing signals to allow the robotic device to accurately dock with the base station.