Abstract: A computer-implemented method for analyzing a network having a plurality of ADS-B base stations, including the following steps: a. receiving an ADS-B signal from a transmitter located in a first geographic area at a first base station and determining a first arrival time of the signal at the first base station; b. extracting position information from the ADS-B signal; c. determining an expected second arrival time of the ADS-B signal at a second base station using the extracted position information, the position of the first base station, the position of the second base station and the first arrival time; d. determining a quantity characterizing an error from a comparison of the expected second arrival time with an actual second arrival time; e. performing steps a-d for the same ADS-B signal from the same transmitter and further pairs of first and second base stations of the network; and f. tagging a base station if the error related to that base station is significant.

Abstract: A broadband telecommunication system between one or more control centers (CC) and one or more mobile units (MU) moving at high speed, the communication being supported by a wireless radiosystem with handover (HO) roaming. According to the main aspect of the invention, it is possible to minimize the scan step of the handover, thanks to the introduction in the procedure of a certain number of parameters and the setting thereof suitably handled via a specific algorithm.

Abstract: A method detects a threshold crossing instant at which a signal crosses a threshold, by: sampling the signal at plural sampling instants spaced from one another by a sampling period; detecting consecutive first and second sampling instants at which the signal has a first signal value lower than or equal to the threshold, and the signal has a second signal value higher than the threshold, respectively; calculating a first interval indicative of a time between the threshold crossing instant and the first sampling instant; setting a reference signal having a reference amplitude representing the first interval relative to a reference scale; generating a signal with a delay depending on said reference signal; generating a threshold crossing detection signal at an instant delayed by a second interval; calibrating the reference scale of the reference amplitude so that the second interval is substantially equal to the first interval.

Abstract: A broadband telecommunication system between one or more control centers (CC) and one or more mobile units (MU) moving at high speed, the communication being supported by a wireless radiosystem with handover (HO) roaming. According to the main aspect of the invention, it is possible to minimize the scan step of the handover, thanks to the introduction in the procedure of a certain number of parameters and the setting thereof suitably handled via a specific algorithm.

Abstract: A distribution device for a glide guidance component, the distribution device including an array of antenna elements installed on a pylon. The distribution device includes: a first and a second input for receiving a CSB (carrier plus sideband) input signal and an SBO (sideband only) input signal respectively, a plurality of outputs connectable to the array and including a first and a second output for the first and second output signals, respectively; each of said output signals including a CSB component and an SBO component. The array of antenna elements is such as to irradiate an image-less type pattern and the distribution device is such that the outputs have an substantially equal amplitude value for each pair arranged symmetrically around a central point of the array and a phase difference which is identical for the two CSB and SBO components.

Abstract: A distribution device for the glide guidance component, including an array of antenna elements (A1-A12) installed on a pylon. The device comprising: a first and a second input for receiving a CSB input signal and an SBO input signal respectively, a plurality of outputs (OU1-OU12) connectable to the array and including a first (OU5) and a second (OU8) output for the first and second output signals, respectively; each of said output signals including a CSB component and an SBO component. The array is such as to irradiate an image-less type pattern and the device (22) is such that the outputs have an substantially equal amplitude value for each pair arranged symmetrically around a central point of the array and a phase difference which is identical for the two CSB and SBO components.