A safety method for a railway network that is divided into section segments by way of section elements and which can be traveled by vehicles in accordance with data from a section atlas. The vehicles request steps for allocation as a track element from selected section elements. Each of the selected section elements autonomously allocates itself as a track element under specified conditions for each requesting vehicle. In order to be able to inform the vehicle or the vehicle operators thereof about changed section characteristics better and more quickly, for the section elements, the vehicles store manually entered and/or manually released dynamic driving operation data as a dynamic component of the section atlas in parts related to the section elements.

Systems and methods for detecting the dynamic train-to-rail shunting performance of a train as it is moving along the rails of a railroad track. The systems and methods use portable equipment temporarily installed at a site where it is desired to test the shunting of one or more trains or the electrical equipment installed at the track. The systems and method use sensor plates and a high speed recording system to simultaneously capture measured train-to-rail shunting characteristics and the positioning of a train's axles and any rail conditions impacting the measurements. The captured information can be used to fine tune the train, the electrical equipment installed at the track and/or to design new devices.

Systems and methods for detecting the dynamic train-to-rail shunting performance of a train as it is moving along the rails of a railroad track. The systems and methods use portable equipment temporarily installed at a site where it is desired to test the shunting of one or more trains or the electrical equipment installed at the track. The systems and method use sensor plates and a high speed recording system to simultaneously capture measured train-to-rail shunting characteristics and the positioning of a train's axles and any rail conditions impacting the measurements. The captured information can be used to fine tune the train, the electrical equipment installed at the track and/or to design new devices.

Systems and methods for detecting the dynamic train-to-rail shunting performance of a train as it is moving along the rails of a railroad track. The systems and methods use portable equipment temporarily installed at a site where it is desired to test the shunting of one or more trains or the electrical equipment installed at the track. The systems and method use sensor plates and a high speed recording system to simultaneously capture measured train-to-rail shunting characteristics and the positioning of a train's axles and any rail conditions impacting the measurements. The captured information can be used to fine tune the train, the electrical equipment installed at the track and/or to design new devices.

Systems and methods for detecting the dynamic train-to-rail shunting performance of a train as it is moving along the rails of a railroad track. The systems and methods use portable equipment temporarily installed at a site where it is desired to test the shunting of one or more trains or the electrical equipment installed at the track. The systems and method use sensor plates and a high speed recording system to simultaneously capture measured train-to-rail shunting characteristics and the positioning of a train's axles and any rail conditions impacting the measurements. The captured information can be used to fine tune the train, the electrical equipment installed at the track and/or to design new devices.

The Signal Effectiveness Enhancement system utilizes audible warning apparatus to reduce the number of accidents due to rail-vehicle operators missing wayside signals. The system accomplishes this by monitoring the light patterns emanating from wayside signals to identify the displayed message such as: stop or limit speed and to detect faulty signal operation such as a dark signal. The system also tracks the speed of and the distance to approaching vehicles using a range measuring system located at the wayside signal or onboard the approaching vehicle. If the vehicle is complying with the displayed traffic control signal no action is taken. If the vehicle is approaching dangerously or if the signal is dark, the system triggers trackside sound generators located upstream from the wayside signal or triggers a warning system in the cab of the vehicle to gain the vehicle operator's attention.

The Signal Effectiveness Enhancement system utilizes audible warning apparatus to reduce the number of accidents due to rail-vehicle operators missing wayside signals. The system accomplishes this by monitoring the light patterns emanating from wayside signals to identify the displayed message such as: stop or limit speed and to detect faulty signal operation such as a dark signal. The system also tracks the speed of and the distance to approaching vehicles using a range measuring system located at the wayside signal or onboard the approaching vehicle. If the vehicle is complying with the displayed traffic control signal no action is taken. If the vehicle is approaching dangerously or if the signal is dark, the system triggers trackside sound generators located upstream from the wayside signal or triggers a warning system in the cab of the vehicle to gain the vehicle operator's attention.

A signaling system includes an on-board device, a station interface device and a platform screen door. The on-board device is provided in a moving vehicle. The station interface device is provided in a station. The platform screen door is provided in the station and controlled by the station interface device. When the moving vehicle has stopped at the station, the on-board device outputs a door open permission command to instruct release of a lock state. The station interface device releases the lock state of the platform screen door in response to the door open permission command. After the lock state is released, the on-board device outputs a door open command to instruct the opening of the platform screen door. The station interface device opens the platform screen door in response to the door open command. The on-board device opens doors of the moving vehicle.

A computer implemented method is for determining railway vehicle movement profile type of a railway vehicle movement profile. The railway vehicle movement profile includes a sequence of measured transmitted currents of a transceiver of a track circuit with respect to the time. The method includes obtaining a railway vehicle movement profile, normalizing the railway vehicle movement profile, extracting one or more features from the normalized railway vehicle movement profile, determining the distance of the extracted features with respect to each centroid of a railway vehicle movement profile type determined in a classification process, and assigning the railway vehicle movement profile to the railway vehicle movement profile type with the closest centroid.

A computer implemented method for determining railway vehicle movement profile type of a railway vehicle movement profile, wherein the railway vehicle movement profile includes a sequence of measured transmitted currents of a transceiver of a track circuit with respect to the time, including obtaining a railway vehicle movement profile; normalizing the railway vehicle movement profile; extracting one or more features from the normalized railway vehicle movement profile; determining the distance of the extracted features with respect to each centroid of a railway vehicle movement profile type determined in a classification process; and assigning the railway vehicle movement profile to the railway vehicle movement profile type with the closest centroid.