A system includes a route examining system on a non-propulsion-generating vehicle at a trailing end of a leading vehicle system. The route examining system examines a route on which the leading vehicle system is moving to determine whether the route is damaged. The system also includes an off-board failsafe controller that communicates with the route examining system. The off-board failsafe controller sends a warning signal to the trailing vehicle system responsive to receiving a notification signal from the route examining system indicating detection of damage to the route. The off-board failsafe controller also sends the warning signal to the trailing vehicle system responsive to losing communication with the route examining system. The warning signal directs the trailing vehicle system to automatically change movement of the trailing vehicle system responsive to the detection of damage to the route and/or the off-board failsafe controller losing communication with the route examining system.

A method operates a rail vehicle along a railway line. Accordingly, a trip of the rail vehicle has a travel section along the railway line, which travel section ends before or at a hazard point of the railway line. The rail vehicle, in a protection mode, is braked starting from a first speed during a braking phase at the start of the travel section. During the braking phase, a kinetic quantity of the kinetic energy amount of the rail vehicle is absorbed by an energy absorption unit. The braking phase is followed by an energy dissipation phase, in which part of the absorbed energy is discharged. The travel section is defined such that an energy state parameter representative of a vehicle energy amount, which energy state parameter takes into account the energy amount present in the energy absorption unit, satisfies a condition at the hazard point.

A system that includes a lead locomotive in communication with one or more remote vehicles, and the lead locomotive including one or more processors configured to execute program instructions to perform functions based on the program instructions. These functions include determining a first characteristic related to the lead locomotive or the one or more remote locomotives, receiving historical data related to the first characteristic, comparing the first characteristic to the historical data to determine a change in first characteristic value, and determining a second characteristic related to the lead locomotive or the one or more remote locomotives. In response to the change in first characteristic value exceeding a threshold percentage, the one or more processors ignore the change in first characteristic value exceeding the threshold percentage based on the second characteristic.

A system includes one or more processors that are configured to obtain a constraint on movement for a first vehicle system along a route. The constraint is based on movement of a separate second vehicle system that is concurrently traveling along the same route. The processor(s) are configured to determine a speed profile that designates speeds for the first vehicle system according to at least one of distance, location, or time based on the constraint such that the first vehicle system maintains a designated spacing from the second vehicle system along the route.

The present disclosure provides a method for obtaining an area speed limit value. The method includes: mapping, to a coordinate system, a track section on a train running line in electronic map data; respectively storing, into a temporary speed limit information list and a constant speed limit information list in a one-to-one correspondence mode, speed limit data of a temporary speed limit and speed limit data of a constant speed limit of the train in the track section according to coordinates of the track section in the coordinate system; combining speed limit data in the temporary speed limit information list with speed limit data in the constant speed limit information list to obtain a strictest speed limit list of the train; and obtaining, by searching the strictest speed limit list, a strictest speed limit value of an area corresponding to a real-time coordinate position of the train.

A system and method of dynamic train control for restricting the speed of a train in a railway on an approach to a visual barrier may include determining a stopping distance of a train to a visual barrier upon detecting a presence of the visual barrier in the railway, generating one or more stop target distances during an approach to the visual barrier based on the speed of the train on the approach to the visual barrier, and generating a warning for an operator to reduce the speed of the train based on the train moving within a warning distance associated with the stopping distance of the one or more stop target distances associated with the visual barrier.

A train-to-train warning system and method for communicating an information notification, may include receiving or sensing, by a head of train computer of a listener train, an information notification originating from an end of train device associated with a first train in a geographic area, identifying the first train based on at least one of the position of the first train or the identifier associated with the first train, determining, one or more events or conditions of the first train in the track network based on the information notification, generating an updated operation of the listener train including one or more actions, the updated operation based on the one or more events or conditions associated with the first train, and controlling a movement of the listener train based on at least one of the one or more actions.

A vehicle includes an engine and alternator having a field coil and a plurality of output windings, a field current controller configured to receive an AC input and convert the AC input into a regulated DC output that is supplied to the field coil of the alternator, and a controller configured to monitor at least one operating parameter of the field current controller and to compare a monitored value of the at least one operating parameter to a threshold range.

Various methods and systems are provided for detecting surge of a turbocharger during engine operation. As one example, a system includes an engine coupled to a low pressure turbocharger and a high pressure turbocharger; and a controller with non-transitory instructions stored in memory that when executed during operation of the engine cause the controller to: indicate an occurrence of surge of the high pressure turbocharger in response to a deviation of a modeled speed of the high pressure turbocharger from a measured speed of the high pressure turbocharger by a threshold amount, where the modeled speed tracks the measured speed during non-surge conditions, as engine operating conditions change.

An arrival time and location targeting system for a train, the system including at least one computer programmed or configured to: (a) receive at least one target location associated with a forward route of the train; (b) determine required time of arrival at the at least one target location based at least partially on the current location of a leading edge of the train; (c) determine an estimated time of arrival of the leading edge of the train at the at least one target location based at least partially on the current location of the leading edge of the train and the current speed of the train; and (d) based at least partially on the difference between the determined required time of arrival and the determined estimated time of arrival, generate a target speed of the train. A computer-implemented arrival time and location targeting method is also provided.