The invention relates to a device for fastening trackside modules to a rail having a base and a head. The device includes two clamps that are clamped on the base of the rail with the use of a mechanism that extends under the base of the rail. At least one of the clamps is movable. A bracket is fastened to at least one of the clamps and a trackside module is fastened next to the head of the rail. A pair of brackets is fastened with the use of fasteners to surfaces of each of the clamps. The brackets extend transversely to the longitudinal axis of the rail and at least one upwardly extending section is fastened using second fasteners to at least one of the brackets outer side surfaces. At least one trackside module is fastened to an upper end region of at least one upwardly extending section.

The invention relates to a device for fastening trackside modules to a rail having a base and a head. The device includes two clamps that are clamped on the base of the rail with the use of a mechanism that extends under the base of the rail. At least one of the clamps is movable. A bracket is fastened to at least one of the clamps and a trackside module is fastened next to the head of the rail. A pair of brackets is fastened with the use of fasteners to surfaces of each of the clamps. The brackets extend transversely to the longitudinal axis of the rail and at least one upwardly extending section is fastened using second fasteners to at least one of the brackets outer side surfaces. At least one trackside module is fastened to an upper end region of at least one upwardly extending section.

A railroad communication system includes a radio transmitter for generating radio communications signals and a length of railroad rail coupled to the radio transmitter. The length of rail is disposed on a set of nonconductive railroad ties to form a transmission line for radiating the radio communications signals to a radio receiver in a vicinity of the length of railroad rail.

In one embodiment, a propulsion system includes roaming vehicles including a reaction plate installed on a bottom of each of the roaming vehicles, a surface stator matrix installed with a running surface for the roaming vehicles and including single sided linear induction motors (SSLIMs). Each of the SSLIMs include two windings installed orthogonally to one another. The propulsion system also includes motor drives configured to electrically couple to the SSLIMs via a switching panel, and a control system configured to receive information related to the roaming vehicles, receive a desired motion profile for the roaming vehicles across the surface stator matrix, determine which of the SSLIMs to activate and a performance of the SSLIMs based on the desired motion profile, the information, or some combination thereof, and send control signals to the motor drives to control the SSLIMs to produce the motion profile.

A control system presents a configurable virtual representation of at least a portion of a train and associated train assets, including a real-time location, configuration, and operational status of the train and associated train assets traveling along a railway. The control system may include a train position determining system, and a train configuration determining system. The control system may further include a train asset operational parameter sensing device, and a controller configured to receive data produced by the train position determining system, the train configuration determining system, and the train asset operational parameter sensing device. The controller may also process and aggregate the received data to provide a real-time virtual representation of the train and the train assets including the actual real-time position and configuration of the train assets relative to each other and to a geographical location, and coordinate a presentation of the aggregated data such that implementation of a select presentation process to the aggregated data results in a simultaneous implementation of the same select presentation process to at least one of electronic map data associated with the real-time location of the train and the train asset operational parameter data. A graphical user interface (GUI) may be configured to display in one or more display areas the real-time virtual representation of the train including a coordinated and configurable presentation of at least a portion of the aggregated data and the train asset operational parameter data.

An arrangement for train protection includes a rail vehicle with a driver's cabin and a train protection system. The train protection system is coupled to components of an actuator system and to components of a sensor system via a first gateway. The actuator system and the sensor system have antennas as respective components, which are designed for communication of the actuator system and the sensor system with trackside components of the train protection system. The first gateway has a switching functionality so that a line-length-independent connection is realized between the actuator system and the sensor system on the one hand and the train protection system on the other hand.

An arrangement for train protection includes a rail vehicle with a driver's cabin and a train protection system. The train protection system is coupled to components of an actuator system and to components of a sensor system via a first gateway. The actuator system and the sensor system have antennas as respective components, which are designed for communication of the actuator system and the sensor system with trackside components of the train protection system. The first gateway has a switching functionality so that a line-length-independent connection is realized between the actuator system and the sensor system on the one hand and the train protection system on the other hand.

A system and method for virtual block operational status control with long block time delay is presented. The present disclosure can advantageously increase the capacity and safety of the existing railroad track infrastructure used by the railroads by determining whether a virtual block is healthy or unhealthy. The long block mode can provide a coarse granularity on the presence of a train. In virtual block mode, the system can implement a finer granularity so the virtual aspects of the sub blocks can be realized. The present disclosure provides a long block mode that can provide the system an opportunity to analyze the potential tradeoffs between granularity and reliability by determining which mode (virtual block or long block) is best utilized in a given situation. The system can operate by default in long block mode and ignore the virtual block capabilities until absolutely needed.