The object of the present invention is to provide a system for operating a marshalling yard in a more efficient and time saving way, by avoiding unnecessary procedures of preparation, usually done manually by mechanical means only, and turn it into an advanced technological facility.

The object of the present invention is to provide a system for operating a marshalling yard in a more efficient and time saving way, by avoiding unnecessary procedures of preparation, usually done manually by mechanical means only, and turn it into an advanced technological facility.

A method for assigning train blocks at a railroad merchandise yard includes determining, using a first optimization model and outbound train schedule data, a first list of train block assignments for a planning horizon. The method further includes determining whether an unassigned train block volume from the first optimization model is greater than zero. The method further includes displaying the first list of train block assignments generated by the first optimization model on an electronic display in response to determining that the unassigned train block volume from the first optimization model is not greater than zero. The method further includes, in response to determining that the unassigned train block volume from the first optimization model is greater than zero: determining and then displaying on the electronic display a second list of train block assignments for the planning horizon using a second optimization model and the outbound train schedule data.

The invention relates to a method for improving shunting route setting of a centralized traffic control system, a device and a medium. The method comprises the following steps: S1, acquiring a shunting operation plan from an interface of a SMIS and generating a shunting route sequence, by a centralized traffic control system; S2, adding an operation direction, a location identifier of a shunter, a current control mode of the shunter and a description of a next route based on an original shunter number of the centralized traffic control system; S3, configuring a manual setting mode and an automatic triggering mode for shunting route setting; S4, adding identifiers of the manual setting mode and the automatic triggering mode to shunter number display; S5, in the manual setting mode, adding a shunting plan constraint state and a free setting state to a shunting route setting logic of the centralized traffic control system; and the like. Compared with the prior art, the invention improves the shunting route setting safety and efficiency of the centralized traffic control system.

An interconnection and intercommunication method and system for a virtual marshalling train control system in a heavy haul railway. The method includes: determining a switching area for switching ground equipment between an existing line and a virtual marshalling line; switching a ground equipment control right when a train runs to within a range of the switching area; and after switching of the ground equipment control right is completed, sending, by the ground equipment in the virtual marshalling line, a marshalling command to on-board equipment of the train, and virtually marshalling, by the on-board equipment, the train corresponding to the on-board equipment and a front train in a formation based on the marshalling command. According to the present invention, the switching between different signal systems can be implemented, and the efficiency of train operation can be improved.

A method for assigning train blocks at a railroad merchandise yard includes determining, using a first optimization model and outbound train schedule data, a first list of train block assignments for a planning horizon. The method further includes determining whether an unassigned train block volume from the first optimization model is greater than zero. The method further includes displaying the first list of train block assignments generated by the first optimization model on an electronic display in response to determining that the unassigned train block volume from the first optimization model is not greater than zero. The method further includes, in response to determining that the unassigned train block volume from the first optimization model is greater than zero: determining and then displaying on the electronic display a second list of train block assignments for the planning horizon using a second optimization model and the outbound train schedule data.

A method for assigning train blocks at a railroad merchandise yard includes determining, using a first optimization model and outbound train schedule data, a first list of train block assignments for a planning horizon. The method further includes determining whether an unassigned train block volume from the first optimization model is greater than zero. The method further includes displaying the first list of train block assignments generated by the first optimization model on an electronic display in response to determining that the unassigned train block volume from the first optimization model is not greater than zero. The method further includes, in response to determining that the unassigned train block volume from the first optimization model is greater than zero: determining and then displaying on the electronic display a second list of train block assignments for the planning horizon using a second optimization model and the outbound train schedule data.

Systems and techniques for detecting applied railcar brakes within a railroad classification yard using thermal imaging. A thermal imaging system, including at least one thermal imaging sensor, captures a plurality of thermal images of railcar wheels. The thermal imaging system determines if a temperature within a user-defined bounding box on the thermal sensor's field of view exceeds a predetermined temperature threshold for a specified amount of time. Alternatively, a neural network may be used to detect the excessive temperature. In response, the thermal imaging system sends a system message, and a computer processor receives the system message and, if it meets reporting criteria, identifies the particular railcar and generates and transmits an alert message indicating a potential issue with the wheels of the railcar.

A method is provided for shunting route setting of a centralized traffic control system. The method includes S1, acquiring a shunting operation plan from an interface of a SMIS and generating a shunting route sequence, by a centralized traffic control system; S2, adding an operation direction, a location identifier of a shunter, a current control mode of the shunter and a description of a next route based on an original shunter number of the centralized traffic control system; S3, configuring a manual setting mode and an automatic triggering mode for shunting route setting; S4, adding identifiers of the manual setting mode and the automatic triggering mode to shunter number display; and S5, in the manual setting mode, adding a shunting plan constraint state and a free setting state to a shunting route setting logic of the centralized traffic control system.