Abstract: A method includes determining whether use of an energy management system (EMS) associated with a vehicle traveling in a transportation network is allowed within a region of the transportation network. The EMS obtains a trip plan for the vehicle that designates operational settings of the vehicle as a function of at least one of distance or time along a trip of the vehicle. The method also includes determining whether the EMS is being used by the vehicle when the vehicle is within the region, and sending a message to an off-board location when the EMS is not being used by the vehicle within the region.

Abstract: A method includes obtaining data relating to operation of a first vehicle in a vehicle consist that includes the first vehicle and a second vehicle communicatively coupled with each other by a communication channel. The first vehicle includes a first electronic component performing functions for the first vehicle using the first data. The method also includes communicating the first data over the communication channel from the first vehicle to a second electronic component disposed onboard the second vehicle responsive to the first electronic component being unable to perform the one or more functions for the first vehicle using the first data. The method further includes performing the functions of the first electronic component with the second electronic component using the first data that is received from the first vehicle.

Abstract: A rail vehicle system and a method for managing distribution of power in the rail vehicle system are provided.

Abstract: A control system for a rail vehicle system including a lead powered unit and a remote powered unit is provided. The system includes a user interface, a master isolation module and a slave controller. The user interface is disposed in the lead powered unit and is configured to receive an isolation command to turn on or off the remote powered unit. The master isolation module is configured to receive the isolation command from the user interface and to communicate an instruction based on the isolation command. The slave controller is configured to receive the instruction from the master isolation module. The slave controller causes the remote powered unit to supply tractive force to propel the rail vehicle system when the instruction directs the slave controller to turn on the remote powered unit. The slave controller causes the remote powered unit to withhold the tractive force when the instruction directs the slave controller to turn off the remote powered unit.

Abstract: A locomotive consist includes a lead locomotive, one or more trail locomotives, and a multiple unit (MU) cable bus interconnecting the first locomotive and the trail locomotives, which is used in the locomotive consist for transferring non-network control information between the lead vehicle and the trail locomotives. In a system and method for communicating data in the locomotive consist, network data is transmitted from the lead locomotive in the locomotive consist to one or more of the trail locomotives in the locomotive consist. The network data is transmitted over the MU cable bus. Each locomotive may include a computer unit or other electronic component, which along with the MU cable bus form a network in the train, e.g., an Ethernet network.

Abstract: A rail vehicle includes of one or more locomotives and may further include one or more rail cars, and the rail vehicle further includes a locator element, a communications device and a control module located on the rail vehicle. The locator elements provide a location information of the rail vehicle to a control module. The control module is coupled to the communications device and the locator element. The control module determines control settings for controlling the operations of the communications device based on the location of the rail vehicle. The communications device sends and/or receives data, including communications data, off-board the rail vehicle.

Abstract: A detection system for a rail vehicle includes a control module, which has a sensor, input for receiving a signal from a sensor. The control module is configured to receive the signal and to output information responsive to the signal. In operation, the control module and a sensor are deployed on board the rail vehicle. The sensor is configured to generate the signal responsive to detecting a designated condition on board the rail vehicle. When the condition occurs, the sensor outputs the signal, which is received by the control module. Responsive to the signal, the control module outputs the information, such as communicating information of the signal content to another rail vehicle, or to an off board location. The designated condition may be unauthorized use of a handheld wireless device in a rail vehicle, or intruder entry into an unmanned rail vehicle.

Abstract: A method includes determining whether use of an energy management system (EMS) associated with a vehicle traveling in a transportation network is allowed within a region of the transportation network. The EMS obtains a trip plan for the vehicle that designates operational settings of the vehicle as a function of at least one of distance or time along a trip of the vehicle. The method also includes determining whether the EMS is being used by the vehicle when the vehicle is within the region, and sending a message to an off-board location when the EMS is not being used by the vehicle within the region.

Abstract: A rail appliance communication system includes: an equipment management device capable of being coupled with a conductive pathway extending along a track that a rail vehicle travels along; and an appliance communication device capable of being coupled with a rail appliance disposed proximate to the track, the appliance communication device and the equipment management device configured to communicate a data signal with each other through the conductive pathway. A method for communicating with a rail appliance includes: coupling an equipment management device with a conductive pathway that extends along a track that a rail vehicle travels along; and coupling an appliance communication device with the rail appliance disposed proximate to the track; wherein the equipment management device and the appliance communication device communicate a data signal through the conductive pathway.

Abstract: A rail vehicle system and a method for managing distribution of power in the rail vehicle system are provided.

Abstract: A rail communication system includes: a communication management device capable of being communicatively coupled with a conductive pathway that extends along a track; and an on-board communication device capable of being coupled with a rail vehicle that travels along the track and with the conductive pathway, the communication management device and the on-board communication device configured to communicate a data signal between each other through the conductive pathway, where the data signal includes network data. A method for communicating with rail vehicles includes: coupling a vehicle management device with a conductive pathway that extends alongside a track; and coupling an on-board communication device disposed on a rail vehicle that travels along the track with the conductive pathway; where the communication management device and the on-board communication device communicate a data signal that includes network data through the conductive pathway.

Abstract: A method of verifying clearance of a rail crossing includes: (a) detecting the presence of a train near the crossing, the train being equipped with a locomotive control unit; (b) in response to detection of the train near the crossing, generating a unique code; (c) capturing an image of the crossing; (d) transmitting the unique code along with the image to a remote operator control unit; (e) using the locomotive control unit, waiting for a response from the operator control unit containing the unique code; and (f) if the response containing the unique code is received by the locomotive control unit, permitting further operation of the train and, if the unique code is not received by the locomotive control unit, carrying out an automatic response which prevents movement of the train through the crossing.

Abstract: A system includes first and second control modules, an energy management module, and an arbitration module. The first and second control modules are on-board first and second powered vehicles coupled by at least a third vehicle in a vehicle consist. The first control module forms control signals to coordinate tractive efforts provided by the vehicle consist. The energy management module is on-board the second powered vehicle and is communicatively coupled with the second control module. The energy management module forms control signals that are transmitted by the second control module to control the tractive efforts provided by the first powered vehicle and the second powered vehicle based on a trip profile associated with a trip of the vehicle consist. The arbitration module is communicatively coupled with the first and second control modules. The arbitration module determines which of the control modules controls the tractive efforts provided by the vehicle consist.

Abstract: A method for controllably linking propulsion units in a vehicle consist includes transmitting a linking signal having an identity of a lead propulsion unit. A remote propulsion unit is remotely controlled by the lead unit when the identity matches a designated identity stored onboard the remote unit. A de-linking signal is transmitted from the lead unit when the lead unit is to be decoupled from the vehicle consist. The de-linking signal includes a replacement identity of a replacement propulsion unit. A replacement linking signal is transmitted from a second lead unit. The remote propulsion unit allows the second lead propulsion unit to remotely control the operations of the remote propulsion unit when replacement identity stored onboard the remote propulsion unit matches an identity that is communicated in the replacement linking signal.

Abstract: A method of verifying clearance of a rail crossing includes: (a) detecting the presence of a train near the crossing, the train being equipped with a locomotive control unit; (b) in response to detection of the train near the crossing, generating a unique code; (c) capturing an image of the crossing; (d) transmitting the unique code along with the image to a remote operator control unit; (e) using the locomotive control unit, waiting for a response from the operator control unit containing the unique code; and (f) if the response containing the unique code is received by the locomotive control unit, permitting further operation of the train and, if the unique code is not received by the locomotive control unit, carrying out an automatic response which prevents movement of the train through the crossing.

Abstract: A method for controlling a vehicle system includes controlling a vehicle system having powered units that propel the vehicle system. A trip plan directs at least one of the powered units to remain in a non-propulsion generating mode during the trip. The method further includes slowing and/or stopping the vehicle system in contravention to the first trip plan, activating the at least one of the powered units out of the non-propulsion generating mode into an active, propulsion-generating mode when the vehicle system accelerates after the at least one of slowing or stopping in contravention to the first trip plan, and switching the at least one of the powered units back to the non-propulsion generating mode after the vehicle system achieves a designated speed following accelerating after the at least one of the slowing or stopping of the vehicle system in contravention to the first trip plan.

Abstract: A method of verifying clearance of a rail crossing includes: (a) detecting the presence of a train near the crossing, the train being equipped with a locomotive control unit; (b) in response to detection of the train near the crossing, generating a unique code; (c) capturing an image of the crossing; (d) transmitting the unique code along with the image to a remote operator control unit; (e) using the locomotive control unit, waiting for a response from the operator control unit containing the unique code; and (f) if the response containing the unique code is received by the locomotive control unit, permitting further operation of the train and, if the unique code is not received by the locomotive control unit, carrying out an automatic response which prevents movement of the train through the crossing.

Abstract: A control system includes an energy management system and an isolation control system. The energy management system generates a trip plan that designates operational settings of a vehicle system having powered units that generate tractive effort to propel the vehicle system. The energy management system determines a tractive effort capability of the vehicle system and a demanded tractive effort of a trip. The energy management system identifies a tractive effort difference between the tractive effort capability of the vehicle system and the demanded tractive effort of the trip and selects at least one of the powered units based on the tractive effort difference. The isolation module remotely turns the selected powered unit to an OFF mode such that the vehicle system is propelled along the route during the trip by the powered units other than the selected powered unit.

Abstract: Methods and systems are provided for processing data generated in a vehicle group. One example embodiment comprises evaluating one or more quality parameters of a first data set generated at a first vehicle in the vehicle group by a first data capture device, and based on the evaluation, off-boarding the first data set for storage purposes. Based on a link quality of a communication system of the vehicle group, the first data set may be off-boarded to a second vehicle in the vehicle group or to a remote storage device. In one example, if the quality parameter of the first data set is higher, the data may be stored on a second vehicle, while if the quality parameter of the first data set is lower, a second data set generated at the second vehicle by a second data capture device may be stored on the second vehicle.

Abstract: A communication system for a rail vehicle consist includes antenna modules, routing modules, and an arbitration module. The antenna modules are disposed at spaced apart locations and receive a trip profile from an off-board device. The trip profile is related to tractive and/or braking effort supplied by one or more powered units of the rail vehicle consist. The routing modules are disposed on the powered units and are communicatively coupled with the antenna modules. The routing modules are communicatively coupled with a network connection extending along the rail vehicle consist between the powered units. The arbitration module is communicatively coupled with the routing modules by the network connection. The routing modules transmit the received trip profile to the arbitration module. The arbitration module reconstitutes the trip profile into a message that is transmitted to a propulsion subsystem of one or more of the powered units.