Abstract: A method of communicating between a source node and a target node includes, for each of a plurality of paths between the target node and the source node, determining a total number of intermediary nodes and an expected data rate. The method also includes identifying each of the plurality of paths for which the total number of intermediary nodes is equal to or below a ceiling number as a first group of paths and identifying each of the plurality of paths for which the expected data rate is equal to or exceeds a threshold data rate as a second group of paths. A preferred path is used to communicate between the target node and the source node, the preferred path being included in the first group of paths and the second group of paths.

Abstract: A rail vehicle consist may include a master unit and at least one trailing unit coupled to the master unit. The master unit may include a first processor in communication with a second processor of the at least one trailing unit. A power source may be disposed on the at least one trailing unit and may include a sensor associated with the second processor. A display may be disposed on the master unit and may be associated with the first processor to display characteristics monitored by the sensor wherein the display presents a message image, a warning image, and an isolate image.

Abstract: A trainline network access point connected to an intra-consist electrical cable of a consist has a network data signal path, first and second communication modules, and a network switch. The network switch is connected to the first and second communication modules and configured to selectively connect the network data signal path to the first communication module and the second communication module. The first communication module has a first processor configured to receive first network data via the network data signal path, modulate the first network data for transmission over the intra-consist electrical cable, and transmit the first modulated network data over the intra-consist electrical cable. The second communication module includes a second processor configured to receive second network data via the network data signal path, modulate the second network data for transmission over the intra-consist electrical cable, and transmit the second modulated network data over the intra-consist electrical cable.

Abstract: A trainline communication network access point has an intra-consist electrical cable connection point coupled to a transmission path and an intra-consist electrical cable, a processor, and a filter arrangement. The processor generates a data signal capable of transmitting network data over the intra-consist electrical cable. The processor determines from a plurality of possible transmit frequencies masked frequencies and non-masked frequencies and communicate the data signal on the transmission path on at least one of the non-masked frequencies and prevents communication of the data signal on the transmission path at the masked frequencies. The filter arrangement is disposed on the transmission path between the processor and the intra-consist electrical cable connection point and filters at least one of the masked frequencies from the transmission path.

Abstract: A method of communicating between a source node and a target node includes, for each of a plurality of paths between the target node and the source node, determining a total number of intermediary nodes and an expected data rate. The method also includes identifying each of the plurality of paths for which the total number of intermediary nodes is equal to or below a ceiling number as a first group of paths and identifying each of the plurality of paths for which the expected data rate is equal to or exceeds a threshold data rate as a second group of paths. A preferred path is used to communicate between the target node and the source node, the preferred path being included in the first group of paths and the second group of paths.

Abstract: A computer-implemented method includes a first controller configured to receive and record operational data associated with operation of a locomotive, process, via a processor, the operational data, and determine, using the processor, a data storage plan for the operational data. The data storage plan can dynamically change based on the operational data. The system may be further configured to store the operational data with a second controller associated with a second locomotive according to the data storage plan.

Abstract: A rail vehicle consist may include a master unit and at least one trailing unit coupled to the master unit. The master unit may include a first processor in communication with a second processor of the at least one trailing unit. A power source may be disposed on the at least one trailing unit and may include a sensor associated with the second processor. A display may be disposed on the master unit and may be associated with the first processor to display characteristics monitored by the sensor wherein the display presents a message image, a warning image, and an isolate image.

Abstract: A computer-implemented method includes a first controller configured to receive and record operational data associated with operation of a locomotive, process, via a processor, the operational data, and determine, using the processor, a data storage plan for the operational data. The data storage plan can dynamically change based on the operational data. The system may be further configured to store the operational data with a second controller associated with a second locomotive according to the data storage plan.

Abstract: The disclosure is directed to a communication system for a consist having a locomotive and a tender car. The communication system may have a locomotive access point configured to be located onboard the locomotive, a locomotive controller connected to the locomotive access point, a tender car access point configured to be located onboard the tender car, and a tender car controller connected to the tender car access point. The communication system may also have at least one network component configured to be located onboard the locomotive or the tender car and connected with a corresponding one of the locomotive and tender car access points, and a communication coupling extending between the locomotive and tender car access points. The locomotive and tender car controllers may be configured to selectively affect operation of the locomotive and tender car, respectively, based on operational information obtained via the at least one network component.

Abstract: A receive attenuation system for a trainline communication system utilizing an intra-consist electrical cable has an analog front end amplifier, a trainline communication processor, an adjustable attenuator, and a gain controller. The trainline communication processor is configured to generate a receive gain control signal configured to control receive gain of the analog front end amplifier. The adjustable attenuator is capable of being coupled to the intra-consist electrical cable and configured to variably attenuate signals received from the intra-consist electrical cable before transmitting the signals to the analog front end amplifier. The gain controller is coupled to the adjustable attenuator and configured to detect the receive gain control signal generated by the trainline communication processor, determine a supplemental attenuation control value based on the detected receive gain control signal, and control the adjustable attenuator according to the supplemental attenuation control signal.

Abstract: A system for determining locomotive position in a consist including a first locomotive, a second locomotive, and one or more additional locomotives has a processor configured to determine first measurements taken starting from the first locomotive and capable of quantifying distances between the first locomotive and the second locomotive and the first locomotive and the one or more additional locomotives. The processor is also configured to determine second measurements taken starting from the second locomotive and capable of quantifying distances between the second locomotive and the first locomotive and the second locomotive and the one or more additional locomotives. The processor is further configured to combine the first measurements and the second measurements into a combined data set and, determine a locomotive consist order based on the combined data set.

Abstract: A communication access point is disclosed for use with a mobile consist having at least a first vehicle and a second vehicle. The communication access point may have an intra-consist router configured to receive signals from a first plurality of vehicle control components located onboard the first vehicle and to generate data packets for transmission to a second plurality of vehicle control components located onboard the second vehicle. The communication access point may also have a wired Ethernet bridge configured to transmit data packets to and from the intra-consist router, and a wireless Ethernet bridge configured to transmit data packets to and from the intra-consist router in parallel with the wired Ethernet bridge.

Abstract: An access point for a communication network is disclosed. The access point may have a communications processor configured to receive incoming signals from a different access point of the communication network, and to generate outgoing signals directed to the different access point based on a plurality of amplitude scale factor maps stored in memory. The access point may also have a cable connected between the communications processor and the different access point, and a transmission amplifier connected to the cable downstream of the communications processor. The transmission amplifier may be configured to amplify the outgoing signals.

Abstract: The disclosure is directed to a communication method for use with a train consist having a locomotive and a tender car. The communication method may include transmitting between the locomotive and the tender car operational data captured by network components located onboard at least one of the locomotive and the tender car. The method may further include selectively adjusting an operation of at least one of the locomotive and the tender car based on the data.

Abstract: An onboard communication system for a locomotive consist is disclosed. The communication system may have first and second locomotive communication subsystems. The first communication subsystem may be located on a first locomotive. Each communication subsystem may have a messaging unit communicatively connected to a radio. The first messaging unit may be communicatively connected to the second messaging unit. The second messaging unit may be configured to receive a data communication from the second radio and send the data communication to the first messaging unit. The first messaging unit may be configured to receive the data communication from the second messaging unit, receive a copy of the data communication from the first radio, determine that the data communications are duplicate copies of one another, and send one of the data communications to a locomotive control system based on the determination.

Abstract: A method is disclosed for determining the positional relationship between a locomotive in a consist and a tender car in the consist. The method may include transmitting a signal from a locomotive controller to the tender car. The signal may be processed at the tender car in a manner uniquely indicative of one end of the tender car. A locomotive controller associated with the locomotive may receive an indication of an effect of the signal processing, and use the indication to establish the positional relationship between the locomotive and the one end of the tender car. The locomotive controller associated with the locomotive may transmit a signal indicative of fuel requirements and including the positional information to a controller associated with the tender car. The tender car controller may transfer fuel from the one end of the tender car to the locomotive.

Abstract: A system for determining communication paths in a trainline communication network utilized by a consist has a processor configured to determine direct data transmission metrics for one locomotive of the consist. The processor receives direct data transmission metrics for the remaining locomotives of the consist and determines indirect data transmission estimates for the one locomotive based on the received direct data transmission metrics. The processor determines communication paths for the one locomotive by comparing the direct data transmission metrics for the one locomotive to the indirect data transmission estimates for the one locomotive.

Abstract: A trainline network access point connected to an intra-consist electrical cable of a consist has a network data signal path, a first communication module, a second communication module, and a network switch. The network switch is connected to the first communication module and the second communication module and configured to selectively connect the network data signal path to the first communication module and the second communication module. The first communication module has a first processor configured to receive first network data via the network data signal path, modulate the first network data for transmission over the intra-consist electrical cable, and transmit the first modulated network data over the intra-consist electrical cable.

Abstract: A method is disclosed for determining the positional relationship between a locomotive in a consist and a tender car in the consist. The method may include transmitting a signal from a locomotive controller to the tender car. The signal may be processed at the tender car in a manner uniquely indicative of one end of the tender car. A locomotive controller associated with the locomotive may receive an indication of an effect of the signal processing, and use the indication to establish the positional relationship between the locomotive and the one end of the tender car. The locomotive controller associated with the locomotive may transmit a signal indicative of fuel requirements and including the positional information to a controller associated with the tender car. The tender car controller may transfer fuel from the one end of the tender car to the locomotive.

Abstract: A trainline communication network access point has an intra-consist electrical cable connection point coupled to a transmission path and an intra-consist electrical cable, a processor, and a filter arrangement. The processor generates a data signal capable of transmitting network data over the intra-consist electrical cable. The processor determines from a plurality of possible transmit frequencies masked frequencies and non-masked frequencies and communicate the data signal on the transmission path on at least one of the non-masked frequencies and prevents communication of the data signal on the transmission path at the masked frequencies. The filter arrangement is disposed on the transmission path between the processor and the intra-consist electrical cable connection point and filters at least one of the masked frequencies from the transmission path.