Abstract: A method and system for identifying cargo-carrying vehicles (CCV) to be included in a vehicle system that are non-propulsion-generating vehicles scheduled to depart from a vehicle yard and travel to one or more destination locations at a predetermined departure time. Further includes, calculating a minimum tractive effort threshold required by one or more propulsion-generating vehicles (PGV) to propel the vehicle system to the one or more destination locations along a route within a predetermined time period. And selecting a set of one or more PGV from a larger group of PGV within the vehicle yard to be included in the vehicle system. The set of one or more PGV produce a tractive effort of at least the minimum tractive effort threshold, and having at least one of a lower fuel consumption or lower emissions than selecting one or more of the remaining PGV from the larger group of PGV, respectively.

Abstract: A method and system for identifying cargo-carrying vehicles (CCV) to be included in a vehicle system that are non-propulsion-generating vehicles scheduled to depart from a vehicle yard and travel to one or more destination locations at a predetermined departure time. Further includes, calculating a minimum tractive effort threshold required by one or more propulsion-generating vehicles (PGV) to propel the vehicle system to the one or more destination locations along a route within a predetermined time period. And selecting a set of one or more PGV from a larger group of PGV within the vehicle yard to be included in the vehicle system. The set of one or more PGV produce a tractive effort of at least the minimum tractive effort threshold, and having at least one of a lower fuel consumption or lower emissions than selecting one or more of the remaining PGV from the larger group of PGV, respectively.

Abstract: A method and system for identifying cargo-carrying vehicles (CCV) to be included in a vehicle system that are non-propulsion-generating vehicles scheduled to depart from a vehicle yard and travel to one or more destination locations at a predetermined departure time. Further includes, calculating a minimum tractive effort threshold required by one or more propulsion-generating vehicles (PGV) to propel the vehicle system to the one or more destination locations along a route within a predetermined time period. And selecting a set of one or more PGV from a larger group of PGV within the vehicle yard to be included in the vehicle system. The set of one or more PGV produce a tractive effort of at least the minimum tractive effort threshold, and having at least one of a lower fuel consumption or lower emissions than selecting one or more of the remaining PGV from the larger group of PGV, respectively.

Abstract: A method and system for identifying cargo-carrying vehicles (CCV) to be included in a vehicle system that are non-propulsion-generating vehicles scheduled to depart from a vehicle yard and travel to one or more destination locations at a predetermined departure time. Further includes, calculating a minimum tractive effort threshold required by one or more propulsion-generating vehicles (PGV) to propel the vehicle system to the one or more destination locations along a route within a predetermined time period. And selecting a set of one or more PGV from a larger group of PGV within the vehicle yard to be included in the vehicle system. The set of one or more PGV produce a tractive effort of at least the minimum tractive effort threshold, and having at least one of a lower fuel consumption or lower emissions than selecting one or more of the remaining PGV from the larger group of PGV, respectively.

Abstract: A data communication system for a rail vehicle includes a data reading device and a processing module. The data reading device is disposed on the rail vehicle and is configured to at least one of electromagnetically interrogate or optically read identification data that is visually presented on a first operator control unit. The first operator control unit is configured to remotely control operations of one or more powered units of a rail vehicle consist when the operator control unit is disposed outside of the one or more powered units. The processing module is disposed on the rail vehicle and is communicatively coupled with the data reading device. The processing module receives the identification data from the data reading device and uses the identification data to identify the first operator control unit and allow the first operator control unit to remotely control operations of the one or more powered units.

Abstract: A data communication system for a rail vehicle consist includes a data reading device and a processing module. The data reading device is disposed on the consist and is configured to interrogate and read data from a tangible and non-transitory medium that is spaced apart from the data reading device. The processing module is disposed on the rail vehicle consist and is communicatively coupled with the data reading device. The processing module receives the data from the data reading device and uses the data in connection with one or more operations of the rail vehicle consist. A method for communicating data with a rail vehicle consist includes interrogating and reading data from a tangible and non-transitory medium using an electronic reading device while the medium is spaced apart from the reading device and using the data in connection with one or more operations of the rail vehicle consist based on the data.