Abstract: A crankcase ventilation system for a turbocharger internal combustion engine comprises an internal combustion engine having a crankcase and an exhaust stack, a turbocharger for providing a supply of pressurized air to the engine, eductor tubing connected between the crankcase and the exhaust stack for ventilating the crankcase, and a conduit connected between the turbocharger and eductor tubing.

Abstract: A method for providing brake control for a rail car having a brake cylinder, a reservoir, and an exhaust vent includes steps of fluidly interconnecting four electrically controlled valves between a train brake pipe, the brake cylinder, the reservoir, and the exhaust vent, and controlling air flow between the brake pipe, car brake cylinder, car reservoir, and exhaust vent using the valves. The above described method allows mixing of conventional ABDW rail cars with ECP-equipped cars in an ECP-equipped train.

Abstract: A distributed power system for remotely controlling a locomotive, the system comprising a position-determining device for determining a position of the locomotive, a pre-stored track database comprising terrain and contour data about a railroad track, a track database integrity monitor for detecting errors with the pre-stored track database, a processor comprising an algorithm to determine a distributed power for the locomotive and to use the track database integrity monitor to determine if errors exist in the pre-stored track database, and a memory device connected to the processor.

Abstract: An apparatus and method for identifying and transmitting time critical or high priority files from an on-board monitor aboard a vehicle. During operation of the vehicle, the on-board monitor collects and stores operational parametric information in the form of data files. The data files are transmitted to a remote site on a periodic basis or in response to certain predetermined conditions above the vehicle. To reduce the latency and delay times with transmitting the high priority files, those files are merged and transmitted before the transmission of relatively lower priority data files.

Abstract: An apparatus and method for limiting diesel engine overspeed conditions (and thereby prevent engine damage) caused by the ingestion of lubricating oil from the turbocharger, or other source, into the diesel engine cylinders. In response to the development of an overspeed condition, the dynamic brake grids are coupled to the output of the main alternator to absorb the excess energy caused by the overspeed condition. Alternatively, non-combustible gases can be injected into the combustion system to limit the overspeed condition.

Abstract: A method and apparatus for determining whether a railroad locomotive is configured with the correct software versions. The version numbers for software on board the locomotive are periodically determined by an on-board monitoring system. This information is later transmitted to a remote monitoring and diagnostic center, where the actual software version numbers are compared to the expected software versions. If there is a mismatch, personnel at the remote monitoring and diagnostic center are alerted to resolve the mismatch.

Abstract: A method for identifying locomotive consists within train consists determines an order and orientation of the locomotives within the identified locomotive consists. An on-board tracking system is mounted to each locomotive and includes locomotive interfaces for interfacing with other systems of the particular locomotive, a computer for receiving inputs from the interface, a GPS receiver, and a satellite communicator (transceiver). As locomotives provide location and discrete information from the field, a central data processing facility receives the raw locomotive data. The data center processes the locomotive data and determines locomotive consists.

Abstract: A dragger detects objects dragging beneath a train as the train travels along a track. The dragger includes at least one stationary impact element and a detection circuit including at least one sensor coupled with impact element for sensing the force of the impacts between the objects and the impact element. A method for detecting objects dragging beneath a train involves positioning the stationary impact element along the track in a fixed position intersecting the path of movement of the objects. The method also involves sensing the force of each impact and generating an output signal if the magnitude of any impact is greater than a predetermined magnitude.

Abstract: A diesel engine, having a plurality of individually controllable fuel injected cylinders, is operated in a skip firing mode to reduce smoke emissions during low power operation. The system senses certain identified engine operating parameters and when these parameters exceed predetermined thresholds for a predetermined time, then the skip firing is implemented. In another embodiment, it is possible to implement several different skip firing patterns dependent upon engine performance. Upon implementation of skip firing, the engine timing angle is reset by a fixed angle and a multiplication factor is included in the speed loop integrator to ensure that the appropriate fuel volume value is injected into each cylinder immediately upon initiation of skip firing. Skip firing is then disabled when another set of predetermined conditions is satisfied.

Abstract: A system for determining a locomotive within a railyard includes a base station, a base station receiver that receives location data pertaining to the base station location, a mobile receiver that receives location data pertaining to the location of locomotive, and a computer. The mobile receiver utilizes data from a group of satellites that are a subset of the satellite constellation used to obtain base station location data. The computer tracks base station location data and computes a position error for the base station. The computer applies the error to a locomotive estimated position resulting in an accurate locomotive location.

Abstract: A process and system for developing an algorithm for predicting failures in a system, such as a locomotive, having a plurality of subsystems is provided. The process allows for conducting a failure mode analysis for a respective subsystem so as to identify target failure modes of the subsystem and/or collecting expert data relative to the respective subsystem. The process includes a step for identifying, based on the identified failure modes and/or the collected expert data, one or more signals to be monitored for measuring performance of the respective subsystem. A generating step allows for generating, based on the monitored signals, a predicting signal indicative of the presence of the identified target failure modes in the respective subsystem.

Abstract: A method of cooling a locomotive engine wherein the temperature of the coolant flowing into the engine is controlled in response to the temperature of the lube oil flowing out of the engine so that the difference between these two temperatures is limited to a predetermined value in order to limit the differential expansion between parts within the engine. The predetermined value may be a function of the lube oil temperature, and it may have an absolute maximum value. In the event that the temperature difference exceeds a predetermined value, the power output of the engine may be reduced as a function of the length of time that the temperature difference limit has been exceeded. The rate of change in coolant temperature may be limited during periods of decreasing lube oil temperature in order to limit the duty cycle demand on coolant system components.

Abstract: An apparatus and method are provided for interfacing railway controllers with light units, such as LED light unit arrays, to shunt and/or disable test signals not traditionally intended to test non-incandescent light unit arrays.

Abstract: A connection of a tube to a machine includes a plurality of rolled grooves in a region of contact between the collet of a compression fitting and the tube. The grooves reduce the occurrence of fretting of the tube surface while a region of residual compressive stress formed in the tube proximate the bottom of each groove by the rolling process serves to counteract the stress concentration created by the grooves. In one embodiment a single groove formed in a thread pattern extends from above collet to within the area of contact.

Abstract: A multiple outlet centrifugal blower has an impeller that provides both radial and axial airflows that are independent of each other such that an obstruction in one of the airflow does not substantially affect the flow of the other. The blower typically includes a housing having an inlet port, first and second outlet ducts, and an impeller rotatably positioned and supported within the housing. The first outlet duct is configured to receive airflow in a radial direction with respect to the blades of the impeller, and the second outlet duct is configured to receive airflow in an axial direction with respect to the blades of the impeller.

Abstract: A brake pipe overcharge detection scheme determines when an overcharge situation occurs followed by an interruption of the brake pipe slow pressure reduction process of the brake system assimilation. When the slow pressure reduction process is interrupted, the rail cars may be left in an overcharged state (i.e., the car braking system is charged to a pressure greater than the normal brake pipe pressure). When the brake pipe pressure is set to its normal brake-release value, the pressure of the car braking systems will be greater than the brake pipe pressure. The car braking system will interpret this positive pressure differential as a request to set the car brakes, and will therefore partially apply the car brakes. As a result, additional drag forces will be encountered by the locomotive as it moves the train, which may result in train separations, and overheating of the car brake shoes and wheels may result in cracked wheels and derailments.

Abstract: A railway brake system for a train includes a brake pipe extending along the train, a lead unit controller generating a pneumatic control signal propagated along the brake pipe, and at least one remote unit controller. The remote unit controller preferably includes a brake pipe control valve, such as a relay valve, connected in fluid communication with the brake pipe for selectively charging and exhausting the brake pipe, an air flow rate sensor for sensing air flow into the brake pipe during charging, a brake pipe pressure sensor for sensing brake pipe pressure, and a processor for detecting the pneumatic control signal from the lead unit controller based upon both the air flow rate sensor and the brake pipe pressure sensor. Accordingly, the sensitivity of detection is increased despite delayed operation of the relay valve, and while avoiding false indications. Multiple detection sensitivities may be used.

Abstract: A path determination device is configured to receive measured heading and distance information; determine heading corrections, distance corrections, and residuals utilizing a Kalman filter assuming a selected, known path was taken; and to determine a probability that the selected, known path actually was taken utilizing the determined residuals. The additional information utilized by the Kalman filters provides a more robust measurement indication of whether a particular path is taken than mere measurements and correlations of path curvature.

Abstract: An apparatus for determining the direction of locomotive travel while in dynamic braking is disclosed. This direction of travel is derived from current sensors associated with the locomotive traction motors. When in the dynamic braking mode, current flows through the current sensors in a first direction when a train is traveling in the first direction and reverses the direction of flow when the train is traveling in a second direction.

Abstract: A protective member positioned at the rear of the operator cab of a locomotive. The protective member provides impact protection for a passenger in the locomotive in the event of an impact between the rear panel of the locomotive and a foreign object during long hood lead (reverse) operation. The protective member may include a vertical member disposed under the outer sheet material at a rear corner of the operator cab as well as members surrounding the rear window opening. The protective member may be formed of rectangular steel tubing and is anchored directly or indirectly to the platform of the locomotive.