Method and system for ensuring that a train does not pass an improperly configured device

Abstract

A train control system includes a positioning system and consults a database to determine when the train is approaching a configurable device such as a switch or grade crossing gate. The system continuously interrogates the device to determine its status as the train approaches the device, and forces an engineer/conductor to acknowledge any detected malfunction. The train is forced to come to a complete stop before proceeding past the device or may be slowed down to a speed that will allow the engineer/conductor to visually determine whether it is safe to proceed past the device if the engineer/conductor acknowledges a message warning of the malfunction and will stop the train if the engineer/conductor fails to acknowledge the warning message.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to railroads generally, and more particularly to a method and system for ensuring that a train does not pass a device such as a grade crossing gate or a track switch when that device is not properly configured.

2. Discussion of the Background

Train safety has always been a concern in the railroad industry. If anything, this concern has increased in recent years. This concern has led to proposals for and development of automated, safety-enhancing systems such as Automatic Train Control (ATC), Positive Train Control (PTC), and others. While such systems vary in their implementation, one goal they all share is to avoid accidents.

One source of accidents is an improperly set switch. Historically, an engineer or conductor would visually verify that a switch has been set to the correct position. However, engineers and conductors, being human, sometimes make mistakes, including traveling too fast such that there is not sufficient time to stop the train when the signal is first visible, not activating the brakes a sufficient distance from the switch, failing to notice that the switch has been improperly set, and even forgetting to look at the switch. The results of such mistakes can be disastrous.

Another source of accidents is a malfunctioning grade crossing gate. Grade crossing gates may be triggered by radar, by a track circuit, or by a mechanical switch set at a position far enough away from the crossing gate such that the gate will have sufficient time to go down when triggered by a train traveling at the maximum allowable speed. Some gates are equipped with monitoring equipment that can determine if the gate is malfunctioning and, in some cases, sends a message via telephone or radio informing the dispatcher of a malfunction. The dispatcher is then required to broadcast this information to all other trains that pass the grade crossing.

What is needed is a method and apparatus that ensures that a train will not pass a switch, grade crossing gate, or other device that is not properly configured.

SUMMARY OF THE INVENTION

The present invention meets the aforementioned need to a great extent by providing a computerized train control system in which a control module determines a position of a train using a positioning system such as a global positioning system (GPS), consults a database to determine when the train is approaching a configurable device such as a switch or grade crossing gate, continuously interrogates the device to determine its status as the train approaches the device, and forces an engineer/conductor to acknowledge any detected malfunction. A malfunction can be reported by the device itself, or can be declared by the system if the device fails to respond to initial or subsequent interrogations. In some embodiments of the invention, the train is forced to come to a complete stop before proceeding past the device. In other embodiments, the train will slow to a speed that will allow the engineer/conductor to visually determine whether it is safe to proceed past the device if the engineer/conductor acknowledges a message warning of the malfunction and will stop the train if the engineer/conductor fails to acknowledge the warning message.

BRIEF DESCRIPTION OF THE DRAWINGS

A more complete appreciation of the invention and many of the attendant features and advantages thereof will be readily obtained as the same become better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:

FIG. 1 is a logical block diagram of a train control system according to one embodiment of the invention.

FIG. 2 is a flow chart of a device interrogation method according to another embodiment of the invention.

FIGS. 3 a and 3b are a flow chart of a device interrogation method according to a third embodiment of the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The present invention will be discussed with reference to preferred embodiments of train control systems. Specific details, such as specific algorithms and hardware, are set forth in order to provide a thorough understanding of the present invention. The preferred embodiments discussed herein should not be understood to limit the invention. Furthermore, for ease of understanding, certain method steps are delineated as separate steps; however, these steps should not be construed as necessarily distinct nor order dependent in their performance.

Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, FIG. 1 is a logical block diagram of a train control system 100 according to an embodiment of the present invention. The system 100 includes a control module 110, which typically, but not necessarily, includes a microprocessor. The control module 110 is responsible for controlling the other components of the system.

A positioning system 120 is connected to the control module 110. The positioning system supplies the position (and, in some cases, the speed) of the train to the control module 110. The positioning can be of any type, including a global positioning system (GPS), a differential GPS, an inertial navigation system (INS), or a Loran system. Such positioning systems are well known in the art and will not be discussed in further detail herein. (As used herein, the term “positioning system” refers to the portion of a positioning system that is commonly located on a mobile vehicle, which may or may not comprise the entire system. Thus, for example, in connection with a global positioning system, the term “positioning system” as used herein refers to a GPS receiver and does not include the satellites that transmit information to the GPS receiver.) A map database 130 is also connected to the control module 110. The map database 130 preferably comprises a non-volatile memory such as a hard disk, flash memory, CD-ROM or other storage device, on which map data is stored. Other types of memory, including volatile memory, may also be used. The map data preferably includes positions of all configurable devices such as switches and grade crossing gates. The map data preferably also includes information concerning the direction and grade of the track in the railway. By using train position information obtained from the positioning system 120 as an index into the map database 140, the control module 110 can determine its position relative to configurable devices.

When the control module 110 determines that a configurable device 180 (which includes a transceiver 190) is present, it interrogates the device 180 through transceiver 150. The transceiver 150 can be configured for any type of communication, including communicating through rails and wireless. In addition to communicating with configurable devices 180, the transceiver 150 may communicate with a dispatcher (not shown in FIG. 1).

Also connected to the control module 110 is a brake interface 160. The brake interface 160 monitors the train brakes and allows the control module 110 to activate and control the brakes to stop or slow the train when necessary.

A warning device 170 is also connected to the control module 110. The warning device 170 is used to warn the conductor/engineer that a malfunction has been detected. The warning device 170 may also be used to allow the engineer/conductor to acknowledge the warning. In some embodiments, the warning device 170 is in the form of button on an operator display such as the display illustrated in co-pending U.S. application Ser. No. 10/186,426, entitled “Train Control System and Method of Controlling a Train or Trains” filed Jul. 2, 2002, the contents of which are hereby incorporated by reference herein. In other embodiments, the warning device 170 may be a stand alone button that illuminates when a malfunction is detected. In yet other embodiments (e.g., those in which no acknowledgment of a warning is required), the warning device 170 may comprise or consist of a horn or other device capable of providing an audible warning.

FIG. 2 is a flowchart 200 illustrating operation of the processor 110 in connection with configurable devices 180. The control module 110 determines the train's current position from information provided by the positioning system 120 at step 210. The control module then obtains the locations of nearby configurable devices 180 from the map database 130 at step 212. If no configurable device 180 is within a threshold distance, steps 210 et seq. are repeated. If a configurable device 180 is within a threshold distance at step 214, the device is interrogated at step 216.

In some embodiments, this threshold distance is predetermined distance based in part upon a worst case assumption (i.e., an assumption that a train having the greatest possible weight is traveling at a maximum allowable or possible speed in a downhill direction on a portion of track with the steepest grade in the system). In other embodiments, the threshold is based on the actual speed and weight of the train and the grade of the track between the train and the device. In still other embodiments, the calculation may take into account the distribution of weight in the train this will effect the required stopping distance as discussed in the aforementioned co-pending U.S. patent application.

In some embodiments, the interrogation includes an identification number associated with the device 180. Since only the device corresponding to the identification number will respond to the interrogation, this identification number is obtained from the map database 130. This avoids contention between multiple devices attempting to respond to the interrogation on the same frequency.

If the configurable device 180 fails to respond at step 218, or reports an incorrect configuration at step 220, the control module notifies the conductor/engineer of the malfunction at step 224. If, in response to the notification, the operator fails to activate the brakes at step 226, the control module 110 automatically activates the brakes to bring the train to a halt at step 228. At this point, the conductor/engineer must restart the train, which preferably requires the conductor/engineer to acknowledge the warning provided at step 224.

If the device 180 responds to the interrogation at step 218 and reports a correct configuration at step 220, then, at step 222, the control module 110 returns to step 216 if the device 180 has not been passed, or returns to step 210 to repeat the process for the next configurable device 180. Returning to step 216 to interrogate the device multiple times as the train approaches the device is important for safety purposes. This will detect malfunctions or changes in configuration after the initial interrogation (e.g., someone throwing the switch into the wrong position after the initial interrogation but before the train reaches the switch) from causing and accident. Whether or not the interrogation of step 318 includes the device's identification number, it is preferable for the device's response to include its identification number as this allows for greater assurance that a response from some other source has not been mistaken as a response from the device.

FIGS. 3 a and 3b together form a flowchart 300 illustrating operation of the control unit 110 in connection with configurable devices 180 according to a second embodiment of the invention. Steps 310-322 of the flowchart 300 are similar to steps 210-222 of the flowchart 200 of FIG. 2; therefore, the detailed discussion of these steps will not be repeated. If a configurable device 180 does not respond at step 318 or reports an incorrect configuration at step 320 after being interrogated at step 316, the control module 110 then activates the warning device 170 to inform the conductor/engineer of the problem at step 330. A time period within which the operator must acknowledge the warning and slow the train to a reduced speed is associated with the warning. This time period may be a predetermined number based on a worst-case stopping distance, or may be calculated dynamically based on factors such as the current speed of the train, the braking characteristics of the brakes on the train, the weight of the train, the distribution of weight on the train, and/or the grade of the track as determined from the map database 130 using the train position from the positioning system 120, or other factors as discussed in the above-referenced co-pending U.S. patent application.

If the operator acknowledges the warning at step 332 and sufficiently slowed the train at step 334 within the allowable time period, the control module 110 monitors the speed of the train to ensure that the reduced speed is maintained at step 336 until either the train has passed the device 180 at step 338 or the conductor/engineer verifies that he has visually determined that the device is configured properly at step 340. In the case of a configurable device such as a grade crossing gate, this allows the train to continue moving past the gate at a slow speed. In the case of an incorrectly thrown switch, it is expected that the conductor/engineer will stop the train if the switch cannot be set to the correct position before the train reaches it; however, there may be some circumstances in which the conductor/engineer desires to allow the train to continue past an incorrectly thrown switch. Because the conductor/engineer was forced to acknowledge the warning about the improperly configured switch, it is unlikely that allowing the train to proceed past the improperly configured switch is not intentional. In other embodiments, a train may not be allowed to pass the switch until it has come to a complete stop, but may be allowed to pass an improperly configured grade crossing gate at a reduced speed without first coming to a complete stop.

If the conductor/engineer fails to acknowledge the warning at step 334 within the allowed time period, the control module 110 commands the brake interface to stop the train at step 342. The control module 110 then notifies the dispatcher of the stopped train at step 344.

At steps 220 and 320 above, the control module 110 determines whether the device 180 is properly configured. This determination is necessarily device dependent. For example, in the case of a switch, the determination as to whether the device is configured correctly is preferably made with respect to warrants/authorities and/or route information issued to the train. That is, the control module 110 preferably stores information as to what route the train is to take and what warrants (also sometimes referred to as authorities) have been issued for that train. In the case of a grade crossing gate, determining that the device is configured properly comprises more than determining that the gate is in the down position. Many such devices are designed such that a failure results in the gate being placed in the down position. However, in the event of such a failure, it can be expected that some cars and/or pedestrians may attempt to cross the tracks even though the gate is down. Thus, if the crossing gate reports a malfunction, it is preferably treated as if it is not properly configured despite the fact that the gates may be reported as being in the down position.

It should be understood that any and all of the aforementioned events (e.g., the acknowledgment or lack thereof of a warning from an engineer/conductor, the stopping of the train upon a detection of an improperly configured device) may be recorded by the event recorder 140. It should also be understood that, in some embodiments, some configurable devices 180 may be configured by sending commands from the train. In such embodiments, the control module 110 will send the appropriate command via the transceiver 150 on the train to the device 180 via its transceiver 190.

One advantage of those embodiments of the invention in which a configurable device is interrogated as the train approaches is that such devices are not required to transmit information when trains are not in the area. This saves power as compared to those systems in which wayside devices continuously or periodically transmit information regardless of whether a train is close enough to receive such information.

In the embodiments discussed above, the control module 110 is located on the train. It should also be noted that some or all of the functions performed by the control module 110 could be performed by a remotely located processing unit such as processing unit located at a central dispatcher. In such embodiments, information from devices on the train (e.g., the brake interface 160) is communicated to the remotely located processing unit via the transceiver 150.

Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.

Claims

1. A system for controlling a train, the system comprising: a control unit located on a train, the control unit including a memory, the memory having stored therein an identifier associated with a configurable device of interest being approached by the train; and a transceiver, the transceiver being located on the train and being in communication with the control unit; wherein the control unit is configured to perform the steps of transmitting an interrogation message; receiving a response to the interrogation message, the response including an identifier and a configuration; allowing the train to continue if the response is received within a first period of time, the identifier included in the response matches the identifier associated with the configurable device of interest, and the configuration included in the response indicates that the configurable device of interest has a correct configuration; and taking correction action otherwise.

2. The system of claim 1, wherein the interrogation message includes the identifier of the configurable device of interest.

3. The system of claim 1, further comprising: a positioning system, the positioning system being in communications with the control unit and being configured to provide position information to the control unit; and a database, the database including a plurality of locations for a plurality of configurable devices; wherein the control unit is further configured to perform the steps of identifying a configurable device in the database which is a next device which the train will pass based on information from the positioning system as the configurable device of interest; and obtaining an identifier from the database associated with the configurable device of interest.

4. The system of claim 3, wherein the control unit is configured to transmit the interrogation message when a distance between the train's location and the configurable device identified in the identifying step is below a threshold.

5. The system of claim 4, wherein the threshold is a predetermined number based at least in part on an expected worst case distance required to stop the train.

6. The system of claim 4, wherein the threshold is determined dynamically based at least in part upon the current speed of the train.

7. The system of claim 6, wherein the threshold is further based on a weight of the train.

8. The system of claim 6, wherein the database further includes a grade of a track between the train and the device and the threshold is further based on the grade of the track between the train and the device.

9. The system of claim 8, wherein the threshold is further based on distribution of weight in the train.

10. The system of claim 1, further comprising a warning device connected to the control unit, wherein the corrective action includes activating the warning device.

11. The system of claim 1, further comprising a brake interface connected to the control unit, wherein the corrective action includes activating the train's brakes via the brake interface.

12. The system of claim 1, wherein the corrective action includes stopping the train before the train reaches the configurable device of interest.

13. The system of claim 1, further comprising a warning device connected to the control unit and a brake interface connected to the control unit, and wherein the corrective action includes activating a warning device to provide a warning to a train operator; stopping the train unless an acknowledgment of the warning is received and a speed of the train is at a safe speed within a second period of time; and if an acknowledgment of the warning is received within the second period of time, preventing the speed of the train from being increased above the safe speed until the device has been passed or a verification that passing the device is acceptable has been received.

14. The system of claim 1, wherein the configurable device of interest is a grade crossing gate and a correct configuration is a configuration in which the grade crossing gate is down.

15. The system of claim 1, wherein the configurable device of interest is a switch and a correct configuration is a configuration in which the switch is set in a desired direction.

16. A computerized method for controlling a train, the method comprising: transmitting an interrogation message; receiving a response to the interrogation message, the response including an identifier and a configuration; allowing the train to continue if the response is received within a first period of time, the identifier included in the response matches the identifier associated with a configurable device of interest, and the configuration included in the response indicates that the configurable device of interest has a correct configuration; and taking correction action otherwise.

17. The method of claim 16, wherein the interrogation message includes the identifier of the configurable device of interest.

18. The method of claim 16, further comprising: using information from a positioning system pertaining to the train and information stored in a database pertaining to a plurality of configurable devices to select the configurable device of interest; and obtaining an identifier associated with the configurable device of interest from the database.

19. The method of claim 18, wherein the interrogation message is transmitted when a distance between the train's location and the location of the configurable device of interest is below a threshold.

20. The method of claim 19, wherein the threshold is a predetermined number based at least in part on an expected worst case distance required to stop the train.

21. The method of claim 19, wherein the threshold is determined dynamically based at least in part upon the current speed of the train.

22. The method of claim 21, wherein the threshold is further based on a weight of the train.

23. The method of claim 21, wherein the database further includes a grade of a track between the train and the device and the threshold is further based on the grade of the track between the train and the device.

24. The method of claim 23, wherein the threshold is further based on distribution of weight in the train.

25. The method of claim 16, wherein the corrective action includes activating the warning device.

26. The method of claim 16, wherein the corrective action includes activating the train's brakes via the brake interface.

27. The method of claim 16, wherein the corrective action includes stopping the train before the train reaches the configurable device of interest.

28. The method of claim 16, wherein the corrective action includes activating a warning device to provide a warning to a train operator; stopping the train unless an acknowledgment of the warning is received and a speed of the train is at a safe speed within a second period of time; and if an acknowledgment of the warning is received within the second period of time, preventing the speed of the train from being increased above the safe speed until the device has been passed or a verification that passing the device is acceptable has been received.

29. The method of claim 16, wherein the configurable device of interest is a grade crossing gate and a correct configuration is a configuration in which the grade crossing gate is down.

30. The method of claim 16, wherein the configurable device of interest is a switch and a correct configuration is a configuration in which the switch is set in a desired direction.