Grade crossing control system

The invention claimed is: 1. A method for controlling a grade crossing warning system, the method comprising: receiving by a control circuit a first input indicating that a train has reached a point at a start of an outer approach; receiving by the control circuit a second input indicating that a train has reached a point at an end of an outer approach, the second input received after the first input; determining by the control circuit a time difference between the first input and the second input; determining by the control circuit a delay period to delay activation of the grade crossing warning system, an amount of the delay period being based on the time difference; receiving by the control circuit a third input from a track occupancy circuit configured to detect a presence of the train in an inner approach; and delaying by the control circuit activation of the grade crossing warning system by the delay period following receipt of the third input. 2. The method of claim 1 , wherein the first input is received from a track occupancy circuit configured to detect a presence of a train in the outer approach, the first input indicating that a train is present in the outer approach. 3. The method of claim 1 , wherein the second input is received from the track occupancy circuit configured to detect a presence of a train in the outer approach, the second input indicating that a train is not present in the outer approach. 4. The method of claim 1 , wherein the second input is received from a track occupancy circuit configured to detect a presence of a train in the inner approach, the second input indicating that the train is present in the inner approach. 5. The method of claim 1 , wherein the first input is received from a track circuit configured to detect the presence of a train anywhere in the outer or the inner approach, the first input indicating that a train is present in the outer or inner approach. 6. The method of claim 1 , wherein the delay period is determined using the time difference as an index to a lookup table. 7. The method of claim 1 , wherein the delay period is determined by calculating a function using the time difference as a parameter. 8. The method of claim 1 , wherein the delay period is determined by comparing the time difference to a plurality of thresholds to identify a minimum threshold reached by the time difference and selecting the delay period associated with the minimum threshold. 9. A control circuit for controlling a grade crossing warning system, the grade controller comprising: a processor; an interface; and a memory; wherein the processor is configured to receive a first input indicating that a train has reached a point at a start of an outer approach; receive a second input indicating that a train has reached a point at an end of an outer approach, the second input received after the first input; determine a time difference between the first input and the second input; determine a delay period to delay activation of the grade crossing warning system, an amount of the delay period being based on the time difference; receive a third input from a first track occupancy circuit configured to detect a presence of the train in an inner approach; and delay activation of the grade crossing warning system by the delay period following receipt of the third input. 10. The control circuit of claim 9 , further comprising a timer connected to the processor, wherein the processor is configured to determine the time difference using the timer. 11. The control circuit of claim 9 , wherein the processor is configured to determine the time difference by storing a time when the first input is received in a memory and calculating the difference between the time stored in the memory and the time at which the second input is received. 12. The control circuit of claim 9 , wherein the first track occupancy circuit is an alternating current track circuit. 13. The control circuit of claim 9 , wherein the first track occupancy circuit is an alternating current overlay track circuit. 14. The control circuit of claim 13 , wherein the first track occupancy circuit comprises a receiver and a transmitter, and wherein the transmitter is connected to receive a signal from a second track occupancy circuit configured to detect a presence of the train in the outer approach, and to transmit a first code if the signal from the second track occupancy circuit indicates that a train is present in the outer approach and to transmit a second code if the signal from the second track occupancy circuit indicates that a train is not present in the outer approach. 15. The control circuit of claim 9 , wherein the second track occupancy circuit is an alternating current overlay track occupancy circuit configured to detect a presence of the train in the outer approach. 16. The control circuit of claim 14 , wherein the controller is configured to receive the first input from a second track occupancy circuit, the first input indicating that a train is present in the outer approach. 17. The control circuit of claim 16 , wherein the controller is configured to receive the second input from the first track occupancy circuit, the second input indicating that a train is present in the inner approach.