Monitoring system, wayside led signaling device, and method for monitoring a wayside led signaling device

What is claimed is: 1 . A monitoring system for a wayside signaling device comprising: a light emitting diode (LED) circuit comprising at least one LED, a LED driver unit for driving the at least one LED, and a mechanism for connecting and disconnecting the LED circuit; and an optical light sensing circuit comprising at least one light-controlled variable resistor operably coupled to a resistor driver unit comprising relay functionality, wherein the LED circuit and the sensing circuit are arranged such that the at least one light-controlled variable resistor monitors an output of the at least one LED, and that the relay functionality triggers the mechanism to connect or disconnect the LED circuit based on the output of the at least one LED. 2 . The monitoring system of claim 1 , wherein the mechanism connects the LED circuit when the output of the at least one LED is above a predefined threshold value, and disconnects the LED circuit when the output of the at least one LED is below the predefined threshold value. 3 . The monitoring system of claim 2 , wherein the mechanism connects the LED circuit when the output of the at least one LED is at least 50% of the rated light output of the at least one LED. 4 . The monitoring system of claim 2 , wherein the mechanism disconnects the LED circuit when the output of the at least one LED is less than 50% of the rated light output of the at least one LED. 5 . The monitoring system of claim 1 , wherein the at least one light-controlled variable resistor is selected from the group consisting of a photo-resistor, light-dependent resistor, a photocell, a phototransistor, and a combination thereof. 6 . The monitoring system of claim 1 , further comprising a vital processing system, wherein the LED circuit and the optical light sensing circuit are operably connected to the vital processing system. 7 . The monitoring system of claim 6 , wherein the LED circuit further comprises a passive inductor arranged in series with the at least one LED, and a passive bandpass filter arranged in parallel with an output of the vital processing system. 8 . The monitoring system of claim 1 , wherein the resistor driver unit comprises a relay module comprising the relay functionality, and wherein the relay module is in communication with the mechanism to connect and disconnect the LED circuit based on a current flowing in the optical light sensing circuit. 9 . A wayside light emitting diode (LED) signaling device comprising: a light emitting diode (LED) circuit comprising a LED array with a plurality of LEDs, a LED driver unit for driving the LED array, and a mechanism for connecting and disconnecting the LED circuit, and an optical light sensing circuit comprising at least one light-controlled variable resistor operably coupled to a resistor driver unit comprising a relay module, wherein the at least one light-controlled variable resistor is installed in proximity to the LED array to monitor an output of the LED array, and wherein the relay module is in communication with the mechanism to connect or disconnect the LED circuit based on the output of the LED array. 10 . The wayside LED signaling device of claim 9 , wherein the LED signaling device is in communication with at least one vital processing system of a wayside interface unit configured to monitor and control the LED signaling device. 11 . The wayside LED signaling device of claim 10 , wherein the vital processing system is operatively coupled to a communications processing unit, which in turn is coupled to a wireless communications unit. 12 . The wayside LED signaling device of claim 10 , wherein the LED circuit further comprises a passive inductor arranged in series with the LED array, and a passive bandpass filter arranged in parallel with an output of the vital processing system. 13 . The wayside LED signaling device of claim 9 , wherein the mechanism connects the LED circuit when the output of the LED array is above a predefined threshold value, and disconnects the LED circuit when the output of the LED array is below the predefined threshold value. 14 . The wayside LED signaling device of claim 13 , wherein the predefined threshold value is based on a rated light output of the LED array. 15 . Method for monitoring a light emitting diode (LED) circuit in a wayside light emitting diode (LED) signaling device comprising: installing a light emitting diode (LED) circuit comprising a LED array with a plurality of LEDs, a LED driver unit for driving the LED array, and a mechanism for connecting and disconnecting the LED circuit in a wayside LED signaling device, installing an optical light sensing circuit comprising at least one light-controlled variable resistor operably coupled to a resistor driver unit comprising a relay module in the wayside LED signaling device, wherein the at least one light-controlled variable resistor is placed in proximity to the LED array to monitor an output of the LED array, and wherein the relay module is in communication with the mechanism to connect or disconnect the LED circuit based on the output of the LED array. 16 . The method of claim 15 , wherein, before installing the LED circuit and the optical light sensing circuit, existing incandescent light bulb circuits are removed from the wayside signaling device. 17 . The method of claim 15 , wherein the mechanism connects the LED circuit when the output of the LED array is above a predefined threshold value, and disconnects the LED circuit when the output of the LED array is below the predefined threshold value. 18 . The method of claim 17 , wherein the mechanism connects the LED circuit when the output of the LED array is at least 50% of the rated light output of the LED array. 19 . The method of claim 17 , wherein the mechanism disconnects the LED circuit when the output of the LED array is less than 50% of the rated light output of the LED array. 20 . The method of claim 15 , further comprising operably connecting the LED signaling device to at least one vital processing system of a wayside interface unit configured to monitor and control the LED signaling device, wherein the LED circuit further comprises a passive inductor arranged in series with the LED array, and a passive bandpass filter arranged in parallel with an output of the vital processing system.