Bearing pad monitoring systems and methods

What is claimed is: 1. A refuse vehicle, comprising: a telescopic arm comprising: an outer boom defining a bore; an inner boom received in the bore of the outer boom; a bearing pad received in the bore and located between an exterior surface of the inner boom and an interior surface of the outer boom; a sensor configured to output data indicating a position of a load-bearing limb of the telescopic arm; and a processor configured to: receive data output from the sensor; and determine a wear-state of the bearing pad based on the position of the load-bearing limb. 2. The refuse vehicle of claim 1 , wherein the position comprises an angular position. 3. The refuse vehicle of claim 2 , wherein the angular position is measured relative to a vertical axis. 4. The refuse vehicle of claim 2 , wherein the angular position is measured relative to a horizontal axis. 5. The refuse vehicle of claim 1 , wherein the sensor comprises an inclinometer. 6. The refuse vehicle of claim 1 , wherein the load-bearing limb comprises the inner boom. 7. The refuse vehicle of claim 1 , wherein the sensor is mounted on the load-bearing limb. 8. The refuse vehicle of claim 1 , wherein the telescopic arm comprises a grabber beam coupling a receptacle grabber beam assembly to the inner boom. 9. The refuse vehicle of claim 8 , wherein the sensor is mounted on the grabber beam. 10. The refuse vehicle of claim 9 , wherein the sensor is located at a distal end of the grabber beam relative to the bearing pad. 11. The refuse vehicle of claim 10 , wherein the load-bearing limb is the grabber beam. 12. The refuse vehicle of claim 1 , wherein the processor is configured to determine the wear-state when the telescopic arm is in a rest position. 13. The refuse vehicle of claim 1 , wherein the processor determines the wear-state by: comparing the data output from the sensor to one or more thresholds. 14. The refuse vehicle of claim 13 , wherein the processor is configured to calibrate the one or more thresholds based on historical data output from the sensor. 15. The refuse vehicle of claim 13 , wherein the one or more thresholds are static, predetermined thresholds. 16. The refuse vehicle of claim 1 , wherein the processor determines the wear-state by: monitoring an incremental change in the position of the load-bearing limb based on the data output from the sensor. 17. The refuse vehicle of claim 1 , further comprising a user interface configured to present the wear-state of the bearing pad to a user. 18. The refuse vehicle of claim 1 , further comprising: a second bearing pad and a second sensor, wherein the processor is further configured to determine the wear-state of the second bearing pad based on data output from the second sensor. 19. The refuse vehicle of claim 18 , wherein the sensor is a first sensor, and the first and second sensors are mounted at different locations on the load-bearing limb. 20. A method of monitoring a wear-state of a bearing pad residing between an inner boom and an outer boom of a telescopic arm carried on a refuse vehicle, the method comprising: receiving data output from a sensor indicating a position of a load-bearing limb of the telescopic arm; and determining the wear-state of the bearing pad based on the position of the load-bearing limb while the telescopic arm is in a rest position.