Hydraulic cylinder monitoring

What is claimed is: 1. A refuse collection vehicle comprising: one or more body components; a hydraulic pump; multiple hydraulic actuators each in hydraulic communication with the hydraulic pump through a respective hydraulic valve operable to supply hydraulic power to cause a respective actuator to move a respective vehicle body component of the one or more body components, at least one of the actuators comprising a hydraulic cylinder containing a piston carrying an internal cylinder seal and separating an internal cylinder volume into two portions, such that a potential leak path between the two portions is defined between the seal and an internal surface of the hydraulic cylinder; a sensor responsive to movement of the piston; and a controller connected to the sensor to receive a sensor signal indicating piston movement information during an associated body component movement; wherein the controller is configured to: monitor, during one or more working cycles of the hydraulic cylinder, a motion characteristic of the hydraulic cylinder to evaluate an amount of fluid leakage between the two portions of the hydraulic cylinder, wherein, to monitor the motion characteristic, the controller is configured to: determine a velocity of the piston during a particular portion of a predetermined body component movement of a body component of the one or more body components; compare the determined velocity to a stored reference velocity, the comparison of the determined velocity to the stored reference velocity being indicative of the amount of fluid leakage; and in response to determining that a difference between the determined velocity and the stored reference velocity is greater than a predetermined value, trigger an indication that the refuse collection vehicle is in need of service. 2. The refuse collection vehicle of claim 1 , wherein the velocity comprises an averaged velocity of the piston during the particular portion of the predetermined body component movement. 3. The refuse collection vehicle of claim 1 , wherein: the particular portion of the predetermined body component movement comprises a predetermined span of positions; and the velocity comprises an average velocity of the piston over the predetermined span of positions. 4. The refuse collection vehicle of claim 1 , wherein the controller is configured to determine the velocity of the piston while the respective hydraulic valve operable to supply hydraulic power to the hydraulic cylinder is the only valve supplying hydraulic power to any of the hydraulic actuators. 5. The refuse collection vehicle of claim 1 , wherein the respective hydraulic valve operable to supply hydraulic power to the hydraulic cylinder is an automated valve electrically controlled by a valve control signal to drive the automated valve to a determined open position during the particular portion of the predetermined body component movement. 6. The refuse collection vehicle of claim 5 , wherein the automated valve is configured to be held in the determined open position while the controller determines the velocity of the piston. 7. The refuse collection vehicle of claim 1 , wherein the controller is configured to determine the velocity of the piston as the piston moves toward a rod seal end of the hydraulic cylinder. 8. The refuse collection vehicle of claim 1 , wherein the controller is configured to determine the velocity of the piston while the hydraulic valve operable to supply hydraulic power to the hydraulic cylinder is in a closed position and the piston is under a known applied axial load. 9. The refuse collection vehicle of claim 8 , wherein the controller is configured to determine the velocity of the piston during a dwell portion of the particular portion of the predetermined body component movement. 10. The refuse collection vehicle of claim 1 , wherein the controller is configured to determine the velocity of the piston only when a temperature of hydraulic fluid in a hydraulic system including the hydraulic pump is within a predetermined temperature range. 11. The refuse collection vehicle of claim 1 , wherein the hydraulic cylinder is a lift cylinder connected to a lift arm of the refuse collection vehicle. 12. The refuse collection vehicle of claim 11 , wherein the predetermined body component movement comprises: a lift cycle performed by the lift arm of the refuse collection vehicle; or lowering the lift arm of the refuse collection vehicle. 13. The refuse collection of vehicle of claim 1 , wherein the particular portion of the predetermined body component movement comprises a portion of the predetermined body component movement during which external loads on the hydraulic cylinder are constant. 14. The refuse collection vehicle of claim 1 , wherein the predetermined value corresponds to a maximum acceptable deviation, from the stored reference velocity, that is determined based at least in part on: an amount of expected working cycles of the hydraulic cylinder; and an amount of expected risk that the amount of fluid leakage would result in unplanned downtime of the refuse collection vehicle. 15. The refuse collection vehicle of claim 1 , wherein the controller is configured to automatically monitor the motion characteristic during a working lift cycle without requiring any additional operator step or test sequence. 16. A method of prompting service of a hydraulic cylinder on a refuse collection vehicle comprising multiple hydraulic actuators and one or more body components, the method comprising: monitoring, during one or more working cycles of the hydraulic cylinder, a motion characteristic of the hydraulic cylinder to evaluate an amount of fluid leakage between two portions of the hydraulic cylinder, the monitoring comprising: determining a velocity of the hydraulic cylinder during a particular portion of a predetermined body component movement of a body component of the one or more body components; comparing the determined velocity to a reference velocity, the comparison of the determined velocity to the stored reference velocity being indicative of the amount of fluid leakage; and in response to determining that a difference between the determined velocity and the reference velocity is greater than a predetermined value, triggering an indication that the refuse collection vehicle is in need of service. 17. The method of claim 16 , wherein the velocity comprises an averaged velocity of the hydraulic cylinder during the particular portion of the predetermined body component movement of the body component. 18. The method of claim 16 , wherein: the particular portion of the predetermined body component movement comprises a predetermined span of positions; and the velocity comprises an average velocity of the hydraulic cylinder over the predetermined span of positions. 19. The method of claim 16 , further comprising operating a hydraulic valve operable to supply hydraulic power to the hydraulic cylinder while the velocity is determined. 20. The method of claim 16 , wherein the velocity is determined while the hydraulic cylinder is extended. 21. The method of claim 16 , further comprising sensing temperature of hydraulic fluid in a hydraulic system including the hydraulic cylinder, and wherein the velocity is determined only when the sensed temperature is within a predetermined temperature range. 22. The method of claim 16 , further comprising scheduling a service of the hydraulic cylinder in response to deter