Elevator overtravel testing systems and methods

What is claimed is: 1. An elevator system comprising: a first guide rail and a second guide rail; an overtravel feature on at least one of the first or second guide rails, the overtravel feature located a first distance from a top surface of the respective guide rail; an elevator car moveable along the first and second guide rails, the elevator car including a car guidance element; and a control unit configured to perform an overtravel distance test, the control unit configured to: measure a landing position of the elevator car relative to a landing in an elevator shaft; drive the elevator car upward along the first and second guide rails above the landing; measure a second distance, the second distance being a distance of travel of the elevator car between the landing position and a location of the overtravel feature by detecting an interaction of the elevator car with the overtravel feature; combine the first distance and the second distance to calculate a measured overtravel distance; compare the measured overtravel distance with a predetermined overtravel setpoint; and generate a failure indicator when the calculated measured overtravel distance is less than the overtravel setpoint. 2. The elevator system of claim 1 , wherein both the first and second guide rails include respective overtravel features. 3. The elevator system of claim 1 , wherein the location of the overtravel feature is determined by a lateral movement of the elevator car when the car guidance element interacts with the overtravel feature. 4. The elevator system of claim 1 , wherein the overtravel feature is one of a groove or a protrusion on the respective guide rail. 5. The elevator system of claim 1 , wherein the control unit is configured to restrict a speed of the elevator car when the measured overtravel distance is less than the predetermined overtravel setpoint. 6. The elevator system of claim 1 , further comprising a car position system configured to measure a position of the elevator car within an elevator shaft. 7. The elevator system of claim 1 , further comprising an accelerometer located on the elevator car and in communication with the control unit, the accelerometer configured to detect an interaction of the elevator car with the overtravel feature. 8. A method for operating an elevator system comprising: measuring a landing position of an elevator car relative to a landing in an elevator shaft; driving the elevator car upward along a guide rail above the landing, the guide rail having an overtravel feature located a first distance from a top surface of the guide rail; measuring a movement of the elevator car as it is driven upward along the guide rail; detecting an interaction of the elevator car with the overtravel feature to measure a second distance, wherein the second distance is a measured distance of movement of the elevator car from the landing position to the interaction with the overtravel feature; calculating an overtravel distance based on the first and second distances; comparing the calculated overtravel distance with a predetermined overtravel setpoint; and generating a failure indicator when the calculated overtravel distance is less than the overtravel setpoint. 9. The method of claim 8 , further comprising limiting an operational speed of the elevator car when the calculated overtravel distance is less than the overtravel setpoint. 10. The method of claim 8 , wherein the detection of the interaction is determined by a lateral movement of the elevator car when a car guidance element interacts with the overtravel feature. 11. The method of claim 8 , wherein the overtravel feature is one of a groove or a protrusion on the guide rail. 12. An elevator system comprising: a first guide rail and a second guide rail; an overtravel feature on at least one of the first guide rail or the second guide rail, the overtravel feature located a first distance from a top surface of the respective guide rail; an elevator car moveable along the first and second guide rails, the elevator car including a car guidance element; and a control unit configured to perform an overtravel distance test, the control unit configured to: measure a landing position of the elevator car relative to a landing in an elevator shaft; drive the elevator car upward along the first and second guide rails above the landing; measure a second distance, the second distance being a distance of travel of the elevator car between the landing position and a location of the overtravel feature by detecting an interaction of the elevator car with the overtravel feature; add the first distance and the second distance to calculate a measured overtravel distance; compare the measured overtravel distance with a predetermined overtravel setpoint which is a predetermined minimum distance that the elevator car can travel beyond a terminal landing within an elevator shaft and generate a failure indicator when the calculated measured overtravel distance is less than the overtravel setpoint. 13. The elevator system of claim 12 , wherein both the first and second guide rails include respective overtravel features. 14. The elevator system of claim 12 , wherein the location of the overtravel feature is determined by a lateral movement of the elevator car when the car guidance element interacts with the overtravel feature. 15. The elevator system of claim 12 , wherein the overtravel feature is one of a groove or a protrusion on the respective guide rail. 16. The elevator system of claim 12 , wherein the control unit is configured to restrict a speed of the elevator car when the measured overtravel distance is less than the predetermined overtravel setpoint. 17. The elevator system of claim 12 , further comprising a car position system configured to measure a position of the elevator car within an elevator shaft. 18. The elevator system of claim 12 , further comprising an accelerometer located on the elevator car and in communication with the control unit, the accelerometer configured to detect an interaction of the elevator car with the overtravel feature.