Method and Apparatus For Compensating Lift Elevation Induced Deviations In Vehicle Measurements

1 . A method for compensating at least one measurement of a vehicle for deviations resulting from a change in elevation of a vehicle lift system support surface on which the vehicle is disposed, comprising: acquiring a first set of stable pose measurements associated with the vehicle while the vehicle is disposed on the support surface at a first elevation; altering the elevation of the support surface without moving the vehicle relative to the support surface; acquiring a second set of stable pose measurements associated with the vehicle while the support surface is at said altered elevation; evaluating said first and second sets of stable pose measurement to establish a compensation factor for the at least one vehicle measurement; and establishing at least one corrected vehicle measurement by applying said compensation factor to the at least one vehicle measurement. 2 . The method of claim 1 wherein said at least one vehicle measurement is a vehicle wheel alignment angle. 3 . The method of claim 1 wherein said at least one vehicle measurement is a vehicle component measurement. 4 . The method of claim 1 wherein said at least one vehicle measurement is a vehicle ride height measurement. 5 . The method of claim 1 wherein said first and second sets of stable pose measurements are each acquired in response to an operator-initiated command. 6 . The method of claim 1 wherein said first and second sets of stable pose measurements are each acquired automatically in response to receipt of a command to alter said elevation of the support surface. 7 . The method of claim 1 wherein said first and second sets of stable pose measurements are each selected from a continuously updated queue of periodically acquired sets of pose measurements. 8 . The method of claim 7 wherein said second set of stable pose measurements is selected from said queue after a delay period once the vehicle support surface is at said altered elevation. 9 . The method of claim 1 wherein evaluating said first and second sets of stable pose measurements further identifies a change in a pose of said vehicle associated with said change in elevation, said change in said vehicle pose representative of an operating condition of said vehicle lift system; and generating a signal in response to said change in said vehicle pose exceeding a tolerance associated with said vehicle lift system. 10 . The method of claim 1 further including the step of generating a warning to an operator responsive to said compensation factor exceeding a tolerance. 11 . A vehicle wheel alignment measurement system for use with a vehicle lift system, comprising: a set of measurement sensors for acquiring pose measurements associated with a vehicle disposed on a support surface of said vehicle lift system; a processing system operatively configured to receive said acquired pose measurements from said set of measurement sensors, said processing system configured with software instructions to determine at least one vehicle measurement, and a compensation factor for said at least one vehicle measurement from deviations between an initial set of pose measurements acquired with the support surface of said vehicle lift system at an initial stable position and a second set of pose measurements acquired with the support surface of said vehicle lift system at an altered stable position; and wherein said processing system is further configured to calculate at least one corrected vehicle measurement by applying said determined compensation factor to at least one vehicle measurement acquired while said support surface is disposed at said altered stable position. 12 . The vehicle wheel alignment measurement system of claim 11 wherein said at least one vehicle measurement is a vehicle wheel alignment angle. 13 . The vehicle wheel alignment measurement system of claim 11 wherein said at least one vehicle measurement is a vehicle component measurement. 14 . The vehicle wheel alignment measurement system of claim 11 wherein said at least one vehicle measurement is a vehicle ride height measurement. 15 . The vehicle wheel alignment measurement system of claim 11 wherein said initial set of pose measurements and said second set of pose measurements each represent measures of the same data points. 16 . The vehicle wheel alignment measurement system of claim 11 wherein said processing system is further configured to generate a warning to an operator if said compensation factor exceeds a tolerance. 17 . The vehicle wheel alignment measurement system of claim 11 wherein said processing system is operatively coupled to a user interface, and wherein said processing system is further configured to present said at least one corrected vehicle measurement to an operator through said user interface. 18 . The vehicle wheel alignment measurement system of claim 11 wherein said processing system is configured to evaluate said initial and second sets of pose measurements to identify a change in a pose of said vehicle associated with said change in elevation, said change in said vehicle pose representative of an operating condition of said vehicle lift system; and wherein said processing system is further configured to generate a signal in response to said identified change in said vehicle pose exceeding a tolerance associated with said vehicle lift system. 19 . A vehicle wheel alignment measurement system for use with a vehicle lift system, comprising: a set of optical sensors for observing optical targets associated with a vehicle disposed on a support surface of said vehicle lift system; a processing system operatively configured to receive images of said observed optical targets from said set of optical sensors, said processing system configured with software instructions to evaluate said received images to determine at least one vehicle wheel alignment angle measurement; wherein said processing system is further configured to determine a compensation factor for said at least one vehicle wheel alignment angle measurement from deviations between an initial measurement of said wheel alignment angle determined from images of said observed optical targets received when the support surface of said vehicle lift system is at a first stable position, and a second measurement of said wheel alignment angle determined from images of said observed optical targets received when the support surface of said vehicle lift system is at an altered stable position; and wherein said processing system is further configured to calculate at least one corrected vehicle wheel alignment measurement by applying said determined compensation factor to at least one vehicle wheel alignment measurement acquired while said support surface is disposed at said altered stable position.