Automatic adapter spotting for automotive lift

We claim: 1. A method for operating a vehicle lift, wherein the vehicle lift comprises a plurality of movable lift features and actuators configured to cause selective movement of each of the plurality of lift features in at least two dimensions, the method comprising the steps of: (a) receiving a vehicle profile selection from a user device, wherein the user device is in communication with the lift; and (b) automatically controlling starting, stopping, and direction of movement of the plurality of movable lift features to achieve positioning of the plurality of movable lift features according to the parameters of the vehicle profile selection, including movement of at least one of the plurality of movable lift features in the at least two dimensions, in response to the receiving of the vehicle profile selection; wherein the plurality of movable lift features comprise one or more of: (i) a lift column capable of moving a lift base in a first dimension; (ii) a rotating lift arm capable of rotating an adapter through at least a second dimension, wherein the second dimension is different from the first dimension; (iii) an extending lift arm capable of extending and retracting the adapter; and (iv) a telescoping base of the adapter capable of extending the adapter in the first dimension. 2. The method of claim 1 , wherein the rotating lift arm is further configured to move the adapter through a third dimension that is different from the first dimension and the second dimension. 3. The method of claim 1 , wherein the user device is selected from the group consisting of: (a) a computer; (b) a smartphone; and (c) a control pendant. 4. The method of claim 1 , further comprising, before the step of receiving the vehicle profile selection, causing a list of vehicle profiles to display on the user device, wherein the vehicle profile selection is in the list of vehicle profiles. 5. The method of claim 4 , wherein the list of vehicle profiles comprises: at least one locally stored vehicle profile from a lift server, and at least one remotely stored vehicle profile from a global lift server. 6. The method of claim 1 , further comprising the step of, before the automatically controlling step, automatically controlling starting, stopping, and direction of movement of the plurality of movable lift features to return the plurality of movable lift features to a home position. 7. The method of claim 1 , wherein a first movable lift feature of the plurality of movable lift features is driven by a motor, the method further comprising the steps of: determining a stopping point for the movement of the first movable lift feature based upon feedback from the motor, and stopping the first movable lift feature at the stopping point. 8. The method of claim 1 , further comprising the step of, after automatically controlling the starting, stopping, and direction of movement of the plurality of movable lift features to achieve positioning of the plurality of movable lift features according to the parameters of the vehicle profile selection, displaying image data from a spotting camera via the user device, wherein the spotting camera is positioned such that the at least one of the plurality of movable lift features is within the field of view of the spotting camera. 9. The method of claim 1 , further comprising the step of, before receiving the selected vehicle profile, using a spotting camera to capture image data of a vehicle associated with the selected vehicle profile and using the set of image data to create the selected vehicle profile. 10. The method of claim 1 , further comprising the steps of, before receiving the selected vehicle profile: receiving training inputs, wherein the training inputs cause the plurality of movable lift features to be positioned in a predetermined configuration relative to a vehicle, and using the set of training inputs to create the selected vehicle profile, wherein the selected vehicle profile is associated with vehicle. 11. A smart lift system comprising: (a) a plurality of movable lift features, each capable of moving in at least two dimensions; (b) a user device comprising a display and a user interface, wherein the user device is configured to receive inputs from a user via the user interface and, in response, cause movements of the plurality of movable lift features; and (c) a spotting camera positioned so that at least one of the plurality of movable lift features is within its field of view and communicatively coupled with the user device such that image data captured by the spotting camera is shown via the display, wherein the spotting camera can be directed to show a part of the vehicle to be coupled with the at least one of the plurality of movable lift features. 12. The smart lift system of claim 11 , wherein the user device is further configured to: (a) display a list of vehicle profiles on the display; (b) receive a vehicle profile selection from the list of vehicle profiles; and (c) cause the plurality of movable lift features to be automatically positioned based upon the vehicle profile selection. 13. The smart lift system of claim 11 , further comprising a vehicle profile database, wherein: the user device is further configured to provide a profile training data set to the vehicle profile database, and the profile training data set is created based upon the user's input to the user interface that causes movements of the plurality of movable lift features. 14. The smart lift system of claim 13 , wherein the vehicle profile database is configured to determine a vehicle profile based upon the profile training data set and add the vehicle profile to a list of vehicle profiles, and wherein the user device is further configured to: (a) display the list of vehicle profiles on the display; (b) receive a vehicle profile selection, wherein the vehicle profile selection is associated with the vehicle profile; and (c) cause the plurality of movable lift features to be automatically positioned based upon the vehicle profile selection. 15. The smart lift system of claim 11 : wherein the plurality of movable lift features comprises a lift base comprising an arm housing, a first arm having a first adapter, and a second arm having a second adapter, wherein the first arm and the second arm are rotatably connected to the arm housing, and wherein the lift base is operable to cause the first arm and the second arm to rotate and move each of the first adapter and the second adapter through two dimensions. 16. The smart lift system of claim 15 wherein: the first arm further comprises a linear actuator and a movable arm section, and the linear actuator is operable to cause the movable arm section to extend or retract along its longitudinal axis. 17. The smart lift system of claim 15 , wherein: the first adapter further comprises a motor, a telescoping base, and a telescoping arrest rod, and the motor is operable to cause at least one section of the telescoping base to rotate around the telescoping arrest rod and in turn cause the telescoping base to extend or retract the first adapter with one dimension of movement. 18. The smart lift system of claim 15 , wherein the arm housing comprises a motor operable to rotate a worm drive, and rotation of the worm drive causes at least one of the first arm and the second arm to rotate. 19. The smart lift system of claim 15 , wherein: (a) the arm housing comprises a housing bracket; (b) the first arm comprises a slide bracket; (c) a