Automotive service lift system with vehicle position detection and guidance

The invention claimed is: 1. An improved automotive service lift system having a structure supporting a pair of runways and an elevating mechanism for altering an elevation of said pair of runways, the improvement comprising: a LiDAR sensor secured in a fixed position relative to, and movable with, said pair of runways, said LiDAR sensor having a field of view encompassing at least a planar region above a portion of an upper surface of each of said runways in said pair, together with an intervening region between said runways; and a processor configured with software instructions to receive spatial data from said LiDAR sensor, and to evaluate said received spatial data to identify, for a vehicle approaching, or disposed on, said runways, a position of two or more wheels of said vehicle relative to said pair of runways. 2. The improved automotive service lift system of claim 1 wherein said processor is further configured to generate output representative of guidance instructions to an operator positioning or moving said vehicle onto or along said pair of runways. 3. The improved automotive service lift system of claim 2 wherein said guidance instructions are audible to said operator. 4. The improved automotive service lift system of claim 2 wherein said guidance instructions include visible indicia presented on a display device. 5. The improved automotive service lift system of claim 1 wherein said processor is further configured with software instructions to evaluate said received spatial data to identify a presence of an obstruction in a movement path of said vehicle onto or along said pair of runways; and wherein said processor is configured with software instructions to generate output representative of a warning in response to an identified obstruction in said movement path. 6. The improved automotive service lift system of claim 1 wherein said processor is further configured with software instructions to evaluate said received spatial data to detect a presence of an obstruction to vertical movement of at least one of said support structure, said pair of runways, said elevating mechanism, or said vehicle disposed on said pair of runways; and wherein said processor is configured with software instructions to generate output representative of a warning in response to detection of an obstruction to said vertical movement. 7. The improved automotive service lift system of claim 1 wherein said field of view is a three-dimensional volume intersecting at least a portion of an underside surface of said vehicle positioned on said pair of runways. 8. A method for monitoring movement associated with an automotive service lift system for vertically elevating a vehicle driven onto a pair of runways from an approach end towards a front end, comprising: observing from a vantage point adjacent to, and fixed relative to, said pair of runways, a single sensor field of view which encompasses at least a planar region extending laterally across and above an upper surface of each runway in said pair of runways; detecting, within said single sensor field of view, a position of at least one vehicle wheel on each of said runways; monitoring movement of each of said detected vehicle wheels within said single field of view relative to said associated runway upper surfaces; and responsive to said monitored movement, generating guidance output to a service technician for steering, moving, or stopping said vehicle on said pair of runways. 9. The method of claim 8 further including the step of detecting, within said field of view, an obstruction to vehicle movement on at least one of said upper surfaces of said pair of runways; and wherein said step of generating guidance output is further responsive to a detection of said obstruction to generate a warning output to said service technician. 10. The method of claim 8 further including the step of detecting, within said field of view, an obstruction to vertical movement of said pair of runways or said vehicle on said pair of runways; and wherein said step of generating guidance output is further responsive to a detection of said obstruction to generate a warning output to said service technician. 11. The method of claim 10 wherein said step of generating guidance output is further responsive to said detection of said obstruction to generate a command signal preventing said vertical movement of said pair of runways. 12. The method of claim 10 wherein said step of observing is responsive to an initiation of vertical movement of said pair of runways. 13. The method of claim 8 wherein said step of observing is automatically triggered by a step in a computer-implemented vehicle service or inspection procedure. 14. A method for providing guidance to a vehicle operator while moving a vehicle on a vehicle support structure, comprising: detecting positions of two or more wheels of the vehicle within a field of view of a single sensor, said field of view encompassing at least a planar region extending laterally across and above at least a portion of an upper surface of the vehicle support structure; monitoring movement of said two or more wheels within said field of view relative to said upper surface of said vehicle support structure; and responsive to said monitored movement, generating guidance output to the vehicle operator for steering, moving, or stopping said vehicle relative to said upper surface of said vehicle support structure. 15. The method of claim 14 wherein said step of detecting includes observing said field of view with a LiDAR sensor, said LiDAR sensor generating spatial data which is output representative of observed objects within said field of view; and evaluating said spatial data from said LiDAR sensor to monitor a position on, and movement of, said two or more wheels relative to said upper surface of the vehicle support structure. 16. The method of claim 15 wherein said vehicle support structure is a vertically movable vehicle lift system including a pair of parallel runways for supporting the wheels on each side of a vehicle during a vehicle service or inspection procedure; and wherein said step of evaluating said spatial data from said LiDAR sensor further includes detecting a presence of objects within said field of view presenting obstacles to movement of said vehicle. 17. The method of claim 16 wherein said step of evaluating said spatial data from said LiDAR sensor further includes detecting a presence of objects within said field of view presenting obstacles to movement of said vehicle support structure. 18. The method of claim 14 wherein said guidance output is audible to said vehicle operator. 19. The method of claim 14 wherein said guidance output is visible to said vehicle operator.