Robotic tire changer user interaction procedures for safety and convenience

The invention claimed is: 1. A method for operating a tire changing machine having a processing system configured with software instructions to carry out at least one service procedure for mounting and/or demounting a tire from a wheel rim of a wheel assembly supported on a controlled spindle, comprising: detecting the occurrence of an abnormal operating condition during the service procedure; automatically responding to said detection of said abnormal operating condition with a response which is selected based on at least one of a current operating state in which the tire changing machine is in, and a current operational step of said service procedure; and wherein said selected response is chosen from a set of responses consisting of providing operator guidance, providing an operator warning, carrying out at least one additional procedural steps during the service procedure, suspending said service procedure to await an operator action, limiting movement of an articulated component during the service procedure, entering a manual operation mode, altering parameters for continued service procedure operation, and altering parameters for a subsequent “same as last” or “similar to last” service procedure. 2. The method of claim 1 wherein said detected abnormal operating condition is selected from a set of operating conditions consisting of a failure of an articulated tool to move to a designated location, a movement of an articulated tool or rotating component at an incorrect speed, stalling of a rotating component, an unexpected operator input, identification of an abnormal wheel assembly characteristic, detection of a wheel assembly component at an unexpected location, and a failure to detect a wheel assembly component at an expected location. 3. A tire changing machine having a processing system configured with software instructions to carry out a service procedure associated with mounting and/or demounting a tire from a wheel rim of a wheel assembly supported on a controlled spindle, comprising: the processing system further configured with software instructions to detect the occurrence of an abnormal operating condition during the service procedure; wherein the processing system is further configured with software instructions to respond to the detection of said abnormal operating condition by selecting a response associated with at least one of a current operating state in which the tire changing machine is in, and a current operational step of an ongoing service procedure; wherein said selected response requires an operator interaction with the processing system prior to completing the tire mounting or demounting procedure; and wherein said selected response is selected from a set of responses consisting of providing operator guidance, providing an operator warning, carrying out at least one additional procedural steps during the service procedure, altering a sequence of remaining procedural steps in the service procedure, suspending a procedure step to await an operator action, or limiting movement of an articulated component during the service procedure. 4. The tire changing machine of claim 3 wherein said current operational step includes rotationally driving the wheel assembly mounted to the spindle shaft while applying a vertical pressure to the tire mounted on the wheel assembly with an articulated pusher tool; wherein said abnormal operating condition is an occurrence of the articulated pusher tool having a rotational speed which differs from the rotational speed of the spindle; and wherein said processing system is configured with software instructions to respond to the detection of said abnormal operating condition by prompting the operator to either change a position of the articulated pusher tool or to restart the current operational step with the wheel assembly at a different rotational position. 5. The tire changing machine of claim 3 wherein said current operational step is the initial breaking of a tire bead to demount the tire from the wheel rim; wherein said abnormal operating condition is either the detection of a sidewall of the tire at a position which is displaced from an upper rim edge of the wheel rim or the absence of sidewall detection within an expected spatial region; and wherein said processing system is configured with software instructions to respond to the detection of said abnormal operating condition by querying the operator for confirmation regarding the current state of the tire bead. 6. The tire changing machine of claim 3 wherein said current operational step is a top bead demount in a wheel demounting operation; wherein said abnormal operating condition is a failure of an articulated tire hook to draw a tire bead to a determined position; wherein said processing system is configured with software instructions to respond to the detection of said abnormal condition by prompting the operator to move an articulated pusher tool to a starting position which is approximately opposite from a rotational position of a tire mount head tool; and wherein said processing system is further configured with software instructions to subsequently engage the articulated pusher tool with the tire and re-attempt to draw the tire hook to the determined position. 7. The tire changing machine of claim 6 wherein said processing system is configured with software instructions to prompt the operator to move the articulated pusher tool to said starting position. 8. The tire changing machine of claim 7 wherein said processing system is configured with said software instructions to continuously provide said operator prompt until the articulated pusher tool is determined by the processing system to be positioned within a defined region which is opposite from the rotational position of the tire mount head tool. 9. The tire changing machine of claim 3 wherein said current operational step is a top bead demount in a wheel demounting operation; wherein said abnormal operating condition is a stall of the rotational movement of the spindle and supported wheel assembly after the top bead has been drawn over the wheel rim upper edge; wherein said processing system is configured with software instructions to respond to the detection of said abnormal condition by prompting the operator to move an articulated pusher tool to an identified starting position; and wherein said processing system is further configured with software instructions to subsequently engage the articulated pusher tool with the tire at said starting position before re-attempting to complete the necessary rotational movement of the spindle and wheel assembly required to demount the tire from the rim. 10. The tire changing machine of claim 3 wherein said abnormal operating condition is the detection of an operational step exceeding an established period of time; and wherein said processing system is configured with software instructions to respond to the detection of said abnormal operating condition by providing the operator with a visual display of at least one option for receiving assistance with said operational step. 11. The tire changing machine of claim 3 wherein said abnormal operating condition is either the detection of contact between a articulated tool assembly and the wheel rim or tire at an unexpected location, or an absence of expected contact between an articulated tool assembly and the wheel rim or tire when contact was expected at a given location; and wherein said processing system is configured with software instructions to respond to the detection of said abnormal operating condition by querying the operator to confirm a configuration of the wheel assembly. 12. The tire