Control Method For Vehicle With Electronic Steering Column Lock

What is claimed is: 1 . A vehicle comprising: a steering column; an Electronic Steering Column Lock (ESCL) engageable to limit rotation of the steering column; an Electronic Power-Assisted Steering system (EPAS) including a sensor configured to detect a torque on the steering column and a motor configured to relieve the torque; and a controller programmed to respond to authentication of an operator by activating the EPAS to relieve a load on the ESCL and commanding disengagement of the ESCL. 2 . The vehicle of claim 1 wherein the controller is further programmed to respond to a request to enter a ready-to-drive state by testing a state of the ESCL and permitting generation of tractive force only if the ESCL is disengaged. 3 . The vehicle of claim 2 wherein the controller is further programmed to suspend operation of the EPAS and command the ESCL to re-lock if no request to enter the ready-to-drive state is received within a predetermined time after the authentication of the operator. 4 . The vehicle of claim 2 wherein authentication of the operator is based on insertion of a key in an ignition switch. 5 . The vehicle of claim 4 wherein the request to enter the ready-to-drive state is based on rotation of the key in the ignition switch. 6 . The vehicle of claim 2 wherein authentication of the operator is based on a button press of a wireless key fob. 7 . The vehicle of claim 2 wherein authentication of the operator is based on operation of a driver door. 8 . A method of controlling a vehicle comprising: in response to authentication of an operator, commanding disengagement of an Electronic Steering Columns Lock (ESCL) and commanding an electric power steering motor to exert torque to relieve load on the ESCL; and in response to an operator request to enter a ready-to-drive state, permitting generation of tractive force in response to depression of an accelerator pedal only if the ESCL is disengaged. 9 . The method of claim 8 further comprising: suspending operation of the electric power steering motor and commanding the ESCL to re-lock if no request to enter the ready-to-drive state is received within a predetermined time after the authentication of the operator. 10 . The method of claim 8 further comprising: in response to the operator request to enter the ready-to-drive state, starting an internal combustion engine. 11 . The method of claim 8 wherein authentication of the operator comprises insertion of a key in an ignition switch. 12 . The method of claim 11 wherein the request to enter the ready-to-drive state comprises rotating the key in the ignition switch. 13 . The method of claim 8 wherein authentication of the operator comprises a button press of a wireless key fob. 14 . The method of claim 8 wherein authentication of the operator comprises operating a driver door. 15 . A controller comprising: communications channels configured to receive signals from a steering column torque sensor and a driver authentication system and to send signals to an Electronic Steering Column Lock (ESCL) and a power steering motor; and control logic configured to respond to an authentication signal by commanding the power steering motor to relieve a load on the ESCL as sensed by the steering column torque sensor and by commanding disengagement of the ESCL. 16 . The controller of claim 15 wherein the control logic is further configured to respond to a request to enter a ready-to-drive state by testing a state of the ESCL and permitting generation of tractive force only if the ESCL is disengaged. 17 . The controller of claim 16 wherein the control logic is further configured to suspend operation of the power steering motor and to command the ESCL to re-lock if no request to enter the ready-to-drive state is received within a predetermined time after receiving the authentication signal.