Powertrain lash management

The invention claimed is: 1. A method for an engine of a vehicle, comprising: in response to an operator foot-off accelerator pedal event, distinguishing between a driver intent to brake or coast based on one or more of operator foot motion inside the vehicle and a traffic pattern outside the vehicle; and varying lash adjustments during torque transition through a lash region following the operator foot-off accelerator pedal event based on the driver intent, the lash adjustments including a first lash adjustment during a positive-to-negative torque transition through the lash region and a second lash adjustment during a negative-to-positive torque transition through the lash region, wherein the varying includes, when the driver intent includes coasting, reducing engine torque to a threshold torque level outside the lash region, and disabling each of the first and second lash adjustments, the lash region based on torque converter input and output speeds of a fully unlocked torque converter. 2. The method of claim 1 , wherein the varying includes, initiating the first lash adjustment at a timing based on a rate pedal displacement during the operator foot-off accelerator pedal event, and then initiating the second lash adjustment earlier during the torque transition when the driver intent includes coasting, and initiating the second lash adjustment later during the torque transition when the driver intent includes braking. 3. The method of claim 2 , wherein the varying is further based on an operator driving pattern, the operator driving pattern including a preference for performance relative to a preference for fuel economy. 4. The method of claim 3 , wherein the varying includes initiating each of the first lash adjustment and the second lash adjustment earlier when the operator driving pattern includes a preference for performance over fuel economy, and initiating each of the first lash adjustment and the second lash adjustment later when the operator driving pattern includes a preference for fuel economy over performance. 5. The method of claim 1 , wherein the distinguishing includes indicating driver intent to brake responsive to the operator foot motion towards a brake pedal and indicating driver intent to coast responsive to the operator foot motion near an accelerator pedal, and adjusting an actuator to take a first action responsive to the indication of driver intent to brake, and adjusting the actuator or another actuator to take a second, different action from the first action, responsive to the indication of driver intent to coast. 6. The method of claim 1 , wherein the distinguishing includes indicating driver intent to brake responsive to a traffic pattern indicative of smaller clearance ahead of the vehicle, and indicating driver intent to coast responsive to a traffic pattern indicative of larger clearance ahead of the vehicle. 7. The method of claim 1 , wherein the operator foot motion inside the vehicle is based on input from a camera scanning a foot-well region of the vehicle, and wherein the traffic pattern outside the vehicle is based on input from a camera scanning a region in front of the vehicle. 8. A method for an engine coupled to a vehicle, comprising: in response to a first operator foot-off accelerator pedal event, reducing engine torque to a threshold torque outside a lash region, and maintaining the engine torque at the threshold torque until a subsequent operator foot-on accelerator pedal event; and in response to a second operator foot-off accelerator pedal event, reducing engine torque to the threshold torque outside the lash region, then transitioning through the lash region via a first lash adjustment followed by transitioning through the lash region via a second lash adjustment, a duration between the first and the second lash adjustments adjusted based on inferred driver intent to brake differentiated from driver intent to coast. 9. The method of claim 8 , wherein during each of the first and second events, a rate of reducing the engine torque to the threshold torque outside the lash region is based on a rate of pedal displacement, the rate of reducing increased as the rate of pedal displacement increases. 10. The method of claim 8 , wherein reducing engine torque includes reducing engine torque via powertrain braking. 11. The method of claim 8 , wherein responsive to the second operator foot-off accelerator pedal event, the duration between the first and the second lash adjustments is decreased when the inferred driver intent is to coast, and the duration is increased when the inferred driver intent is to brake. 12. The method of claim 8 , wherein the inferred driver intent is based on each of operator foot motion and vehicle clearance following the second operator foot-off accelerator pedal event, the operator foot motion inferred via a sensor coupled to a vehicle operator foot-well region, the vehicle clearance inferred via a vehicle gap sensor. 13. The method of claim 12 , wherein the inferred driver intent is further based on a learned operator driving pattern, the learned operator driving pattern including one or more of an accelerator pedal pattern, a brake pedal pattern, a preference for vehicle performance, and a preference for engine fuel economy. 14. The method of claim 8 , further comprising, in response to a brake pedal event following the first operator foot-off accelerator pedal event, transitioning through the lash region from the threshold torque via the first lash adjustment followed by transitioning through the lash region via the second lash adjustment, the duration between the first and the second lash adjustments adjusted based on a braking demand during the brake pedal event. 15. The method of claim 8 , wherein the first lash adjustment is performed during a positive-to-negative torque reversal through the lash region, and wherein the second lash adjustment is performed during a negative-to-positive torque reversal through the lash region. 16. A vehicle system, comprising: an operator foot-well region including an accelerator pedal, a brake pedal, and a foot-well sensor; a sensor coupled to the vehicle system for estimating a gap between the vehicle system and a leading vehicle; an engine including a fuel injector and an intake throttle valve; and a controller with computer-readable instructions stored on non-transitory memory for: in response to a foot-off accelerator pedal event, apply a first powertrain brake torque to reduce engine torque to a threshold torque above a lash region via adjustments to a duty cycle of the fuel injector and an opening of the intake throttle valve; infer a driver intent to coast or brake based on one or more of a traffic sensor and the foot-well sensor; and selectively perform a lash adjustment through the lash region based on the inferred driver intent. 17. The vehicle system of claim 16 , wherein the selectively perform the lash adjustment includes: perform the lash adjustment when the inferred driver intent includes braking; and not perform the lash adjustment when the inferred driver intent includes coasting. 18. The vehicle system of claim 16 , wherein the selectively perform the lash adjustment further includes: initiate the lash adjustment through the lash region earlier when the inferred driver intent includes coasting; and initiate the lash adjustment through the lash region later when the inferred driver intent includes braking.