Methods and systems for coordinated shaping of HEV base torque

The invention claimed is: 1. A vehicle operating method, comprising: generating a base torque reserve for an engine of a vehicle based on a position of an accelerator pedal and a position rate of change of the accelerator pedal, the base torque reserve generated by calculating a shaped base torque and adjusting one or more of a throttle position and a waste gate valve position based on the shaped base torque; operating the vehicle in a condition that includes receiving a driver tip-in request followed by receiving a driver reduction in torque request; while operating the vehicle, maintaining the shaped base torque unchanged responsive to the condition so that the base torque reserve monotonically increases fora duration of the condition, the duration including both the driver tip-in request and the driver reduction in torque request received during the condition; during a further condition, receiving a negative driver torque request via a second position of the accelerator pedal and a second position rate of change of the accelerator pedal; re-calculating powertrain torque requests for a powertrain of the vehicle based on the second position of the accelerator pedal and the second position rate of change of the accelerator pedal, the powertrain of the vehicle including the engine and a motor of the vehicle; and managing a backlash crossing by adjusting an instantaneous torque request based on the re-calculated powertrain torque, wherein the re-calculated powertrain torque requests include a reduced instantaneous torque request to the motor of the powertrain immediately followed by an increased instantaneous torque request to the motor of the powertrain. 2. The vehicle operating method of claim 1 , wherein the base torque reserve is an air path torque. 3. The vehicle operating method of claim 1 , wherein an amount of the base torque reserve generated is increased as the position rate of change of the accelerator pedal is increased. 4. The vehicle operating method according to claim 3 , further comprising: during further condition, continuing to adjust the one or more of the throttle position and the waste gate valve position based on the shaped base torque; and changing an output torque to wheels of the powertrain via one or more of the motor of the powertrain and a spark timing of the engine responsive to the powertrain torque requests re-calculated based on the second position of the accelerator pedal and the second position rate of change of the accelerator pedal. 5. The vehicle operating method according to claim 4 , further comprising: receiving a positive driver torque request via a third position of the accelerator pedal and a third position rate of change of the accelerator pedal; re-calculating the powertrain torque requests based on the third position of the accelerator pedal and the third position rate of change of the accelerator pedal; continuing to adjust the one or more of the throttle position and the waste gate valve position based on the shaped base torque; and changing the output torque to wheels of the powertrain via one or more of the motor of the powertrain and the spark timing of the engine responsive to the powertrain torque requests re-calculated based on the second position of the accelerator pedal and the second position rate of change of the accelerator pedal. 6. A vehicle operating method, comprising: receiving a driver torque request via an accelerator pedal of a vehicle; calculating a shaped base torque, wherein the shaped base torque includes calculations for a base torque reserve based on a position of the accelerator pedal and a pedal rate of change, and wherein the shaped base torque is further calculated based on one or more of a drive mode, a vehicle altitude, a battery state of charge (SOC), and a transmission gear; adjusting a throttle of an engine based on the shaped base torque to generate the base torque reserve; operating the vehicle in a condition that includes receiving a driver tip-in request followed by receiving a driver reduction in torque request; while operating the vehicle in the condition, maintaining the shaped base torque unchanged responsive to the condition so that the shaped base torque monotonically increases fora duration of the condition, the duration including both the driver tip-in request and the driver reduction in torque request received during the condition; during a further condition, receiving a negative driver torque request via a second position of the accelerator pedal and a second position rate of change of the accelerator pedal; re-calculating powertrain torque requests for a powertrain of the vehicle based on the second position of the accelerator pedal and the second position rate of change of the accelerator pedal, the powertrain of the vehicle including the engine and a motor of the vehicle; and managing a backlash crossing by adjusting an instantaneous torque request based on the re-calculated powertrain torque, wherein the re-calculated powertrain torque requests include a reduced instantaneous torque request to the motor of the powertrain immediately followed by an increased instantaneous torque request to the motor of the powertrain. 7. The vehicle operating method of claim 6 , further comprising: receiving an updated position of the accelerator pedal and an updated position rate of change of the accelerator pedal requesting; re-calculating torque requests based on the updated position of the accelerator pedal and the updated position rate of change of the accelerator pedal; and continue to adjust the throttle based on a same shaped base torque. 8. The vehicle operating method of claim 7 , wherein the updated position of the accelerator pedal and the updated position rate of change of the accelerator pedal transition the driver torque request from a positive driver torque request to a negative driver torque request. 9. The vehicle operating method of claim 7 , wherein the updated position of the accelerator pedal and the updated position rate of change of the accelerator pedal transition the driver torque request from a negative driver torque request to a positive driver torque request. 10. The vehicle operating method of claim 6 , wherein the shaped base torque is maintained below a steady-state value, wherein the steady-state value is a predetermined limit for the shaped base torque that prevents unnecessary fuel consumption. 11. A vehicle system, comprising: a powertrain of a vehicle including an internal combustion engine and at least one motor; a transmission; an accelerator pedal; and a controller with computer readable instructions stored on non-transitory memory that when executed, cause the controller to: receive a driver torque request, the driver torque request determined based on a position of the accelerator pedal and a position rate of change of the accelerator pedal, and generate an air torque reserve for the internal combustion engine based on the position of the accelerator pedal and the position rate of change of the accelerator pedal by calculating a shaped base torque based on the position of the accelerator pedal and the position rate of change of the accelerator pedal, wherein the air torque reserve is a base torque reserve; operate the vehicle in a condition that includes receiving a driver tip-in request followed by receiving a driver reduction in torque request; and while operating the vehicle in the condition, maintain the shaped base torque unchanged responsive to the condition so that the base torque reserve monotonically increases for a duration of the condition, the duration including both the driver tip-in request and the driver reduction in torque reque