Electronic all-wheel-drive escape systems and methods

What is claimed is: 1. A method for an assist mode in a hybrid electric vehicle, comprising: receiving signals from a plurality of vehicle sensors monitoring respective conditions of the hybrid electric vehicle; an assist mode circuit determining whether a loss-of-traction condition is being experienced by the hybrid electric vehicle using information in the signals received from at least one of the plurality of vehicle sensors; and activating an assist mode of the hybrid electric vehicle if the assist mode circuit determines that a loss-of-traction condition is being experienced, wherein the assist mode alters vehicle drive train characteristics by generating a low-gear hold condition in a transmission of the hybrid electric vehicle. 2. The method of claim 1 , wherein the loss-of-traction condition comprises at least one of wheel slippage, roll or pitch of the hybrid electric vehicle when the hybrid electric vehicle is stationary, sinking of the hybrid electric vehicle, a change in a left/right or front/rear slip ratio of the hybrid electric vehicle, and a lowering of vehicle tire pressure by greater than a predetermined amount. 3. The method of claim 1 , wherein the assist mode further comprises increasing motive power provided to an assist wheel of the hybrid electric vehicle. 4. The method of claim 1 , wherein the assist mode further comprises increasing torque applied to a wheel of the hybrid electric vehicle by a motor driving that wheel by changing pulse-width-modulation controls of the motor from a sinusoidal control to a square wave control. 5. The method of claim 1 , wherein the assist mode further comprises increasing torque to a first axle opposite a second axle on which slippage is detected to provide more torque to the assist wheels. 6. The method of claim 5 , wherein the increased torque is applied until sensors indicate that the hybrid electric vehicle is no longer stuck or no longer in a loss-of-traction event. 7. The method of claim 1 , wherein the assist mode further comprises disengaging the vehicle transmission such that the engine is no longer providing motive force to the wheels. 8. The method of claim 1 , wherein the assist mode further comprises forcing the engine of the HEV on to charge a battery of the hybrid electric vehicle to allow an increase in motor power at an assist wheel. 9. The method of claim 1 , wherein the assist mode further comprises increasing battery output power above specified normal limits to provide additional power to an assist wheel. 10. The method of claim 1 , wherein the assist mode further comprises increasing a cooling system flow for a motor driving an assist wheel or power electronics that enable the motor at a higher power level. 11. The method of claim 1 , wherein the assist mode further comprises increasing ground clearance of the hybrid electric vehicle. 12. The method of claim 1 , wherein the assist mode further comprises reducing tire pressure of vehicle tires to increase traction. 13. An assist mode circuit for a vehicle, comprising: a plurality of sensors to sense vehicle conditions; a communications receiver to receive information from at least one of the plurality of sensors regarding the vehicle conditions; an assist-mode circuit to determine whether the vehicle is encountering a loss-of-traction event and to activate a vehicle assist mode if the assist-mode circuit determines that the vehicle is encountering a loss-of-traction event; a communications transmitter to transmit instructions to a vehicle system to implement the assist mode, the assist mode comprising generating a low-gear hold condition in a transmission of the vehicle. 14. The assist mode circuit of claim 13 , wherein the plurality of sensors comprise at least one of a wheelspin sensor, a tire pressure monitoring system, a three axis accelerometer, a ground clearance sensor, a slip ratio sensor, and an environmental sensor. 15. The assist mode circuit of claim 13 , wherein the assist mode further comprises increasing motive power provided to an assist wheel of the vehicle. 16. The assist mode circuit of claim 13 , wherein the assist mode further comprises increasing torque applied to a wheel of the vehicle by a motor driving that wheel by changing pulse-width-modulation controls of the motor from a sinusoidal control to a square wave control. 17. The assist mode circuit of claim 13 , wherein the assist mode further comprises increasing torque to a first axle opposite a second axle on which slippage is detected to provide more torque to the assist wheels. 18. The assist mode circuit of claim 13 , wherein the assist mode further comprises disengaging the vehicle transmission such that the engine is no longer providing motive force to the wheels. 19. The assist mode circuit of claim 13 , wherein the assist mode further comprises forcing the engine of the vehicle on to charge a battery of the vehicle to allow an increase in motor power at an assist wheel. 20. The assist mode circuit of claim 13 , wherein the assist mode further comprises increasing battery output power above specified normal limits to provide additional power to an assist wheel. 21. The assist mode circuit of claim 13 , wherein the assist mode further comprises increasing cooling system flow for a motor at driving the assist wheel or power electronics of that motor to enable that motor at a higher power level. 22. The assist mode circuit of claim 13 , wherein the assist mode further comprises increasing ground clearance of the vehicle. 23. The assist mode circuit of claim 13 , wherein the assist mode further comprises reducing tire pressure of vehicle tires to increase traction.