Collision avoidance based on front wheel off tracking during reverse operation

What is claimed is: 1. A method of avoiding a collision while operating a vehicle in reverse comprising: detecting an object proximate to a vehicle with at least one sensor including detecting objects located along side of a vehicle; determining a predicted vehicle path, including a tracking path for front wheels of the vehicle; determining with a controller located within the vehicle a probability of collision of one of the front corner and a side of the vehicle with the object while the vehicle is travelling in reverse; and if the determined probability of collision exceeds a predetermined threshold, initiating at least one collision avoidance response with the controller; wherein determining the predicted vehicle path includes determining an offset of the front wheel path from the rear wheel path based upon a steering angle of the vehicle. 2. The method as recited in claim 1 , wherein an object along the side of the vehicle is detected with sensors also used by another vehicle system. 3. The method of claim 1 , wherein the at least one collision avoidance response is applying brakes of the vehicle with an automatic brake system. 4. The method of claim 3 , wherein applying the vehicle brakes further includes sending instructions to an electronic brake system to apply the vehicle brakes. 5. The method as recited in claim 1 , further comprising analyzing data from the at least one sensor with a controller to determine characteristics of the object and if the object detected is an obstacle for the vehicle to avoid. 6. The method as recited in claim 5 , including generating a predictive model of the object that includes a range of possible locations of the object at a future time with associated values of probability based on current characteristics of the object. 7. The method of claim 1 , wherein the controller includes instructions for calculating a steering maneuver to avoid an object located along side of the vehicle with a probability of collision above the predetermined threshold and sending the instructions to an electric power steering system. 8. The method as recited in claim 1 , further comprising controlling the vehicle steering and braking systems with one of a trailer backing assist system and a hitch assist system. 9. The method as recited in claim 8 , further comprising controlling the vehicle steering and braking with an independent input device for the trailer backing assist system. 10. The method as recited in claim 8 , further comprising controlling the vehicle steering and braking with an independent input device and a controller for the hitch assist system in one of an autonomous and semi-autonomous manner. 11. A method of avoiding a collision while operating a vehicle and trailer in reverse comprising: detecting an object proximate to the vehicle with at least one sensor including detecting objects located along side of the vehicle; controlling the vehicle steering and braking systems with an independent input device for a trailer backing assist system; determining a predicted vehicle path, including a tracking path for front wheels of the vehicle to determine an offset of the front wheel path, from a rear wheel path based upon a steering angle of the vehicle; determining a probability of collision with the object with a controller located within the vehicle; and if the determined probability of collision exceeds a predetermined threshold, initiating at least one collision avoidance response with the controller based on the probability of collision; wherein determining the predicted vehicle path includes determining an offset of the front wheel path, from the rear wheel path based upon a steering angle of the vehicle. 12. The method as recited in claim 11 , wherein an object along the side of the vehicle is detected with sensors also used by another vehicle system. 13. The method of claim 11 , wherein the at least one collision avoidance action is applying the vehicle brakes with an automatic brake system. 14. The method as recited in claim 11 , further comprising analyzing data from the at least one sensor with a controller to determine characteristics of the object and if the object detected is an obstacle for the vehicle to avoid. 15. The method as recited in claim 14 , including generating a predictive model of the object that includes a range of possible locations of the object at a future time with associated values of probability based on current characteristics of the object. 16. A backing system for a vehicle comprising: a camera mounted to a reverse path of a vehicle; at least one sensor able to detect objects along side of the vehicle; a steering angle sensor to detect a steering angle of the vehicle; and a controller including instructions for: detecting an object proximate to a vehicle with the at least one sensor including detecting objects located along side of a vehicle; determining a predicted vehicle path, including a tracking path for front wheels of the vehicle; determining a probability of collision with the object and at least one of a front corner and side of the vehicle; and if the determined probability of collision exceeds a predetermined threshold, initiating at least one collision avoidance response based on the probability of collision; wherein determining the predicted vehicle path includes determining an offset of the front wheel path, from the rear wheel path based upon a steering angle of the vehicle. 17. The backing system of claim 16 , wherein an electric power steering system is connected to the controller, and wherein the controller includes instructions for calculating a steering maneuver to avoid an object located along side of the vehicle with a probability of collision above the predetermined threshold. 18. The backing system of claim 16 , wherein a trailer is attached to the vehicle. 19. The backing system of claim 18 , further comprising an independent input device which is controllably connected to steer and brake the vehicle. 20. The backing system of claim 19 , wherein the independent input device is wireless.