Vehicle weight estimation system and related methods

What is claimed is: 1. A towed vehicle for use in combination with a towing vehicle, the towed vehicle comprising: an electrically powered drive axle of the towed vehicle configured to supply supplemental torque to one or more wheels of the towed vehicle and to thereby supplement, while the towed vehicle travels over a roadway and in at least some modes of operation, primary motive forces applied through a separate drivetrain of the towing vehicle; and a generally autonomous control system for the electrically powered drive axle of the towed vehicle, wherein the generally autonomous control system is provided on-board the towed vehicle and operates independently from throttle and drive train controls of the towing vehicle but, based on vehicle dynamics that are sensed or computationally estimated at the towed vehicle itself. 2. The towed vehicle of claim 1 , comprising a vehicle weight estimation system provided on the towed vehicle to sense or computationally estimate mass of at least the towed vehicle while in motion. 3. The towed vehicle of claim 1 , wherein the vehicle weight estimation system includes one or more of: one or more air bag-type pressure sensors provided in a suspension assembly of the towed vehicle; and wherein the generally autonomous control system and computationally estimates mass of at least the towed vehicle is based on sensed acceleration or deceleration of the towed vehicle in response to a supplemental torque applied under control of the generally autonomous control system. 4. The towed vehicle of claim 3 , wherein the supplemental torque opposes travel of the towed vehicle and is applied using the electrically powered drive axle in a regenerative braking mode of operation. 5. The towed vehicle of claim 3 , wherein the supplemental torque accelerates the towed vehicle in a direction of travel. 6. The towed vehicle of claim 1 , wherein the electrically powered drive axle is further configured to oppose, in a regenerative braking mode of operation, travel of the towed vehicle. 7. The towed vehicle of claim 3 , wherein the vehicle weight estimation system further includes either or both of an accelerometer and an inclinometer. 8. The towed vehicle of claim 1 , further comprising: an energy store configured to supply the electrically powered drive axle and further configured to receive energy recovered in a regenerative braking mode of operation. 9. The towed vehicle of claim 1 , wherein the energy store includes a battery or ultracapacitor. 10. The towed vehicle of claim 1 , wherein the energy store includes a flywheel or compressed fluid storage tank. 11. The towed vehicle of claim 3 , further comprising: a wireless data communications facility coupled to the vehicle weight estimation system to communicate the sensed or computationally estimated mass off of the towed vehicle. 12. The towed vehicle of claim 1 , wherein the wireless data communications facility includes one or more of cellular data network transceiver, radio frequency transmitter, a satellite uplink and an RFID tag, chip or reader. 13. A method, comprising: supplying supplemental torque to one or more wheels of a towed vehicle using an electrically powered drive axle of the towed vehicle to supplement, while the towed vehicle travels over a roadway and in at least some modes of operation, primary motive forces applied through a separate drivetrain of a towing vehicle; while in motion, estimating mass of at least the towed vehicle; and based at least in part on the estimated mass, controlling the supplemental torque applied using the electrically powered drive axle of the towed vehicle. 14. The method of claim 13 , wherein the control is performed autonomously and operates independently from throttle and drive train controls of the towing vehicle, based on vehicle dynamics that are sensed or computationally estimated at the towed vehicle itself. 15. The method of claim 13 , further comprising: estimating mass of the towed vehicle using one or more air bag-type pressure sensors provided in a suspension assembly of the towed vehicle. 16. The method of claim 13 , further comprising: computationally estimating mass of at least the towed vehicle based on sensed acceleration or deceleration of the towed vehicle in response to supplemental torque applied using the electrically powered drive axle. 17. The method of claim 13 , wherein the supplemental torque opposes travel of the towed vehicle and is applied using the electrically powered drive axle in a regenerative braking mode of operation. 18. The method of claim 13 , wherein the supplemental torque accelerates the towed vehicle in a direction of travel. 19. The method of claim 13 , further comprising: wirelessly communicating the sensed or computationally estimated mass off of the towed vehicle.