Vehicle energy management system and related methods

What is claimed is: 1. A vehicle energy management method, comprising: receiving, from one or more on-board sensors, trailer data including at least one of trailer position data, trailer weight data, trailer speed data, and trailer acceleration data for the trailer traveling along a given trajectory; based at least in part on the received trailer data, computing a total estimated torque to maintain movement of the trailer along the given trajectory at a substantially constant speed; computationally estimating a torque applied by a powered vehicle towing the trailer; and based on the computationally estimated torque applied by the powered vehicle and on the computed total estimated torque, applying a specified trailer torque to one or more trailer axles, wherein the specified trailer torque is provided by an electric motor-generator coupled to the one or more trailer axles. 2. The energy management method of claim 1 , wherein the computing the total estimated torque includes computing one or more of a driver input torque, an air drag torque, a road drag torque, a road grade torque, an acceleration torque, and a braking torque. 3. The energy management method of claim 1 , wherein the computationally estimating the torque includes computationally estimating the torque based on one or more of driver behavior, road conditions, traffic conditions, weather conditions, and roadway grade. 4. The energy management method of claim 1 , further comprising: installing, underneath the trailer, a hybrid suspension system including the electric motor-generator coupled to the one or more trailer axles; and operating the hybrid suspension system in one of a power assist mode, a regeneration mode, and a passive mode of operation to provide the specified trailer torque. 5. The energy management method of claim 4 , wherein the electric motor-generator provides, in the power assist mode of operation, an assistive motive force. 6. The energy management method of claim 4 , wherein the electric motor-generator provides, in the regeneration mode of operation, a regenerative braking force. 7. The energy management method of claim 4 , wherein the electric motor-generator provides, in the passive mode of operation, neither an assistive motive force nor a regenerative braking force. 8. The energy management method of claim 4 , further comprising: providing a battery array from which stored energy is supplied to the electric motor-generator in the power assist mode of operation and to which regenerated braking energy is supplied in the regeneration mode of operation; wherein the specified trailer torque is selected so as to optimize energy usage of the battery array. 9. The energy management method of claim 8 , wherein the powered vehicle consumes fuel, and wherein the specified trailer torque is selected so as to simultaneously optimize fuel consumption of the powered vehicle and the energy usage of the battery array. 10. The energy management method of claim 1 , further comprising: determining a first plurality of torques that the powered vehicle is operable to provide; determining a second plurality of torques that the electric motor-generator is operable to provide; based on the first plurality of torques, generating a first torque-to-fuel usage map for the powered vehicle; and based on the second plurality of torques, generating a torque-to-energy usage map for the electric motor-generator. 11. The energy management method of claim 10 , further comprising: converting the torque-to-energy usage map into a second torque-to-fuel usage map; and computing a difference between the first and second torque-to-fuel usage maps, thereby providing a combined usage map. 12. The energy management method of claim 11 , further comprising: determining, from the combined usage map, an index value corresponding to an optimal combined usage; and based on the index value, selecting the specified trailer torque. 13. The energy management method of claim 12 , wherein the specified trailer torque is selected, using the index value, from the torque-to-energy usage map. 14. The energy management method of claim 1 , further comprising: prior to computing the total estimated torque, filtering the trailer data received from the one or more on-board sensors. 15. The energy management method of claim 14 , wherein the filtering is performed using at least one of a moving average and a Kalman filter. 16. A trailer for use in combination with a powered vehicle, the trailer comprising: one or more on-board sensors configured to detect trailer data including at least one of trailer position data, trailer weight data, trailer speed data, and trailer acceleration data for the trailer traveling along a given trajectory; a control system operable to compute, based at least in part on the trailer data, a total estimated torque to maintain movement of the trailer along the given trajectory at a substantially constant speed; and an electric motor-generator coupled to one or more trailer axles, wherein the electric motor-generator is configured to provide a specified torque to the one or more trailer axles; wherein the control system is further operable to computationally estimating a torque applied by the powered vehicle towing the trailer; and wherein based on the computationally estimated torque applied by the powered vehicle and on the computed total estimated torque, applying the specified trailer torque to the one or more trailer axles. 17. The trailer of claim 16 , further comprising: a hybrid suspension system including the electric motor-generator coupled to the one or more trailer axles, wherein the hybrid suspension system is installed underneath the trailer; wherein the hybrid suspension system is configured to operate in one of a power assist mode, a regeneration mode, and a passive mode of operation to provide the specified trailer torque. 18. The trailer of claim 17 , further comprising: a battery array configured to supply stored energy to the electric motor-generator in the power assist mode of operation and configured to receive regenerated braking energy in the regeneration mode of operation; wherein the specified trailer torque is selectable by the control system so as to optimize energy usage of the battery array. 19. The trailer of claim 18 , wherein the powered vehicle is configured to consume fuel, and wherein the specified trailer torque is selectable by the control system so as to simultaneously optimize fuel consumption of the powered vehicle and the energy usage of the battery array. 20. The trailer of claim 16 , in combination with the powered vehicle.