System, method and apparatus for lading measurement in a rail car

What is claimed is: 1. A railroad vehicle, comprising: a truck having wheels configured to engage a railroad track; a bolster supported by the truck; a vessel supported by the bolster and configured to store a lading; and a measurement system for measuring a weight of the lading within the vessel, the measurement system comprising: strain gauges mounted directly to the bolster and in physical, intimate contact with the bolster, wherein the strain gauges are disposed at selected points on the bolster and configured to sense at least one of lateral and longitudinal strain experienced by the bolster during motion of the railroad vehicle and generate signals in response thereto, the strain gauges including at least one of a set of strain gauges for measuring bending of the bolster with respect to a longitudinal axis of the vehicle and a set of strain gauges for measuring tension and compression of the bolster with respect to a lateral axis of the vehicle; and a controller for calculating the weight of the lading within the vessel, wherein the controller is configured to compensate for shifts of the lading within the vessel during motion of the railroad vehicle in response to the signals generated by the strain gauges, the controller operable to compensate for shifts of the lading within the vessel from braking forces in response to signals representing the bending of the bolster with respect to the longitudinal axis of the vehicle and to compensate for shifts of the lading within the vessel from forces during curve negotiation in response to signals representing the tension and compression on the bolster with respect to the lateral axis of the vehicle; wherein, in calculating the weight of the lading, the controller is further configured to compensate for changes in a level of the lading during motion of the railroad vehicle in response to the signals generated by the strain gauges. 2. The railroad vehicle of claim 1 , wherein the strain gauges are mounted to the bolster with one of bonding or welding. 3. The railroad vehicle of claim 1 , wherein the strain gauges are not mounted to a load cell. 4. The railroad vehicle of claim 1 , wherein the railroad vehicle comprises a second truck opposite the truck, and the second truck comprises a second bolster that also has strain gauges. 5. The railroad vehicle of claim 1 , wherein the strain gauges are located only on lower surfaces of the bolster. 6. The railroad vehicle of claim 1 , wherein the strain gauges are not located on or above upper surfaces of the bolster. 7. The railroad vehicle of claim 1 , wherein the strain gauges are not located at a center bowl or at side bearings of the bolster, such that the strain gauges are not sacrificially consumed during operation of the railroad vehicle. 8. The railroad vehicle of claim 1 , wherein the strain gauges are mounted adjacent a bolster spring seat of the bolster. 9. The railroad vehicle of claim 1 , wherein the strain gauges are configured to be in one of wireless or hard-wired communication with the controller. 10. The railroad vehicle of claim 1 , wherein the strain gauges and the controller form parts of a fuel monitoring and management system, and the fuel monitoring and management system further comprises a recording device and a communications package. 11. The railroad vehicle of claim 1 , wherein the strain gauges are sealed in at least one of a metal enclosure, polytetrafluoroethylene (PTFE) tape, epoxy, rubber, nitrile rubber, sealant, room-temperature-vulcanization (RTV) sealant or silicone. 12. The railroad vehicle of claim 1 , wherein the vessel is a cryogenic tank configured to store cryogenic fuel. 13. The railroad vehicle of claim 1 , wherein the strain gauges are configured in a longitudinal configuration having portions adjacent a common bolster spring seat, such that the longitudinal configuration is configured to compensate for forces imparted to the bolster during train braking. 14. The railroad vehicle of claim 1 , wherein the strain gauges are configured in a lateral configuration having portions adjacent laterally-opposed bolster spring seats, such that the lateral configuration is configured to compensate for forces imparted to the bolster during curve negotiation by a train. 15. A railroad vehicle, comprising: a truck having wheels configured to engage a railroad track; a bolster supported by the truck; a vessel supported by the bolster and configured to store a lading; and a measurement system for measuring a level of the lading within the vessel, the measurement system comprising: gauges mounted to the bolster, wherein the gauges are disposed at selected points on the bolster and are not located on or above upper surfaces of the bolster, the gauges being configured to sense at least one of lateral and longitudinal localized displacement experienced by the bolster during motion of the railroad vehicle and generate signals in response thereto, the gauges including at least one of a set of strain gauges for measuring bending of the bolster with respect to a longitudinal axis of the vehicle and a set of strain gauges for measuring tension and compression of the bolster with respect to a lateral axis of the vehicle; and a controller for calculating the level of the lading within the vessel, wherein the controller is configured to compensate for changes in the level of the lading and shifts of the lading within the vessel during motion of the railroad vehicle in response to the signals generated by the gauges, the controller operable to compensate for shifts of the lading within the vessel from braking forces in response to signals representing the bending of the bolster with respect to the longitudinal axis of the vehicle and to compensate for shifts of the lading within the vessel from forces during curve negotiation in response to signals representing the tension and compression on the bolster with respect to the lateral axis of the vehicle; wherein the controller is configured to calculate a lading weight in response to signals generated by the strain gauges; wherein, in calculating the lading weight, the controller is configured to compensate for changes in the level of the lading and shifts of the lading within the vessel during motion of the railroad vehicle in response to the signals generated by the strain gauges. 16. The railroad vehicle of claim 15 , wherein the gauges comprise one or more physical displacement gauges comprising: eddy current, capacitance, laser, confocal, inductive and magneto-inductive.