Speed optimality analysis for evaluating the optimality of a powertrain

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A method for improving fuel economy in a vehicle, the method comprising: receiving, by a vehicle test fixture, a drive cycle record, wherein the drive cycle record indicates a time series of vehicle speed and road grade values; exercising, by the vehicle test fixture, a vehicle under test based on the drive cycle record; receiving, by the vehicle test fixture, sensor data from the vehicle, wherein the sensor data indicates, for each time period of a plurality of time periods, at least an engine power and a fuel usage rate; and determining, by the vehicle test fixture, at least one fuel rate optimization value based on the sensor data wherein determining at least one fuel rate optimization value based on the sensor data includes: for a given time period of the plurality of time periods: determining an optimal fuel rate for the engine power; and dividing the optimal fuel rate by the fuel usage rate. 2. The method of claim 1 , wherein determining at least one fuel rate optimization value based on the sensor data further includes: determining fuel rate optimization values for each period of the plurality of time periods; and determining an overall fuel rate optimization value based on the fuel rate optimization values. 3. The method of claim 1 , wherein the vehicle test fixture includes a dynamometer. 4. The method of claim 1 , further comprising receiving, by a vehicle analysis system, the determined at least one fuel rate optimization value from the vehicle test fixture. 5. The method of claim 4 , further comprising generating, by the vehicle analysis system, at least one vehicle configuration record. 6. The method of claim 4 , wherein the vehicle analysis system comprises a configuration data store and a performance data store; wherein the configuration data store is configured to store a plurality of vehicle configuration records, including a vehicle configuration record associated with the vehicle under test; and wherein the performance data store is configured to store the at least one fuel rate optimization value in association with the vehicle configuration record associated with the vehicle under test. 7. The method of claim 6 , further comprising receiving, by the vehicle analysis system, sensor data from vehicles in the field that were configured according to vehicle configuration records stored in the configuration data store. 8. The method of claim 7 , further comprising determining, by the vehicle analysis system, at least one fuel rate optimization value based on the sensor data received by the interface module. 9. A method for configuring a vehicle to have an optimized fuel usage rate over a drive cycle, the method comprising: receiving a set of vehicle configuration records; receiving a drive cycle record, wherein the drive cycle record includes a time series of road grade values and vehicle speed values; for each vehicle configuration record of the set of vehicle configuration records: configuring a test vehicle using the vehicle configuration record; exercising the test vehicle by executing the drive cycle record using a vehicle test fixture; collecting sensor data from the test vehicle while executing the drive cycle; calculating at least one test fuel rate optimization value based on the sensor data; and storing the at least one test fuel rate optimization value in a performance data store in association with the vehicle configuration record; comparing the test fuel rate optimization values in the performance data store; and configuring the vehicle using the vehicle configuration record associated with the highest test fuel rate optimization value. 10. The method of claim 9 , further comprising: receiving, from the vehicle, sensor data, wherein the sensor data indicates, for each time period of a plurality of time periods, at least an engine power and a fuel usage rate; determining at least one performance fuel rate optimization value based on the sensor data; and comparing the determined at least one performance fuel rate optimization value with the test fuel rate optimization value stored in the performance data store. 11. The method of claim 9 , wherein calculating the at least one test fuel rate optimization value based on the sensor data includes, for a given time period: determining a fuel usage rate during the time period based on the received signals; determining a detected engine power generated during the time period based on the received signals; retrieving an optimal fuel rate for the detected engine power from a fuel map data store; and dividing the optimal fuel rate by the fuel usage rate to obtain a test fuel rate optimization value. 12. The method of claim 11 , wherein the sensor data indicate at least one of a vehicle speed, an engine power, an engine speed, and a fuel usage rate.