Transmission grade sensor rationality and trim algorithm

What is claimed is: 1. A vehicle having a system for conducting a rationality check of at least one transmission grade sensor, comprising: an engine and a multi-ratio transmission; at least one controller connected to the at least one transmission grade sensor and to at least one of the engine and the multi-ratio transmission; at least one barometric pressure sensor and at least one vehicle speed sensor each connected to the at least one controller; the at least one controller being configured to calculate a first vehicle change in elevation over a time interval by determining an initial barometric pressure and a final barometric pressure from data provided by the at least one barometric pressure sensor, by determining an ambient temperature, and by applying a hypsometric formula; the at least one controller being configured to calculate a second vehicle change in elevation over the time interval by multiplying: the sine of an average grade determined from data reported by the at least one transmission grade sensor; and a distance travelled calculated from the length of the time interval and an average speed determined from data reported by the at least one vehicle speed sensor; the at least one controller being configured to compare the second vehicle change in elevation to the first vehicle change in elevation; the at least one controller being configured, if the discrepancy between the second vehicle change in elevation and the first vehicle change in elevation meets or exceeds a preset minimum threshold within the at least one controller, to calculate a grade correction factor based on a difference between: a grade calculated by taking the inverse sine of the first vehicle change in elevation divided by the distance travelled; and the average grade determined from the data reported by the at least one transmission grade sensor; the at least one controller being configured to modify at least one of shift logic and a shift schedule of the multi-ratio transmission based on the average grade determined from data reported by the at least one transmission grade sensor and on the grade correction factor; and the at least one controller being further configured to verify the grade correction factor by calculating an adjusted vehicle change in elevation over the time interval by multiplying the distance traveled by the sine of the sum of the grade correction factor and the average grade determined from data reported by the at least one transmission grade sensor, adjusted by the grade correction factor, and on the distance travelled, and by comparing the result to the first vehicle change in elevation based on the change in barometric pressure reported by the at least one barometric pressure sensor. 2. The vehicle of claim 1 , wherein: the at least one controller being further configured to at least one of: incrementally adjust the grade correction factor in a recursive process, continually apply the grade correction factor to modify the average grade determined from data reported by the at least one transmission grade sensor, automatically self-adjust or calibrate the at least one transmission grade sensor based on the grade correction factor, and set a fault indication within the at least one controller if the discrepancy between the second vehicle change in elevation and the first vehicle change in elevation meets or exceeds the preset minimum threshold. 3. The vehicle of claim 1 , wherein: the at least one controller further comprises at least one of an engine controller and a transmission controller. 4. The vehicle of claim 1 , wherein: the at least one controller being further configured to calculate the first vehicle change in elevation, to calculate the second vehicle change in elevation, to compare the second vehicle change in elevation to the first vehicle change in elevation, and to calculate a grade correction factor if the discrepancy between the second vehicle change in elevation and the first vehicle change in elevation meets or exceeds the preset minimum threshold, at least one of: upon demand of an operator, periodically, and continuously. 5. The vehicle of claim 1 , wherein: the multi-ratio transmission being one of: automatic, automated manual, continuously variable, hybrid electric, and hydraulic. 6. A system for conducting a rationality check of at least one transmission grade sensor of a vehicle having an engine and a multi-ratio transmission, comprising: at least one controller connected to the at least one transmission grade sensor and to at least one of the engine and the multi-ratio transmission, and; at least one barometric pressure sensor and at least one vehicle speed sensor each connected to the at least one controller; the at least one controller being configured to calculate a first vehicle change in elevation over a time interval by determining an initial barometric pressure and a final barometric pressure from the data provided by the at least one barometric pressure sensor, by determining an ambient temperature, and by applying a hypsometric formula; the at least one controller being configured to calculate a second vehicle change in elevation over the time interval by multiplying: the sine of an average grade determined from data reported by the at least one transmission grade sensor; and a distance travelled calculated from the length of the time interval and an average speed determined from data reported by the at least one vehicle speed sensor; the at least one controller being configured to compare the second vehicle change in elevation to the first vehicle change in elevation; the at least one controller being configured, if the discrepancy between the second vehicle change in elevation and the first vehicle change in elevation meets or exceeds a preset minimum threshold, to calculate a grade correction factor based on a difference between: a grade calculated by taking the inverse sine of the first vehicle change in elevation divided by the distance travelled; and the average grade determined from the data reported by the at least one transmission grade sensor; the at least one controller being configured to modify at least one of shift logic and a shift schedule of the multi-ratio transmission based on the average grade determined from data reported by the at least one transmission grade sensor and on the grade correction factor; and the at least one controller being further configured to verify the grade correction factor by calculating an adjusted vehicle change in elevation over the time interval by multiplying the distance traveled by the sine of the sum of the grade correction factor and the average grade determined from data reported by the at least one transmission grade sensor, adjusted by the grade correction factor, and on the distance travelled, and by comparing the result to the first vehicle change in elevation based on the change in barometric pressure reported by the at least one barometric pressure sensor. 7. The system of claim 6 , wherein: the at least one controller being further configured to at least one of: incrementally adjust the grade correction factor in a recursive process, continually apply the grade correction factor to modify the average grade determined from data reported by the at least one transmission grade sensor, automatically self-adjust or calibrate the at least one transmission grade sensor based on the grade correction factor, and set a fault indication within the at least one controller if the discrepancy between the second vehicle change in elevation and the first vehicle change in elevation meets or exceeds the preset minimum threshold. 8. The system of claim 6 , wherein: the at least one controller further compris