Device, system, and method for controlling transmission torque to provide hill ascent and/or descent assistance using road grade

The invention claimed is: 1. A transmission control module for controlling an automatic transmission of a vehicle, the transmission control module comprising: a control circuit; and a memory electrically coupled to the control circuit and having stored therein a plurality of instructions that, when executed by the control circuit, cause the control circuit to: determine a clutch hold pressure sufficient to lock an output shaft of the automatic transmission to resist roll-back of the vehicle as a function of a tractive effort of the vehicle; apply the clutch hold pressure to at least one clutch of the automatic transmission as a function of (i) a transmission output speed signal indicative of a rotational output speed of the automatic transmission, (ii) a throttle signal indicative of application of a throttle of the vehicle, and (iii) a brake signal indicative of application of a brake of the vehicle; compare the brake signal to a brake high threshold; compare the throttle signal to a throttle high threshold and a throttle medium threshold; set a clutch release ramp rate to a high ramp rate in response to (i) the brake signal being less than the brake high threshold and (ii) the throttle signal being greater than the throttle medium threshold and less than the throttle high threshold; and adjust the clutch hold pressure as a function of the current clutch hold pressure and the clutch release ramp rate. 2. The transmissions control module of claim 1 , wherein the plurality of instructions cause the control circuit to determine the tractive effort of the vehicle as a function of a transmission output speed-to-vehicle speed ratio. 3. The transmission control module of claim 2 , wherein the plurality of instructions cause the control circuit to: receive a vehicle speed signal indicative of a speed of the vehicle; and calculate the transmission output speed-to-vehicle speed ratio as a function of the transmission output speed signal and the vehicle speed signal. 4. The transmission control module of claim 1 , wherein the plurality of instructions cause the control circuit to determine the tractive effort of the vehicle as a function of a vehicle mass of the vehicle. 5. The transmission control module of claim 1 , wherein the transmission control module further includes an inclinometer to generate a road grade signal indicative of a grade of the road on which the vehicle is currently positioned, and wherein the plurality of instructions cause the control circuit to determine the tractive effort of the vehicle as a function of the road grade signal. 6. The transmission control module of claim 1 , wherein the plurality of instructions cause the control circuit to determine the tractive effort of the vehicle as a function of a transmission output speed-to-vehicle speed ratio, a vehicle mass of the vehicle, and a road grade signal. 7. The transmission control module of claim 1 , wherein the plurality of instructions cause the control circuit to determine the clutch hold pressure by correlating the tractive effort to one of a plurality of predetermined clutch hold pressure values. 8. The transmission control module of claim 1 , wherein the plurality of instructions cause the control circuit to: compare the transmission output speed signal to an output speed threshold; compare the throttle signal to a throttle low threshold; compare the brake signal to a brake low threshold; and release the clutch hold pressure in response to (i) the output speed signal being greater than the output speed threshold, (ii) the throttle signal being greater than the throttle low threshold; and (iii) the brake signal being less than the brake low threshold. 9. The transmission control module of claim 1 , wherein the plurality of instructions cause the control circuit to: compare the brake signal to a brake high threshold; compare the throttle signal to a throttle high threshold; and apply the clutch hold pressure in response to (i) the brake signal being greater than the brake high threshold and (ii) the throttle signal being less than the throttle high threshold. 10. The transmission control module of claim 1 , wherein the plurality of instructions further cause the control circuit to: compare the brake signal to a brake high threshold; compare the throttle signal to a throttle high threshold; and release the clutch hold pressure in response to (i) the brake signal being greater than the brake high threshold and (ii) the throttle signal being greater than the throttle high threshold. 11. The transmission control module of claim 1 , wherein the plurality of instructions further cause the control circuit to: compare the throttle signal to a throttle low threshold; and set the clutch release ramp rate to a low ramp rate in response to (i) the brake signal being less than the brake high threshold and (ii) the throttle signal being greater than the low throttle threshold and less than the throttle medium threshold. 12. The transmission control module of claim 11 , wherein the plurality of instructions further cause the control circuit to: increment a clutch hold timer in response to (i) the brake signal being less than the brake high threshold and (ii) the throttle signal being less than the low throttle threshold; compare the clutch hold timer to a timer threshold; and perform one of the following: set the clutch release ramp rate to the low ramp rate in response to the clutch hold timer being greater than the timer threshold, and maintain the clutch hold pressure at a current clutch hold pressure in response to the clutch hold timer being less than the timer threshold. 13. The transmission control module of claim 1 , wherein the plurality of instructions further cause the control circuit to: compare the brake signal to a brake high threshold; compare the throttle signal to a throttle low threshold and a throttle medium threshold; set a clutch release ramp rate to a low ramp rate in response to (i) the brake signal being less than the brake high threshold and (ii) the throttle signal being greater than the low throttle threshold and less than the throttle medium threshold; and adjust the clutch hold pressure as a function of the current clutch hold pressure and the clutch release ramp rate. 14. The transmission control module of claim 1 , wherein the plurality of instructions further cause the control circuit to: compare the brake signal to a brake high threshold; compare the throttle signal to a throttle low threshold; increment a clutch hold timer in response to (i) the brake signal being less than the brake high threshold and (ii) the throttle signal being less than the low throttle threshold; compare the clutch hold timer to a timer threshold; and perform one of the following: set the clutch release ramp rate to the low ramp rate in response to the clutch hold timer being greater than the timer threshold, and maintain the clutch hold pressure at a current clutch hold pressure in response to the clutch hold timer being less than the timer threshold. 15. A method for controlling an automatic transmission of a vehicle, the method comprising: receiving, by a transmission control module and from a transmission output sensor, a transmission output speed signal indicative of a rotational output speed of the automatic transmission; receiving, by the transmission control module and from an engine throttle sensor, a throttle signal indicative of application of a throttle of the vehicle; receiving, by the transmission control module and from a brake pressure sensor, a brake signal indicative of appl