A method of controlling a transmission for a vehicle may include performing deceleration intention determination, by a controller, of determining an intention of a driver for deceleration based on whether a brake pedal signal is received by the controller, upon determining that the driver intends to decelerate, performing downshift determination, by the controller, of determining an intention of the driver to use engine braking based on whether manual downshift of a shifter is performed by the driver, upon determining that the driver intends to use the engine braking, performing continuous shifting determination, by the controller, of determining whether the driver intends to implement maximum engine braking through continuous shifting, and upon determining that the driver has the intention to implement the maximum engine braking, performing continuous shifting, by the controller, of implementing maximum engine braking by shifting to a lowest gear implementable under a current driving condition.

A vehicle and methods of braking the vehicle on a downhill grade as automatically implemented by a computing device are disclosed. One method includes detecting application of a vehicle brake and detecting acceleration of the vehicle while the vehicle traverses the downhill grade. Based on detection of the application of the vehicle brake and detection of the acceleration of the vehicle, the method also includes sending a command to downshift a transmission of the vehicle. If, after the downshift of the transmission, the application of the vehicle brake is not detected for a threshold time, the acceleration of the vehicle falls below a threshold acceleration, or the downhill grade falls below a threshold grade, the method can further include sending a command to upshift the transmission.

A system and method for controlling performance of a vehicle engine by sensing and/or accessing data regarding the driving environment and adjusting at least one of an engine output torque limit and a shifting schedule for the vehicle based on the sensed data.

A transmission system for vehicle includes a clutch disposed in a power transmission path between an engine and a vehicle wheel, a transmission disposed in the power transmission path, a clutch actuator, a shift actuator, a vehicle wheel speed sensor, a sudden deceleration detecting unit that detects a sudden deceleration of the vehicle wheel based on an output signal of the vehicle wheel speed sensor, and a shift control unit. The shift control unit executes an ordinary shift control to shift to a speed adaptive shift stage associated with the rotational speed and to execute, when the sudden deceleration detecting unit detects the sudden deceleration of the vehicle wheel, a sudden deceleration adaptive shift control to shift to a shift stage lower than an actual shift stage at the point of detection of the sudden deceleration and higher than the speed adaptive shift stage associated with the rotational speed.

A device and method to detect and resolve a tooth-on-tooth situation of a gearbox (40) are provided. The device (20) includes at least one processing circuit (30) configured to obtain a gearbox actuator position (16) indicative of a position of an actuator member (52, 53) of a gearbox actuator (50). The at least one processing circuit (30) is configured to process the gearbox actuator position (62) to detect a tooth-on-tooth situation and to trigger a corrective procedure to resolve the tooth-on-tooth situation. The corrective procedure includes triggering, by the at least one processing circuit (30), a rotational speed pulse (67, 68) or several rotational speed pulses (67, 68) for an input shaft (45) of the gearbox (40) to resolve the tooth-on-tooth situation.