A method for controlling a transmission of a host vehicle can include: collecting preceding vehicle information characterizing a preceding vehicle which precedes the host vehicle using one or more sensing devices of a data sensing system equipped in the host vehicle; predicting whether a deceleration event will occur based on the collected preceding vehicle information; adjusting a downshifting schedule of the transmission in response to predicting that the deceleration event will occur; and controlling an operation of the transmission such that the transmission executes one or more downshifting operations in accordance with the adjusted downshifting schedule.

A method for controlling engine braking includes determining an amount of brake pressure being applied by a vehicle traveling on a road. The method includes determining a current velocity of the vehicle, wherein a transmission of the vehicle is operating using a first gear of a plurality of gears. The method includes, according to the amount of brake pressure and the current velocity of the vehicle, determining a road grade threshold for a second gear of the plurality of gears. The method includes determining a grade of the road. The method includes determining that the determined grade of the road satisfies the road grade threshold for the second gear of the vehicle. The method includes, in response to the determination, causing the transmission of the vehicle to operate in the second gear of the plurality of gears.

A control device for an automatic transmission of a vehicle includes a shift control section including; a deceleration state judging section configured to judge whether a deceleration of the vehicle is a gentle deceleration state or a sudden deceleration state, and a downshift control section configured to command a plural stage downshift to downshift from a current shift stage of the automatic shift mechanism to a target shift stage that is lower than the current shift stage by two stages or more when the deceleration state judging section judges the sudden deceleration state.

An internal combustion engine control device is provided. The internal combustion engine control device is provided with a generator that is driven by exhaust gas of the internal combustion engine. The internal combustion engine control device is capable of increasing the power generation of the generator. The internal combustion engine control device includes an exhaust amount control unit. The exhaust amount control unit increases the amount of the exhaust gas supplied to the generator in a coasting state.

A transmission control apparatus for a vehicle includes: a speed prediction device that predicts speeds for each gear stage from a current position of the vehicle to a position of a speed camera based on a driving state of the vehicle when it is identified that the speed camera exists on a road ahead while an operation of an accelerator pedal is in an OFF state; and a controller that determines a transmission gear stage based on the predicted speeds for each gear stage and performs a transmission control operation of the vehicle based on the determined transmission gear stage.

A transmission control apparatus for a vehicle includes: a speed prediction device that predicts speeds for each gear stage from a current position of the vehicle to a position of a speed camera based on a driving state of the vehicle when it is identified that the speed camera exists on a road ahead while an operation of an accelerator pedal is in an OFF state; and a controller that determines a transmission gear stage based on the predicted speeds for each gear stage and performs a transmission control operation of the vehicle based on the determined transmission gear stage.

In one embodiment, a method for controlling engine braking is disclosed. The method includes determining an amount of brake pressure being applied by a vehicle traveling on a road. The method includes determining a current velocity of the vehicle, wherein a transmission of the vehicle is operating using a first gear of a plurality of gears. The method includes, according to the amount of brake pressure and the current velocity of the vehicle, determining a road grade threshold for a second gear of the plurality of gears. The method includes determining a grade of the road. The method includes determining that the determined grade of the road satisfies the road grade threshold for the second gear of the vehicle. The method includes, in response to the determination, causing the transmission of the vehicle to operate in the second gear of the plurality of gears.

A transmission system avoids activation of a sailing functionality in a vehicle. The transmission system is configured for automatic gear-shifting in an automatic mode and manual gear-shifting by a user in a manual mode. The transmission system includes a user input device configured for manually changing the operational mode between the automatic and manual modes. The transmission system includes a transmission control unit for determining a recommended gear in the automatic and manual modes. In the manual mode, an operating gear of the transmission system is detected by the transmission control unit. A change of the operational mode from manual to automatic by means of the user input device is detected, and if the detected operating gear in the manual mode when changing to automatic mode is lower than the recommended gear, the sailing functionality in the automatic mode is deactivated.

A vehicle for transporting goods and a method of operating a power system of the vehicle are described. The vehicle comprises an axle; transport refrigeration unit; and power system. The power system comprises an energy storage device; a generator to generate electrical power and to supply electrical power to the energy storage device; a multi-speed gearbox mechanically coupling the axle to the generator; and a controller to receive data indicative of a speed of the vehicle and a state-of-charge of the energy storage device, and to control the multi-speed gearbox. The controller is configured to set a gear ratio of the multi-speed gearbox to a speed-based gear ratio when the vehicle is in a first state, wherein the speed-based gear ratio is selected based on the speed of the vehicle, and wherein the state-of-charge of the energy storage device is below a first charge threshold in the first state.

Provided is a wheel loader capable of automatically decreasing vehicle speed without making an operator feel discomfort during a loading operation. A wheel loader 1 mounted with a torque converter type traveling drive system comprises a controller 5 configured to control shifting of a transmission 32. When a vehicle body travels forward at vehicle speed corresponding to a second speed stage set greater by one speed stage than the lowest speed stage of the transmission 32 while operating the lift arm 21 upwardly, the controller 5 sets, as a gear ratio of the transmission 32, an intermediate gear ratio between a gear ratio corresponding to the second speed stage and a gear ratio corresponding to a first speed stage, and outputs a signal for selecting a combination of a plurality of gears corresponding to the set gear ratio to each first to fifth solenoid control valves 32A to 32E.