A power management system includes a sensor interface that receives sensor data samples during operation of a vehicle. A storage device stores the sensor data samples for multiple points in time along a route segment traveled by the vehicle. One or more processors analyze the sensor data samples to detect a historical pattern of the vehicle. The one or more processors determine time efficient operational parameters for the vehicle in response to a destination and an estimated travel time to the destination. The estimated travel time may be based on predicted conditions of the vehicle indicated by the historical pattern. The time efficient operational parameters may be selected to decrease the estimated travel time. At least one of the sensor data samples may include telemetry data.

There is provided an electrically driven vehicle used for a car sharing system and configured to appropriately increase the temperature of a power storage device. The electrically driven vehicle used for the car sharing system is provided with a power storage device and a temperature raising device configured to increase temperature of the power storage device. When a user operates a communication device to make a direct reservation or an indirect reservation of the electrically driven vehicle for driving, the electrically driven vehicle estimates a driving start time of the vehicle, based on the position of the communication device, sets a temperature-rising start time of the power storage device, based on the temperature of the power storage device and the estimated driving start time, and controls the temperature raising device to start a temperature increase of the power storage device at the set temperature-rising start time.

There is provided an electrically driven vehicle used for a car sharing system and configured to appropriately increase the temperature of a power storage device. The electrically driven vehicle used for the car sharing system is provided with a power storage device and a temperature raising device configured to increase temperature of the power storage device. When a user operates a communication device to make a direct reservation or an indirect reservation of the electrically driven vehicle for driving, the electrically driven vehicle estimates a driving start time of the vehicle, based on the position of the communication device, sets a temperature-rising start time of the power storage device, based on the temperature of the power storage device and the estimated driving start time, and controls the temperature raising device to start a temperature increase of the power storage device at the set temperature-rising start time.

There is provided a hybrid vehicle to suppress hunting (inversion) of a drive mode in a short time. The hybrid vehicle has an engine, a motor, a battery, an air conditioning system configured to condition air in a passenger compartment, and map information, and sets a drive route from the present location to the destination, and creates a drive support plan in which one of the drive modes including CD mode and CS mode is assigned to each drive section of the drive route to perform the drive support control. The drive support plan is created based on the battery remaining capacity taking into account the power consumption of the air conditioning system. When the predetermined condition that is based on the battery remaining capacity without taking into account the power consumption of the air conditioning system is satisfied while performing the drive support control, the driving state is continued.

A method for controlling operation of a vehicle. The method includes: providing information on geographical position of a first (starting) location and a second (destination) location and on length and topography for at least one possible route to be taken by the vehicle from the first location to the second location; calculating, based on vehicle conditions and on length and topography for the at least one possible route, a plan for how to control the powertrain system to achieve an energy efficient performance of the powertrain system if driving the vehicle along said at least one possible route. The method further includes: setting the vehicle in a non-drive off mode that prevents the vehicle from driving off from the first location, and setting the vehicle in a normal operation mode that allows drive off from the first location when calculating the plan has been carried out.

A method for controlling operation of a vehicle. The method includes: providing information on geographical position of a first (starting) location and a second (destination) location and on length and topography for at least one possible route to be taken by the vehicle from the first location to the second location; calculating, based on vehicle conditions and on length and topography for the at least one possible route, a plan for how to control the powertrain system to achieve an energy efficient performance of the powertrain system if driving the vehicle along said at least one possible route. The method further includes: setting the vehicle in a non-drive off mode that prevents the vehicle from driving off from the first location, and setting the vehicle in a normal operation mode that allows drive off from the first location when calculating the plan has been carried out.

A controller, after a cumulative amount of energy consumed by at least one auxiliary load during travel of a vehicle along a route exceeds a predetermined amount of energy allocated for the at least one auxiliary load during travel of the vehicle along the route, reduces the power provided to the at least one auxiliary load from an energy storage arrangement.

A controller, after a cumulative amount of energy consumed by at least one auxiliary load during travel of a vehicle along a route exceeds a predetermined amount of energy allocated for the at least one auxiliary load during travel of the vehicle along the route, reduces the power provided to the at least one auxiliary load from an energy storage arrangement.

A vehicle control device is configured to cause a vehicle to travel in a first mode when an enlargement mode is set, a driving force required for traveling of the vehicle is less than a value, and a capacity of a power storage is equal to or more than a first threshold, operate an internal combustion engine to cause the vehicle to travel in a second mode in response to the driving force becoming equal to or larger than the value when the enlargement mode is set and the vehicle is caused to travel in the first mode, and continue the enlargement mode when the capacity at a time when the driving force becomes equal to or more than the value is equal to or larger than a second threshold larger than the first threshold, and cancel the enlargement mode when the capacity is less than the second threshold.

A vehicle control device is configured to cause a vehicle to travel in a first mode when an enlargement mode is set, a driving force required for traveling of the vehicle is less than a value, and a capacity of a power storage is equal to or more than a first threshold, operate an internal combustion engine to cause the vehicle to travel in a second mode in response to the driving force becoming equal to or larger than the value when the enlargement mode is set and the vehicle is caused to travel in the first mode, and continue the enlargement mode when the capacity at a time when the driving force becomes equal to or more than the value is equal to or larger than a second threshold larger than the first threshold, and cancel the enlargement mode when the capacity is less than the second threshold.