摘要:
A method for predicting a final destination of a vehicle comprises the steps of acquiring a start location of the vehicle, providing a predetermined waypoint distance from the start location, determining a current waypoint location once the vehicle travels the predetermined waypoint distance, receiving historical destination data from a database, including previous destinations associated with the current waypoint location. Then, making a prediction at the current waypoint location of the final destination based on the historical destination data.
摘要:
A drive-home button is provided in the dashboard of a plug-in hybrid electric vehicle (PHEV). The driver presses this button when heading home or to other predetermined destination at which charging is routinely performed. The actual route, the driving style, and other relevant vehicle/road information during the trip home are stored to build up a statistical database. During a present trip home, a highly probably route is predicted based on prior trips and an energy management profile is calculated. The commands to the internal combustion engine and the electric motor are selected to cause the vehicle's battery to be substantially discharged upon arriving at home based on actual data of energy usage by the operator of the vehicle during prior trips. By using actual data, the prediction of energy usage is more accurate allowing more complete discharge of the battery.
摘要:
A method for predicting a final destination of a vehicle comprises the steps of acquiring a start location of the vehicle, providing a predetermined waypoint distance from the start location, determining a current waypoint location once the vehicle travels the predetermined waypoint distance, receiving historical destination data from a database, including previous destinations associated with the current waypoint location. Then, making a prediction at the current waypoint location of the final destination based on the historical destination data.
摘要:
A method and a system augment or improve a distance until charge (DUC) estimation for a vehicle such as a plug-in hybrid electric vehicle (PHEV) by using location information. Such location information may be provided by a global positioning system (GPS) or the like associated with the vehicle. The method and the system generally estimate the DUC value as a function of past driving pattern historical data that is relevant to a current driving situation. To this end, the method and the system ignore past driving pattern historical data that is not relevant to the current driving situation when estimating the DUC value.
摘要:
A method to control a vehicle includes assigning a predicted driving pattern to a predicted path for the vehicle, and providing a range for the vehicle using the predicted energy efficiency and an amount of energy available to the vehicle. The predicted driving pattern has an associated predicted energy efficiency. A vehicle includes a propulsion device coupled to wheels of the vehicle via a transmission, and a controller electronically coupled to the propulsion device. The controller is configured to: (i) assign a predicted driving pattern to a predicted path for the vehicle, the predicted driving pattern having a predicted energy efficiency, and (ii) provide a range for the vehicle using the predicted energy efficiency and an amount of energy available to the vehicle.
摘要:
A stop/start system of a vehicle can issue auto stop commands and auto start commands. An engine of the vehicle is auto stopped in response to the auto stop commands and auto started in response to the auto start commands. The stop/start system can prevent an auto stop of the engine based on a predicted stop duration for a predicted stop location for the vehicle such that the engine remains running when the predicted stop duration is less than a threshold duration and the vehicle is stopped in a vicinity of the predicted stop location.
摘要:
A method and a system augment or improve a distance until charge (DUC) estimation for a vehicle such as a plug-in hybrid electric vehicle (PHEV) by using location information. Such location information may be provided by a global positioning system (GPS) or the like associated with the vehicle. The method and the system generally estimate the DUC value as a function of past driving pattern historical data that is relevant to a current driving situation. To this end, the method and the system ignore past driving pattern historical data that is not relevant to the current driving situation when estimating the DUC value.
摘要:
A drive-home button is provided in the dashboard of a plug-in hybrid electric vehicle (PHEV). The driver presses this button when heading home or to other predetermined destination at which charging is routinely performed. The actual route, the driving style, and other relevant vehicle/road information during the trip home are stored to build up a statistical database. During a present trip home, a highly probably route is predicted based on prior trips and an energy management profile is calculated. The commands to the internal combustion engine and the electric motor are selected to cause the vehicle's battery to be substantially discharged upon arriving at home based on actual data of energy usage by the operator of the vehicle during prior trips. By using actual data, the prediction of energy usage is more accurate allowing more complete discharge of the battery.
摘要:
A stop/start system of a vehicle can issue auto stop commands and auto start commands. An engine of the vehicle is auto stopped in response to the auto stop commands and auto started in response to the auto start commands. The stop/start system can prevent an auto stop of the engine based on a predicted stop duration for a predicted stop location for the vehicle such that the engine remains running when the predicted stop duration is less than a threshold duration and the vehicle is stopped in a vicinity of the predicted stop location.
摘要:
A vehicle and a method to control a vehicle includes selecting a trip route for the vehicle using a user interface, generating a charge reference profile of a battery coupled to an electric motor based on the trip, and commanding propulsion devices in the vehicle based on a location of the vehicle with respect to the trip route such that a state of charge (SOC) of the battery tracks the reference profile.