Patent application number | Description | Published |
20150219212 | Dynamic Compensation For Clutch Control During Shift - When a transmission controller issues a control command, such as pressure to control clutch torque, the response may be delayed due to dynamic properties of the control system. These properties can be modeled using a dynamic response model. One potential model is a combination of a pure time delay and a first order distributed delay. Control methods may be improved in several ways by accounting for the dynamic response. First, the dynamic response model may be used to improve adaptation of a transfer function between the commanded control signal and the clutch torque. Second, the command may be adjusted based on the dynamic response model. Both the pure time delay and the time constant of the first order distributed delay may be functions of operating conditions such as temperature. | 08-06-2015 |
20150239455 | PREDICTING ENERGY CONSUMPTION FOR AN ELECTRIC VEHICLE USING VARIATIONS IN PAST ENERGY CONSUMPTION - An example method of controlling an electric vehicle includes altering operation of an electric vehicle in response to a predicted energy consumption rate. The method includes adjusting the predicted energy consumption in response to variations in past energy consumption rates. | 08-27-2015 |
20150251556 | BATTERY MODEL WITH ROBUSTNESS TO CLOUD-SPECIFIC COMMUNICATION ISSUES - A vehicle may include battery cells and a controller configured to control the vehicle, based on a state observation of the battery cells, using model parameters computed according to controller-determined cell nominal parameters adjusted by remotely-determined cell delta parameters, the delta parameters received from an external computing device responsive to cell measurements relating to a cell battery model sent to the external computing device, the delta parameters indicating adjustments that improve accuracy of the nominal parameters. | 09-10-2015 |
20150329107 | TRAFFIC LIGHT ANTICIPATION - A vehicle includes at least one autonomous driving sensor configured to detect a traffic flow pattern relative to an intersection. An autonomous mode controller is configured to determine the state of the traffic control device. The autonomous mode controller may estimate when the state of the traffic control device is likely to change based on the traffic flow pattern. | 11-19-2015 |
20150339866 | VEHICLE ENERGY CONSUMPTION EFFICIENCY LEARNING IN THE ENERGY DOMAIN - A method according to an exemplary aspect of the present disclosure includes, among other things, controlling a vehicle based on a learned energy consumption efficiency. The energy consumption efficiency may be learned in an energy domain by periodically filtering a ratio of a distance traveled to an energy consumed. | 11-26-2015 |
20150367856 | Distance to Empty Prediction with Short Term Distance Compensation - A vehicle is provided which may include an energy conversion device, an energy source to supply power to the energy conversion device, and at least one controller in communication with an interface. The controller may be programmed to output a distance to empty (DTE) to the interface based on conditions of vehicle components and the energy source compensated by a distance correction factor. The controller may further include a DTE prediction architecture including a feed-forward energy consumption estimator, an energy consumption learning filter, a distance compensator, and a DTE calculator. A method for estimating distance to empty for a vehicle is also provided which may output a DTE modified by a predicted DTE range loss selected to include a distance correction factor corresponding to and correcting for the noise factor. | 12-24-2015 |
20150369872 | Distance to Empty Prediction with Long Term Distance Compensation - A vehicle is provided which may include an energy conversion device, an energy source to supply power to the energy conversion device, and at least one controller. The controller may be programmed to, in response to detecting one or more noise factors expected to affect propulsive energy consumption of the energy conversion device from vehicle start until the energy source is empty, output a distance to empty (DTE) based on a change in energy consumption rate due to the one or more noise factors and predicted to last at least until the energy source is empty. The controller may further include a DTE prediction architecture including a feed-forward energy consumption estimator, an energy consumption learning filter, and a DTE calculator. A method for estimating distance to empty for a vehicle is also provided which may output a DTE modified by a predicted change in energy consumption rate selected to include a compensation factor corresponding to and correcting for a noise factor. | 12-24-2015 |
20160001658 | ENERGY CONSUMPTION RATE IN DISTANCE DOMAIN - A method of controlling a battery electric vehicle includes displaying an energy consumption parameter to a vehicle operator. The energy consumption parameter is based on a filtered energy usage rate. The filtered energy usage rate is defined by a weighted incremental energy consumption rate measured over a first distance and an average energy consumption rate learned over a second distance. The second distance exceeds the first distance. | 01-07-2016 |