Abstract: A system includes a processor configured to gather historical risk-affecting data with respect to a current road. The processor is also configured to gather current risk-affecting data with respect to the current road. Further, the processor is configured to generate a baseline risk index for the road based on the historical data.

Abstract: Data is collected from vehicle sensors to generate a virtual map of objects proximate to the vehicle. Based on the virtual map, an in-vehicle computer determines a traffic condition in front of and behind a host vehicle. The in-vehicle computer determines collision avoidance maneuvers. The computer instructs vehicle control units to implement the collision avoidance maneuvers. The computer may additionally or alternatively communicate the collision avoidance maneuvers to a driver via an interface. In the case of unavoidable collisions, the computer determines and initiates damage mitigation actions.

Abstract: An exemplary creep torque selection method includes selecting an amount of reverse creep torque for a vehicle. The selecting is independent from an amount of forward creep torque for the vehicle.

Abstract: This disclosure generally relates to an automotive drone deployment system that includes at least a vehicle and a deployable drone that is configured to attach and detach from the vehicle. More specifically, the disclosure describes the vehicle and drone remaining in communication with each other to exchange information while the vehicle is being operated in an autonomous driving mode so that the vehicle's performance under the autonomous driving mode is enhanced.

Abstract: Data is collected from vehicle sensors to generate a virtual map of objects proximate to the vehicle. Based on the virtual map, an in-vehicle computer determines a traffic condition in front of and behind a host vehicle. The in-vehicle computer determines collision avoidance maneuvers. The computer instructs vehicle control units to implement the collision avoidance maneuvers. The computer may additionally or alternatively communicate the collision avoidance maneuvers to a driver via an interface. In the case of unavoidable collisions, the computer determines and initiates damage mitigation actions.

Abstract: An exemplary method of controlling an electrified vehicle includes adjusting operation of an electrified vehicle in response to a difference between a first energy consumption rate and a second energy consumption rate. The first energy consumption rate is based on energy consumption over a first duration. The second energy consumption rate is based on energy consumption over a second duration.

Abstract: A system includes a processor configured to gather historical risk-affecting data with respect to a current road. The processor is also configured to gather current risk-affecting data with respect to the current road. Further, the processor is configured to generate a baseline risk index for the road based on the historical data.

Abstract: A method according to an exemplary aspect of the present disclosure includes, among other things, inhibiting operation of an internal combustion engine of a vehicle based on a proximity of the vehicle to a fueling location.

Abstract: 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.

Abstract: A vehicle is provided with a climate control system and a battery that is connected to the climate control system for supplying power. The vehicle also includes at least one controller that is configured to receive input indicative of a battery power limit and a battery state of charge (BSOC). The at least one controller is also configured to disable the climate control system and reduce the battery power limit to an intermediate power limit, when the BSOC is less than a discharge limit.

Abstract: One exemplary illustration of a vehicle roadside assistance system may include a sensor at least one of generating and acquiring a detection signal in response to an emergency condition. The system may also have a controller generating an actuation signal based on the detection signal. In addition, the system may also have a computer storage medium storing a plurality of media files indicative of a recommended response to the emergency condition. Moreover, the system may have one or more on-vehicle hazard light devices coupled to the controller and emitting light in response to the actuation signal.

Abstract: A system includes a vehicle controller having a processor and in communication with a communications device and vehicle display, the controller configured to receive a sensor input containing at least one of a fault trigger and a contextual data captured during the fault trigger. The controller may analyze, via the processor, the fault trigger to determine a fault event. The controller may determine an appropriate service center and transmit, via the communications device, the fault event and contextual data to the service center. The controller may be configured to receive an analysis report and an appointment request and output the analysis report and appointment request to a vehicle display device.

Abstract: One embodiment of an on-vehicle audio system may include at least one of a transceiver and a plug connector configured to communicatively connect to a mobile phone. The transceiver or plug connector may receive a voice signal generated by a microphone device integrated in the mobile phone. Further, the system may also include an on-board controller configured to receive an audio signal from an audio source and the voice signal from the transceiver or plug connector. The controller may be configured to interrupt the audio signal and output the voice signal on an on-board speaker.

Abstract: A system includes a vehicle controller having a processor and in communication with a communications device and vehicle display, the controller configured to receive a sensor input containing at least one of a fault trigger and a contextual data captured during the fault trigger. The controller may analyze, via the processor, the fault trigger to determine a fault event. The controller may determine an appropriate service center and transmit, via the communications device, the fault event and contextual data to the service center. The controller may be configured to receive an analysis report and an appointment request and output the analysis report and appointment request to a vehicle display device.

Abstract: A thermal system for an electric vehicle includes an electric heat source, a heat exchanger, a traction battery, a first thermal loop thermally coupled to the heat exchanger and the heat source, and a second thermal loop thermally coupled to the battery and configured to be selectively thermally coupled to the heat source. A vehicle includes an electric heat source, a heat exchanger system selectively thermally coupled with the heat source, and a traction battery system selectively thermally coupled to the heat source. A method of controlling a battery electric vehicle includes detecting a vehicle state input and operating an electric heater to heat a fluid. A valve arrangement is actuated to provide the fluid to one of a traction battery through a first fluid conduit, a heat exchanger through a second fluid conduit, and a battery and a heat exchanger through the first and second fluid conduits.

Abstract: A vehicle is provided with a climate control system and a battery that is connected to the climate control system for supplying power. The vehicle also includes at least one controller that is configured to receive input indicative of a battery power limit and a battery state of charge (BSOC). The at least one controller is also configured to disable the climate control system and reduce the battery power limit to an intermediate power limit, when the BSOC is less than a discharge limit.