Abstract: 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.

Abstract: Methods for controlling wheel slip of a motor vehicle include braking the wheel by supplying a first measured quantity of brake fluid from a modulation cylinder to a brake device of the wheel, determining the wheel slip of the wheel, and moving a second measured quantity of brake fluid between the modulation cylinder and the brake device. When the wheel slip is too small or too large, a change in a volume of the brake fluid in the modulation cylinder is measured and a change in a measure of a braking effect is determined. The second measured quantity of brake fluid is determined on the basis of the measured change in the volume of the brake fluid in the modulation cylinder and the change in the measure of the braking effect. Braking systems configured to carry out the methods, as well as vehicles including the braking systems, are further contemplated.

Abstract: A vehicle door includes a powered latch configured to selectively retain the door in a closed position when the powered latch is latched, and permits the door to be opened when the powered latch is unlatched. The vehicle door further includes an exterior door handle having an outer side that faces away from the door structure, and an inner side that is spaced apart from an outer surface of the door to define a gap. A force sensor on the exterior door handle detects impact forces on the handle. The door also includes an unlatch switch that can be actuated by a user to request unlatching of the powered latch. A controller is configured to deny an unlatch request generated by actuation of the unlatch switch if the force sensor detects an impact on the exterior handle.

Abstract: A powered door latch system for vehicles includes a controller configured to receive data concerning vehicle operating conditions. The door latch system also includes at least one electrically powered door latch having a powered actuator that can be actuated by the controller to unlatch the electrically powered latch. An emergency release is mechanically connected to the electrically powered latch to mechanically release the latch. The system also includes a user communication device such as a display screen that is operably connected to the controller. The user communication device provides a user with information concerning the location and/or operation of the emergency release if a predefined operating condition such as a loss of electrical power has occurred.

Abstract: A vehicle computing system comprising at least one controller configured with a transceiver to connect with a server via a communication network connection. The controller may be configured to login to the server via a vehicle identification comprising at least one of a user-name and password for access to profile data. The controller is further configured to transmit at least one of contact identification, a message to communicate with a contact, and vehicle information. The controller is further configured to receive at least a portion of a contact and vehicle profile based on at least one of the contact and vehicle identification. The controller is further configured to transmit the at least a portion of the contact and vehicle profile to one or more systems.

Abstract: A battery system according to an exemplary aspect of the present disclosure includes, among other things, a battery pack, a first sensor at an inlet of the battery pack and a second sensor at an outlet of the battery pack.

Abstract: A fuel tank having one or more support domes configured to engage with, and assist in positioning, a fuel tank insert.

Abstract: A symptom database may associate vehicle parameters indicative of vehicle issues with software updates correcting the issues. A diagnostic server may receive vehicle parameters from a vehicle responsive to vehicle generation of a diagnostic code, utilize the symptom database to identify a software update corresponding to an issue indicated by the vehicle parameters, and provide a response identifying the software update for automatic installation by the vehicle to correct the issue. A processor of a vehicle may send, to a diagnostic server responsive to vehicle generation of a diagnostic code, vehicle parameters including the diagnostic code and an identifier of the vehicle, receive, from the diagnostic server, a response identifying a software update corresponding to an issue indicated by the vehicle parameters, receive the software update responsive to the response identifying the software update, and automatically install the software update.

Abstract: Battery state of charge control systems and methods provide techniques to assist in managing battery capacity and battery life under various environmental, operating, and storage conditions. Dynamic management of desired battery SOC based on one or more parameters associated with usage patterns and environmental conditions, e.g., charge/discharge patterns, state of charge and/or temperature during storage may extend useful battery life. The present techniques can provide active state of charge monitoring and control to manage battery capacity during storage or other periods of non-use over the battery life to enhance battery performance.

Abstract: A computer implemented method includes logging vehicle startup information. The method also includes determining, via a computer, if timing commonalities exist between logged vehicle startup information instances. Further, the method includes recommending automatic vehicle startup, based on a threshold number of timing commonalities. The method also includes formulating recommended start times based on logged vehicle startup information instances having timing commonalities. The method additionally includes presenting a schedule including recommended start times to a vehicle user and scheduling automatic vehicle startups upon vehicle user acceptance of the presented schedule.

Abstract: A vehicle door includes a powered latch mechanism and an interior door handle having first and second sensors disposed on opposite sides of the interior door handle. The first and second sensors are configured to detect the presence of a user's hand to control operation of the powered latch mechanism. The powered latch may be unlatched if an unlatch switch is actuated and the first and second sensors detect the presence of a user's hand.

Abstract: A method of fitting a power closure member to a vehicle includes the steps of: (a) detecting, by current sensor, current drawn by a closure member actuator when the closure member is closed and a latch contacts a striker of a lock assembly for the closure member and (b) comparing, by computing device, a detected current to a predetermined current range representative of desired mechanical interference between the latch and the striker.

Abstract: In one aspect, the present invention provides an engine assembly, which includes at least one cylinder head including a first surface, and at least one camshaft cover including a second surface, the first and second surfaces together defining a passageway positioned next to a seal for reducing oil leakage. The passageway may be defined by a recess on at least one of the first and second surfaces.

Abstract: A method for forming a tool for creating a formed component includes providing a forming tool having a core and cavity with respective core and cavity shutoff bands. Core and cavity finished parting planes are determined, wherein the engagement of the core and cavity finished parting planes defines a forming cavity. Rough portions of the core and cavity shutoff bands are removed to define respective rough parting planes. The respective rough parting planes are offset by approximately 130 microns from the respective core and cavity finished parting planes. The core and cavity are semi-finished to relieve stress within the core and cavity. The core and cavity shutoff bands are fine cut so that outer surfaces of the core and cavity shutoff bands are equal to the respective finished parting planes. The engagement between the core and cavity outer surfaces is substantially free of gaps.

Abstract: A particle separator including a rotor disposed inside a housing. The rotor has a plurality of magnetic sections that are arranged with alternating poles. A drive rotates the rotor to generate a changing magnetic field. Magnetic particles and non-magnetic conductive particles are removed from a liquid that flows through the particle separator. The magnetic particles attach to the rotor and the non-magnetic conductive particles are repelled away from the rotor by the changing magnetic field.

Abstract: Methods and systems are provided for improving spark robustness. Spark ignition dwell commands are adjusted based on the fuel fraction delivered via direct injection relative to port injection. The approach allows ignition output to better match the ignition requirement of the given fuel combination.

Abstract: A vehicle includes an intrusion sensor configured to detect a Doppler shift in a passenger compartment and output an intrusion signal representing the Doppler shift. The vehicle further includes a processing device configured to receive the intrusion signal and activate an alarm if the Doppler shift exceeds a predetermined threshold. A method includes measuring a Doppler shift in a passenger compartment of a vehicle, comparing the Doppler shift to a predetermined threshold, and activating an alarm system if the Doppler shift exceeds the predetermined threshold.

Abstract: A deflector is provided for a vehicle having a bumper that is connected to a frame rail through a crush-can. The deflector includes an engagement portion that extends laterally outward and forward of the frame rail. The engagement portion is attached by an attaching portion to the frame rail at a front location behind the crush-can. A small overlap collision support portion extends from the engagement portion toward a collision loading location on the frame rail behind the front location. The deflector has a front leg that is connected through an intermediate leg to a rear leg. The front leg is attached to the frame rail and the rear leg is unattached to the frame rail, but disposed to apply a lateral load to the side of the frame rail in a small overlap rigid barrier test.

Abstract: A PWM strategy can be implemented to reduce device power losses and hotspot temperature in an inverter circuit that drives a synchronous motor. A method includes migrating a phase current from a power device with higher losses to a power device with lower losses. A PWM modulation signal can be modified to alter the inverter duty cycle and migrate phase current in the direction of lower losses. As an example, a PWM reference signal can be shifted to a lower value. A PWM loss reduction strategy can be performed while a motor is in a rotor-lock state to reduce device hotspot temperature. The PWM loss reduction strategy can also be performed when a motor is operating in a normal state, pushing PWM to DPWM, reducing switching and overall losses. The strategy can be practiced while a PMSM is operating as a motor, and can also be practiced during regenerative braking.

Abstract: A method for controlling a powersplit transmission includes connecting an engine to the transmission, provided an engine torque request is present; connecting a motor to the transmission, provided an engine torque request is absent and the engine is on; and disconnecting the engine and motor from the transmission, provided the engine is off, and using a traction motor to produce wheel torque.