Abstract: Methods and systems are provided for adjusting an amount of water injected upstream of a group of cylinders based on a determined maldistribution of water among cylinders during a water injection event. In one example, a method may include injecting a first amount of water upstream of a first group of cylinders and a different, second amount of water upstream of a second group of cylinders based on operating conditions of the respective cylinder groups. Further, the method may include adjusting water injection and engine operating parameters in response the evaporated and/or condensed portion of water.

Abstract: Methods and systems are provided for selecting a location for water injection during a water injection event based on ambient temperature and humidity, as well as engine operating conditions. In one example, a method may include injecting water upstream of a charge air cooler in response to operating the cooler in heater mode and injecting water downstream of the cooler in response to operating the cooler in cooler mode. Further, the method may include operating the cooler in heater mode based on dry, cold ambient conditions and a dilution demand and operating the cooler in cooler mode based on engine boost conditions and engine knock.

Abstract: Methods and systems are provided for leveraging the charge cooling effect of a manifold fuel injection. A charge cooling effect of a scheduled manifold fuel injection may be predicted based on feedback received from a manifold charge temperature sensor during a preceding manifold injection event. If sufficient charge cooling is not predicted, the manifold fuel injection is temporarily disabled.

Abstract: A vehicle includes an engine and a brake system. The vehicle includes a controller configured to maintain an ignition state of the engine such that changes in an ignition state between engine start and engine stop are inhibited during a pressurization of the brake system that is prompted by the indication and initiated prior to brake pedal application. The maintained ignition state is responsive to receiving an indication of a degraded road condition from a source in a vicinity of the vehicle.

Abstract: Methods and apparatus are disclosed for vehicle navigation with water depth detection. An example disclosed method includes determining a current and a projected water depth for road segments of and around a current route to a destination. Additionally, the example method includes, in response to the current or the projected water depth of the road segments of the current route exceeding a first threshold, determining an alternate route to the destination.

Abstract: Methods and systems are provided for assessing the quality of water in a water injection system using existing engine sensors. A change in manifold charge temperature following a water injection may be compared to a change in intake oxygen level to determine an error between an amount of water delivered to the engine and an amount of water actually used in the engine. The error may be correlated with the water quality and used for correcting subsequent water injection commands.

Abstract: Methods and systems are provided for assessing the quality of water in a water injection system using existing engine sensors. A change in manifold charge temperature following a water injection may be compared to a change in intake oxygen level to determine an error between an amount of water delivered to the engine and an amount of water actually used in the engine. The error may be correlated with the water quality and used for correcting subsequent water injection commands.

Abstract: Methods and systems are provided for learning a transport delay for individual cylinders that is associated with maldistribution of water among cylinders during a water injection event. Differences in knock intensity between individual cylinders, following a water injection, are used to identify water maldistribution. Differences in the amount and timing of an engine dilution effect following a manifold water injection are learned via an intake oxygen sensor and used to reduce cylinder-to-cylinder imbalance in water delivery.

Abstract: Methods and systems are provided for coordinating water usage with spark usage based on the effect on an engine torque ratio. Water is injected based on torque ratio at a current spark timing relative to torque ratio at borderline knock to improve the impact of the water injection on the engine performance. Manifold water injection and direct water injected are coordinated based on intake manifold humidity.

Abstract: Methods and systems are provided for selecting a location for water injection during a water injection event based on ambient temperature and humidity, as well as engine operating conditions. In one example, a method may include injecting water upstream of a charge air cooler in response to operating the cooler in heater mode and injecting water downstream of the cooler in response to operating the cooler in cooler mode. Further, the method may include operating the cooler in heater mode based on dry, cold ambient conditions and a dilution demand and operating the cooler in cooler mode based on engine boost conditions and engine knock.

Abstract: Methods and systems are provided for adjusting water injection at distinct locations of an engine based on a total water injection error determined from an output of an exhaust oxygen sensor. The method may include injecting water at distinct locations based on a cooling demand and a dilution demand. Further, the method may include distributing the total injection error to respective water injectors, as well as adjusting engine operating parameters, to provide desired engine cooling and dilution.

Abstract: Methods and systems are provided for water injection at an intake port of an engine toward or away from intake valves in response to engine operating conditions. In one example, a method may include port injecting water away from an intake valve in response to engine knock and port injecting water towards an intake valve in response to engine dilution demand. Further, the method may include adjusting an amount of water injected based on one or more of a change in manifold temperature and a change in exhaust oxygen level.

Abstract: A vehicle charge station includes at least a first interface and second interface coupled with a power converter and a controller. The controller is configured to, in response to detecting a battery electric vehicle (BEV) classified vehicle coupled with the power converter via the first interface while flowing a charge current to a plug-in hybrid electric vehicle (PHEV) classified vehicle via the second interface, redirect the charge current from the second interface to the first interface. Also, a method of controlling a charge station includes receiving first vehicle data from a first vehicle connected to a first interface and transferring power to the first interface. The method then receives second vehicle data from a second vehicle connected to a second interface and, in response to a comparison of the first vehicle data and the second vehicle data indicating a higher priority for the second vehicle, redirects power from the first interface to the second interface.

Abstract: Methods and systems are provided for adjusting an amount of water injected upstream of a group of cylinders based on a determined maldistribution of water among cylinders during a water injection event. In one example, a method may include injecting a first amount of water upstream of a first group of cylinders and a different, second amount of water upstream of a second group of cylinders based on operating conditions of the respective cylinder groups. Further, the method may include adjusting water injection and engine operating parameters in response the evaporated and/or condensed portion of water.

Abstract: Methods and systems are provided for adjusting engine operation based on estimated vaporized and condensed portions of water injected during a water injection event. In one example, a method may include injecting an amount of water into the intake manifold in response to engine conditions and inferring vaporized and condensed portions of the injected water based on the injected amount and a change in manifold temperature following the injection. Further, the method may include adjusting water injection and engine operating parameters in response the evaporated and/or condensed portion of water.

Abstract: A vehicle includes electric brakes, an engine with a starter, a battery and a controller. The battery has a voltage and is configured to power the starter, the electric brakes, and the controller. The controller is configured to, in response to a speed of the vehicle falling within a specified range without propulsive demand and while the voltage is greater than an upper voltage that varies based on a charge needed to engage the brakes to stop the vehicle, stop the engine.

Abstract: A system and method for operating a vehicle equipped with an automatic stop and start system is disclosed. The vehicle includes an internal combustion engine, an automatic transmission and a fluid launch device with an impeller disconnect clutch. A controller may initiate an automatic stop or start of the engine under certain operating conditions. During an engine start/stop event, the engine is automatically shut down and the impeller clutch of the fluid launch device may be disengaged to decouple the engine and transmission from the driveline to provide for improved fuel economy and reduced emissions.

Abstract: Methods and systems are provided for water injection into an engine and adjusting engine operation based on engine dilution demand and engine knock. In one example, a method may include injecting water into an intake manifold via a port water injector or a manifold water injector and adjusting engine operation. Further, the method may include adjusting engine operation based on a change in engine dilution or knock.

Abstract: A vehicle seat includes a cushion and a seatback coupled with the cushion. At least one of the cushion and the seatback includes a base and an extension portion moveable along an axis toward and away from the base, an expandable fabric member coupled between the base and the extension portion, and an expandable support structure positioned on an interior of the expandable fabric member.

Abstract: A vehicle seat includes a cushion and a seatback coupled with the cushion. At least one of the cushion and the seatback includes a base and an extension portion moveable along an axis toward and away from the base, an expandable fabric member coupled between the base and the extension portion, and an expandable support structure positioned on an interior of the expandable fabric member.