Abstract: Methods and apparatus are disclosed for suggestion of under-utilized features. A vehicle comprises sensors, a processor, and a display interface. The processor is in communication with the sensors and is to: receive inputs from the sensors, select one of multiple driving situations using the inputs, select a convenience feature corresponding to the selected driving situation, determine usage of the convenience feature using the inputs, and generate a message regarding use of the convenience feature. The display interface is in communication with the processor and is to display the message.

Abstract: Methods and systems are provided for controlling an aspirator shut-off valve in a boosted engine. One example method includes increasing an opening of the aspirator shut-off valve to allow motive flow through an aspirator in response to engine speed between a first, lower speed and a second, higher speed. As such, control of the aspirator shut-off valve may be simplified.

Abstract: Methods and systems are provided for progressively opening and controlling each of a fuel vapor canister purge valve (CPV), an auxiliary throttle coupled in series with a venturi, and a main intake throttle arranged in parallel with the auxiliary throttle in order to deliver a desired intake airflow or manifold vacuum to an engine intake manifold. In one example, a method may include actuating a CPV to supply airflow to the engine via a fuel vapor canister while holding closed a main throttle and an auxiliary throttle arranged in parallel with the main throttle and in series with a venturi. The method further includes progressively opening the CPV, then the auxiliary throttle, and then the main throttle to achieve a desired intake manifold pressure.

Abstract: A system for a vehicle includes an engine and an electric motor each configured to power the vehicle, and a controller configured to, responsive to both an engine-only drive range being less than a threshold and a drive mode being electric-only, operate an engine to charge a battery to deplete fuel for the engine and to reduce the engine-only drive range toward zero, and responsive to the engine-only drive range becoming zero, generate an alert.

Abstract: A method for starting an engine is provided. The method comprises in response to an engine start request, cycling a gaseous fuel injector prior to activating a starter motor. In this way, delayed engine starts using gaseous fuel may be mitigated.

Abstract: Method and apparatus are disclosed for determining and controlling a vehicle load current and temperature through the use of a common current sensor. An example vehicle includes a power source, an electrical sensor configured to detect a total current provided by the power source to a plurality of electrical loads, and a processor. The a processor is configured to determine a target load temperature based on the total current, and set a voltage duty cycle of the target load to maintain the target load temperature.

Abstract: Methods and systems are provided for the estimation of an aircharge into a cylinder used to adjust an engine operating parameter, based on a manifold pressure signal stored in a buffer. In one example, a method may include sampling an intake manifold pressure sensor signal at even increments of time, stamping it with its corresponding crank angle and storing it in a buffer. The closest stored signal to the intake valve closing of a cylinder may be used to calculate its aircharge.

Abstract: Methods and systems are provided for controlling exhaust flow and recovering heat from exhaust gas under different operating conditions. In one example, motive flow of fresh air via an ejector coupled to an exhaust bypass assembly may be utilized to divert exhaust through a heat exchanger during cold-start conditions and heat extracted from the exhaust gas may be utilized for passenger cabin heating and other vehicle heating demands. The exhaust bypass assembly may also be used for EGR delivery wherein the exhaust heat exchanger may be used as an EGR cooler.

Abstract: Various systems and methods are described for controlling an engine in a vehicle, the engine being coupled to a transmission. One example method comprises, under selected braking conditions, shutting-off the engine and spinning-down the engine to rest while the vehicle is traveling, and in response to a foot-off-brake event, restarting the engine by at least partially engaging the transmission and adjusting engine torque control actuators.

Abstract: Methods and systems are provided for improving the efficiency of canister purge completion. Based on engine operating conditions, a canister is purged to a compressor inlet or a throttle outlet. During purging conditions, as canister loads change, a purge flow through the canister is varied so that a fixed preselected portion of total engine fueling is delivered as fuel vapors.

Abstract: A method of applying a brake force to all four wheels of a motor vehicle to stop the vehicle while torque continues to be applied to its driven wheels; and preventing wheel slippage of the driven wheels by reducing the applied torque when the vehicle is stopped or nearly stopped from moving in a forward direction. In this way, unintentional lateral movement of the vehicle due to creep torque applied to the driven wheels on slippery surfaces can be prevented or corrected.

Abstract: Methods and systems are provided for a parallel arrangement of at least two valved aspirators, with a high pressure source such as an intake throttle inlet coupled to a motive inlet of the arrangement and a low pressure sink such as an intake throttle outlet coupled to a mixed flow outlet of the arrangement. Intake throttle position and respective valves arranged in series with each aspirator of the arrangement are controlled based on intake manifold pressure and/or a desired engine air flow rate, for example such that a combined motive flow rate through the arrangement increases as intake manifold pressure increases. An intake throttle with a fully closed default position may be used in conjunction with the arrangement; during a fault condition where the intake throttle is fully closed, the valves of the arrangement may be controlled to achieve a controllable engine air flow rate during the fault condition.

Abstract: Methods and systems are provided for controlling air flow through at least two aspirators coupled across an intake throttle. In one example, a method includes, during a first condition, opening a common aspirator shut-off valve to direct intake air through a first aspirator and a second aspirator each coupled across an intake throttle, and supplying vacuum generated by the first aspirator and the second aspirator to respective vacuum consumption devices as demanded. The method also includes, responsive to a second condition, closing the common aspirator shut-off valve and supplying intake manifold vacuum to the respective vacuum consumption devices as demanded.

Abstract: A method may include restricting cam movement while the vehicle is moving in response to an oil pressure below a threshold oil pressure, and an engine speed below a threshold engine speed, and during a vehicle stopped condition, overriding the restricted cam movement. In one example, the vehicle stopped condition may include the oil over-temperature and the load above the threshold load.

Abstract: A method for improving operation of a vehicle that includes an engine, a transmission, and a torque converter clutch is disclosed. In one example, the method assesses whether or not driver braking is expected and adjusts driveline braking accordingly. The method freewheels the driveline to extend vehicle coasting when driver braking is not expected and the method increases or decreases driveline braking based on a closing distance between the vehicle and an object in the vehicle's path.

Abstract: Methods and systems are provided for controlling an aspirator shut-off valve in an engine of a hybrid vehicle. One example method includes opening the aspirator shut-off valve following a shut-down command to the engine when engine speed is between a first engine speed and a second engine speed, the first engine speed being lower than an idle speed and the second engine speed occurring before an imminent engine stop. The example method further includes not opening the aspirator shut-off valve between the first engine speed and the second engine speed if an oxygen content of an emission control device is at or near a threshold.

Abstract: Methods and systems are provided for progressively opening and controlling each of a fuel vapor canister purge valve (CPV), an auxiliary throttle coupled in series with a venturi, and a main intake throttle arranged in parallel with the auxiliary throttle in order to deliver a desired intake airflow or manifold vacuum to an engine intake manifold. In one example, a method may include actuating a CPV to supply airflow to the engine via a fuel vapor canister while holding closed a main throttle and an auxiliary throttle arranged in parallel with the main throttle and in series with a venturi. The method further includes progressively opening the CPV, then the auxiliary throttle, and then the main throttle to achieve a desired intake manifold pressure.

Abstract: Methods and systems are provided for operating a fuel system comprising two lift pumps. In one example, a method may comprise adjusting operation of a first lift pump to achieve a desired fuel rail pressure. The method may comprise powering on a second lift pump to achieve the desired fuel rail pressure when operating only the first lift pump is not sufficient to achieve the desired fuel rail pressure.

Abstract: Method and apparatus are disclosed for electric vehicle charging station parking spot monitoring system. An example electric vehicle charging station includes a communication module, sensors, and a charge controller. The communication module communicatively couples to a vehicle parked in a parking spot associated with the charging station. The sensors monitor the parking spot. The charge controller receives identifying information and battery information from the vehicle parked in the parking spot, and when the vehicle is not eligible for charging, sends the identifying information of the vehicle to a parking enforcement authority.

Abstract: Methods and systems are provided for diagnosing an in-range error of a pressure sensor arranged downstream of a lift pump in a fuel system of a vehicle. In one example, a method may include performing feedback control of the lift pump based on output of the pressure sensor, monitoring the pressure sensor output for flattening during the application of the voltage pulses, and adjusting operation of the fuel system depending on whether the pressure sensor output flattens for at least a threshold duration, which is indicative of an in-range error. The method may further include dynamically learning a setpoint pressure of a pressure relief valve of the fuel system and a fuel vapor pressure within the fuel system by monitoring pressure sensor output while adjusting the duty cycle of voltage pulses applied to the lift pump.