Abstract: Methods and systems are presented for generating visual and audible aids for a human that is driving a vehicle. In one example, a visual indication is provided during conditions when a wheel speed exceeds a vehicle reference speed by more than a threshold speed. In another example, an audible indication is provided during conditions when a vehicle speed exceeds a vehicle reference speed by more than a threshold speed.

Abstract: The present disclosure relates to computer-implemented methods of diagnosing a vehicle hydraulic power steering system and steering diagnostic systems for executing the same. Some exemplary diagnostic systems are configured to detect a steering system condition based on an evaluation of a steering pump outlet pressure, an engine speed and/or a steering wheel position. The system sends a warning signal when a predetermined steering system condition is detected.

Abstract: An electronic control unit monitors pressure conditions present at the input to the steering system and other vehicle data signals and then provides override control of a hydro-mechanical flow control device. An electro-hydraulic valve is connected to the supply side of the hydro-mechanical flow control device and reacts to the electronic monitoring of pressure and other vehicle data to alter the counter-balancing forces within the hydro-mechanical flow control device. This causes a by-pass diversion of steering fluid to the source by the hydro-mechanical flow control device and thereby relieves backpressure on the pump when relatively little steering assist is required to be provided by the steering system. The control of steering fluid diversion at such times results in a significant reduction in parasitic losses within the steering system and improves the operating and fuel efficiency of the vehicle.

Abstract: The present disclosure relates to computer-implemented methods of diagnosing a vehicle hydraulic power steering system and steering diagnostic systems for executing the same. Some exemplary diagnostic systems are configured to detect a steering system condition based on an evaluation of a steering pump outlet pressure, an engine speed and/or a steering wheel position. The system sends a warning signal when a predetermined steering system condition is detected.

Abstract: An electronic control unit monitors pressure conditions present at the input to the steering system and other vehicle data signals and then provides override control of a hydro-mechanical flow control device. An electro-hydraulic valve is connected to the supply side of the hydro-mechanical flow control device and reacts to the electronic monitoring of pressure and other vehicle data to alter the counter-balancing forces within the hydro-mechanical flow control device. This causes a by-pass diversion of steering fluid to the source by the hydro-mechanical flow control device and thereby relieves backpressure on the pump when relatively little steering assist is required to be provided by the steering system. The control of steering fluid diversion at such times results in a significant reduction in parasitic losses within the steering system and improves the operating and fuel efficiency of the vehicle.