Various systems and methods for monitoring integrate circuits for failure are described herein. A system to monitor for potential component failure includes a sensor array interface to obtain a first safety level from a first sensor and a second safety level from a second sensor, the first and second sensors installed in a machine, the first and second safety levels indicating how safe the machine is to operate; and a processor to: obtain configuration parameters from a rule data store; combine the first and second safety levels using the configuration parameters to produce a composite safety level; and initiate a responsive action based on the composite safety level.

The invention relates to a verification module (118) for verifying accuracy of a controller (116). The controller (116) is arranged to generate a demand based on a first input and a second input. The verification module (118) comprises; a calculation module (120) arranged to calculate an expected demand; a correction module (122) arranged to calculate an error between the demand and the expected demand and modify the expected demand to reduce the error; and a limiter (136) arranged to limit the demand in response to the error being greater than a threshold.

The invention relates to a verification module (118) for verifying accuracy of a controller (116). The controller (116) is arranged to generate a demand based on a first input and a second input. The verification module (118) comprises; a calculation module (120) arranged to calculate an expected demand; a correction module (122) arranged to calculate an error between the demand and the expected demand and modify the expected demand to reduce the error; and a limiter (136) arranged to limit the demand in response to the error being greater than a threshold.

Methods and systems are provided for calibrating a fuel lift pump. While operating in a pulsed mode, a duty cycle of the pulse is ramped in. Based on the ramp rate of the applied voltage or current relative to a resulting rate of change of the fuel pressure, a calibration gain or transfer function value is estimated and applied during subsequent fuel pump operation.

Methods and systems are provided for diagnostics of an intake air filter during vehicle-off conditions. In one example, the engine may be reverse rotated, unfueled, and air flow via the exhaust manifold and the intake manifold are estimated and compared to a baseline air flow. A blocked intake air flow may be indicated based on the comparison between air flow via the exhaust manifold and the intake manifold and the baseline air flow upon opening a secondary flow path to atmosphere.

An apparatus for controlling an internal combustion engine is provided. An engine includes a compression release mechanism and a fuel injection valve. The compression release mechanism variably controls the opening degree of a valve member, and thereby connects the combustion chamber of the engine with at least one of the intake passage and the exhaust passage in order to release in-cylinder pressure during at least the compression stroke. A controller controls the fuel injection valve to execute coasting with the fuel cut off in which the fuel is cut off under a predetermined condition, and while executing coasting with the fuel cut off, controls the compression release mechanism to increase the opening degree of the valve member of the compression release mechanism as the speed of the engine is higher.

An apparatus for controlling an internal combustion engine is provided. An engine includes a compression release mechanism and a fuel injection valve. The compression release mechanism variably controls the opening degree of a valve member, and thereby connects the combustion chamber of the engine with at least one of the intake passage and the exhaust passage in order to release in-cylinder pressure during at least the compression stroke. A controller controls the fuel injection valve to execute coasting with the fuel cut off in which the fuel is cut off under a predetermined condition, and while executing coasting with the fuel cut off, controls the compression release mechanism to increase the opening degree of the valve member of the compression release mechanism as the speed of the engine is higher.

A method for managing an engine for which segment tasks are initiated at a moment referred to as segment, in order to determine setpoint values which must be available before a predetermined angular time, having the following steps: a) executing a segment task; b) determining the difference between the angular starting time for application of the setpoints and the position corresponding to the availability of the setpoint values; c) comparing the difference determined in step b) with a lower difference value and a greater difference value; and d) modifying the segment if the difference determined in step b) is not between the lower and greater difference values, the position of the segment being advanced if the difference determined in b) is less than the lower difference value and the position of the segment being delayed if the difference determined in b) is greater than the greater difference value.

A method for managing an engine for which segment tasks are initiated at a moment referred to as segment, in order to determine setpoint values which must be available before a predetermined angular time, having the following steps: a) executing a segment task; b) determining the difference between the angular starting time for application of the setpoints and the position corresponding to the availability of the setpoint values; c) comparing the difference determined in step b) with a lower difference value and a greater difference value; and d) modifying the segment if the difference determined in step b) is not between the lower and greater difference values, the position of the segment being advanced if the difference determined in b) is less than the lower difference value and the position of the segment being delayed if the difference determined in b) is greater than the greater difference value.

A vehicle control system, a vehicle control method, and a storage medium are provided. A stopping process stops fuel supply to one or more stopping cylinders and supplies fuel to one or more remaining cylinders during a load operation of an engine. During execution of the stopping process, a compensating process compensates for a decrease in output of the one or more stopping cylinders due to the execution of the stopping process by increasing output generated by combustion in the one or more remaining cylinders. The system control circuit causes, when the engine rotation speed of the engine is the same, the output after being increased by the compensating process to decrease as a shaft torque of the crankshaft of the engine increases.