Learning and control apparatus for electronically controlled internal combustion engine
First Claim
1. A learning and control apparatus for an electronically controlled internal combustion engine, which comprises means for detecting driving states of the engine, an object to be controlled according to a control value, basic control quantity setting means for setting a basic control quantity corresponding to an aimed control value of the object to be controlled which is decided based on the detected engine driving state, reloadable memory means for storing a plurality of regions with parameters of the engine driving state and learning correction quantities for correcting said basic control quantity for the respective regions, learning correction quantity retrieving means for retrieving the learning correction quantity of the corresponding region from said memory means based on the detected actual engine driving state, feedback correction quantity setting means for comparing the aimed control value with the detected actual value of the object to be controlled and setting a feedback correction quantity for correcting said basic control value by increasing or decreasing the feedback correction quantity by a predetermined quantity so that the actual value is brought close to the aimed control value, control quantity computing means for computing a control quantity from the basic control quantity set by said basic control quantity setting means, the learning correction quantity retrieved by said learning correction quantity retrieving means and the feedback correction quantity set by said feedback correction quantity setting means, control means for controlling the object to be controlled according to said control quantity, constant state detecting means for detecting a constant driving state of the engine actually driven, mean deviation value detecting means for detecting and operating a mean value of deviations of the feedback correction quantities from a standard value when the engine is in the constant driving state, learning correction quantity renewal means for operating a new learning correction quantity by adding said mean value of deviations by a selected ratio to a present learning correction quantity retrieved by said learning correction retrieving means at every completion of said mean value deviations operation and for renewing the leaning correction quantity stored in the memory means under the same driving regions by said new learning correction quantity, renewal number memory means for storing number of renewal of learning correction quantity in said memory means by receiving the output from said learning correction quantity renewal means under the same engine driving region, and mean deviation ratio setting means for setting said ratio of mean value of deviations of the feedback correction quantities in accordance with the number of learning correction quantity in such a manner as the ratio decreases when the number of renewal increases.
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Abstract
A learning and control apparatus for an electronically controlled internal combustion engine having such an object to be controlled as, for instance a fuel injection valve for controlling the air-fuel ratio in an air-fuel mixture or an idle speed control valve for controlling the idle rotation number of the engine wherein a pulse duty signal corresponding to a basic control value is set according to engine driving states. The basic control value is corrected by adding an appropriate correction value to the basic control value. Feedback control is carried out so that the actual controlled value is made to follow the aimed control value, and a learning correction quantity is computed by learning said feedback control so that the feedback control amount is set as small as possible. Deviation value detecting means detects and operates a mean value of deviations of the feedback correction quantities from a standard value and learning correction quantity renewal means for a new learning correction quantity by adding the mean value of deviations by a selected ratio to a present learning correction quantity. The ratio of mean value of deviations is set in accordance with the number of renewal of learning correction quantity in such a manner as the ratio decreases when the number of renewal increases.
36 Citations
12 Claims
- 1. A learning and control apparatus for an electronically controlled internal combustion engine, which comprises means for detecting driving states of the engine, an object to be controlled according to a control value, basic control quantity setting means for setting a basic control quantity corresponding to an aimed control value of the object to be controlled which is decided based on the detected engine driving state, reloadable memory means for storing a plurality of regions with parameters of the engine driving state and learning correction quantities for correcting said basic control quantity for the respective regions, learning correction quantity retrieving means for retrieving the learning correction quantity of the corresponding region from said memory means based on the detected actual engine driving state, feedback correction quantity setting means for comparing the aimed control value with the detected actual value of the object to be controlled and setting a feedback correction quantity for correcting said basic control value by increasing or decreasing the feedback correction quantity by a predetermined quantity so that the actual value is brought close to the aimed control value, control quantity computing means for computing a control quantity from the basic control quantity set by said basic control quantity setting means, the learning correction quantity retrieved by said learning correction quantity retrieving means and the feedback correction quantity set by said feedback correction quantity setting means, control means for controlling the object to be controlled according to said control quantity, constant state detecting means for detecting a constant driving state of the engine actually driven, mean deviation value detecting means for detecting and operating a mean value of deviations of the feedback correction quantities from a standard value when the engine is in the constant driving state, learning correction quantity renewal means for operating a new learning correction quantity by adding said mean value of deviations by a selected ratio to a present learning correction quantity retrieved by said learning correction retrieving means at every completion of said mean value deviations operation and for renewing the leaning correction quantity stored in the memory means under the same driving regions by said new learning correction quantity, renewal number memory means for storing number of renewal of learning correction quantity in said memory means by receiving the output from said learning correction quantity renewal means under the same engine driving region, and mean deviation ratio setting means for setting said ratio of mean value of deviations of the feedback correction quantities in accordance with the number of learning correction quantity in such a manner as the ratio decreases when the number of renewal increases.
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7. An apparatus for learning and electronically controlling air-fuel ratio in an internal combustion engine, which comprises means for detecting the driving state of the engine, which includes first detecting means for detecting the flow quantity Q of air sucked in the engine, second detecting means for detecting the engine speed N and third detecting means for detecting exhaust components of the engine and detecting the actual value of the air-fuel ratio in an air-fuel mixture sucked in the engine, fuel injection means for injecting fuel according to fuel injection quantity, basic fuel injection quantity setting means for setting a basic fuel injection quantity corresponding to an aimed air-fuel ratio from the flow quantity of sucked air put out from the first detecting means and the engine speed N put out from the second detecting means, reloadable memory means for storing a plurality of regions with parameters of the engine driving states N and Q and learning correction coefficient Kl for correcting the basic fuel injection quantity for the respective regions of the driving state of the engine, learning correction coefficient retrieving means for retrieving the learning correction coefficient Kl of the corresponding region from said memory means based on the detected actual driving state of the engine, feedback correction coefficient setting means for comparing the detected air-fuel ratio put out from the third detecting means with the aimed air-fuel ratio and setting a feedback correction coefficient α
- for correcting the basic fuel injection quantity by increasing or decreasing the feedback correction coefficient α
by a predetermined quantity so that the actual air-fuel ratio is brought close to the aimed air-fuel ratio, fuel injection quantity computing means for computing the fuel injection quantity based on the basic fuel injection quantity computed by said basic fuel injection quantity computing means, the learning correction coefficient Kl retrieved by the learning correction coefficient retrieving means and the feedback correction coefficient set by the feedback correction coefficient setting means, control means operated according to said fuel injection quantity Ti to control said fuel injection means in an on-off manner by a driving pulse signal, constant state detecting means for detecting a constant driving state of the engine actually driven, mean deviation value Δ
detecting means for detecting and operating a mean value of deviations Δ
α
of the feedback correction coefficients α
from a standard value α
1 when the engine is in the constant driving state, learning correction coefficient renewal means for operating a new learning correction coefficient Kl(new) by adding said mean value Δ
α
of deviations Δ
α
by a selected ratio 1/M to a present learning correction coefficient Kl(old) retrieved by said learning correction retrieving means at every completion of said mean value Δ
α
of deviations Δ
α
operation and for renewing the learning correction coefficient Kl(old) stored in the memory means under the same driving regions by said new learning correction efficient Kl(new), renewal number memory means for storing number of renewal of learning correction coefficient Kl in said memory means by receiving the output from said learning correction coefficient renewal means under the same engine driving region, and means deviation ratio setting means for setting said ratio 1/M of mean value Δ
α
of deviations Δ
α
of the feedback correction coefficient α
in accordance with the number of renewal of learning correction coefficient Kl in such a manner as the ratio 1/M decreases when the number of renewal increases. - View Dependent Claims (8, 9, 10, 11, 12)
- for correcting the basic fuel injection quantity by increasing or decreasing the feedback correction coefficient α
Specification