FR3085057A1 - METHOD FOR MONITORING A VEHICLE MOTORIZATION SYSTEM - Google Patents

Abstract

The invention relates to a method for monitoring a motorization system of a vehicle, comprising: a step of recording the value of a set of predetermined parameters in the volatile memory of the electronic control unit, - upon the occurrence of an anomaly at an instant, a step of determining a sequence of recording the value of the set of parameters over a period of time preceding the instant of occurrence of the anomaly, said period comprising three sub-periods: ○ during a first sub-period, said sequence has a first sampling step, ○ during a second sub-period, said recording sequence has a second sampling step, greater than the first, ○ during a third sub-period, said recording sequence has a third sampling step, greater than the second, - a step of storage in the volatile memory of lad ite recording sequence.

Description

METHOD FOR MONITORING A VEHICLE MOTORIZATION SYSTEM [001] The invention relates, in general, to electronic control units, designated ECUs, also designated electronic control units, in particular mounted in motor vehicles.

The invention relates more particularly to a method for monitoring the occurrence of an anomaly in a motor vehicle, with a view to improving the quality of the electronic control units by a better understanding of faults.

In known manner, when a breakdown occurs in a vehicle, context information, more generally the value of a set of predefined parameters, is continuously recorded in the electronic control unit of the vehicle. When an anomaly occurs, in particular related to the motorization system, said anomaly being signaled in particular by the generation, by the electronic control unit, of a P code, within the electronic control unit, this information can be analyzed in order to characterize and resolve the anomaly that occurred.

However, the information collected may not be sufficient, in the state of the art, to allow the analysis of certain anomalies. Indeed, the information collected, currently, gives a "photo" of the numerical values of important parameters at the time when a fault is signaled, but they do not provide information on the temporal evolution of these values in the moments preceding the signaling of the fault. In addition, the number of accessible parameters is too limited.

The invention therefore aims to resolve these drawbacks by proposing a method for storing parameter values which can be used in the event of an anomaly, in particular for any anomaly indicated by an error code. The parameter values are stored when the anomaly occurs, the method making it possible to collect said parameter values in a semi-continuous mode and to store them according to a particular scheme, comprising three time periods preceding the occurrence of the anomaly, with three different sampling steps.

More specifically, to achieve this, the present invention relates to a method of monitoring a motorization system of a vehicle, in particular of a vehicle in automobüs, ie tie motorization system comprising an electronic control unit having a memory volatile and a non-volatile memory, the monitoring method comprising:

a step of recording the value of a set of predetermined parameters in the volatile memory of the electronic control unit, tors of the suntenance of an anomaly at an instant, a step of determining a recording sequence of the value of the set of parameters over a period of time preceding the instant of occurrence of the anomaly, said period comprising three sub-periods:

o during a first sub-period preceding the moment of occurrence of ornamental Pau, the value of the set of parameters is recorded in said recording sequence with a first sampling step, o during a second sub-period preceding the first sub-period, the value of the set of parameters is recorded in said recording sequence with a second sampling step, greater than the first step d ^? sampling, o during a third sub-period preceding the second sub-period, the value of the set of parameters is recorded in said recording sequence with a third sampling step, greater than the second sampling step,

a step of storing in said non-volatile memory said recording sequence.

Advantageously, the first sampling step is equal to 100 ms, te? second sampling step is equal to 500 ms and the third sampling step is equal to 10 seconds.

Advantageously, the first sub-penode has a duration equal to 5 seconds, the second sub-period has a duration equal to 10 seconds and the? third sub-period has a duration equal to 285 seconds, the period of time having a total duration equal to 30 seconds.

[000] Avàâtegeusement ,; the sequence? saving the set parameter value? predefined includes by ailters te? viewer of said predefined set of parameters for a period of time following the occurrence of the anomaly, with a sampling step equal to the first sampling step.

Advantageously, said time period following the. occurrence of 1 anomaly has a duration less than or equal to. the first subperiod. Advantageously, the first sub-period has a duration equal to 2 seconds. the second subperiod prgsgnte a duration equal to 10 seconds, the third subperiod presents a dUiee equal to 347 seconds and the period following the instant of occurrence of the anomaly presents a dazzling duration to 1 second, the period of time presenting a total duration of 60 seconds.

Advantageously, the occurrence of the anomahe is determined by the generation of a P code by the electronic control unit.

Advantageously, the step of recording the value of the set of parameters comprises erasing, in the volatile memory, the values having a seniority greater than six minutes compared to the current instant.

Advantageously, the storage in the non-volatile memory of said recording sequence is carried out during the os os i electronic control unit stop.

Advantageously, the durations of the sub-periods and / or of the sampling steps are calibrates.

The present invention also relates to an electronic control unit for a motorization system of a vehicle, comprising a volatile memory and a non-volatile memory, said electronic control unit being configured to implement ιθ method as briefly described above.

The present invention also relates to a motor vehicle comprising a tehe electronic control unit.

Other characteristics and advantages of the invention will appear on reading the detailed description of the embodiments of the invention, given by way of example only, and with reference to the drawing which shows:

* Figure 1, a diagram representing the chronological generation of a recording sequence, according to the invention.

In what follows, the embodiments described relate more particularly to an implementation of the sampling of seson I invention data within a motor vehicle. However, any implementation in a different context, in particular in any type of vehicle, is also covered by the present invention.

The method according to the invention makes it possible to monitor the context information received by the electronic control unit during a period of time preceding the occurrence of an anomaly, in particular signaled by the generation of a P code. when the motorization system is started, the electronic control unit saves in its memory data, in particular the values of a set of predefined parameters, such as context information allowing the analysis of anomalies, in other words events unwanted or feared. The anomalies, or undesirable or feared events, are for example: the lighting of the engine light designated MIL (Malfunction Indicator Light) or the stalling of the motorization system.

FIG. 1 represents a timeline diagramming the sampling of the context data during three time periods and with different frequencies. The timeline begins when the motorization system 8 starts, the anomaly to be analyzed is located at instant 4. The values of a predefined set of parameters are continuously recorded in a volatile memory of the electronic control unit . When the anomaly occurs at time 4, a sequence of recording the value of the predefined parameter set is performed. Said recording sequence comprises a sampling of the values recorded in the volatile memory of the electronic control unit. Otherwise designated, said recording sequence corresponds to a "film" making it possible to retrace the evolution of the values of said set of predefined parameters near the instant of occurrence of an anomaly.

Said sampling, according to the invention, extends over a period included, in Figure 1, between time 7 and time 4 at which the anomaly occurs. Said period thus precedes the instant of occurrence of the anomaly and has three successive distinct sub-periods. The first subperiod 1 precedes instant 4 from instant 5. The duration of period 1 is for example five seconds and the sampling step over said first subperiod 1 corresponds in particular to a saving of the values of the predefined set of parameters every 100 ms. The second subperiod 2 precedes instant 5 from instant 6 and in particular has a duration of ten seconds. The instant 6 is therefore in this case located thirteen seconds before the instant 4. The sampling step on said second subperiod 2 corresponds in particular to a saving of the values of the set of predefined parameters every 500 ms. The third subperiod 3 precedes instant 6 from instant 7 and lasts in particular 285 seconds. In this case, instant 7 is located 300 seconds before instant 4. The sampling step on said third subperiod 3 corresponds in particular to a saving of the values of the set of predefined parameters every 10 seconds.

The recording sequence - in other words the "film" - thus generated includes the evolution of the value of the set of predefined parameters over a period preceding the occurrence of the anomaly 4, with sampling steps differentiated: more data is kept in the immediate vicinity of the time of occurrence of anomaly 4.

Thanks to the differentiated sampling steps over the different sub-periods, a large amount of data can be recorded around the anomaly. Thus, in particular, compared to the first sub-period, only one information out of five is kept during the second sub-period and only one information out of twenty is kept during the third sub-period.

The recording sequence thus comprises, according to one embodiment, a 6-minute sequence during which the value of the predefined set of parameters is recorded, with sampling steps increasing with the age of the data.

According to one embodiment, the parameter values having an age greater than 6 minutes are automatically erased from the volatile memory and replaced by more recent values.

When an anomaly occurs, a recording sequence is thus generated. This recording sequence is saved in a non-volatile memory of the electronic control unit, for example during the electronic control unit, in particular when the motorization system is stopped.

The data collected by means of said recording sequence constitutes a backup allowing the analysis of which is intended to make it possible to understand the origin of the anomaly and the manner of resolving it, if necessary.

According to one embodiment, the recording sequence also includes the value of the set of predefined parameters recorded after the occurrence of the anomaly, over a period of time preferably less than or equal to the first sub -period, that is to say notably less than or equal to 3 seconds. The sampling step of the values recorded, in the recording sequence, over this period after the occurrence of the anomaly, is notably equal to the first sampling step, namely 100 ms. This allows an analysis of the anomaly over a total period of time extending on both sides of the instant of occurrence of the anomaly.

When an undesirable or feared event occurs, for example the stalling of the heat engine or the lighting of the MIL warning light, with in particular the generation of a P code by the electronic control unit, signifying that the anomaly has occurred is linked to a fault in the motorization system, the value of the predefined set of parameters can be suspended at the last known value.

Preferably, the durations of the sub-periods and of the sampling steps can be calibrated.

In addition, several recording sequences can be collected in parallel to compensate for the possible occurrence of several concomitant anomalies. In this case, the hardware resources of the electronic control unit are suitable for this purpose.

When the vehicle restarts again, the electronic control unit begins collecting new data.

The method according to the invention therefore has the advantage of allowing the collection of a large number of data, in order to analyze them a posteriori. Collecting the values of a set of predefined parameters over time makes it possible to more quickly understand the causes of an anomaly in order to develop appropriate solutions.

Claims (10)

Claims: 1. Method for monitoring a motorization system of a vehicle, in particular of a motor vehicle, the motorization system comprising an electronic control tee having a volatile memory and a non-volatile memory, the monitoring method comprising: a step of recording the value of a set of pre-mined parameters in the volatile memory of the electronic control unit, when an anomaly occurs at a time, a step of determining a recording sequence of the value of the set of parameters over a period of time preceding the instant of occurrence of the anomaly, said period comprising three sub-periods: o during a first sub-period preceding the time of occurrence of the anomaly, the value of the set of parameters is recorded in said recording sequence with a first sampling step, o during a second sub-period preceding the first sub-period, the value of the set of parameters is recorded in said recording sequence with a second sampling step, greater than the first sampling step, o during a third sub-period preceding the second sub-period , the value of the set of parameters is recorded in said recording sequence with a third sampling step, greater than the second sampling step, a step of storage in the non-volatile memory of said recording sequence. 2. Method according to claim 1, in which the first sampling step is equal to 100 ms, the second sampling step is equal to 500 ms and the third sampling step is equal to 10 seconds. 3. Method according to claim 1 or 2, wherein the first sub-period has a duration equal to 5 seconds, the second sub-period has a duration equal to 10 seconds and the third sub-period has a duration equal to 285 seconds , the period of time having a total duration equal to 300 seconds. 4. Method according to one of the preceding claims, in which the sequence for recording the value of the predefined set of parameters does not elsewhere comprise the value of said set of parameters for a period of time following the occurrence of the anomaly, with a sampling step equal to the first sampling step. 5. Method according to the preceding claim, in which said period of t "mps following the occurrence of the anomaly has a duration less than or equal to the first subperiod. 6. Method according to one of the preceding claims, in which the occurrence of the anomaly is determined by the generation of a P code by the electronic control unit. 7. Method according to the preceding claim, characterized in that i step of recording the value of the set of parameters comprises I erasing, in the volatile memory, values having an antiquity greater than six thousand iutes relative to the current instant. 8. Method according to one of the preceding claims, wherein the storage in the non-volatile memory of said recording sequence is carried out when I arrei the electronic control unit. 9. Electronic control unit for a motorization system of a vehicle, comprising a volatile memory and a non-volatile memory, said electronic control unit being configured to implement the method according to one of the preceding claims. 10. Motor vehicle comprising an electronic control unit according to the preceding claim.