EP4367980A1 - System for predicting a lifetime of a vehicle light - Google Patents

Abstract

System for predicting a lifetime of a vehicle light, comprising: - data collection means (1) configured to collect: a first series (S1) of data, comprising information related to the vehicle light, a second series (S2) of data, comprising information related to the vehicle, - computing means (2) configured to compute the lifetime of the vehicle light based on the first and second series (S1, S2) of data.

Description

DESCRIPTION

TITLE: System for predicting the lifetime of a fire in a vehicle Technical field

The present invention claims the priority of French application 2107494 filed on 07/09/2021, the content of which (text, drawings and claims) is incorporated herein by reference. The invention relates to the technical field of intelligent systems making it possible to predict the wear of a vehicle light bulb.

The invention finds particular application in the automotive field.

State of the art

It is known from the state of the art, in particular from document US 10,155,477 Bl, to use a detection system which detects when a vehicle light has burned out or is not functioning correctly.

Such a state-of-the-art detection system is not entirely satisfactory insofar as it does not make it possible to anticipate the end of life of the vehicle light.

Disclosure of Invention

The invention aims to remedy all or part of the aforementioned drawbacks. To this end, the subject of the invention is a system for predicting a lifespan of a vehicle fire, comprising:

- data collection means, configured to collect: a first series of data, comprising information related to the fire of the vehicle, a second series of data, comprising information related to the vehicle,

- calculation means, configured to calculate the life of the fire of the vehicle according to the first and second series of data.

Thus, such a system according to the invention makes it possible to anticipate the end of life of the vehicle's fire by calculating the life of the vehicle's fire as a function of data linked to the vehicle's fire and to the vehicle itself. A user of the vehicle can therefore pass through a garage before the light bulb is burnt out, which makes it possible to avoid a critical situation in driving conditions and thereby improves road safety. The system according to the invention may comprise one or more of the following characteristics.

According to one characteristic of the invention, the collection means are configured to collect a third series of data, comprising information related to driving habits; and the calculating means is configured to calculate the vehicle's fire life based on the first, second and third sets of data.

Thus, an advantage obtained is to improve the reliability of the calculation of the life of the fire of the vehicle.

According to a characteristic of the invention, the third series of data comprises at least one type of information chosen from:

- the frequency of driving in a tunnel,

- the frequency of night driving,

- the average driving time during a trip,

- the average distance traveled during a trip,

- the type of route taken.

Thus, an advantage provided is to improve the accuracy of the calculation of the life of the vehicle fire.

According to one characteristic of the invention, the first series of data comprises at least one type of information chosen from:

- the theoretical lifespan of a vehicle light bulb,

- the age of the vehicle's headlight bulb,

- the minimum and maximum light intensity of the vehicle's headlight bulb.

Thus, an advantage provided is to improve the accuracy of the calculation of the life of the vehicle fire.

According to a characteristic of the invention, the second series of data comprises at least one type of information chosen from:

- the geolocation of the vehicle,

- the outside temperature,

- the mileage of the vehicle,

- the impact of regenerative braking.

Thus, an advantage obtained is to improve the precision of the calculation of the lifetime of the vehicle fire, in particular for an electric vehicle. According to one characteristic of the invention, the calculation means are configured to calculate the life of the vehicle's fire by deep learning.

Thus, a benefit provided is to obtain machine learning from data models.

According to one characteristic of the invention, the system comprises display means configured to display a state of wear of the vehicle light according to the calculated life of the vehicle light.

According to one characteristic of the invention, the display means are configured to display:

- a first indicator, preferably colored, more preferably in green, indicating a first state of wear of the vehicle light corresponding to a long life, - a second indicator, preferably colored, more preferably in orange, indicating a second state of wear of the vehicle's light corresponding to a moderate lifespan,

- a third indicator, preferably colored, more preferably in red, indicating a third state of wear of the vehicle corresponding to a short lifespan.

Thus, an advantage obtained is to obtain a simple signage gradually indicating a degree of criticality of the life of the fire of the vehicle.

According to one characteristic of the invention, the system comprises alert means configured to alert a user of the vehicle to the calculated life of the vehicle's fire, preferably by sending a notification to a multifunction mobile of the vehicle. vehicle user.

According to one characteristic of the invention, the vehicle light is chosen from a high beam, a dipped beam, a position light, a flashing light, a fog light, a brake light. Brief description of the drawings

Other characteristics and advantages will appear in the detailed description of various embodiments of the invention, the description being accompanied by examples and references to the attached drawings. Figure 1 is a flowchart schematically representing the operation of an embodiment of a system according to the invention.

Detailed description of embodiments

Elements that are identical or provide the same function will bear the same references for the different embodiments, for the sake of simplification.

As illustrated in Figure 1, an object of the invention is a system for predicting a lifespan of a vehicle fire, comprising:

- data collection means 1, configured to collect: a first series SI of data, comprising information related to the fire of the vehicle, a second series S2 of data, comprising information related to the vehicle,

- calculation means 2, configured to calculate the life of the fire of the vehicle according to the first and second series SI, S2 of data.

vehicle fire

The vehicle light can be chosen from a main beam, a dipped beam, a position light, a flashing light, a fog light, a brake light.

Means of collection

The first series SI of data comprises at least one type of information chosen from:

- the theoretical lifespan of a vehicle light bulb,

- the age of the vehicle's headlight bulb,

- the minimum and maximum light intensity of the vehicle's headlight bulb.

Of course, the technology of the vehicle's light bulb (e.g. incandescent lamp, halogen lamp, xenon discharge lamp, light-emitting diode lamp, etc.) is taken into account in the first SI series of data. By way of non-limiting example, the theoretical life of an incandescent lamp is approximately 3 years while an LED lamp is several decades.

The second series S2 of data comprises at least one type of information chosen from:

- the geolocation of the vehicle,

- the outside temperature,

- the mileage of the vehicle,

- the impact of regenerative braking. The collection means 1 are advantageously configured to collect a third series S3 of data, comprising information related to driving habits.

The third series S3 of data comprises at least one type of information chosen from:

- the frequency of driving in a tunnel,

- the frequency of night driving,

- the average driving time during a trip,

- the average distance traveled during a trip,

- the type of road taken (city, countryside, motorway).

The collection means 1 comprise an aggregator configured to aggregate the first, second and third series S1, S2, S3 of data with a view to processing them. The collection means 1 are advantageously on a cloud computing type platform.

The first, second and third series SI, S2, S3 of data can come from data from the Autonomous Telematics Box of the vehicle (known by the acronym BTA), from the Radio Frequency Servitude Box of the vehicle (known by the acronym BSRF) , and data from the vehicle lamp manufacturer.

Means of calculation

The calculation means 2 are advantageously configured to calculate the life of the fire of the vehicle by deep learning. The calculation means 2 are advantageously configured on a cloud computing type platform.

When the collection means 1 are configured to collect a third series S3 of data, comprising information related to driving habits, the calculation means 2 are configured to calculate the life of the vehicle fire as a function of the first, second and third series S1, S2, S3 of data.

Display means

The system advantageously comprises display means 3 configured to display a state of wear 4 of the vehicle light according to the calculated life of the vehicle light. The display means 3 are advantageously configured to display:

- a first indicator, preferably colored, more preferably green, indicating a first state of wear 4 of the vehicle light corresponding to a long lifespan,

- a second indicator, preferably colored, more preferably in orange, indicating a second state of wear 4 of the vehicle light corresponding to a moderate lifespan, - A third indicator, preferably colored, more preferably in red, indicating a third state of wear 4 of the vehicle corresponding to a low lifespan.

Alert means

The system advantageously comprises alert means configured to alert a user of the vehicle to the calculated life of the vehicle's fire, preferably by sending a notification to a multifunction mobile ("smartphone" in English) of the vehicle user.

The invention is not limited to the disclosed embodiments. The person skilled in the art is able to consider their technically effective combinations, and to substitute them with equivalents.

Claims

1. System for predicting the lifetime of a vehicle fire, comprising:

- data collection means (1), configured to collect: a first series (SI) of data, comprising information related to the fire of the vehicle, a second series (S2) of data, comprising information related to the vehicle,

- calculation means (2), configured to calculate the life of the fire of the vehicle according to the first and second series (SI, S2) of data.

2. System according to claim 1, in which the collecting means (1) are configured to collect a third series (S3) of data, comprising information related to driving habits; and the calculating means (2) is configured to calculate the life of the fire of the vehicle according to the first, second and third series (S1, S2, S3) of data.

3. System according to claim 2, in which the third series (S3) of data comprises at least one type of information chosen from:

- the frequency of driving in a tunnel,

- the frequency of night driving,

- the average driving time during a trip,

- the average distance traveled during a trip,

- the type of route taken.

4. System according to one of claims 1 to 3, in which the first series (SI) of data comprises at least one type of information chosen from:

- the theoretical lifespan of a vehicle light bulb,

- the age of the vehicle's headlight bulb,

- the minimum and maximum light intensity of the vehicle's headlight bulb.

5. System according to one of claims 1 to 4, in which the second series (S2) of data comprises at least one type of information chosen from:

- the geolocation of the vehicle,

- the outside temperature,

- the mileage of the vehicle,

- the impact of regenerative braking.

6. System according to one of claims 1 to 5, in which the calculation means (2) are configured to calculate the life of the vehicle fire by deep learning.

7. System according to one of claims 1 to 6, comprising display means (3) configured to display a state of wear (4) of the vehicle light according to the calculated life of the vehicle light.

8. System according to claim 7, in which the display means (3) are configured to display:

- a first indicator, preferably colored, more preferably green, indicating a first state of wear (4) of the vehicle light corresponding to a long lifespan,

- a second indicator, preferably colored, more preferably in orange, indicating a second state of wear (4) of the vehicle light corresponding to a moderate lifespan, - a third indicator, preferably colored, more preferably in red, indicating a third state of wear (4) of the vehicle corresponding to a low lifespan.

9. System according to one of claims 1 to 8, comprising alert means configured to alert a user of the vehicle on the calculated life of the vehicle fire, preferably by sending a notification to a mobile vehicle user multifunction.

10. System according to one of claims 1 to 9, in which the vehicle light is chosen from a high beam, a dipped beam, a position light, a turn signal, a fog light, a brake light.