DE102006011301A1 - Vehicle light e.g. front headlight, controlling system, has control device arranged, such that indicator is determined based on surrounding and front light sensor signals, where light is activated based on indicator and surrounding signal - Google Patents

Abstract

The subject matter of the invention is a vehicle light control system with an ambient light sensor device (S1) which is directed in a first detection direction (er1) to generate an ambient light sensor signal in response to light incident from the first detection direction (er1), with a front light sensor device ( S2), which is directed in a second detection direction (er2) for generating a front light sensor signal in response to light incident from the second detection direction (er2) and with a control device (STE) which is set up in such a way that, based on the ambient light Sensor signal and the front light sensor signal, a weather indicator is determined and that a vehicle light (FS) is automatically addressed as a function of the weather indicator and the ambient light sensor signal.

Description

The The invention relates to a vehicle lamp control system, in particular a vehicular lamp control system for automatic on and off Turn off a vehicle light.

It are vehicles with an automatic based on light sensors Driving light control known, which depends on the current light a vehicle lamp, in particular a front light, a headlight or a tail light automatically turns on and off. Is much due to the light sensors Light is detected, assuming sufficient brightness, and that Driving light is switched off automatically. Is through the light sensors little light is detected, one assumes that the brightness is too low, and the driving light is switched on automatically.

to Detection of the current light conditions, however, are in the rule light sensors used, which at least for infrared light, the for the People are not visible, are sensitive.

It was recognized that - at same brightness perceived by the human being - in cloudy weather Sky through the light sensors more infrared light is detected as in clear skies. This is due to the reflection of the infrared light back through the clouds onto the earth. This phenomenon but leads in some situations, that caused by such light sensors controlled driving light at least in certain borderline situations bad weather against the driver's request automatically turned off and automatically turned on in good weather against the driver's request.

This to the driver's request and to human behavior contrary behavior An automatic driving light control leads to customer dissatisfaction and complaints.

Of the The invention is based on the object, a vehicle lamp control system indicate that an automatic request corresponding to the driver Control of vehicle lights allows.

These The object is solved by the features of the independent claim. Advantageous developments of the invention are subject to the dependent claims remove.

According to the invention a vehicle lamp control system sees an ambient light sensor device for detecting light from a first detection direction and a front light sensor device for detecting light from a second detection direction.

Based a weather indicator is determined on the corresponding sensor signals, and a vehicle lamp depending automatically addressed by the weather indicator, in particular switched on, switched off, activated, deactivated, amplified, weakened or switched over.

By The weather indicator is used in the automatic control of the vehicle light the current weather situation, in particular the current clouding situation, preferably in addition to the brightness, in particular in addition to the ambient brightness, taken into account. Of course is also the supplementary consideration further sensor signals in the context of the invention.

The Invention is based in particular on the idea of suitable Sensors from overhead light and light coming from the side separated to detect. The from the side, especially from the front, coming Light is from the clouding situation independent as the light coming from above, and thus less by the reflected infrared radiation falsified.

Preferably Therefore, the strong ambient light-dependent ambient light sensor signal, the stronger is distorted by the reflected infrared radiation, by the weather indicator corrected, especially multiplied by it. If the corrected, especially with the weather indicator multiplied, ambient light sensor signal a threshold, For example, a vehicle light is deactivated. falls below the corrected, especially with the weather indicator multiplied, ambient light sensor signal a threshold value, a vehicle lamp is activated, for example.

In front the threshold comparison is the corrected ambient light sensor signal preferably still filtered by a low-pass filter to short-term Brightness effects, for example, by a house or a Tree, unconsidered allow.

The Detection direction, in particular the main detection direction, in which the ambient light sensor device is aligned points preferably substantially upwards or upwards. These Detection direction, in particular the main detection direction, which preferably within a sensor detection area or sensor detection cone lies, closes with the road plane preferably an angle between 30 and 150 degrees or between 50 and 130 degrees.

The detection direction, in particular the main detection direction, in which the front light sensor device is aligned, preferably has substantially in the direction of travel or to the side. This detection direction, in particular the main detection direction, which is preferably within a sensor detection range or sensor detection cone, preferably includes an angle between -45 degrees and 45 degrees or between -30 degrees and 30 degrees with the road surface.

Preferably the weather indicator is based on the quotient of the front light sensor signal or a value derived therefrom and the ambient light sensor signal or a derived value. Because this quotient describes just that Weather influence or cloud influence on the brightness, in particular the ambient brightness, including infrared light.

It proved to be elaborate Simulations as particularly driver friendly when the weather indicator is set to a value less than 1 if the quotient of the Front light sensor signal or a derived value and the Ambient light sensor signal or a value derived therefrom smaller is a predetermined threshold, and if the weather indicator set to a value greater than 1 when the quotient of the front light sensor signal or a derived therefrom and the ambient light sensor signal or a derived value greater than is a predetermined threshold. Particularly preferably, the Weather indicator also with the quotient, that is the weather indicator is the bigger, ever bigger the Quotient.

This is particularly advantageous when the ambient light sensor device and calibrated the front light sensor device similarly are that they are the same sensor signal at the same brightness output or output a sensor signal of the same value.

in the The invention will now be described by way of example with reference to FIG closer to the following figure explains:

1 shows a simplified representation of a vehicle with automatic vehicle lighting control system.

This in 1 illustrated vehicle F has as a vehicle lamp on an exemplary in the direction of travel (marked by the arrow in bold) radiating front headlight FS.

to automatic control of this headlight FS, for example for automatic switching on or off of a dipped beam or a daytime running light or for automatic switching between Low beam and daytime running lights, a control device STE is provided. The control device STE receives the sensor signals of two light sensor devices S1, S2 or on it based or derived signals or data.

Especially preferred is a sensor signal of a light sensor device or a value derived therefrom is a measure of the brightness or intensity of the the light sensor detected light, the visible light and infrared light includes. The bigger the Brightness or intensity, the bigger the sensor signal.

The first light sensor device is an ambient light sensor device S1, which is directed in a first detection direction er1. The means, one Acquisition cone of the ambient light sensor device S1 surrounds the first detection direction er1, which at the same time the main detection direction can be.

The first detection direction er1 closes with the road plane one Angle w1, which is for example between 60 and 120 degrees, in particular substantially 90 degrees. The detection cone can a detection angle of, for example, 125 degrees or 60 degrees exhibit.

When Reaction to the detection direction er1 and the associated detection cone incident light, the visible light and at least partially also includes infrared light, becomes an ambient light sensor signal issued and indirectly, for example, after a suitable filtering, reinforcement or coding, or signaled directly to the control device STE.

The second light sensor device S2 is a front light sensor device S2, which is directed in a second detection direction er2.

The second detection direction er2 closes with the road plane one Angle w2, which is for example between 10 and 20 degrees, in particular substantially 15 degrees. The detection cone can have a detection angle of, for example, 15 degrees.

When Reaction to the detection direction er2 and the associated detection cone incident light, which is also visible light and at least partially including infrared light, becomes a front light sensor signal issued and indirectly, for example, after a suitable filtering, reinforcement or coding, or signaled directly to the control device STE.

The controller, which may include one or more processor devices, is programmatically set up such that the headlight FS is automatically controlled in response to the ambient light sensor signal and the front light sensor signal. These automatic control underlying method steps are described below by way of example.

It will be first a weather indicator formed on the quotient between the Front light sensor signal (or a value derived therefrom) and the ambient light sensor signal (or a value derived therefrom) based.

This Quotient is thereby mapped to the weather indicator that the Weather indicator is set to a value less than 1, if the Ratio of the front light sensor signal and the ambient light sensor signal is less than a predetermined threshold, and that the weather indicator set to a value greater than 1 when the quotient of the front light sensor signal and the Ambient light sensor signal greater than is a predetermined threshold. In addition, the illustration is made such that the weather indicator, in particular monotone, increases with the quotient.

For example The front headlight FS is automatically activated when the product from ambient light sensor signal (or a value derived therefrom) and weather indicator or a corresponding value, if appropriate after a low pass filtering, smaller than a given first one Threshold is.

Of the Headlight FS is deactivated automatically, for example, if the product of ambient light sensor signal (or one of them derived value) and weather indicator or a corresponding value, optionally after a low-pass filtering, greater than a predetermined second Threshold is. The first and second thresholds can be identical be or differ, in particular by a hysteresis value.

Claims (6)

Vehicle lights control system - with a Ambient light sensor device (S1), which in a first detection direction (er1) for generating an ambient light sensor signal in response to incoming from the first detection direction (er1) Light, - With a front light sensor device (S2), which in a second detection direction (er2) is directed to generate a front light sensor signal in response light incident from the second detection direction (er2), and - With a control device (STE), which is set up in such a way - that based on the ambient light sensor signal and the front light sensor signal a weather indicator is determined, and - that a vehicle light (FS) depending on the weather indicator and the ambient light sensor signal automatically is addressed. Vehicle lighting control system according to claim 1, in which the first detection direction (er1) substantially according to above shows. Vehicle lamp control system according to one of the preceding Claims, in which the second detection direction (er2) is substantially in the direction of travel shows. Vehicle lamp control system according to one of the preceding Claims, where the weather indicator on the quotient of the front light sensor signal or a value derived therefrom and the ambient light sensor signal or based on a derived value. Vehicle lighting control system according to claim 4, - in which the weather indicator is set to a value less than 1 if the quotient of the front light sensor signal or a value derived therefrom and the ambient light sensor signal or one derived therefrom Value is less than a predetermined threshold, and - in which the weather indicator is set to a value greater than 1 if the Ratio of the front light sensor signal or a value derived therefrom and the ambient light sensor signal or one derived therefrom Value greater than is a predetermined threshold. Vehicle lamp control system according to one of the preceding Claims, wherein the ambient light sensor device (S1) and the front light sensor device (S2) for visible light and for Infrared light is sensitive.