Patent Grant
10201062
This application claims foreign priority benefits under 35 U.S.C. § 119(a)-(d) to DE Application 10 2017 205 075.6 filed Mar. 27, 2017, which is hereby incorporated by reference in its entirety.
The present disclosure relates to a method to control infrastructure lighting from a vehicle.
Street lighting is used to enable and improve vision during darkness. Street lighting often comprises streetlights. In addition to allowing adjustment to light conditions that depend on a time of day, intelligent lighting systems allow adjustment of an operation of lighting devices to a current requirement, with a goal of saving energy to operate the lighting devices. Thus, there are approaches to control the operation of street lighting via GPS-based data that take into account a time of sunrise and sunset corresponding to a latitude (US 2013/0057158 A1). Street lighting may also be controlled from a vehicle (DE 10 2013 002 876 B4). It is desirable to control street lighting in such a way that it harmonizes with lighting of the vehicle.
This object is achieved via a method as claimed in claim 1. Additional advantageous exemplary embodiments and arrangements of the present disclosure result from the ancillary claim and the subclaims, the figures, and the exemplary embodiments.
A first aspect of the present disclosure relates to a method to operate a system comprising at least one vehicle and infrastructure lighting comprising at least one light source, wherein the vehicle and the light source are configured for wireless communication. The method includes the steps of:
According to the present disclosure, at least one device of the vehicle is functionally linked to the light source.
The method is advantageous because it expands the conventional use of available lighting devices. Furthermore, the efficiency of vehicle devices is improved by coupling them to external light sources.
Preferably, in the method according to the present disclosure, a street lighting device is used as a lighting source, and is switched on at a certain distance as the vehicle approaches, if headlights of the vehicle are switched on. In this case, for example, a streetlight is used as a street lighting device. As a result, advantageously, electric power is then needed only when a vehicle approaches and is present in the area of a section of the street illuminated by the street lighting device. The street lighting device is then switched off again.
Advantageously, in the method according to the present disclosure, a street lighting device, which is on a street that branches off the street on which the vehicle is present, is used as a light source, and is switched on if a blinker of the vehicle is activated with respect to the direction of a branching street. In this case, not only is the street lying directly ahead illuminated, but also the branching street into which the vehicle is to be driven is illuminated. Thus, firstly, lighting of the branching street has an advantage of assisting navigation of the vehicle per se, since a driver recognizes a street into which the vehicle is to turn. Secondly, lighting of the branching street has the advantage that better lighting conditions generally exist in the area of the junction, thus also ensuring greater safety.
Furthermore, in the method according to the present disclosure, it is preferred if a lighting device of a bicycle path is used as a light source, and is switched on at a certain distance as a vehicle approaches, if the headlights of the vehicle are switched on. In this case, the vehicle may be present both on the bicycle path (and may thus ideally be a bicycle) and on a street that is adjacent to the bicycle path and/or runs parallel to it. In this way, advantageously, both the sighting and the safety of bicyclists, who are otherwise frequently easily overlooked by drivers of other vehicles due to limited visibility, are increased, particularly when turning or when making turning maneuvers. A type of lighting of the bicycle path may be advantageously specially designed, for example, in the form of arrows which, for example, draw the attention of the driver to a bicyclist on the bicycle path.
In an additional preferred embodiment of the method according to the present disclosure, the device of the vehicle that is functionally linked to the light source is a navigation device, wherein the light source is switched on at a certain distance of the vehicle from a programmed destination. In this case, the light sources may advantageously be provided with a direction-setting function. Therefore, it is particularly preferred if at least one street lighting device is used as a light source, and is arranged in the direction of the destination in order to advantageously facilitate the route guidance of the vehicle, in addition to the instructions of the navigation device.
In this case, it is furthermore preferred if a street lighting device that is arranged in an area of a destination is used as a light source. In this way, in addition to following the instructions of the navigation device, the driver's visibility is improved for finding the destination in the dark. The safety of the driver of the vehicle is simultaneously increased. In this sense, the street lighting that is activated by the navigation device at the destination location may also be referred to as a coming-home light.
Furthermore, it is preferred if the light source is lit in a certain pattern, for example, in time intervals, or is individually programmed. The light source may, for example, be lighting of a parking space that is reserved for the vehicle and is advantageously convenient for the driver to find via the lighting pattern. In addition or alternatively, as described above, the street lighting in the form of streetlights may also be activated in such a way that it acts as a guidance light to guide to the parking place or a suitable destination. This is advantageous particularly in an unknown area. In a similar way, a driver may, for example, also be guided to a free parking place, which would otherwise be hard to find in the dark.
In another advantageous embodiment, the light source is switched on if an approach alarm is triggered by the vehicle or an additional external device. Additional advantageous options include, for example, the illumination of vehicles which are stranded or have been involved in an accident, construction sites, dangerous curves, etc., which should be visible from a distance.
A second aspect of the present disclosure relates to a vehicle that is configured to carry out the method according to the present disclosure.
The present disclosure will be explained in greater detail based on the Figures. The following are shown:
As required, detailed embodiments of the present disclosure are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the disclosure that may be embodied in various and alternative forms. The figures are not necessarily to scale; some features may be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present disclosure.
In a method according to
If the vehicle 2 has driven through a zone of a current street 4 and the side street 4a, in a third step S3, a second control command is transmitted to the streetlights 3a. In a fourth step S4, the streetlights 3a are then switched off again.
Alternatively or in addition to illuminating a side street 4a, for example, a bicycle path 5 may also be illuminated as a vehicle approaches. For this purpose, in step S1, the vehicle 2 transmits a control command as it approaches the streetlights 3, whereupon in step S2, the streetlights 3a are switched on. The control command may come from a bicycle on the bicycle path 5 as well as from the vehicle 2 on the street 4. After passing the zone of the current street 4, in step S3, the second control command is transmitted to the streetlights 3a, which are then switched off again in step S4.
In an additional embodiment of the method, the navigation device 9 is linked to an arrangement of streetlights 3c that illuminate the destination 6 of the vehicle 2, for example, a residence 6 (
In a modification of the method, alternatively to a residence 6, a parking space or a street block that have been entered into the navigation device 9 as a destination may be illuminated. Furthermore, on the basis of the information that the navigation device 9 transmits to infrastructural lighting, a row of streetlights may be illuminated up to an intended destination, acting as a kind of signpost in the sense of providing a visual guidance signal for the vehicle 2.
The street lighting also may be used as a visual guidance signal in interaction with the navigation device 9 of the vehicle 2, or also without the navigation device 9, in order to guide the vehicle 2, for example, out of traffic congestion.
In an additional embodiment, for example, street intersections, street ends, or entrances or exits onto the street 4 may be illuminated. In this case, the signal for activating the corresponding illumination may come from a vehicle 2 on the street 4 as well as from a vehicle 2 that, for example, intends to travel from a driveway onto the street 4.
In other embodiments, in addition to or alternatively to streetlights, construction site lighting may be activated when the vehicle 2 approaches. For this purpose, the vehicle 2 may communicate with construction site lighting that is configured for wireless communication with the vehicle 2 in a manner as described above for the streetlights 3. In a similar manner, as the vehicle 2 approaches, light markers may be activated on the street in order to guide the vehicle 2. Similarly, for example, any other obstacle, for example, a stranded vehicle, may be illuminated.
Furthermore, in an additional embodiment of the method, drivers may be warned if a vehicle is traveling in a wrong direction. For this purpose, for example, a certain rhythm of illumination of streetlights or warning lights may be provided in order to warn both the driver traveling in the wrong direction and other road users.
Furthermore, the streetlights 3 may also be switched on if persons or animals are present on the street 4. For this purpose, movement on the street 4 is detected by corresponding devices in the area of the street lighting. As a vehicle 2 approaches, the streetlights 3 are then switched on. If pedestrians approach, for example, a pedestrian crossing may be dynamically generated by lighting devices integrated into the street 4, in order to allow people to cross the street. For this purpose, ideally, street lighting in the form of streetlights 3 is also switched on.
While exemplary embodiments are described above, it is not intended that these embodiments describe all possible forms of the disclosure. Rather, the words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the disclosure. Additionally, the features of various implementing embodiments may be combined to form further embodiments of the disclosure.
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| Number | Date | Country | |
|---|---|---|---|
| 20180279453 A1 | Sep 2018 | US |
