VOICE CONTROL OF A VEHICLE LIGHT

Abstract

A method is provided for controlling lighting equipment of a vehicle by means of a voice control apparatus, wherein the voice control apparatus is connected to a microphone and is designed to convert spoken instructions into control signals for the lighting equipment. In response to the control signals, the lighting equipment projects light in a manner creating an image on a non-horizontal surface in a vicinity of the vehicle. The non-horizontal surface may be an exterior wall of a building.

Claims

1. A method comprising: operating voice control apparatus of a vehicle to receive a spoken instruction and convert the spoken instruction into control signals for lighting equipment of the vehicle; and operating the lighting equipment in response to the control signals to emit light in a manner to project alphanumeric symbols on a non-horizontal surface in a vicinity of the vehicle.

2. The method of claim 1, further comprising operating the lighting equipment in response to the control signals to project a traffic symbol.

3. The method of claim 1, wherein the lighting equipment comprises at least one high-resolution light source.

4. The method of claim 1, wherein the spoken instruction is received from a microphone located outside the vehicle and connected to the voice control apparatus by a wireless connection.

5. A method of operating lighting equipment of a motor vehicle comprising: operating voice control apparatus of the vehicle to receive a spoken instruction and convert the spoken instruction into control signals for the lighting equipment; and in response to the control signals, operating the lighting equipment to project light in a manner creating an image on a non-horizontal surface in a vicinity of the vehicle.

6. The method of claim 5, wherein the image comprises alphanumeric symbols.

7. The method of claim 5, wherein the image comprises a traffic symbol.

8. The method of claim 5, wherein the lighting equipment comprises at least one high-resolution light source.

9. The method of claim 5, wherein the spoken instruction is received from a microphone located outside the vehicle and connected to the voice control apparatus by a wireless connection.

10. A system for projecting an image onto a surface comprising: a voice control apparatus mounted onboard a vehicle and operative to receive, via a microphone, a spoken instruction from an occupant of the vehicle and to convert the spoken instruction into electronic control signals; and lighting equipment mounted onboard the vehicle and operative to receive the control signals and, in response thereto, project light in a manner creating an image on a non-horizontal surface in a vicinity of the vehicle, the image viewable by the vehicle occupant.

11. The system of claim 10, wherein the image comprises alphanumeric symbols.

12. The system of claim 10, wherein the image comprises a traffic symbol.

13. The system of claim 10, wherein the lighting equipment comprises at least one high-resolution light source.

14. The system of claim 10, wherein the voice control apparatus is further operative to receive a second spoken instruction from a second microphone located outside the vehicle and connected to the voice control apparatus by a wireless connection.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] FIG. 1 shows an illustration of a form of embodiment of the method according to the invention in a road situation;

[0022] FIG. 2 shows a block diagram of a form of embodiment of an arrangement for carrying out the method according to the invention;

[0023] FIG. 3 shows an illustration of exemplary symbols projected in the method; and

[0024] FIG. 4 shows a flow diagram of a form of embodiment of the method according to the invention.

DETAILED DESCRIPTION

[0025] The method according to the invention is carried out with a vehicle 1 (FIG. 1). The vehicle is a limousine in FIG. 1, which is moving on a road 2. A further road user in the form of a pedestrian 3, who wants to cross the road in front of the vehicle, is present on the road 2. Alternatively or in addition to the pedestrian, other motor vehicles, cyclists, horse-drawn vehicles, additional pedestrians and so forth may also be located on the road 2.

[0026] The vehicle 1 comprises lighting equipment 4 which comprises a high-resolution light source in the front headlamp. High-resolution light sources can, alternatively or in addition, also be arranged in the rear lights and at the lighting equipment arranged at the sides of the vehicle. The term high-resolution light source will be used below, where the high-resolution light sources are arranged in the exterior lighting equipment of the vehicle 1. The vehicle 1 can, in addition, comprise conventional lighting equipment, e.g. conventional headlamps, LED lamps, interior lighting, flasher units and more, without being limited to them.

[0027] The high-resolution light source is designed such that in addition to a conventional illumination of the road 2 on which the vehicle 1 is moving, various patterns 5 can be generated by the high-resolution light source. A cross-walk 5a is projected onto the road 2 by way of example in FIG. 1. Further exemplary patterns 5 that can be generated by the high-resolution light source are illustrated in FIG. 3. The patterns in FIG. 3 comprise direction arrows, various signs for communication, as well as digital and analog indications of time, weather-related information and text messages.

[0028] The vehicle 1 comprises a voice control apparatus 6 that is connected to a microphone 7 and to the high-resolution light source, and is designed to convert spoken instructions into control signals for the lighting equipment 4. The connections between the microphone 7, voice control apparatus 6 and high-resolution light source can be implemented here through cables and/or can also function wirelessly. The microphone 7 is in the first place arranged in the region of the driver's seat, so that the driver can issue voice commands. It is, however, also possible for other persons in the vehicle 1 to issue voice commands. Additional microphones can also be arranged in the vehicle 1 for this purpose. An external microphone can, furthermore, be present, through which a person can issue voice commands from outside the vehicle, and which is connected to the voice control apparatus 6 by a wireless connection. An external microphone can, for example, be integrated into a remote control unit of a vehicle lock. The microphone of a mobile telephone can, furthermore, also be used to issue voice commands if an appropriate connection is established between the mobile telephone and the vehicle 1, or the voice control apparatus 6 of the vehicle 1.

[0029] In addition to the voice control apparatus 6, the high-resolution light source can also be operated manually, for example through a keypad or a lever. A sensor-based control is also additionally possible, for example for switching between high and low beams.

[0030] In a method according to the illustration of FIG. 4, the vehicle 1 is operated in a first step S1, i.e. placed in an activated state. The vehicle's on-board power network can, for example, be activated for this purpose, so that electricity from an on-board battery is available for the function of the high-resolution light source, or the drive source of the vehicle 1 can also be activated.

[0031] The vehicle 1 can be moving or stationary. In the situation illustrated in FIG. 1, the vehicle 1 has come to a halt. In order to communicate or indicate to the pedestrian 3 that he may cross the street, a spoken instruction is issued in a second step S2 through the microphone 7: Cross-walk. Alternatively a number, or a predetermined combination of letters and numbers, or a specific code word corresponding to a zebra crossing can also be used as the command.

[0032] In a third step S3, as is illustrated in FIG. 1, a control command, issued by the voice control apparatus 6 on the basis of the voice command, is issued to the high-resolution light source, and the cross-walk 5a is projected onto the road 2. The cross-walk 5a projected onto the road 2 illustrates the communication function of the method according to the invention. The fact that he can safely cross the road 2 is indicated in this way to the pedestrian by the driver of the vehicle 1.

[0033] The same or a different notification can be conveyed to the pedestrian through further symbols, e.g. those shown in FIG. 3. Writing, which is either predetermined or which corresponds to spoken words of the driver or another person, can, for example, also be projected onto the road 2. For this purpose, for example, a voice command that a text should be projected is given first, and then the corresponding text itself is spoken.

[0034] Communication with other road users is also possible, similarly to the interaction with the pedestrian. Thus, for example, traffic signs can also be projected onto the road 2, in order to clarify a specific situation to other road users, or to cause them to take a specific action. Conventional actions can, furthermore, be supported through the function of the high-resolution light source. For example, setting a flasher unit to indicate an intended turn or change of lane can be supported through arrows projected onto the road 2. A corresponding voice command is issued for this purpose which can, for example, take the form of Arrow left or Arrow right.

[0035] A projection of symbols or notifications onto objects lying outside the road 2, for example onto the exterior vertical surface of a structure (such as a wall of a building), is furthermore possible. The position of the desired projection can also be given for this purpose by means of voice commands, e.g. 45 right, distance 50 m, height 5 m, wherein the data can be adjusted to set the sharpness of the projection.