SYSTEM AND METHOD FOR DYNAMICALLY PROJECTING INFORMATION FROM A MOTOR VEHICLE
A method for projecting information from a motor vehicle to an observer external to the motor vehicle includes receiving, by a controller, a data signal indicative of an operating state of the motor vehicle from a sensor, determining, using the controller, a projection profile based on the data signal which includes a dynamic feature and indicative of a status of the motor vehicle, and continuously projecting the projection profile onto a surface on which the motor vehicle is traveling using a dynamic projector system that animates the dynamic feature.
The invention relates generally to a system and method for dynamically projecting information from a motor vehicle, and more particularly to a system and method for projecting a dynamic projection profile based on a data signal which is indicative of a status of the motor vehicle.
BACKGROUNDThe statements in this section merely provide background information related to the present disclosure and may or may not constitute prior art.
Motor vehicles have been designed with increasingly advanced technologies aimed at improving the safety, efficiency, and performance of the motor vehicle. Examples of such technologies include advanced driver assistance systems and human machine interface systems. Generally, advanced driver assistance systems automate, adapt, or enhance vehicle systems in order to increase vehicle safety and/or operator driving performance. Advanced driver assistance systems are designed to avoid accidents by offering technologies that alert the driver to potential problems or to avoid collisions by implementing safeguards, such as autonomously controlling the vehicle. Operator driving performance may be improved by using features that enhance certain systems, such as automated lighting, automated parking, adaptive cruise control, automated braking, or improved blind spot elimination using camera technology. Human machine interface systems generally include systems that provide graphics-based visualization of a control system, either to the user of the motor vehicle or to an individual external to the motor vehicle. An example of such a device is a projector system that projects images onto or around the motor vehicle to communicate information regarding the status of the motor vehicle.
Conventional projector systems, while useful for their intended purpose, are limited in their ability to project information. Therefore, there is a need in the art for a system and method for projecting information that provides dynamic and predictive information to an observer of the motor vehicle.
SUMMARYA method for projecting information from a motor vehicle to an observer external to the motor vehicle is provided. The method includes receiving, by a controller, a data signal indicative of an operating state of the motor vehicle from a sensor, determining, using the controller, a projection profile based on the data signal which includes a dynamic feature and indicative of a status of the motor vehicle, and continuously projecting the projection profile onto a surface on which the motor vehicle is traveling using a dynamic projector system that animates the dynamic feature.
In one aspect, the data signal is a steering angle and the sensor is a steering wheel angle sensor.
In another aspect, the projection profile is a vector of the motor vehicle relative to a flat surface calculated, by the controller, as a function of the steering angle.
In another aspect, the vector is indicative of a path of the motor vehicle.
In another aspect, the vector aligns with a front tire of the motor vehicle.
In another aspect, the vector aligns with a front portion of the motor vehicle.
In another aspect, the dynamic feature moves in real time and is indicative of a direction of travel of the motor vehicle.
In another aspect, the data signal is a turn signal activation identifier and the sensor is a turn signal sensor.
In another aspect, the projection profile is a turn signal identifier and the dynamic feature includes animated arrows that indicate the direction of an intended turn.
In another aspect, receiving, by the controller, a data signal indicative of an operating state of the motor vehicle from a sensor includes receiving, by the controller, a plurality of data signals from a plurality of sensors.
In another aspect, the plurality of data signals include a PRNDL status from a shift sensor indicative of the driving state of the motor vehicle from one of a park, reverse, neutral, drive, and low drive vehicle driving state, a lighting status from a lighting sensor indicative of the brightness of the environment of the motor vehicle, a vehicle speed from a vehicle speed sensor, and a door status from a door sensor indicative of the position of a door of the motor vehicle.
In another aspect, the projection profile is a trajectory of the motor vehicle based on the vehicle speed, and wherein the projection profile is projected to a rear of the motor vehicle when the PRNDL status is reverse and the lighting status is below a brightness threshold and the door status indicates the door is closed.
In another aspect, the projection profile is projected to a front of the motor vehicle when the when the PRNDL status is drive and the lighting status is below a brightness threshold and the door status indicates the door is closed.
In another aspect, the method includes receiving, by the controller, a data signal indicative of a brightness level in an environment of the motor vehicle from a lighting sensor, wherein a brightness of the projection profile is a function of the brightness level of the environment.
In another aspect, the data signal is a door status of the motor vehicle from a door status sensor, and the projection profile has a message communicating the door status.
In another aspect, the data signal is a unique identifier from a motor vehicle key and the projected profile is a unique message associated with the unique identifier.
In another aspect, the dynamic projection system is mounted to a side of the motor vehicle.
Another method for projecting information from a motor vehicle to an observer external to the motor vehicle is provided. The method includes receiving, by a controller, a steering angle from a steering wheel angle sensor, calculating, using the controller, a vector of the motor vehicle relative to a flat surface as a function of the steering angle, wherein the vector indicates the projected path of the motor vehicle, and projecting the vector of the motor vehicle onto a surface on which the motor vehicle is traveling using a dynamic projector system mounted on the motor vehicle.
In one aspect, the vector of the motor vehicle includes a dynamic feature that is animated in real-time by the dynamic projector system.
Another method for projecting information from a motor vehicle to an observer external to the motor vehicle is provided. The method includes receiving, by a controller, a plurality of data signals indicative of an operating state of the motor vehicle including a steering angle, a turn signal activation identifier, a PRNDL status indicative of the driving state of the motor vehicle from one of a park, reverse, neutral, drive, and low drive vehicle driving state, a lighting status indicative of the brightness of the environment of the motor vehicle, and a vehicle speed, determining, using the controller, one of a plurality of projection profiles based on the plurality of data signals, wherein each of the plurality of projection profiles include a dynamic feature and is indicative of a status of the motor vehicle, and the plurality of projection profiles includes a first projection profile which displays a vector of the motor vehicle relative to a flat surface as a function of the steering angle, a second projection profile which displays a trajectory of the motor vehicle based on the vehicle speed, and a third projection profile which displays an intended turn direction based on the turn signal activation identifier, projecting the one of the plurality of projection profiles onto a surface using a dynamic projector system that animates the dynamic feature, wherein the first projection profile and third projection profile are projected to either side of the motor vehicle and the second projection profile is projected to a rear of the motor vehicle when the PRNDL status is reverse and to a front of the motor vehicle when the PRNDL status is drive, and adjusting the brightness of the projected projection profile based on the lighting status.
Further aspects, examples, and advantages will become apparent by reference to the following description and appended drawings wherein like reference numbers refer to the same component, element or feature.
The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way.
The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses.
With reference to
The dynamic projection system 10 includes one or more dynamic projectors 22 mounted to an exterior of the motor vehicle 12. For example, the dynamic projection system 10 may include one of, or a combination of, a front dynamic projector 22A, a rear dynamic projector 22B, a left side dynamic projector 22C, and a right side dynamic projector 22D. The front dynamic projector 22A is mounted to the front 14 of the motor vehicle 12. The rear dynamic projector 22B is mounted to the rear 16 of the motor vehicle 12. The left side dynamic projector 22C is mounted to the left side 18 of the motor vehicle 12. The right side dynamic projector is mounted to the right side 20 of the motor vehicle 12. In the example provided, the left and right side projectors 22C, 22D are housed within left and right side view mirrors 24 and 26, respectively. Alternatively, the left and right side projectors 22C, 22D may be housed within multifunctional electronic armatures that replace the left and right side view mirrors 24 and 26. An example of a multifunctional electronic armature is shown and described in commonly assigned U.S. application Ser. No. 15/165,022, filed May 26, 2016, the entirety of which is hereby incorporated by reference. The dynamic projectors 22A-D are preferably laser projectors, such as RGB laser projectors or phosphorus laser projectors, capable of emitting or projecting a projection profile onto a surface.
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The ECU 28 is in electronic communication with a plurality of sensors 30 mounted to the motor vehicle 12. The sensors 30 are operative to provide information or data signals to the ECU 28 indicative of an operating state of the motor vehicle 12. For example, the sensors 30 include a steering wheel angle sensor 32, a turn signal sensor 34, a shift sensor 36, a lighting sensor 38, a vehicle speed sensor 40, a door sensor 42, and a security data receiver 44. The steering wheel angle sensor 32 detects or senses a steering wheel angle indicative of a degree of turn of the motor vehicle 12. The turn signal sensor 34 detects whether a left or right turn signal has been activated in the motor vehicle 12. The shift sensor 36 detects the driving state of the motor vehicle 12. For example, the driving state may be a one of a park, reverse, neutral, drive, and low drive (PRNDL) vehicle driving state. The lighting sensor 38 detects a brightness of the environment, i.e. the illumination intensity of the ambient lighting surrounding the motor vehicle 12. The vehicle speed sensor 40 detects a vehicle speed of the motor vehicle 12. The door sensor 42 detects a status of a vehicle door, such as open or closed, latched or unlatched. The security data receiver 44 is a wireless receiver configured to detect a security identifier from, for example, a key fob. The security identifier may include a personal identification number that authenticates the owner of the motor vehicle 12.
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The method 100 proceeds to step 104 where the ECU 28 determines or generates a projection profile based on the data signals from the plurality of sensors 30. The projection profile is a graphical image or other visual representation of information relating to the particular data signals received by the ECU 28 at step 102. The projection profile quantifies the data signals to inform an individual external to the motor vehicle 12 of a state of the motor vehicle 12. The projection profile preferably includes a dynamic feature. The dynamic feature is a set of graphical images that may be animated by the dynamic projector.
The method 100 then proceeds to step 106 where the dynamic projectors 22 continuously projects the projection profile onto a surface on which the motor vehicle 12 is running. At step 108 the dynamic projectors 22 animate the dynamic feature of the projection profile. The method 100 then repeats, allowing for projection updates as the operating conditions of the motor vehicle 12 change.
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With reference to
Each of the projection profiles 200, 300, 400, and 500 may further be modified by the lighting status and the door status. For example, if the lighting status is above a brightness threshold, the ECU 28 may determine not to project the projection profile. Likewise, if the door status indicates that the motor vehicle door is open, the ECU 28 may determine not to project the projection profile. Alternatively, a brightness of the projection profile may be a function of the sensed lighting status of the environment. In another example, the projection profile may include a message communicating the door status, such as “door open”.
The description of the invention is merely exemplary in nature and variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.
Claims
1. A method for projecting information from a motor vehicle to an observer external to the motor vehicle, the method comprising:
- receiving, by a controller, a data signal indicative of an operating state of the motor vehicle from a sensor;
- determining, using the controller, a projection profile based on the data signal, wherein the projection profile includes a dynamic feature and is indicative of a status of the motor vehicle; and
- continuously projecting the projection profile onto a surface on which the motor vehicle is traveling using a dynamic projector system that animates the dynamic feature, wherein the projection profile is a vector of the motor vehicle relative to a flat surface calculated, by the controller, as a function of the steering angle.
2. The method of claim 1 wherein the data signal is a steering angle and the sensor is a steering wheel angle sensor.
3. (canceled)
4. The method of claim 1 wherein the vector is indicative of a path of the motor vehicle.
5. The method of claim 4 wherein the vector aligns with a front tire of the motor vehicle.
6. The method of claim 4 wherein the vector aligns with a front portion of the motor vehicle.
7. The method of claim 1 wherein the dynamic feature moves in real time and is indicative of a direction of travel of the motor vehicle.
8. A method for projecting information from a motor vehicle to an observer external to the motor vehicle, the method comprising:
- receiving, by a controller, a data signal indicative of an operating state of the motor vehicle from a sensor; wherein the data signal is a turn signal activation identifier and the sensor is a turn signal sensor,
- determining, using the controller, a projection profile based on the data signal, wherein the projection profile includes a dynamic feature and is indicative of a status of the motor vehicle; and
- continuously projecting the projection profile onto a surface on which the motor vehicle is traveling using a dynamic projector system that animates the dynamic feature.
9. The method of claim 8 wherein the projection profile is a turn signal identifier and the dynamic feature includes animated arrows that indicate the direction of an intended turn.
10. The method of claim 1 wherein receiving, by the controller, a data signal indicative of an operating state of the motor vehicle from a sensor includes receiving, by the controller, a plurality of data signals from a plurality of sensors.
11. The method of claim 10 wherein the plurality of data signals include a PRNDL status from a shift sensor indicative of the driving state of the motor vehicle from one of a park, reverse, neutral, drive, and low drive vehicle driving state, a lighting status from a lighting sensor indicative of the brightness of the environment of the motor vehicle, a vehicle speed from a vehicle speed sensor, and a door status from a door sensor indicative of the position of a door of the motor vehicle.
12. The method of claim 11 wherein the projection profile is a trajectory of the motor vehicle based on the vehicle speed, and wherein the projection profile is projected to a rear of the motor vehicle when the PRNDL status is reverse and the lighting status is below a brightness threshold and the door status indicates the door is closed.
13. The method of claim 12 wherein the projection profile is projected to a front of the motor vehicle when the when the PRNDL status is drive and the lighting status is below a brightness threshold and the door status indicates the door is closed.
14. (canceled)
15. The method of claim 1 wherein the data signal is a door status of the motor vehicle from a door status sensor, and the projection profile has a message communicating the door status.
16. The method of claim 1 wherein the data signal is a unique identifier from a motor vehicle key and the projected profile is a unique message associated with the unique identifier.
17. The method of claim 1 wherein the dynamic projection system is mounted to an exterior side of the motor vehicle.
18. A method for projecting information from a motor vehicle to an observer external to the motor vehicle, the method comprising:
- receiving, by a controller, a steering angle from a steering wheel angle sensor;
- calculating, using the controller, a vector of the motor vehicle relative to a flat surface as a function of the steering angle, wherein the vector indicates the projected path of the motor vehicle; and
- projecting the vector of the motor vehicle onto a surface on which the motor vehicle is traveling using a dynamic projector system mounted on the motor vehicle.
19. The method of claim 18 wherein the vector of the motor vehicle includes a dynamic feature that is animated in real-time by the dynamic projector system.
20. A method for projecting information from a motor vehicle to an observer external to the motor vehicle, the method comprising:
- receiving, by a controller, a plurality of data signals indicative of an operating state of the motor vehicle including a steering angle, a turn signal activation identifier, a PRNDL status indicative of the driving state of the motor vehicle from one of a park, reverse, neutral, drive, and low drive vehicle driving state, a lighting status indicative of the brightness of the environment of the motor vehicle, and a vehicle speed;
- determining, using the controller, one of a plurality of projection profiles based on the plurality of data signals, wherein each of the plurality of projection profiles include a dynamic feature and is indicative of a status of the motor vehicle, and the plurality of projection profiles includes a first projection profile which displays a vector of the motor vehicle relative to a flat surface as a function of the steering angle, a second projection profile which displays a trajectory of the motor vehicle based on the vehicle speed, and a third projection profile which displays an intended turn direction based on the turn signal activation identifier;
- projecting the one of the plurality of projection profiles onto a surface using a dynamic projector system that animates the dynamic feature, wherein the first projection profile and third projection profile are projected to either side of the motor vehicle and the second projection profile is projected to a rear of the motor vehicle when the PRNDL status is reverse and to a front of the motor vehicle when the PRNDL status is drive; and
- adjusting the brightness of the projected projection profile based on the lighting status.
21. A method for projecting information from a motor vehicle to an observer external to the motor vehicle, the method comprising:
- receiving, by a controller, a data signal indicative of an operating state of the motor vehicle from a sensor; wherein the a data signal is indicative of a brightness level in an environment of the motor vehicle from a lighting sensor, and wherein a brightness of the projection profile is a function of the brightness level of the environment,
- determining, using the controller, a projection profile based on the data signal, wherein the projection profile includes a dynamic feature and is indicative of a status of the motor vehicle; and
- continuously projecting the projection profile onto a surface on which the motor vehicle is traveling using a dynamic projector system that animates the dynamic feature.
22. The method of claim 1 wherein the exterior side of the motor vehicle is at least one of a front side, rear side, left side, or right side of the motor vehicle.
23. The method of claim 3 wherein the vector of the motor vehicle is a curvilinear directional indicator.
Type: Application
Filed: May 26, 2016
Publication Date: Nov 30, 2017
Inventors: Aaron Evans Thompson (Grand Blanc, MI), Cumhur Uneveren (Walled Lake, MI)
Application Number: 15/165,738