Spatially and/or distance defined light-based communications in a vehicle/roadway environment

What is claimed is: 1. A method of light-based communication within a vehicle or roadway environment, the method comprising: receiving, at a receiver of a first vehicle, a first spatially and/or distance defined light-based communication signal; receiving, at the receiver of the first vehicle, a second spatially and/or distance defined light-based communication signal; processing the first spatially and/or distance defined light-based communication signal at the first vehicle, wherein the first spatially and/or distance defined light-based communication signal includes data pertaining to at least one of a position of the first vehicle relative to a second vehicle, a time-of-flight (TOF) of the first spatially and/or distance defined light-based communication signal, or a heading of the first vehicle relative to a second vehicle; processing the second spatially and/or distance defined light-based communication signal at the first vehicle, wherein the second spatially and/or distance defined light-based communication signal includes data pertaining to at least one of a position of the first vehicle relative to a third vehicle, a time-of-flight (TOF) of the second spatially and/or distance defined light-based communication signal, or a heading of the first vehicle relative to a third vehicle; transmitting, by a transmitter of the first vehicle, a first message to the second vehicle, the first message based at least in part on the first spatially and/or distance defined light-based communication signal; transmitting, by the transmitter of the first vehicle, a second message to the third vehicle, the second message based at least in part on the second spatially and/or distance defined light-based communication signal, the second message being different than the first message; receiving, at the receiver of the first vehicle, light emitted from a light source within an environment around the vehicle, wherein the light source is not part of a light-based communication system; and determining a status of the light source from one or more characteristics of the light emitted from the light source, wherein the one or more characteristics comprise at least one of wavelength, color, amplitude, intensity, and emission pattern; wherein the transmitter of the first vehicle includes an array of individual light sources disposed on a complex surface, and the first and second messages are directionally transmitted by illuminating different individual light sources of the array. 2. The method of claim 1 , wherein first message includes data pertaining to the speed of the first vehicle, and the second message includes data pertaining to the speed and relative position of the first vehicle. 3. The method of claim 1 , further comprising prioritizing processing of the first and second spatially and/or distance defined light-based communication signals based at least in part on the data included in those signals. 4. The method of claim 1 , wherein the first message and the second message are transmitted simultaneously. 5. The method of claim 1 , wherein after processing the first spatially and/or distance defined light-based communication signal at the first vehicle, the method further comprises: relaying the first spatially and/or distance defined light-based communication signal from the first vehicle to another vehicle. 6. The method of claim 1 , wherein after processing the first spatially and/or distance defined light-based communication signal at the first vehicle, the method further comprises: transmitting a third spatially and/or distance defined light-based communication signal from the first vehicle to a another vehicle, wherein the third spatially and/or distance defined light-based communication signal is inclusive of the first spatially and/or distance defined light-based communication signal and additional data received from the first vehicle. 7. The method of claim 1 , wherein after processing the first spatially and/or distance defined light-based communication signal at the first vehicle, the method further comprises: outputting a control signal to control a vehicle function. 8. The method of claim 1 , wherein after processing the first spatially and/or distance defined light-based communication signal at the first vehicle, the method further comprises: outputting a notification to at least one of a display hosted by the first vehicle and/or a speaker hosted by the first vehicle. 9. The method of claim 1 , wherein the first spatially and/or distance defined light-based communication signal comprises data pertaining to at least one of: a position and orientation of a transmitter from which the spatially and/or distance defined light-based communication signal originated; a position/orientation of a receiver hosted by the first vehicle; a distance between a transmitter from which the spatially and/or distance defined light-based communication signal originated and a receiver hosted by the first vehicle; a proximity of a receiver hosted by the first vehicle to a transmitter from which the spatially and/or distance defined light-based communication signal originated; and/or a heading of a transmitter from which the spatially and/or distance defined light-based communication signal originated. 10. A light-based communications system comprising: a receiver configured to sense incoming spatially and/or distance defined light-based vehicle-to-X (V2X) communication signals and to sense emitted light from a light source within an environment around the system, wherein the light source is not part of a light-based communication system; a transmitter configured to emit spatially and/or distance defined light-based vehicle-to-X (V2X) communication signals, the transmitter including an array of individual light sources disposed on a complex surface; and a processor configured to: determine a status of the light source from one or more characteristics of the light emitted from the light source, wherein the one or more characteristics comprise at least one of wavelength, color, amplitude, intensity, and emission pattern; process incoming spatially and/or distance defined light-based vehicle-to-X (V2X) communication signals sensed by the receiver; process outgoing spatially and/or distance defined light-based vehicle-to-X (V2X) communication signals emitted by the transmitter, the outgoing spatially and/or distance defined light-based vehicle-to-X (V2X) communication signals including: a first message to the first vehicle, the first message based at least in part on a first incoming spatially and/or distance defined light-based communication signal; and a second message to the second vehicle, the second message based at least in part on a second incoming spatially and/or distance defined light-based communication signal, the second message being different than the first message; wherein the first and second messages are directionally transmitted by illuminating different individual light sources of the array. 11. The system of claim 10 , wherein the receiver comprises a photosensor and the transmitter comprises at least one of a solid-state laser and/or one or more light-emitting diodes (LEDs). 12. The system of claim 10 further comprising a control module configured to output a control signal associated with a vehicle function. 13. The system of claim 10 further comprising at least one of a display configured to display a visual notification provided by the processor and/or a speaker configured to emit an aural notification provided by the processor. 14. A vehicle comprising the system of claim 10 . 15. The