Street lighting device including traffic sensing and communication with observers and associated methods

That which is claimed is: 1. A thoroughfare lighting device comprising: a housing configured to be attached to a thoroughfare surface, and comprising a top surface, a proximal face, a distal face, and first and second opposing sidewalls extending between the proximal and distal faces and extending from the top surface, wherein the first sidewall tapers in a direction of the distal face; a plurality of light-emitting diodes (LEDs) configured to selectively illuminate individual lanes of the thoroughfare surface, the plurality of LEDs comprising a first set of LEDs configured to emit a generally white light, and a second set of LEDs configured to emit colored light that is observable by an observer and that is operable to selectively emit light so as to illuminate individual lanes of the thoroughfare surface; a driver circuit electrically coupled to the plurality of LEDs and configured to operate the second set of LEDs to emit a colored light illuminating a single lane of the thoroughfare surface indicating a condition of the individual lane of the thoroughfare surface; optics carried by the housing and positioned in optical communication with at least a portion of the plurality of LEDs; and a traffic sensor communicatively coupled to the driver circuit and configured to sense a traffic pattern and generate information regarding traffic on the associated thoroughfare; wherein the driver circuit is configured to operate the plurality of LEDs responsive to the information generated by the traffic sensor. 2. The thoroughfare lighting device according to claim 1 wherein the driver circuit is configured to operate the plurality of LEDs to transmit data via visible light communication to another thoroughfare lighting device. 3. The thoroughfare lighting device according to claim 1 wherein the second set of LEDs comprises LEDs configured to emit light having a first color and LEDs configured to emit light having a second color that is different from the first color. 4. The thoroughfare lighting device according to claim 1 wherein the second set of LEDs is configured to emit at least one of blue light, red light, yellow light, and amber light. 5. The thoroughfare lighting device according to claim 1 wherein the driver circuit is configured to operate the second set of LEDs to emit a red light to indicate a stop in traffic; wherein the driver circuit is configured to operate the second set of LEDs to emit a yellow or amber light to indicate a slow-down in traffic; and wherein the driver circuit is configured to operate the second set of LEDs to emit a blue light to indicate the presence or imminent arrival of an emergency vehicle. 6. The thoroughfare lighting device according to claim 1 wherein the driver circuit is configured to alternately flash the first set of LEDs and the second set of LEDs. 7. The thoroughfare lighting device according to claim 1 wherein the optics comprise a first optic and a second optic; and wherein the plurality of LEDs is divided such that at least some of each of the first and second sets of LEDs are in optical communication with the first optic and at least some of each of the first and second sets of LEDs are in optical communication with the second optic. 8. The thoroughfare lighting device according to claim 1 wherein the second sidewall tapers in the direction of the distal face. 9. The thoroughfare lighting device according to claim 1 wherein the second sidewall tapers in the direction of the proximal face. 10. A thoroughfare lighting device comprising: a housing configured to be attached to a thoroughfare surface, having a top surface, a proximal face, a distal face, and first and second opposing sidewalls extending between the proximal and distal faces and extending from the top surface; a driver circuit carried by the housing; a plurality of light-emitting diodes (LEDs) electrically coupled to the driver circuit, the plurality of LEDs comprising a first set of LEDs configured to emit a generally white light and positioned so as to emit light in the direction of a surface of an associated thoroughfare, and a second set of LEDs configured to emit colored light in a direction so as to be observable by an observer and that is operable to selectively emit light so as to illuminate individual lanes of the thoroughfare surface; a first optic carried by the housing and positioned in optical communication with the plurality of LEDs; a second optic carried by the housing and positioned in optical communication with the plurality of LEDs; a communication device electrically coupled to the driver circuit and configured to receive condition information related to a condition of the thoroughfare; and a traffic sensor communicatively coupled to the driver circuit and configured to sense a traffic pattern and generate traffic information regarding traffic on the associated thoroughfare; wherein the driver circuit is configured to operate the plurality of LEDs responsive to the condition information received from the communication device and the traffic information generated by the traffic sensor, including operating the second set of LEDs to emit a red light to indicate a stop in traffic, operating the second set of LEDs to emit a yellow or amber light to indicate a slow-down in traffic, and operating the second set of LEDs to emit a blue light to indicate the presence or imminent arrival of an emergency vehicle. 11. The thoroughfare lighting device according to claim 10 wherein the first set of LEDs is configured to selectively illuminate individual lanes of the associated thoroughfare. 12. The thoroughfare lighting device according to claim 10 wherein the communication device comprises a wireless communication device. 13. The thoroughfare lighting device according to claim 10 wherein the plurality of LEDs is divided such that a portion of each of the first and second sets of LEDs are in optical communication with the first optic and another portion of each of the first and second sets of LEDs are in optical communication with the second optic. 14. The thoroughfare lighting device according to claim 10 wherein the communication device is configured to transmit the traffic information generated by the traffic sensor to at least one of another thoroughfare lighting device and a traffic monitoring center. 15. A method of lighting a throughfare using a thoroughfare lighting device, the method comprising: attaching a thoroughfare lighting device having a housing comprising a top surface, a proximal face, a distal face, and first and second opposing sidewalls extending between the proximal and distal faces and extending from the top surface, wherein the first sidewall tapers in a direction of the distal face to a thoroughfare surface, the thoroughfare lighting device including a driver circuit including a driver circuit, a plurality of light-emitting diodes (LEDs) electrically coupled to the driver circuit, the plurality of LEDs comprising a first set of LEDs configured to emit a generally white light, and a second set of LEDs configured to emit colored light, optics in optical communication with the plurality of LEDs to transmit light in a direction of the thoroughfare surface and in a direction so as to be observable by an observer, a communication device communicatively coupled to the driver circuit, and a traffic sensor communicatively coupled to the driver circuit; receiving condition information related to a condition of the thoroughfare via the communication device; sensing a traffic pattern via the traffic sensor and generating traffic information regarding traffic on