Parking management systems and methods for indicating occupied and unoccupied parking spaces

What is claimed is: 1. A parking management system comprising: a light detector, wherein the light detector comprises a solar light detector; a reflector positioned within a parking space and aligned to direct received light to the light detector; and a processor receiving a signal from the light detector, the signal being indicative of an amount of light detected by the light detector, and the processor causing a parking space indicator to indicate that the parking space is unoccupied based on the amount of light detected by the light detector being greater than a threshold and causing the parking space indicator to indicate that the parking space is occupied based on the amount of light detected by the light detector being less than the threshold. 2. The parking management system of claim 1 , wherein the solar light detector is positioned proximal to the parking space. 3. The parking management system of claim 1 , wherein the light detector is connected to the parking space indicator, and wherein the light detector generates power to operate the parking space indicator. 4. The parking management system of claim 1 , wherein the light detector is connected to the processor, and wherein the light detector generates power to operate the processor. 5. The parking management system of claim 1 , wherein the light detector detects the light directed by the reflector and generates the signal based on the detected light. 6. The parking management system of claim 5 , wherein the signal is a power signal, and wherein an amount of power generated is based on an amount of light directed by the reflector to the solar light detector, which in turn, is based on whether the parking space is occupied or unoccupied. 7. The parking management system of claim 1 , wherein when the parking space is unoccupied the reflector directs a first amount of received light to the light detector and when the parking space is occupied the reflector directs a second amount of received light to the light detector, wherein the first amount of received light is greater than the second amount of received light. 8. The parking management system of claim 1 , wherein the reflector is a passive retroreflector. 9. The parking management system of claim 1 , wherein the reflector is positioned on a surface of the parking space. 10. The parking management system of claim 1 , wherein the reflector includes a corner cube retroreflector. 11. The parking management system of claim 1 , wherein the reflector includes a reflective strip of material on the parking space. 12. The parking management system of claim 1 , further comprising the parking space indicator, wherein the parking space indicator comprises a light source that changes color to indicate whether the parking space is occupied or unoccupied. 13. The parking management system of claim 12 , wherein the parking space indicator is positioned on a light post. 14. The parking management system of claim 1 , further comprising: a plurality of reflectors respectively positioned within a plurality of parking spaces and aligned to direct received light to the light detector, wherein the light detector has defined areas for receiving light from the plurality of reflectors; and wherein the signal output by the light detector indicates the amount of light detected by the light detector from each of the defined areas, and wherein the processor causes respective parking space indicators corresponding to the plurality of parking spaces to indicate that respective parking spaces are unoccupied based on the amount of light detected by the light detector corresponding to areas of the defined areas for receiving light from corresponding reflectors within the respective parking spaces being greater than a threshold and causes the respective parking space indicators to indicate that the respective parking spaces are occupied based on the amount of light detected by the light detector corresponding to the areas of the defined areas for receiving light from corresponding reflectors within the respective parking spaces being less than the threshold. 15. The parking management system of claim 14 , further comprising: the parking space indicators positioned on a light post, wherein each parking space indicator is associated with one parking space. 16. A parking management system comprising: a plurality of light detectors, and each light detector being associated with a respective parking space of a plurality of parking spaces, wherein the plurality of light detectors comprise solar light detectors; a plurality of reflectors, and each reflector positioned within a respective parking space of the plurality of parking spaces and aligned to direct received light to a respective light detector of the plurality of light detectors that is associated with the respective parking space; and a plurality of processors, and each processor receiving a signal from a respective light detector, the signal being indicative of an amount of light detected by the respective light detector, and each processor causing a parking space indicator associated with a respective parking space to indicate that the respective parking space is unoccupied based on the amount of light detected by the respective light detector associated with the respective parking space being greater than a threshold and causing the respective parking space indicator to indicate that the respective parking space is occupied based on the amount of light detected by the respective light detector associated with the respective parking space being less than the threshold. 17. The parking management system of claim 16 , wherein the solar light detectors are positioned proximal to respective parking spaces of the plurality of parking spaces. 18. The parking management system of claim 16 , wherein the solar light detectors detect the light directed by the plurality of reflectors and generate respective signals based on the detected light, wherein the respective signals are power signals, and wherein an amount of power generated is based on an amount of light directed by a respective reflector to a respective solar light detector, which in turn, is based on whether the respective parking space is occupied or unoccupied. 19. A method comprising: receiving a signal from a light detector associated with a parking space, the signal being indicative of an amount of light detected by the light detector including any light directed to the light detector by a reflector positioned within the parking space, wherein the light detector comprises a solar light detector; causing a parking space indicator to indicate that the parking space is unoccupied based on the amount of light detected by the light detector being greater than a threshold; and causing the parking space indicator to indicate that the parking space is occupied based on the amount of light detected by the light detector being less than the threshold. 20. The method of claim 19 , wherein the signal is a power signal, and the method further comprises: detecting the light directed to the light detector by the reflector; and generating the signal based on the detected light, wherein an amount of power generated is based on an amount of light directed by the reflector to the solar light detector, which in turn, is based on whether the parking space is occupied or unoccupied.