License plate validation

What is claimed is: 1. A license plate validation system for a vehicle, comprising: a radio frequency identification (RFID) reader located inside the vehicle and configured to read from an RFID-enabled license plate on the vehicle upon detecting an attempt to start the vehicle; and a microcontroller coupled to the RFID reader and configured to: receive, from the RFID reader, information obtained from the RFID-enabled license plate; and determine, based at least on the received information, whether the vehicle is properly registered by: determining whether the RFID reader is able to read from the RFID-enabled license plate; and in response to determining that the RFID reader is not able to read from the RFID-enabled license plate, determining that the vehicle is not properly registered, wherein the RFID reader is not able to read from the RFID-enabled license plate as a result of a registration sticker on the RFID-enabled license plate has degraded due to an expired registration. 2. The license plate validation system of claim 1 , wherein the RFID reader is positioned inside the vehicle to be within an effective read range of the RFID-enabled license plate. 3. The license plate validation system of claim 1 , wherein the RFID reader is a multi-purpose RFID reader configured to perform one or more functions other than reading the RFID-enabled license plate. 4. The license plate validation system of claim 3 , wherein the one or more functions include locking and unlocking the vehicle. 5. The license plate validation system of claim 1 , wherein the RFID reader is a dedicated RFID reader configured specifically for validating the RFID-enabled license plate. 6. The license plate validation system of claim 1 , wherein the microcontroller is implemented as an onboard computer of the vehicle. 7. The license plate validation system of claim 1 , wherein the microcontroller and the RFID reader are integrated as a single electronic module. 8. The license plate validation system of claim 7 , wherein the single electronic module is a System on Chip (SoC). 9. The license plate validation system of claim 1 , wherein the microcontroller and the RFID reader are coupled through a wired connection, a wireless connection, or a combination of both. 10. The license plate validation system of claim 1 , wherein upon determining that the vehicle is not properly registered, the microcontroller is further configured to prevent the vehicle from starting. 11. The license plate validation system of claim 1 , wherein the microcontroller stores a first identifier uniquely identifying the vehicle. 12. The license plate validation system of claim 11 , wherein the received information includes a second identifier stored in an RFID module embedded in the RFID-enabled license plate. 13. The license plate validation system of claim 12 , wherein the microcontroller is further configured to determine whether the vehicle is properly registered by: determining whether the second identifier read from the RFID-enabled license plate matches the first identifier stored on the microcontroller; and if a match is found, determining that the vehicle is properly registered. 14. The license plate validation system of claim 13 , wherein the microcontroller is further configured to permit the vehicle to start if the first and second identifiers match each other. 15. The license plate validation system of claim 13 , wherein if the second identifier read from the RFID-enabled license plate does not match the first identifier stored on the microcontroller, the microcontroller is further configured to: prevent the vehicle from starting; and alert owner of the vehicle that the RFID-enabled license plate is not a valid license plate. 16. A computer-implemented method for automatically validating electronic registration information based on an RFID-enabled license plate of a vehicle, the method comprising: upon detecting an attempt to start the vehicle, activating an RFID reader inside the vehicle to access an RFID transponder embedded in the RFID-enabled license plate; determining whether the RFID reader is able to read from the RFID transponder; and if the RFID reader is not able to read from the RFID transponder, preventing the vehicle from starting; otherwise, receiving, from the RFID reader, an identifier read from the RFID transponder; determining whether the received identifier matches an identifier stored on a microcontroller coupled to the RFID reader; and if so, determining that the vehicle is properly registered and permitting the vehicle to start; otherwise, preventing the vehicle from starting, wherein the RFID reader is not able to read the RFID-enabled license plate when the RFID transponder is decoupled from an RFID booster disposed on the RFID-enabled license plate, and the RFID transponder is decoupled from an RFID booster as a result of a registration sticker on the RFID-enabled license plate which would otherwise couple the RFID transponder to the RFID booster has degraded due to an expired registration. 17. The computer-implemented method of claim 16 , the method further comprising: if it is determined that the received identifier matches the identifier stored on the microcontroller coupled to the RFID reader; determining that the RFID-enabled license plate is original; otherwise, alerting owner of the vehicle that the RFID-enabled license plate is not original. 18. The computer-implemented method of claim 17 , wherein the method is executed periodically at a predetermined time interval.