Secure contactless data communication

What is claimed is: 1. A method comprising: initiating a communication session with a device; performing a first validation by comparing a first set of signals transmitted in series from antennas of the device to a second set of signals transmitted in parallel from the antennas and determining whether or not the second set of signals is validated based on a result of the comparing the first set of signals to the second set of signals; determining, as a result of the first validation, that the second set of signals is validated based on a positive result of the comparing of the first set of signals to the second set of signals; performing a second validation by using the result of the first validation, comparing a third set of signals transmitted in series from the antennas of the device to a fourth set of signals transmitted in parallel from the antennas, where the third set of signals is generated by varying a characteristic of the first set of signals, and determining whether or not the fourth set of signals is validated based on a result of the comparing the third set of signals to the fourth set of signals; determining, as a result of the second validation, that the fourth set of signals is validated based on a positive result of the comparing of the third set of signals to the fourth set of signals; and maintaining the communication session with the device by using the result of the second validation. 2. The method of claim 1 , further comprising: receiving the first set of signals transmitted in series from the antennas; determining a first reference signal based on the received first set of signals; and receiving the second set of signals transmitted in parallel from the antennas to obtain a first composite signal, wherein the determining whether or not the second set of signals is validated comprises determining whether the first composite signal comprises at least one characteristic that is substantially equal to at least one characteristic of the first reference signal within a specified tolerance level. 3. The method of claim 2 , wherein the at least one characteristic of the first reference signal comprises at least one of: an amplitude, a frequency, a phase, and an angle. 4. The method of claim 1 , further comprising: receiving the third set of signals transmitted in series from the antennas; determining a second reference signal based on the received third set of signals; and receiving the fourth set of signals transmitted in parallel from the antennas to obtain a second composite signal, wherein the determining whether or not the fourth set of signals is validated comprises determining whether the second composite signal includes at least one characteristic that is substantially equal to at least one characteristic of the second reference signal within a specified tolerance level. 5. The method of claim 4 , wherein the at least one characteristic of the second reference signal comprises at least one of: an amplitude, a frequency, a phase, and an angle. 6. The method of claim 1 , wherein the first set of signals comprises a first signal transmitted from a first antenna of the antennas and a second signal transmitted from the second antenna of the antennas that are transmitted in series, and the second set of signals comprises the first signal from the first antenna and the second signal from the second antenna that are transmitted in parallel, and wherein the third set of signals comprises a third signal from the first antenna and a fourth signal from the second antenna that are transmitted in series, and the fourth set of signals comprises the third signal from the first antenna and the fourth signal from the second antenna that are transmitted in parallel. 7. The method of claim 6 , wherein the third signal is generated by varying a characteristic of the first signal. 8. The method of claim 7 , wherein the third signal comprises a phase shift of the first signal. 9. The method of claim 7 , wherein the third signal comprises a modification of an amplitude of the first signal. 10. The method of claim 7 , wherein the third signal comprises a frequency change of the first signal. 11. The method of claim 6 , wherein the fourth signal is generated by varying a characteristic of the second signal. 12. The method of claim 6 , further comprising determining a second reference signal based on the third signal and the fourth signal by combining the third signal and the fourth signal. 13. The method of claim 6 , wherein the third set of signals comprises at least one of a variation of the first signal and a variation of the second signal. 14. A system comprising: at least one antenna operable to: receive a first set of signals transmitted in series from antennas of a device; receive a second set of signals transmitted in parallel from the antennas; receive a third set of signals transmitted in series from the antennas, the third set of signals being generated by varying a characteristic of the first set of signals; and receive a fourth set of signals transmitted in parallel from the antennas; and at least one processor configured to: initiate a communication session with the device; perform a first validation by comparing the received first set of signals to the received second set of signals, and determining whether or not the received second set of signals is validated based on a result of the comparing the received first set of signals to the received second set of signals; determine, as a result of the first validation, that the received second set of signals is validated based on a positive result of the comparing of the received first set of signals to the received second set of signals; perform a second validation by using the result of the first validation, comparing the received third set of signals to the received fourth set of signals, and determining whether or not the received fourth set of signals is validated based on a result of the comparing the received third set of signals to the received fourth set of signals; determine, as a result of the second validation, that the received fourth set of signals is validated based on a positive result of the comparing of the received third set of signals to the received fourth set of signals; and maintain the communication session with the device by using the result of the second validation. 15. The system of claim 14 , wherein the at least one processor is configured to determine a first reference signal based on the received first set of signals, wherein the at least one antenna is operable to receive the second set of signals transmitted in parallel from the antennas to obtain a first composite signal, and wherein the at least one processor is configured to determine whether or not that the received second set of signals is validated by determining whether the first composite signal comprises at least one characteristic that is substantially equal to at least one characteristic of the first reference signal within a specified tolerance level. 16. The system of claim 15 , wherein the at least one characteristic of the first reference signal comprises at least one of: an amplitude, a frequency, a phase, and an angle. 17. The system of claim 14 , wherein the first set of signals comprises a first signal transmitted from a first antenna of the antennas and a second signal transmitted from the second antenna of the antennas that are transmitted in series, and the second set of signals comprises the first signal from the first antenna and the second signal from the second antenna that