Open loop wake-up radio based on transmitter fingerprinting

What is claimed is: 1. A first network device comprising: a first wireless receiver configured to: transition between a low power state and a high power state; and while in the high power state, receive a first wireless signal that contains data from a second network device; a second wireless receiver configured to, while the first wireless receiver is in the low power state, receive a second wireless signal; and a processor coupled to the first wireless receiver and the second wireless receiver and configured to: determine a first fingerprint associated with the second network device based on the first wireless signal; determine a second fingerprint associated with the second wireless signal; compare the second fingerprint to the first fingerprint to determine whether the second wireless signal is associated with the second network device; and based on the second wireless signal being associated with the second network device, cause the first wireless receiver to transition from the low power state to the high power state. 2. The first network device of claim 1 , wherein the second fingerprint is based on a power spectral density of the second wireless signal. 3. The first network device of claim 2 , wherein the first fingerprint is based on a power spectral density of the first wireless signal. 4. The first network device of claim 2 , wherein: the first wireless signal includes an IEEE 802.11a preamble; and the first fingerprint is based on a power spectral density of the IEEE 802.11a preamble of the first wireless signal. 5. The first network device of claim 1 , wherein: the first wireless receiver is configured to couple to a first antenna; and the second wireless receiver is configured to couple to a second antenna that is different from the first antenna. 6. The first network device of claim 1 , wherein the processor is configured compare the second fingerprint to the first fingerprint associated with the second network device based on the second network device being paired with the first network device. 7. The first network device of claim 1 further comprising a memory coupled to the processor and configured to store the first fingerprint. 8. The first network device of claim 1 further comprising a sensor coupled to the processor and configured to provide a set of sensor data. 9. The first network device of claim 8 further comprising a radio that includes the first wireless receiver, wherein the radio is configured to transmit the set of sensor data. 10. A first network device comprising: a sensor configured to provide a set of sensor data; a first radio coupled to the sensor and configured to: transition between a low power state and a high power state; and while in the high power state: receive a first wireless signal from a second network device; and transmit the set of sensor data to the second network device; a second radio configured to receive a second wireless signal; and a processor coupled to the first radio and the second radio and configured to: determine a first fingerprint associated with the second wireless signal; compare the first fingerprint to a second fingerprint associated with the second network device to determine whether the second wireless signal is associated with the second network device; and based on the second wireless signal being associated with the second network device, cause the first radio to transition from the low power state to the high power state. 11. The first network device of claim 10 , wherein: the first fingerprint is based on a power spectral density of the second wireless signal; and the second fingerprint is based on a power spectral density of the first wireless signal. 12. The first network device of claim 11 , wherein: the first wireless signal includes an IEEE 802.11a preamble; and the second fingerprint is based on a power spectral density of the IEEE 802.11a preamble of the first wireless signal. 13. The first network device of claim 10 , wherein the processor is configured compare the first fingerprint to the second fingerprint associated with the second network device based on the second network device being paired with the first network device. 14. The first network device of claim 10 further comprising a memory coupled to the processor and configured to store the second fingerprint. 15. A method comprising: receiving, by a first receiver, a first wireless signal from a transmitting device; determining a first fingerprint associated with the first wireless signal; receiving, by a second receiver that is different from the first receiver, a second wireless signal; determining a second fingerprint associated with the second wireless signal; comparing the first fingerprint to the second fingerprint to determine whether the second wireless signal is associated with the transmitting device; and determining whether to transition the first receiver from a low power state to a high power state based on whether the second wireless signal is associated with the transmitting device. 16. The method of claim 15 , wherein: the first fingerprint is based on a power spectral density of the first wireless signal; and the second fingerprint is based on a power spectral density of the second wireless signal. 17. The method of claim 16 , wherein: the first wireless signal includes an IEEE 802.11a preamble; and the second fingerprint is based on a power spectral density of the IEEE 802.11a preamble of the first wireless signal. 18. The method of claim 15 , wherein the comparing of the first fingerprint to the second fingerprint is based on a pairing relationship with the transmitting device. 19. The method of claim 15 further comprising: receiving sensor data; and transmitting the sensor data to the transmitting device. 20. The method of claim 19 , wherein the transmitting of the sensor data is performed by the first receiver.