Systems and methods for communicating data of a power transmission line

What is claimed is: 1. A distributed sensing system for monitoring a tire of an aircraft, the distributed sensing system comprising: a distributed sensing portion coupled to a wheel of the aircraft and configured to receive a power signal from a primary portion, the distributed sensing portion including, a sensor coupled to the wheel and capable of monitoring a parameter of the tire and outputting an analog reading, an analog to digital converter configured to convert the analog reading to a raw digital signal, and a microcontroller configured to compensate the raw digital signal to a conditioned digital signal based on a measured parameter and to modulate the power signal received from the primary portion to encode the conditioned digital signal in the power signal by modulating a current flow to the distributed sensing portion; and the primary portion coupled to a landing gear of the aircraft and configured to wirelessly provide the power signal to the distributed sensing portion and including, a signal demodulation module configured to extract the conditioned digital signal from the power signal based on the modulating by the microcontroller, and wherein the primary portion is in communication with a brake control unit of the aircraft. 2. The distributed sensing system of claim 1 , wherein the primary portion is configured to wirelessly supply power to and wirelessly receive data from the distributed sensing portion. 3. The distributed sensing system of claim 1 , wherein the primary portion further includes a waveform generator. 4. The distributed sensing system of claim 3 , wherein the waveform generator is electrically coupled to a primary rotary transformer portion. 5. The distributed sensing system of claim 4 , wherein the primary rotary transformer portion is configured to transmit an alternating current signal to a second rotary transformer portion associated with the distributed sensing portion. 6. The distributed sensing system of claim 5 , wherein the alternating current signal is modulated by a load modulation module in response to an input from the microcontroller. 7. The distributed sensing system of claim 1 , wherein the signal demodulation module comprises a bandpass filter that is configured to filter the power signal. 8. The distributed sensing system of claim 7 , wherein the signal demodulation module is configured to condition the conditioned digital signal. 9. The distributed sensing system of claim 8 , wherein the primary portion includes a controller that is configured to process the conditioned digital signal and indicate the parameter. 10. A method for monitoring a tire of an aircraft, comprising: measuring, with a pressure sensor of a distributed sensing portion of a distributed sensing system, a pressure of the tire; converting, by an analog to digital converter, an analog signal from the pressure sensor to a raw digital signal; conditioning, by a microcontroller, the raw digital signal to a conditioned digital signal based on the pressure measured by the pressure sensor; modulating, by a load modulation module of the distributed sensing portion, a power signal to encode the conditioned digital signal by modulating a current flow to the distributed sensing portion in response to the load modulation module receiving an output from the microcontroller; transmitting wirelessly, and via a second rotary transformer portion associated with the distributed sensing portion, the power signal to a primary rotary transformer portion of a primary portion of the distributed sensing system; extracting, by a signal conditioning module, the conditioned digital signal from the power signal; and analyzing, by a brake control unit of the aircraft, the conditioned digital signal to determine the pressure measured by the pressure sensor. 11. The method of claim 10 , further comprising monitoring, by an amplifier of a signal demodulation module, a voltage of the power signal. 12. The method of claim 11 , further comprising filtering, with a band pass filter, the power signal. 13. The method of claim 10 , further comprising digitizing, by the signal conditioning module, the conditioned digital signal. 14. The method of claim 11 , wherein the power signal is a power waveform generated by a waveform generator in the primary portion. 15. The method of claim 10 , wherein the load modulation module comprises a transistor in electronic communication with the microcontroller that is configured to modulate the power signal at the pressure sensor. 16. The method of claim 10 , wherein the distributed sensing portion is coupled to a rotating component of the aircraft. 17. The method of claim 10 , wherein the distributed sensing portion is coupled to a wheel of the aircraft, and wherein the primary portion is coupled to a landing gear strut of the aircraft. 18. The distributed sensing system of claim 1 , wherein the sensor comprises a pressure sensor, and wherein the parameter comprises a pressure within a chamber defined between the tire and the wheel of the aircraft. 19. The distributed sensing system of claim 1 , wherein the sensor comprises a temperature sensor, and wherein the parameter comprises a temperature of the tire.