Radio frequency system sensor interface

What is claimed is: 1. A system of a machine, the system comprising: a network of a plurality of nodes distributed throughout the machine, each of the nodes operable to communicate through a plurality of electromagnetic signals; a radio frequency transceiver; a first antenna coupled to the radio frequency transceiver; a second antenna coupled to a first sensor node and a second sensor node of the plurality of nodes; and a controller coupled to the radio frequency transceiver and configured to: select at least one sensor node to interrogate; transmit one or more interrogation frequencies from the radio frequency transceiver through the first antenna to the second antenna; receive one or more sensor frequencies at the first antenna broadcast from the second antenna based on a frequency response of at least one of the first sensor node and the second sensor node to the one or more interrogation frequencies, wherein the first sensor node comprises one or more sensors with a first resonator and the second sensor node comprises one or more sensors with a second resonator, wherein at least one of the first sensor node and the second sensor node is configured to return two or more sensed values simultaneously, and wherein each of the one or more sensors of the first sensor node and each of the one or more sensors of the second sensor node are identified by a frequency closeness to a designated reference frequency, wherein each of the first resonator and the second resonator has a different resonant frequency and is configured to respond to one of the one or more interrogation frequencies, and a sensor of the one or more sensors of the first sensor node is coupled to the first resonator and comprises one of a capacitive sensor, a voltage sensor, or a resistive sensor; and determine one or more sensed values based on the one or more sensor frequencies received at the radio frequency transceiver through the first antenna, wherein at least one of the first resonator and the second resonator is a mechanical resonator having a fixed resonating frequency. 2. The system of claim 1 , further comprising a waveguide coupled to the first antenna and the second antenna, wherein the waveguide is configured to guide electromagnetic signals transmitted between the first antenna and the second antenna. 3. The system of claim 1 , wherein the first antenna and the second antenna are within an electromagnetically closed space. 4. The system of claim 1 , wherein the capacitive sensor is configured to shift a first resonant frequency of the first resonator based on a sensed capacitance of the capacitive sensor. 5. The system of claim 1 , wherein the voltage sensor is configured to shift a first resonant frequency of the first resonator based on a sensed voltage of the voltage sensor. 6. The system of claim 1 , wherein the resistive sensor is configured to change a magnitude of the first resonant frequency of the first resonator based on a sensed resistance of the resistive sensor. 7. A system for a gas turbine engine, the system comprising: a network of a plurality of nodes distributed throughout the gas turbine engine, each of the nodes associated with at least one sensor and/or effector of the gas turbine engine and operable to communicate through a plurality of electromagnetic signals; a radio frequency transceiver; a first antenna coupled to the radio frequency transceiver; a second antenna coupled to a first sensor node and a second sensor node of the plurality of nodes; and a controller coupled to the radio frequency transceiver and configured to: select at least one sensor node to interrogate; transmit one or more interrogation frequencies from the radio frequency transceiver through the first antenna to the second antenna; receive one or more sensor frequencies at the first antenna broadcast from the second antenna based on a frequency response of at least one of the first sensor node and the second sensor node to the one or more interrogation frequencies, wherein the first sensor node comprises one or more sensors with a first resonator and the second sensor node comprises one or more sensors with a second resonator, wherein at least one of the first sensor node and the second sensor node is configured to return two or more sensed values simultaneously, and wherein each of the one or more sensors of the first sensor node and each of the one or more sensors of the second sensor node are identified by a frequency closeness to a designated reference frequency, wherein each of the first resonator and the second resonator has a different resonant frequency and is configured to respond to one of the one or more interrogation frequencies, and a sensor of the one or more sensors of the first sensor node is coupled to the first resonator and comprises one of a capacitive sensor, a voltage sensor, or a resistive sensor; and determine one or more sensed values based on the one or more sensor frequencies received at the radio frequency transceiver through the first antenna, wherein at least one of the first resonator and the second resonator is a mechanical resonator having a fixed resonating frequency. 8. The system of claim 7 , wherein one or more nodes of the plurality of nodes are located at least one of a fan section, a compressor section, a combustor section and a turbine section of the gas turbine engine. 9. The system of claim 7 , wherein the capacitive sensor is configured to shift a first resonant frequency of the first resonator based on a sensed capacitance of the capacitive sensor. 10. The system of claim 7 , wherein the voltage sensor is configured to shift a first resonant frequency of the first resonator based on a sensed voltage of the voltage sensor. 11. The system of claim 7 , wherein the resistive sensor is configured to change a magnitude of the first resonant frequency of the first resonator based on a sensed resistance of the resistive sensor. 12. A method of establishing electromagnetic communication through a machine, the method comprising: configuring a network of a plurality of nodes to communicate through a plurality of electromagnetic signals, wherein the nodes are distributed throughout the machine; selecting, by a controller coupled to a radio frequency transceiver and a first antenna, at least one sensor node of the nodes to interrogate; transmitting one or more interrogation frequencies from the radio frequency transceiver through the first antenna to a second antenna coupled to a first sensor node and a second sensor node of the nodes; receiving one or more sensor frequencies at the first antenna broadcast from the second antenna based on a frequency response of at least one of the first sensor node and the second sensor node to the one or more interrogation frequencies, wherein the first sensor node comprises one or more sensors with a first resonator and the second sensor node comprises one or more sensors with a second resonator, wherein at least one of the first sensor node and the second sensor node is configured to return two or more sensed values simultaneously, and wherein each of the one or more sensors of the first sensor node and each of the one or more sensors of the second sensor node are identified by a frequency closeness to a designated reference frequency, wherein each of the first resonator and the second resonator has a different resonant frequency and is configured to respond to one of the one or more interrogation frequencies, and a sensor of the one or more sensors of the first sensor node is coupled to the first resonator and comprises one of a capacitive sensor, a voltage sensor, or a resistive sensor; and determining, by the controller,