Microwave thermometry for microwave ablation systems

What is claimed is: 1. A microwave ablation system comprising: a microwave applicator including an antenna configured to deliver microwave energy to ablate tissue; a microwave generator coupled to the microwave applicator via a transmission network and configured to generate a microwave signal and transmit the microwave signal to the antenna; a radiometer configured to measure a noise temperature from a signal propagating through the transmission network; a controller configured to turn off the microwave signal generated by the microwave generator for a predetermined period and to control the radiometer to measure the noise temperature during the predetermined period; and at a first thermocouple configured to measure a first temperature of a cooling fluid and a second thermocouple configured to measure a second temperature of the cooling fluid, the radiometer configured to measure the noise temperature when the first temperature is substantially the same as the second temperature. 2. The microwave ablation system according to claim 1 , wherein the controller is configured to control the microwave generator to generate a pulse-width modulated (PWM) microwave signal and to control the radiometer to measure the noise temperature during the off periods of the PWM microwave signal. 3. The microwave ablation system according to claim 1 , wherein the controller is configured to control the radiometer to measure a noise temperature curve during the predetermined period. 4. The microwave ablation system according to claim 1 , wherein the second thermocouple is in thermal communication with the transmission network and measures, as the second temperature, a temperature of the transmission network. 5. The microwave ablation system according to claim 1 , further comprising: a fluid cooling system including an inlet for receiving the cooling fluid to cool the transmission network and an outlet for returning the cooling fluid from cooling the transmission network; wherein the first thermocouple is in thermal communication with the cooling fluid flowing into the inlet and measures, as the first temperature, a temperature of the cooling fluid flowing into the inlet, and wherein the second thermocouple is in thermal communication with the cooling fluid flowing out of the outlet and measures, as the second temperature, a temperature of the cooling fluid flowing out of the outlet. 6. The microwave ablation system according to claim 1 , wherein to obtain the noise temperature of the transmission network, the controller is further configured to: record a first noise temperature measured by the radiometer at the time that the microwave signal turns off; record a second noise temperature measured by the radiometer at the time that the transmission network temperature reaches a predetermined temperature; and calculate the difference between the first noise temperature and the second noise temperature to obtain the noise temperature of the transmission network. 7. The microwave ablation system according to claim 6 , wherein the controller is further configured to control the microwave signal generated by the microwave generator based on the noise temperature of the transmission network. 8. A microwave ablation system comprising: a microwave applicator including an antenna configured to deliver microwave energy to ablate tissue; a microwave generator coupled to the microwave applicator via a transmission network and configured to generate a pulse-width modulated (PWM) microwave signal and transmit the PWM microwave signal to the antenna; a radiometer configured to measure a noise temperature propagating through the transmission network; and a controller configured to: control the radiometer to measure the noise temperature during each of the off times of the PWM microwave signal; determine a slope of magnitude of the noise temperature measurements; record a noise temperature measurement when the slope of magnitude of the noise temperature measurements represents solely the temperature of the tissue; determine whether the noise temperature measurements are greater than a predetermined noise temperature value; and shut off the PWM microwave signal or reduce the duty cycle of the PWM microwave signal if it is determined that any one or more of the noise temperature measurements is greater than the predetermined noise temperature value. 9. The microwave ablation system according to claim 8 , wherein to obtain the noise temperature of the transmission network, the controller is further configured to: record a first slope of magnitude of the noise temperature measurements by the radiometer at a predetermined time; record a second slope of magnitude of the noise temperature measurements by the radiometer at the time that a transmission network temperature reaches a predetermined temperature; and calculate the difference between a first noise temperature and a second noise temperature based on the first slope of magnitude of the noise temperature measurements and the second slope of magnitude of the noise temperature measurements to obtain the noise temperature of the transmission network. 10. The microwave ablation system according to claim 8 , wherein the controller is further configured to control the microwave signal generated by the microwave generator based on the noise temperature of the transmission network. 11. A microwave ablation system comprising: a microwave applicator including an antenna configured to deliver microwave energy to ablate tissue; a microwave generator coupled to the microwave applicator via a transmission network and configured to generate a microwave signal and transmit the microwave signal to the antenna; a radiometer configured to measure noise temperature from a signal propagating through the transmission network; a controller configured to turn off the microwave signal generated by the microwave generator for a predetermined period and to control the radiometer to measure noise temperature during the predetermined period; and a thermocouple configured to measure a temperature of the transmission network; wherein to obtain the noise temperature of the transmission network, the controller is configured to: record a first noise temperature measured by the radiometer at a time that the microwave signal turns off, record a second noise temperature measured by the radiometer at a time that the transmission network temperature reaches a predetermined temperature; and calculate the difference between the first noise temperature and the second noise temperature to obtain the noise temperature of the transmission network.