Cross heating thermocouple based pan sensing

What is claimed is: 1. A cooktop, comprising: a first burner; a second burner; a first temperature sensor adjacent the first burner; a second temperature sensor adjacent the second burner; and a cooktop controller operatively connected to the first temperature sensor to receive a first temperature signal from the first temperature sensor, and operatively connected to the second temperature sensor to receive a second temperature signal from the second temperature sensor, wherein the cooktop controller is configured to determine, from the second temperature signal, an absence of a cooking vessel at the first burner, and to automatically downwardly adjust a heat output of the first burner based on the absence of a cooking vessel at the first burner. 2. The cooktop of claim 1 , wherein: the first and second burners are gas burners, and the cooktop controller is further configured to determine a presence of a flame at the first burner from the first temperature signal, and to determine a presence of a flame at the second burner from the second temperature signal. 3. The cooktop of claim 2 , wherein the cooktop controller is further configured to determine, from the first temperature signal, an absence of a cooking vessel at the second burner, and to automatically downwardly adjust a heat output of the second burner based on the absence of a cooking vessel at the second burner. 4. The cooktop of claim 1 , wherein the first and second burners are gas burners, the cooktop further comprising: a user interface device operatively connected to the cooktop controller for inputting a level setting for the first burner to the cooktop controller, wherein the heat output of the first burner is automatically downwardly adjusted from the level setting based on the absence of a cooking vessel at the first burner, and subsequently automatically upwardly adjusted to the level setting by the cooktop controller based on a determination that a cooking vessel is not absent at the first burner, wherein the determination that a cooking vessel is not absent at the first burner is made by the cooktop controller based on the second temperature signal. 5. The cooktop of claim 4 , wherein the cooktop controller is further configured to determine a presence of a flame at the first burner from the first temperature signal. 6. The cooktop of claim 1 , further comprising: a third burner; and a third temperature sensor adjacent the third burner, wherein the cooktop controller is operatively connected to the third temperature sensor to receive a third temperature signal from the third temperature sensor, and configured to determine a temperature sensor malfunction from a difference between the second temperature signal and the third temperature signal. 7. The cooktop of claim 6 , wherein the cooktop controller is further configured to determine a presence of a flame at the first burner from the first temperature signal, a presence of a flame at the second burner from the second temperature signal, and a presence of a flame at the third burner from the third temperature signal. 8. A cooktop, comprising: a first gas burner; a second gas burner; a first temperature sensor adjacent the first gas burner; a second temperature sensor adjacent the second gas burner such that the second temperature sensor is closer to the second gas burner than the first gas burner; a first cooking vessel support for supporting a cooking vessel at the first gas burner; a first gas valve for controlling a first gas flow through the first gas valve to the first gas burner; a first valve actuator operatively connected to the first gas valve and configured to adjust the first gas flow through the first gas valve; and a programmable cooktop controller operatively connected to the first temperature sensor to receive a first temperature signal from the first temperature sensor, operatively connected to the second temperature sensor to receive a second temperature signal from the second temperature sensor, and operatively connected to the first valve actuator to control operations of the first valve actuator, wherein the programmable cooktop controller is programmed to: determine a presence of a flame at the first gas burner from a level of the first temperature signal, determine a presence of a flame at the second gas burner from a level of the second temperature signal, determine an absence of a cooking vessel at the first gas burner from the level of the second temperature signal, and automatically downwardly adjust the first gas flow to the first gas burner based on the absence of a cooking vessel at the first gas burner. 9. The cooktop of claim 8 , wherein the programmable cooktop controller is further programmed to determine a temperature sensor malfunction. 10. The cooktop of claim 8 , further comprising a second cooking vessel support for supporting a cooking vessel at the second gas burner; a second gas valve for controlling a second gas flow through the second gas valve to the second gas burner; and a second valve actuator operatively connected to the second gas valve and configured to adjust the second gas flow through the second gas valve, wherein the programmable cooktop controller is operatively connected to the second valve actuator to control operations of the second valve actuator, and the programmable cooktop controller is programmed to determine an absence of a cooking vessel at the second gas burner from the level of the first temperature signal, and to automatically downwardly adjust the second gas flow to the second gas burner based on the absence of a cooking vessel at the second gas burner. 11. The cooktop of claim 8 , further comprising a user interface device operatively connected to the programmable cooktop controller for inputting a flame level setting for the first gas burner to the programmable cooktop controller, wherein the first gas flow to the first gas burner is automatically downwardly adjusted from a flow level corresponding to the flame level setting, based on the absence of a cooking vessel at the first gas burner, and subsequently automatically upwardly adjusted to the flow level corresponding to the flame level setting by the programmable cooktop controller based on a determination that a cooking vessel is not absent at the first gas burner, wherein the determination that a cooking vessel is not absent at the first gas burner is made by the programmable cooktop controller based on the second temperature signal. 12. The cooktop of claim 8 , further comprising a third temperature sensor, wherein: the first temperature sensor is closer to the first gas burner than is the third temperature sensor, the programmable cooktop controller is operatively connected to the third temperature sensor to receive a third temperature signal from the third temperature sensor, and the programmable cooktop controller is programmed to determine a temperature sensor malfunction from a difference between the level of the second temperature signal and a level of the third temperature signal while the first gas burner operates. 13. The cooktop of claim 12 , further comprising a third gas burner, wherein the third temperature sensor is adjacent the third gas burner. 14. A cooktop burner control method, comprising the steps of: activating a first burner of the cooktop; receiving a first temperature signal from a first temperature sensor adjacent the first burner; receiving a second temperature signal from a second temperature sensor, the second temperature sensor being remote from the first burner; determining whether a cooking vessel is absent from th