Air conditioning system and method for controlling air conditioning system

What is claimed is: 1. An air conditioning system, comprising: an outdoor unit; an indoor heat exchanger connected to the outdoor unit, the indoor heat exchanger comprising a temperature sensor; an auxiliary heat source arranged as an auxiliary to the outdoor unit and operated by an energy source different from an energy source of the outdoor unit; a thermostat configured to control a temperature of an installation space supplied with cold air or warm air by the outdoor unit and the auxiliary heat source; and a communicator that connect a first side of the air conditioning system including the thermostat with a second side of the air conditioning system including the indoor heat exchanger and the auxiliary heat source, the communicator comprising: an input unit connected to the thermostat; a first output unit connected to the auxiliary heat source; a second output unit connected to the outdoor unit; and a controller configured to process signals between the input unit, the first output unit, and the second output unit, wherein the controller monitors an operating state of at least one of the outdoor unit or the auxiliary heat source using the temperature sensor, and wherein the outdoor unit and the auxiliary heat source are connected to the communicator using different communication schemes. 2. The air conditioning system of claim 1 , wherein the thermostat and the auxiliary heat source are connected to the communicator using a first communication scheme, and the outdoor unit is connected to the communicator using a second communication scheme, wherein the controller changes and processes a first signal according to the first communication scheme and a second signal according to the second communication scheme. 3. The air conditioning system of claim 1 , wherein the temperature sensor is a duct temperature sensor arranged on a duct of the indoor heat exchanger. 4. The air conditioning system of claim 3 , wherein the duct temperature sensor comprises: an inlet sensor arranged on an inlet duct of the indoor heat exchanger; and an outlet sensor arranged on an outlet duct of the indoor heat exchanger. 5. The air conditioning system of claim 1 , wherein the auxiliary heat source is a gas furnace, and the outdoor unit is a heat pump. 6. The air conditioning system of claim 3 , wherein the controller switches an operation to the auxiliary heat source when an error is maintained in the outdoor unit for a predetermined time or longer, or when a temperature detected by the duct temperature sensor is maintained to be less than or equal to a first temperature for a predetermined time. 7. The air conditioning system of claim 3 , wherein the controller switches an operation to the auxiliary heat source when an error is maintained in the outdoor unit for a predetermined time or longer, when a temperature detected by the duct temperature sensor is maintained to be less than or equal to a first temperature for a first period of time, or when the temperature detected by the duct temperature sensor is maintained between the first temperature and a second temperature higher than the first temperature for a second period of time longer than the first period of time. 8. The air conditioning system of claim 3 , wherein the controller switches an operation of the auxiliary heat source to the outdoor unit when a temperature detected by the duct temperature sensor during operation of the auxiliary heat source is maintained to be less than or equal to a first temperature for a predetermined period of time. 9. A method for controlling an air conditioning system including an outdoor unit, an indoor heat exchanger connected to the outdoor unit and including a temperature sensor, an auxiliary heat source arranged as an auxiliary to the outdoor unit and operated by an energy source different from an energy source of the outdoor unit, and a communicator connected to the outdoor unit, the indoor heat exchanger, and the auxiliary heat source, wherein the communicator connects a first side of the air conditioning system including a thermostat with a second side of the air conditioning system including the indoor heat exchanger and the auxiliary heat source, and wherein the outdoor unit and the auxiliary heat source are connected to the communicator using different communication schemes, the method comprising: receiving a heating signal when a heating operation is started; determining one of a first heating using the outdoor unit or a second heating using the auxiliary heat source, based on an outdoor temperature; transmitting an operation signal to the outdoor unit when the first heating is determined; determining whether the outdoor unit has failed and switching to the second heating when it is determined that the outdoor unit has failed; transmitting an operation signal to the auxiliary heat source when the second heating is determined; and determining whether the auxiliary heat source has failed and switching to the first heating when it is determined that the auxiliary heat source has failed, wherein the temperature sensor is a duct temperature sensor arranged on a duct of the indoor heat exchanger. 10. The method of claim 9 , further comprising: transmitting a fan operation signal to the auxiliary heat source when the first heating is determined. 11. The method of claim 10 , wherein, based on a determination that the auxiliary heat source has failed, stopping the second heating using the auxiliary heat source, but maintaining the fan operation signal. 12. The method of claim 9 , wherein it is determined that the outdoor unit has failed when an error is maintained in the outdoor unit for a predetermined time or longer, or when a temperature detected by the duct temperature sensor is maintained to be less than or equal to a first temperature for a predetermined time. 13. The method of claim 9 , wherein it is determined that the outdoor unit has failed when an error is maintained in the outdoor unit for a predetermined time or longer, when a temperature detected by the duct temperature sensor is maintained to be less than or equal to a first temperature for a first period of time, or when the temperature detected by the duct temperature sensor is maintained between the first temperature and a second temperature higher than the first temperature for a second period of time longer than the first period of time. 14. The method of claim 9 , wherein it is determined that the auxiliary heat source has failed when a temperature detected by the duct temperature sensor during operation of the auxiliary heat source is maintained to be less than or equal to a first temperature for a predetermined period of time. 15. An air conditioning system, comprising: an outdoor unit; an indoor heat exchanger connected to the outdoor unit, the indoor heat exchanger comprising a temperature sensor; a gas furnace operated by an energy source different from an energy source of the outdoor unit; a thermostat configured to control a temperature of an installation space supplied with cold air or warm air by the outdoor unit and the gas furnace; and a communicator that connects a first side of the air conditioning system including the thermostat with a second side of the air conditioning system including the indoor heat exchanger and the gas furnace, the communicator comprising: an input unit connected to the thermostat; a first output unit connected to the gas furnace; a second output unit connected to the outdoor unit; and a controller configured to process signals between the input unit, the first output unit, and the second output unit, wherein the controller monit