Control method of appliance

What is claimed is: 1. A control method of an appliance including a first unit that has a first cavity, a first door and a first sensor; a second unit that has a second cavity, a second door and a second sensor; and at least one controller, the control method comprising: sensing, by the first sensor and the second sensor, vibrations in at least one of the first unit or the second unit; determining, by the at least one controller, whether the sensed vibrations are caused by a knock; based on determining that the sensed vibrations are caused by the knock, generating, by the at least one controller, respective knock-on signals for the first unit and for the second unit; comparing, by the at least one controller, the knock-on signals for the first unit and for the second unit, determining, by the at least one controller and based on comparing the knock-on signals for the first unit and for the second unit, which one of the first unit or the second unit received the knock; and controlling, by the at least one controller, the one of the first unit or the second unit that received the knock, wherein the vibrations are generated at one of the first door or the second door, and the first sensor or the second sensor connected to the first or second doors respectively via, a transfer member to receive the vibrations from the first or second doors respectively. 2. The control method of claim 1 , wherein when the at least one controller determines that the knock is received by the first unit, the at least one controller ignores the knock-on signal for the second unit and supplies no output signal to the second unit in response to the knock-on signal for the second unit. 3. The control method of claim 1 , wherein, when the at least one controller determines that the knock is received the second unit, the at least one controller ignores the knock-on signal for the first unit and supplies no output signal to the first unit in response to the knock-on signal for the first unit. 4. The control method of claim 1 , wherein the at least one controller supplies no output signal to another one of the first unit or the second unit that did not receive the knock for 500 ms to 600 ms. 5. The control method of claim 1 , wherein the first unit includes a first lamp, the second unit includes a second lamp, and controlling the one of the first unit or the second unit includes: turning on one of the first lamp or the second lamp included in the one of the first unit or the second unit that received the knock during a predetermined time after receiving the knock; and turning off the one of the first lamp or the second lamp after the predetermined time. 6. The control method of claim 1 , wherein each of the first sensor and the second sensor detects acceleration of the transfer member by the vibrations generated and transferred from, respectively, the first door and the second door with respect to an x-axis direction, a y-axis direction and a z-axis direction that are orthogonal to one another, and sets the x-axis direction to a direction of the vibrations caused by the knock. 7. The control method of claim 1 , wherein determining when the sensed vibrations are caused by the knock includes: determining that the sensed vibrations are vibrations caused by the knock when an intensity of the sensed vibrations is equal to or greater than a predetermined threshold intensity of a predetermined knock signal. 8. The control method of claim 1 , wherein each of the first sensor and the second sensor detects acceleration of the transfer member, caused by the vibrations, with respect to three-axes directions of an x-axis direction, a y-axis direction and a z-axis direction that are orthogonal to one another, and wherein determining when the sensed vibrations are caused by the knock includes: setting the x-axis direction in direction associated with a vibration sensing signal of a threshold intensity or greater for a predetermined knock signal, extracting vibration sensing signals for the sensed vibrations in the x-axis direction, the y-axis direction, and the z-axis direction; comparing the vibration sensing signal in the x-axis direction with the vibration sensing signals in the y-axis and z-axis directions; and when a maximum of at least one of the vibration sensing signal in the y-axis direction or the vibration sensing signal in the z-axis direction is greater than a maximum of the vibration sensing signal in the x-axis direction, determining that the vibrations sensed by the first sensor and the second sensor are not caused by the knock. 9. The control method of claim 1 , wherein determining which one of the first unit or the second unit received the knock includes: comparing a first vibration sensing signal and a second vibration sensing signal, wherein the first vibration sensing signal is a knock-on signal satisfying a predetermined knock signal measured from the first unit, and a second vibration sensing signal is a knock-on signal satisfying a predetermined knock signal measured from the second unit. 10. The control method of claim 9 , further comprising: determining that the first unit as a knock input position in which the user inputs the knock when an intensity of the first vibration sensing signal is greater than an intensity of the second vibration sensing signal; and determining that the second unit as the knock input position in which the user inputs the knock when the intensity of the second vibration sensing signal is greater than the intensity of the first vibration sensing signal. 11. The control method of claim 1 , wherein the first unit includes a first lamp, the second unit includes a second lamp, and controlling the one of the first unit or the second unit that received the knock includes: turning on or off the first lamp of the first unit when the first unit receives the knock, or off the second lamp of the second unit when the second unit receives the knock. 12. The control method of claim 1 , wherein the first unit and the second unit are disposed vertically. 13. The control method of claim 1 , wherein the appliance includes an oven, a cooktop, a washing machine, a dryer, a dishwasher, or a refrigerator. 14. An appliance that comprising: a first unit including a first cavity, a first lighting member, a first door configured to open and close an opening to the first cavity, and a first sensor to detect vibrations of the first unit; a second unit including a second cavity, a second lighting member, a second door configured to open and close an opening to the second cavity, and a second sensor to detect second vibrations of the second unit; a controller configured to output a signal to the first lighting member or the second lighting based on determining which of the first unit or the second unit received the knock; wherein after the controller determines that the knock is generated in the first unit, the controller supplies no output signal to the second unit, and after the controller determines that the knock is generated in the second unit, the controller supplies no output signal to the first unit, and wherein the vibrations are generated at one of the first door or the second door, and the first sensor or the second sensor is connected to the first or second doors respectively via a transfer member to receive the first vibrations and the second vibrations from the first or second doors, respectively. 15. The appliance of claim 14 , wherein each of the first door includes a first see-through window, and the second door includes a second see-through window such that the first cavity is visible through th