Air mattress

The invention claimed is: 1. An air mattress comprising: an air cell unit; a memory; and a controller configured to: monitor an internal pressure of the air cell unit; determine a state of the air mattress to be an unoccupied state based on the internal pressure of the air cell unit; store, in the memory, the internal pressure of the air cell unit monitored at a timing at which the state of the air mattress is determined to be the unoccupied state, as an unoccupied internal pressure; detect an air leakage from the air cell unit based on a decrease of the internal pressure of the air cell unit from the unoccupied internal pressure while the determined state of the air mattress is the unoccupied state; and perform a first operation to increase the internal pressure of the air cell unit to the stored unoccupied internal pressure upon detecting the air leakage from the air cell unit. 2. The air mattress according to claim 1 , wherein the controller is configured to determine the air mattress to have turned into the unoccupied state when a first condition is satisfied, the first condition including a decrease of the internal pressure of the air cell unit, which is from a first value to a second value lower than the first value, being equal to or greater than a first threshold value and a rate of the decrease being equal to or greater than a second threshold value, the second value being the unoccupied internal pressure stored in the memory. 3. The air mattress according to claim 2 , wherein the controller is configured to detect the air leakage from the air cell unit when a second condition is satisfied after the first condition is satisfied, the second condition including a further decrease of the internal pressure of the air cell unit, which is from the second value to a third value lower than the second value, being equal to or greater than a third threshold value. 4. The air mattress according to claim 3 , wherein the controller is configured to perform a second operation to set the internal pressure of the air cell unit to the first value or a fifth value that is preset when a third condition is satisfied, the third condition including an increase of the internal pressure of the air cell unit, which is from the second value to a fourth value higher than the second value, being equal to or greater than a fourth threshold value. 5. The air mattress according to claim 3 , wherein the controller is configured to clear the unoccupied internal pressure stored in the memory in response to increase of the monitored internal pressure of the air cell unit. 6. The air mattress according to claim 5 , further comprising: a user interface device, wherein upon the user interface device receiving a user input to change the internal pressure of the air cell unit, the unoccupied internal pressure stored in the memory is cleared. 7. The air mattress according to claim 3 , further comprising: a sensor configured to measure the internal pressure of the air cell unit, wherein the controller monitors the internal pressure of the air cell unit measured by the sensor. 8. The air mattress according to claim 3 , wherein the controller is configured to perform a third operation when the first condition is satisfied, the third operation including a maintenance operation. 9. The air mattress according to claim 3 , wherein the controller is configured to perform a third operation when the first condition is satisfied, the third operation including an energy-saving operation. 10. An air mattress comprising: an air cell unit; and a controller configured to: monitor an internal pressure of the air cell unit; determine a state of the air mattress to be an unoccupied state when the internal pressure of the air cell unit satisfies a first condition, the first condition including a decrease of the internal pressure of the air cell unit, which is from a first value to a second value lower than the first value, being equal to or greater than a first threshold value and a rate of the decrease being equal to or greater than a second threshold value; detect an air leakage from the air cell unit when the internal pressure of the air cell unit satisfies a second condition while the determined state of the air mattress is the unoccupied state, the second condition including a further decrease of the internal pressure of the air cell unit, which is from the second value to a third value lower than the second value, being equal to or greater than a third threshold value; and perform a first operation to set the internal pressure of the air cell unit to the first value or a fifth value that is preset when a third condition is satisfied, the third condition including an increase of the internal pressure of the air cell unit, which is from the second value to a fourth value higher than the second value, being equal to or greater than a fourth threshold value. 11. The air mattress according to claim 10 , wherein the controller is configured to perform a second operation to increase the internal pressure of the air cell unit upon detecting the air leakage from the air cell unit. 12. The air mattress according to claim 10 , further comprising: a memory in which the first value and the second value are stored. 13. The air mattress according to claim 12 , further comprising: a user interface device, wherein upon the user interface device receiving a user input to change the internal pressure of the air cell unit, the first value and the second value stored in the memory are cleared. 14. The air mattress according to claim 10 , further comprising: a sensor configured to measure the internal pressure of the air cell unit, wherein the controller monitors the internal pressure of the air cell unit measured by the sensor. 15. The air mattress according to claim 10 , wherein the controller is configured to perform a third operation when the first condition is satisfied, the third operation including a maintenance operation. 16. The air mattress according to claim 10 , wherein the controller is configured to perform a third operation when the first condition is satisfied, the third operation including an energy-saving operation.