Robot cleaner and method for controlling the same

What is claimed is: 1. A robot cleaner comprising: a main body; at least one main wheel configured to move the main body; a suction port assembly disposed at a front of the main body and configured to perform cleaning; at least one sensor configured to sense an obstacle around the main body and acquire information related to a height of the obstacle; and a controller configured to: when the at least one sensor senses the obstacle and the height of the obstacle, and the controller determines that the height of the obstacle is equal to or lower than a predetermined height, control the at least one main wheel to move the main body forward to bring the main body into a first contact state in which a front end of the suction port assembly cleans a first region while in contact with the obstacle, after moving the main body into the first contact state, control the at least one main wheel to move the main body backward in a straight line, and after moving the main body backward in the straight line, control the at least one main wheel to rotate the main body at a predetermined angle at a final point of backward movement and bring the main body into a second contact state in which the front end of the suction port assembly cleans a second region while in contact with the obstacle, wherein the first region and the second region are arranged along an outline of the obstacle. 2. The robot cleaner of claim 1 , wherein the controller is further configured to control the at least one main wheel to move the main body so that the first region and the second region partially overlap each other or the first region and the second region are connected to each other. 3. The robot cleaner of claim 1 , wherein the controller is further configured to move the main body backward in the straight line, so that a distance between a center of rotation of the main body and the obstacle is greater than a maximum distance between the center of rotation of the main body and an outermost line of the robot cleaner. 4. The robot cleaner of claim 1 , wherein each of the first region and the second region is a region occupied by the suction port assembly when the suction port assembly is in contact with the obstacle. 5. The robot cleaner of claim 1 , wherein the at least one sensor is further configured to sense location information of the obstacle while the main wheel is operated so that the body is rotated and the body is in the second contact state, and based on the location information of the obstacle, write a cleaning map of an area to be cleaned. 6. The robot cleaner of claim 5 , further comprising a memory configured to store the cleaning map, wherein the controller is further configured to, based on the cleaning map, control the at least one main wheel so that the main body approaches the obstacle and moves along the outline of the obstacle. 7. A method for controlling a robot cleaner, comprising: sensing, using at least one sensor of the robot cleaner, an obstacle around the robot cleaner, and a height of the obstacle; when the obstacle is sensed and the height of the obstacle is determined to be equal to or lower than a predetermined height, moving, using at least one main wheel of the robot cleaner, the robot cleaner forward so that a main body of the robot cleaner is brought into a first contact state in which a front end of a suction port of the robot cleaner cleans a first region while in contact with the obstacle; after moving the robot cleaner into the first contact state, moving, using the at least one main wheel, the robot cleaner backward in a straight line; and after moving the main body backward in the straight line, rotating the main body at a predetermined angle at a final point of backward movement and moving the robot cleaner forward so that the main body of the robot cleaner is brought into a second contact state in which the front end of the suction port cleans a second region while in contact with the obstacle, wherein the second region partially overlaps the first region or the second region is connected to the first region. 8. The method of claim 7 , further comprising sensing, using the at least one sensor, a location of the obstacle and writing a cleaning map of an area to be cleaned based on the location of the obstacle. 9. The method of claim 8 , further comprising moving the robot cleaner along an outline of the obstacle based at least in part on the cleaning map.