Apparatus and method for controlling autonomous vehicle lane changes

What is claimed is: 1. An autonomous driving control apparatus comprising: an environment detector configured to sense vehicle information on one or more vehicles running in a target lane; and a processor configured to: determine whether a possible lane-change area exists based on the vehicle information, determine a largest area among areas between target lane vehicles as a target lane-change area when the possible lane-change area does not exist, indicate an intention to change a lane to the target lane-change area to determine whether a target lane rear vehicle has a yield intention, and attempt to change the lane based on the determined result of whether the target lane rear vehicle has the yield intention. 2. The autonomous driving control apparatus of claim 1 , wherein the vehicle information comprises a position, speed, and acceleration of the vehicle running in the target lane. 3. The autonomous driving control apparatus of claim 1 , wherein the processor is configured to: determine a position of each target lane vehicle based on the vehicle information after a target lane entering time elapses, determine a distance between the target lane vehicles based on the determined position of each target lane vehicle, determine the area between the target lane vehicles as the possible lane-change area when the determined distance between the target lane vehicles is equal to or greater than a value, and determine the area between the target lane vehicles as an area impossible to change the lane when the determined distance between the target lane vehicles is smaller than a value. 4. The autonomous driving control apparatus of claim 3 , wherein the processor is configured to: determine the determined possible lane-change area as the target lane-change area when a number of the determined possible lane-change areas is one. 5. The autonomous driving control apparatus of claim 3 , wherein the processor is configured to: determine a possible lane-change area having a longest length among the determined possible lane-change areas as the target lane-change area when the number of the determined possible lane-change areas is two or more. 6. The autonomous driving control apparatus of claim 1 , wherein the processor is configured to: generate a virtual target in a front of an ego vehicle based on a speed and an acceleration of a center position of the target lane-change area. 7. The autonomous driving control apparatus of claim 6 , wherein the processor is configured to: delete the virtual target when the target lane rear vehicle does not have the yield intention. 8. The autonomous driving control apparatus of claim 1 , wherein the processor is configured to: when the possible lane-change area does not exist, generate a lateral lane position maintaining path in which an ego vehicle moves laterally to a side of the target lane in consideration of a traffic flow in a driving lane of the ego vehicle, wherein the ego vehicle runs alongside the target lane or generate a lane intruding path, wherein the ego vehicle continuously approaches the target lane. 9. The autonomous driving control apparatus of claim 1 , wherein the processor is configured to: determine the yield intention based on a deceleration and an acceleration of a front vehicle and a rear vehicle in the target lane-change area. 10. The autonomous driving control apparatus of claim 9 , wherein the processor is configured to: return an ego vehicle to a center of a driving lane of the ego vehicle when the yield intention does not exist, and control a driving speed of the ego vehicle to search for another target lane-change area. 11. An autonomous driving control method comprising: detecting vehicle information on one or more vehicles running in a target lane; determining whether a possible lane-change area exists based on the vehicle information; determining a largest area among areas between target lane vehicles as a target lane-change area when the possible lane-change area does not exist; indicating an intention to change a lane to the target lane-change area to a target lane rear vehicle; determining whether the target lane rear vehicle has a yield intention; and attempting to change the lane based on the determined result of the yield intention. 12. The method of claim 11 , wherein the detecting the vehicle information includes detecting a position, speed, and acceleration of the vehicle running in the target lane using a radar and a camera. 13. The method of claim 11 , wherein the determining the target lane-change area includes: determining a position of each target lane vehicle based on the vehicle information after a target lane entering time elapses; determining a distance between the target lane vehicles based on the determined position of each target lane vehicle; determining the area between the target lane vehicles as the possible lane-change area when the determined distance between the target lane vehicles is equal to or greater than a value; and determining the area between the target lane vehicles as an area impossible to change the lane when the determined distance between the target lane vehicles is smaller than a value. 14. The method of claim 13 , wherein the determining the target lane-change area comprises determining the determined possible lane-change area as the target lane-change area when a number of the determined possible lane-change areas is one. 15. The method of claim 13 , wherein the determining the target lane-change area comprises determining a possible lane-change area having a longest length among the determined possible lane-change areas as the target lane-change area when the number of the determined possible lane-change areas is two or more. 16. The method of claim 11 , wherein the indicating the intention to change the lane to the target lane rear vehicle comprises: generating a virtual target in a front of an ego vehicle based on a speed and an acceleration of a center position of the target lane-change area; controlling a speed of the ego vehicle, wherein the ego vehicle runs parallel to a center of the target lane-change area by following the virtual target; generating a cut-in intention path to the target lane-change area; and performing a lateral control on the ego vehicle based on the cut-in intention path. 17. The method of claim 16 , wherein the generating the cut-in intention path comprises generating a lateral lane position maintaining path in which the ego vehicle moves laterally to a side of the target lane in consideration of a traffic flow in a driving lane of the ego vehicle, wherein the ego vehicle runs alongside the target lane or generating a lane intruding path, wherein the ego vehicle continuously approaches the target lane. 18. The method of claim 11 , wherein the determining the yield intention comprises determining the yield intention based on a deceleration and an acceleration of a front vehicle and a rear vehicle in the target lane-change area. 19. The method of claim 11 , wherein the determining the yield intention comprises: deleting a virtual target when the target lane rear vehicle does not have the yield intention; returning an ego vehicle to a center of a driving lane of the ego vehicle; and controlling a driving speed of the ego vehicle to search for another target lane-change area.