Lateral control apparatus of vehicle and control method of the same

What is claimed is: 1. A vehicle control system, comprising: a camera mountable in a second object; and at least one processor operatively connected to the camera, the at least one processor being configured to capture from the camera, in real time, image frames from respective images of a first object within a field of view of the camera, measure a lateral offset and a longitudinal offset of the first object, wherein the first object is disposed in a lane adjacent to a driving lane of the second object at a first time, and wherein the measured lateral offset indicates a distance from the first object to the driving lane at the first time and the measured longitudinal offset indicates a distance from the second object to the first object at the first time, predict a preview lateral offset and a preview longitudinal offset of the first object based on either one or both of a location and a speed of the first object, wherein the preview lateral offset indicates a predicted distance from the first object to the driving lane at a second time when a predetermined time has elapsed from the first time and the preview longitudinal offset indicates a predicted distance from the second object to the first object at the second time, determine a priority of the first object with respect to other objects as a function of the measurement and the prediction, wherein the priority is based on a risk of the first object colliding with the second object by entering the driving lane, and control the second object based on the priority. 2. The vehicle control system of claim 1 , wherein the at least one processor is further configured to determine priorities of additional objects based on: measurement of a lateral offset and longitudinal offset of the additional objects; and prediction of either one or both of a preview lateral offset and preview longitudinal offset of the additional objects. 3. The vehicle control system of claim 2 , wherein the control of the second object comprises control of either one or both of a speed and a steering of the second object. 4. A vehicle control system, comprising: a camera mountable in a vehicle; and at least one processor operatively connected to the camera, the at least one processor being configured to capture from the camera, in real time, image frames from respective images of objects within a field of view of the camera, measure a first position of the objects on a road at a first time, wherein the objects are disposed in a lane of the road adjacent to a driving lane of the vehicle at the first time, and wherein the first position is determined by a longitudinal offset and a lateral offset of the objects obtained by the camera, predict a second position of the objects on the road at a second time when a predetermined time has elapsed from the first time, wherein the second position is determined by a predicted longitudinal offset and a predicted lateral offset of the objects, determine priorities of the objects as a function of the measurement and the prediction, wherein the priorities are based on risks of the objects colliding with the vehicle by entering the driving lane, and control the vehicle based on the priorities. 5. The vehicle control system of claim 4 , wherein the at least one processor is further configured to determine the priorities based on a difference between the lateral offset obtained by the camera and the preview lateral offset. 6. The vehicle control system of claim 5 , wherein the at least one processor is further configured to assign a top priority, among the priorities, to an object, among the objects that has a largest difference between the lateral offset obtained by the camera and the preview lateral offset. 7. The vehicle control system of claim 4 , wherein the control of the vehicle comprises generation of a route within a driving lane and control of a speed of the vehicle based on the priorities. 8. The vehicle control system of claim 7 , wherein the control of the vehicle comprises calculation of a control torque value corresponding to the route. 9. The vehicle control system of claim 4 , wherein: the control of the vehicle comprises generation of a first route within a driving lane based on the determination of the priorities, and in response to a control torque value corresponding to the first route exceeding a predetermined threshold, generation of a second route within the driving lane; and a control torque value corresponding to the second route is smaller than the predetermined threshold. 10. The vehicle control system of claim 9 , wherein the at least one processor is further configured to generate the second route by changing a speed of the vehicle. 11. A method of controlling a vehicle, the method comprising: capturing, in real time, from a camera included in a vehicle control system and operatively connected to at least one processor, image frames from respective images of objects within a field of view of the camera; measuring, using the at least one processor, a first position of the objects on a road at a first time, wherein the objects are disposed in a lane of the road adjacent to a driving lane of the vehicle at the first time, and wherein the first position is determined by a longitudinal offset and a lateral offset of the objects obtained by the camera; predicting, using the at least one processor, a second position of the objects on the road at a second time when a predetermined time has elapsed from the first time, wherein the second position is determined by a predicted longitudinal offset and a predicted lateral offset of the objects; determining, using the at least one processor, priorities of the objects as a function of the measurement and the prediction, wherein the priorities are based on risks of the objects colliding with the vehicle by entering the driving lane; and controlling, using the at least one processor, the vehicle based on the priorities. 12. The method of claim 11 , wherein the controlling of the vehicle comprises generating a route within a driving lane and controlling a speed of the vehicle based on the priorities. 13. The method of claim 12 , wherein the controlling of the vehicle further comprises calculating a control torque value corresponding to the route. 14. The method of claim 11 , wherein the controlling of the vehicle comprises: generating a first route within a driving lane based on the determining of the priorities; and in response to a control torque value corresponding to the first route exceeding a predetermined threshold, generating a second route within the driving lane, wherein a control torque value corresponding to the second route is smaller than the predetermined threshold. 15. The method of claim 14 , further comprising generating the second route by changing a speed of the vehicle.