End effector for cleaning objects having multiple surfaces

What is claimed is: 1. An apparatus comprising: a platform; a robotic interface associated with the platform and configured for attachment to a robotic device in which the robotic device is configured to move the platform along a path relative to an aircraft structure; a first plurality of bristles affixed to a first base having a first center axis of rotation, the first plurality of bristles configured to clean a first surface and a second surface of the aircraft structure as the platform is moved along the path, wherein the first plurality of bristles comprises a first group and a second group, wherein the first group extends from the first base parallel to the first center axis of rotation, and wherein the second group extends from the first base perpendicular to the first center axis of rotation; a second plurality of bristles affixed to a second base having a second center axis of rotation, the second plurality of bristles configured to contact the first surface and the second surface of the aircraft structure as the platform is moved along the path in which the second surface is angled relative to the first surface, wherein the second plurality of bristles comprises a third group and a fourth group, wherein the third group extends from the second base parallel to the second center axis of rotation and the fourth group extends from the second base perpendicular to the second center axis of rotation; and a vacuum system associated with the platform and configured to dry the first surface and the second surface and remove undesired material from the first surface and the second surface as the platform is moved along the path. 2. The apparatus of claim 1 further comprising: a motor system configured to rotate the first plurality of bristles about the first center axis of rotation and the second plurality of bristles about the second center axis of rotation as the platform is moved along the path. 3. The apparatus of claim 2 , wherein the motor system includes a number of pneumatic motors. 4. The apparatus of claim 1 further comprising: a number of spraying devices configured to spray a liquid towards at least one of the first plurality of bristles and the second plurality of bristles. 5. The apparatus of claim 1 further comprising: the first base having a first plurality of channels; and the second base having a second plurality of channels. 6. The apparatus of claim 5 , wherein the vacuum system comprises: a main vacuum duct; and a vacuum generation system configured to generate an airflow that causes the undesired material to move through the first plurality of channels and the second plurality of channels to the main vacuum duct. 7. The apparatus of claim 6 further comprising: a vacuum cover, wherein the first base and the second base are associated with the vacuum cover; a first vacuum chamber associated with the vacuum cover, wherein the undesired material is moved through the first plurality of channels through a first opening in the vacuum cover into the first vacuum chamber and into the main vacuum duct; and a second vacuum chamber associated with the vacuum cover, wherein the undesired material is moved through the second plurality of channels through a second opening in the vacuum cover into the second vacuum chamber and into the main vacuum duct. 8. The apparatus of claim 1 , wherein the vacuum system comprises a first vacuum cover associated with the first plurality of bristles and a second vacuum cover associated with the second plurality of bristles. 9. The apparatus of claim 8 further comprising: first members configured to clean the first plurality of bristles; and second members configured to clean the second plurality of bristles. 10. The apparatus of claim 9 , wherein the first members are associated with the first vacuum cover such that the first members extend from the first vacuum cover toward the first center axis of rotation, and wherein the second members are associated with the second vacuum cover such that the second members extend from the second vacuum cover toward the second center axis of rotation. 11. The apparatus of claim 8 further comprising: a first vibration damper, associated with the first vacuum cover, configured to reduce vibrations caused by rotation of the first plurality of bristles; and a second vibration damper, associated with the second vacuum cover, configured to reduce vibrations caused by rotation of the second plurality of bristles. 12. The apparatus of claim 8 , wherein the first vacuum cover contains a first opening and the second vacuum cover contains a second opening. 13. The apparatus of claim 12 , wherein undesired material from the first plurality of bristles travels through the first opening in the first vacuum cover into a first duct and undesired material from the second plurality of bristles travels through the second opening in the second vacuum cover into a second duct. 14. The apparatus of claim 13 , wherein the first duct and the second duct converge into a main duct. 15. The apparatus of claim 14 , wherein the main duct comprises an end that is configured for attachment to a receptacle. 16. The apparatus of claim 8 , wherein the first vacuum cover is separate and distinct from the second vacuum cover. 17. The apparatus of claim 1 , wherein the first center axis of rotation is parallel to the second center axis of rotation, and wherein both the first center axis of rotation and the second center axis of rotation extend towards the robotic interface. 18. The apparatus of claim 1 further comprising: a first pneumatic motor associated with the platform configured to rotate the first plurality of bristles; and a second pneumatic motor associated with the platform configured to rotate the second plurality of bristles. 19. A method for cleaning an aircraft structure using an end effector, the method comprising: moving a platform of the end effector along a path relative to the aircraft structure using a robotic device, the end effector attached to the robotic device by a robotic interface associated with the platform; cleaning a first surface of the aircraft structure using a liquid and a first group of a first plurality of bristles as the platform is moved along the path, in which the first plurality of bristles is affixed to a first base having a first center axis of rotation, wherein the first group extends from the first base parallel to the first center axis of rotation, the first plurality of bristles configured to clean the first surface and a second surface of the aircraft structure as the platform is moved along the path; cleaning the second surface of the aircraft structure using the liquid and a second group of the first plurality of bristles as the platform is moved along the path, in which the second surface is angled relative to the first surface, wherein the second group extends from the first base perpendicular to the first center axis of rotation; contacting the first surface of the aircraft structure with a third group of a second plurality of bristles as the platform is moved along the path, in which the second plurality of bristles is affixed to a second base having a second center axis of rotation, wherein the third group extends from the second base parallel to the second center axis of rotation, the second plurality of bristles configured to contact the first surface and the second surface of the aircraft structure as the platform is moved along the path; contacting the second surface of the aircraft structure with a