Variable Radius Print Head End Effector

What is claimed is: 1 . A surface treatment assembly for treating a contoured surface, the surface treatment assembly comprising: an adjustable base having at least a first contour shape and a second contour shape; a plurality of applicator heads coupled to the adjustable base, each applicator head being configured to apply a surface treatment to the contoured surface; and an actuator operatively coupled to the adjustable base and configured to manipulate the adjustable base between the first contour shape and the second contour shape. 2 . The surface treatment assembly of claim 1 , wherein the actuator comprises a pair of scissor arms operatively coupled to the adjustable base and configured to manipulate the adjustable base between the first contour shape and the second contour shape. 3 . The surface treatment assembly of claim 1 , wherein the actuator comprises a plurality of linear actuators operatively coupled to the adjustable base, and configured to manipulate the adjustable base between the first contour shape and the second contour shape. 4 . The surface treatment assembly of claim 1 , wherein the adjustable base comprises a composite material. 5 . The surface treatment assembly of claim 4 , wherein the composite material comprises a magnetic material dispersed in a composite resin and the actuator comprises at least one electromagnet configured to manipulate the magnetic material and the composite resin between the first contour shape and the second contour shape. 6 . The surface treatment assembly of claim 1 , further comprising a sensor configured to detect an existing shape of the contoured surface and generate a contour data set, and a controller communicably coupled to the actuator to operate the actuator to manipulate the adjustable base based on the contour data set. 7 . The surface treatment assembly of claim 1 , wherein the plurality of applicator heads comprises a plurality of inkjet printing heads configured to apply the surface treatment to the contoured surface, and the surface treatment being a decorative layer. 8 . The surface treatment assembly of claim 1 , wherein the first contour shape comprises a first radius and the second contour shape comprises a second radius. 9 . A method of treating a target area of a contoured surface, the method comprising: providing a plurality of applicator heads on an adjustable base, each applicator head being configured to apply a surface treatment to the contoured surface; determining an existing shape of the contoured surface; manipulating the adjustable base with an actuator to a desired contoured shape based on the determined existing shape of the contoured surface, thereby to position the applicator heads adjacent to the target area; and selectively operating the plurality of applicator heads to apply the surface treatment to the target area of the contoured surface. 10 . The method of claim 9 , wherein the actuator comprises a pair of scissor arms operatively coupled the adjustable base, and manipulating the adjustable base comprises operating the pair of scissor arms. 11 . The method of claim 9 , wherein, the actuator comprises a plurality of linear actuators operatively coupled to the adjustable base, and manipulating the adjustable base comprises operating the plurality of linear actuators. 12 . The method of claim 9 , wherein the adjustable base comprises a magnetic material dispersed in a composite resin, the actuator comprises at least one electromagnet and manipulating the adjustable base comprises operating the at least one electromagnet. 13 . The method of claim 9 , wherein determining the existing shape of the contoured surface comprises scanning the contoured surface with a sensor. 14 . The method of claim 9 , wherein the plurality of applicator heads comprises a plurality of inkjet printing heads configured to apply the surface treatment to the targeted area, and the surface treatment being a decorative layer. 15 . A surface treatment system for treating an exterior surface of an airplane, the treatment system comprising: an adjustable base having at least a first radius and a second radius; a plurality of applicator heads coupled to the adjustable base, each applicator head being configured to apply a surface treatment to the exterior surface of the airplane; an actuator operatively coupled to the adjustable base and configured to manipulate the adjustable base between the at least first radius and the second radius; a controller communicably coupled to the actuator and programmed to: operate the actuator to manipulate the adjustable base to the first radius or the second radius, and selectively operate the plurality of applicator heads to apply a surface treatment to the exterior surface of the airplane. 16 . The surface treatment system of claim 15 , wherein the actuator comprises a pair of scissor arms operatively coupled to the adjustable base and configured to manipulate the adjustable base between at least the first radius and the second radius. 17 . The surface treatment system of claim 15 , wherein the actuator comprises a plurality of linear actuators operatively coupled to the adjustable base and configured to manipulate the adjustable base between at least the first radius and the second radius. 18 . The surface treatment system of claim 15 , wherein the adjustable base comprises a composite material. 19 . The surface treatment system of claim 15 , further comprising a sensor configured to detect an existing shape of the exterior surface of the airplane and generate a contour data set, and the controller operates the actuator to manipulate the adjustable base based on the contour data set. 20 . The surface treatment system of claim 15 , wherein the plurality of applicator heads comprises a plurality of inkjet printing heads configured to apply the surface treatment on the exterior surface, and the surface treatment being a decorative layer.