Robotically operated vehicle charging station

The invention claimed is: 1. A robotic charging station for charging a battery of an electric vehicle, the charging station comprising: a base plate; a riser coupled with the base plate and extending substantially transverse to the baseplate; a robotic arm extending from the riser and supporting an end effector, the robotic arm configured to move the end effector in three degrees of motion; a target tracking camera integrated into the end effector and configured to periodically output a captured image; a controller configured to: receive the captured image from the target tracking camera; identify a pattern on the electric vehicle from the received captured image; determine a spatial relationship between the end effector and an electrical receptacle disposed on the electric vehicle from at least one of a size, a skew, or a position of the pattern within the captured image, wherein the end effector includes a plurality of electrical contacts configured to couple with the electrical receptacle; and control the motion of the robotic arm using the determined spatial relationship to move the end effector into electrical contact with the electrical receptacle; the end effector includes a base plate configured to attach with the robotic arm, and a retractable guide surrounding the plurality of electrical contacts and configured to transition between an extended state and a collapsed state, the retractable guide configured to align the end effector with the receptacle when in an extended state; the end effector further includes a plurality of support legs extending between the retractable guide and the base plate, the plurality of support legs being pivotable between a first position and a second position, the support legs configured to maintain the retractable guide in the extended state when in the first position, and configured to allow the retractable guide to transition to the collapsed state when pivoted to the second position; wherein the electrical receptacle includes a mechanical guide encircling a plurality of electrical contacts; and wherein contact between the mechanical guide and the plurality of support legs is operative to pivot each of the plurality of support legs from the first position to the second position; the retractable guide includes an inward facing surface adjacent the plurality of electrical contacts; and wherein the retractable guide further includes a chamfer disposed on the inward facing surface and configured to align the end effector with the receptacle disposed on the vehicle; and a compliant mounting adaptor coupled with the base plate of the end effector, the compliant mounting adaptor configured to allow the base plate to move about an axis. 2. The robotic charging station of claim 1 , wherein the base plate includes a first end and a second end, the riser being coupled with the base plate at the first end, and a tire trap being disposed at the second end. 3. The robotic charging station of claim 1 , further comprising a presence sensor configured to detect the presence of the electric vehicle. 4. The robotic charging station of claim 1 , wherein the three degrees of motion include a motion substantially oriented across the vehicle, a motion substantially along the vehicle, and a rotation about a substantially vertical axis. 5. The robotic charging station of claim 4 , wherein the robotic arm is configured to move the end effector in a fourth degree of motion, the fourth degree of motion including a motion substantially along the vertical axis. 6. The robotic charging station of claim 1 , wherein the end effector further includes a force sensor disposed on the base plate and configured to be contacted by at least one of the plurality of support legs when the at least one of the plurality of support legs is in the first position; and wherein the force sensor is configured to provide an indication of contact made between the retractable guide and the receptacle disposed on the vehicle. 7. The robotic charging station of Regarding claim 1 , wherein the end effector further includes a mechanical guide extending from the base plate and surrounding the plurality of electrical contacts; and wherein the retractable guide extends further outward from the base plate than the mechanical guide when the retractable guide is in an extended state. 8. The robotic charging station of claim 7 , wherein the retractable guide extends a substantially similar distance outward from the base plate as the mechanical guide when the retractable guide is in a collapsed state. 9. The robotic charging station of claim 7 , wherein the mechanical guide includes a locating feature configured to mate with a similar locating feature disposed on the charging receptacle.