Compliant joint with three degrees of freedom

What is claimed is: 1. A compliant joint comprising: an elongate arm having a first cross section that is ellipsoidal, the elongate arm comprising a proximal end and a distal end; a ball joint coupled to the elongate arm, the ball joint having a second cross section that is ellipsoidal and comprising: an outer surface that is convex; and a first hole that is ellipsoidal, wherein the ball joint is coupled to the elongate arm by the elongate arm being disposed within the first hole, the elongate arm configured to move axially through the first hole in response to an axial force applied to the elongate arm; and a carrier coupled to the ball joint, the carrier comprising: a second hole that is ellipsoidal; and an inner surface that is concave, wherein the carrier is coupled to the ball joint by the ball joint being disposed within the second hole, the ball joint configured to move within the second hole with pitch rotation or with yaw rotation in response to a transverse force applied to the elongate arm. 2. The compliant joint of claim 1 , wherein: the elongate arm further comprises: a first side; a second side; a first groove defined in the first side at the proximal end; and a second groove defined the second side at the proximal end; the ball joint further comprises: a first retention feature that extends into the first hole from a second inner surface of the ball joint, the first retention feature axially aligned with the first groove; and a second retention feature that extends into the first hole from the second inner surface of the ball joint, the second retention feature axially aligned with the second groove; and the compliant joint further comprises: a first spring disposed within the first groove, a first end of the first spring abutting the elongate arm, and a second end of the first spring coupled to the first retention feature; and a second spring disposed within the second groove, a first end of the second spring abutting the elongate arm, and a second end of the second spring coupled to the second retention feature, wherein the first spring and the second spring bias the elongate arm in an extended state in an absence of the axial force. 3. The compliant joint of claim 2 , wherein: the elongate arm further comprises: a first tab at the proximal end on a top of the elongate arm, wherein the first tab comprises a first projection extending in an upward direction from the top; and a second tab at the proximal end on a bottom of the elongate arm, wherein the second tab comprises a second projection extending in a downward direction from the bottom; the first tab and the second tab are each configured to deflect toward a center of the elongate arm; and the first projection and the second projection abut a back edge of the ball joint when the elongate arm is biased in the extended state. 4. The compliant joint of claim 1 , wherein the carrier further comprises a circumferential groove defined in a second outer surface of the carrier for mounting the compliant joint to a structure. 5. The compliant joint of claim 1 , wherein the elongate arm further comprises a charge adapter at the distal end for charging an autonomous electronic device, and wherein the compliant joint is part of a charging station. 6. A system comprising: an elongate arm; a ball joint having a cross section that is ellipsoidal and comprising: an outer surface that is convex; and a first hole, wherein the elongate arm is configured to be disposed within the first hole and is configured to move axially through the first hole in response to an axial force applied to the elongate arm; and a carrier comprising: a second hole that is ellipsoidal; and an inner surface that is concave, wherein the ball joint is configured to be disposed within the second hole and is configured to move within the second hole with at least one of pitch rotation or yaw rotation in response to a transverse force applied to the elongate arm. 7. The system of claim 6 , wherein the ball joint is movable within the second hole with the pitch rotation and with the yaw rotation. 8. The system of claim 6 , wherein: the elongate arm further comprises: a proximal end; a distal end; a first side; a second side; a first groove defined in the first side at the proximal end; and a second groove defined in the second side at the proximal end; the ball joint further comprises: a first retention feature configured to axially align with the first groove; and a second retention feature configured to axially align with the second groove; and the system further comprises: a first biasing member disposed within the first groove; and a second biasing member disposed within the second groove, wherein the first biasing member and the second biasing member are configured to bias the elongate arm in an extended state. 9. The system of claim 6 , wherein the elongate arm further comprises at least one tab at a proximal end of the elongate arm, the at least one tab configured to lock the elongate arm in a coupled engagement with the ball joint. 10. The system of claim 9 , wherein the at least one tab is a first tab on a top of the elongate arm, the elongate arm further comprises a second tab on a bottom of the elongate arm, and the second tab is configured to lock the elongate arm in the coupled engagement with the ball joint. 11. The system of claim 6 , wherein the carrier further comprises a circumferential groove defined in an outer surface of the carrier. 12. The system of claim 6 , wherein the elongate arm further comprises a charge adapter at a distal end of the elongate arm. 13. The system of claim 6 , wherein: the ball joint has a first length measured from a front of the ball joint to a back of the ball joint; the carrier has a second length measured from a front of the carrier to a back of the carrier; and the first length is greater than the second length. 14. The system of claim 6 , wherein a first radius of curvature of the outer surface of the ball joint is substantially equal to a second radius of curvature of the inner surface of the carrier. 15. The system of claim 6 , wherein: the elongate arm has a cross section that is ellipsoidal; and the first hole of the ball joint is ellipsoidal. 16. The system of claim 6 , wherein the elongate arm is tapered at a distal end of the elongate arm.