Tracking apparatus for tracking a patient limb

The invention claimed is: 1 . A tracking apparatus for tracking a bone of a patient limb, the tracking apparatus comprising: a body configured to couple to the patient limb and comprising first and second arms each including an exterior surface, an opposing interior surface, and opposing sides connecting the exterior and interior surfaces, wherein a hinge connects the first arm and the second arm such that the first arm and the second arm are rotatably moveable relative to one another relative to the hinge, and wherein a sensor is configured to sense a relationship between the first and second arms; a wing portion extending from at least one of the opposing sides of at least one of the first and second arms and the wing portion sharing the interior surface of the at least one first and second arm; one or more ultrasonic sensors coupled to the interior surface of the first arm, one or more ultrasonic sensors coupled to the interior surface of the second arm, and one or more ultrasonic sensors coupled to the interior surface of the wing portion, each being configured to transmit ultrasonic waves to and receive ultrasonic waves from the bone; one or more controllers configured to determine a relationship between the one or more of the ultrasonic sensors of the first arm and the one or more of the ultrasonic sensors of the second arm; and one or more trackable elements coupled to the body and the wing portion. 2 . The tracking apparatus of claim 1 , wherein: a space is defined between the interior surfaces of the first and second arms for receiving the patient limb; an axis is defined through the space in a direction extending between the opposing sides; the wing portion extends along a direction parallel to the axis; the first and second arms and the wing portion each include an axial length defined along a direction of the axis; and the axial length of the wing portion is greater than or substantially equal to the axial length of the first and second arms. 3 . The tracking apparatus of claim 1 , wherein the one or more trackable elements includes one or more of: an optical trackable element configured to be sensed by an optical localizer; a radio frequency (RF) trackable element configured to be sensed by an RF localizer; an electromagnetic (EM) trackable element configured to be sensed by an EM localizer; and a pattern or feature configured to be sensed by a machine-vision camera localizer. 4 . The tracking apparatus of claim 1 , wherein each of the first and second arms and the wing portion has an arcuate configuration. 5 . The tracking apparatus of claim 1 , wherein the sensor is disposed within the hinge. 6 . The tracking apparatus of claim 1 , wherein the one or more controllers are configured to calibrate the one or more ultrasonic sensors coupled to the interior surface of the first arm and the one or more ultrasonic sensors coupled to the interior surface of the second arm based on the determined relationship between the first and second arms. 7 . The tracking apparatus of claim 1 , wherein the first and second arms are integrally connected and are flexible such that the body is configured to move between a closed position and an open position in response to flexing of one or more of the first and second arms. 8 . The tracking apparatus of claim 1 , wherein the one or more trackable elements are embedded within the exterior surface of one or more of the first and second arms and embedded within the exterior surface of the wing portion. 9 . The tracking apparatus of claim 1 , wherein the wing portion is further defined as a first wing portion extending from one of the opposing sides of the first arm, and further comprising a second wing portion separated from the first wing portion and extending from one of the opposing sides of the second arm and the second wing portion sharing the interior surface of the second arm, wherein one or more of the ultrasonic sensors are coupled to the interior surface of the second wing portion, and wherein one or more of the trackable elements are coupled to the second wing portion. 10 . The tracking apparatus of claim 9 , wherein the body includes a first distal end at the first arm, an opposing second distal end at the second arm, and a midpoint between the first and the second distal ends, wherein the first wing portion is located between the first distal end and the midpoint of the body, and wherein the second wing portion is located between the midpoint and the second distal end of the body, and wherein the first distal end and the second distal end of the body are spaced from one another to define an opening configured to receive the patient limb. 11 . The tracking apparatus of claim 1 , wherein the wing portion shares the exterior surface of the at least one first and second arm. 12 . The tracking apparatus of claim 1 , further comprising a cushion coupled to the interior surface of the first and second arms and the interior surface of the wing portion, wherein the cushion is configured to contact the patient limb. 13 . The tracking apparatus of claim 12 , further comprising a control unit coupled to the cushion and configured to adjust a size of the cushion. 14 . The tracking apparatus of claim 1 , wherein the one or more controllers are configured to determine an integrity of contact between the tracking apparatus and the patient limb based on the ultrasonic waves received by at least one of the one or more ultrasonic sensors coupled to the interior surface of the first arm, the one or more ultrasonic sensors coupled to the interior surface of the second arm, and the one or more ultrasonic sensors coupled to the interior surface of the wing portion. 15 . The tracking apparatus of claim 14 , wherein the one or more controllers are configured to adjust at least one of the one or more ultrasonic sensors coupled to the interior surface of the first arm, the one or more ultrasonic sensors coupled to the interior surface of the second arm, and the one or more ultrasonic sensors coupled to the interior surface of the wing portion in response to determining the integrity of contact. 16 . The tracking apparatus of claim 14 , further comprising: a cushion coupled to the interior surface of the first and second arms and the interior surface of the wing portion, wherein the cushion is configured to contact the patient limb; and a control unit coupled to the cushion and configured to adjust a size of the cushion, wherein the control unit is configured to adjust the size of the cushion in response to the one or more controllers determining the integrity of contact. 17 . The tracking apparatus of claim 1 , further comprising: a light emitter configured to emit light to the patient limb; and an optical sensor configured to sense light reflected from the patient limb; wherein the one or more controllers are coupled to the optical sensor and configured to determine an integrity of contact between the tracking apparatus and the patient limb based on the light sensed by the optical sensor. 18 . The tracking apparatus of claim 1 , wherein: the one or more controllers are configured to determine a shape of the bone based on the ultrasonic waves received by at least one of the one or more ultrasonic sensors coupled to the interior surface of the first arm, the one or more ultrasonic sensors coupled to the interior surface of the second arm, and the one or more ultrasonic sensors coupled to the interior surface of the wing portion; and a non-transitory memory coupled to the one or m