Surgical instrument mounted display system

What is claimed: 1. A surgical instrument assembly comprising: a processor; a surgical instrument configured to operate on an anatomical structure; a display coupled to the processor and attached to the surgical instrument, the display configured to display X-ray data of the anatomical structure, the X-ray data generated by a medical imaging device; and a memory in communication with the processor, the memory having stored therein instructions that, upon execution of the processor, cause the processor to: identify an intramedullary nail from a plurality of intramedullary nails so as to determine an intramedullary nail identity, the intramedullary nail defining a plurality of locking holes sized to receive respective locking screws; receive a first X-ray image from the medical imaging device, the first X-ray image generated by the medical imaging device when the medical imaging device is in a first position such that the first X-ray image includes a portion of the intramedullary nail, the portion of the intramedullary nail including a portion of at least two of the plurality of locking holes; and based on the portion of the at least two locking holes and the intramedullary nail identity, determine a second position of the medical imaging device that is different than the first position, such that, when the medical imaging device is placed in the second position and generates a second X-ray image from the second position, the second X-ray image includes the at least two locking holes shown as respective circles. 2. The surgical instrument assembly as recited in claim 1 , wherein the at least two locking holes are spaced apart from each other along a length of the intramedullary nail, and the medical imaging device includes an X-ray transmitter and X-ray receiver so as define a direction of X-ray travel from the X-ray transmitter to the X-ray receiver, the direction of X-ray travel substantially perpendicular to the length of the intramedullary nail when the medical imaging device is in the second position. 3. The surgical instrument assembly as recited in claim 2 , the memory having stored therein further instructions that, upon execution of the processor, cause the processor to: determine adjustment coordinates based on the first and second positions of the medical imaging device, the adjustment coordinates indicating how the direction of X-ray travel is adjusted to arrive at the second position from the first position. 4. The surgical instrument assembly as recited in claim 3 , wherein the display is further configured to display the adjustment coordinates. 5. The surgical instrument assembly as recited in claim 4 , wherein the display is further configured to display positional coordinates that correspond to an actual position of the X-ray transmitter and the X-ray receiver, the positional coordinates received from the medical imaging device as the actual position of the X-ray transmitter and the X-ray receiver is adjusted, such that the positional coordinates that are displayed change as the X-ray transmitter and the X-ray receiver move. 6. The surgical instrument assembly as recited in claim 1 , wherein the display is further configured to indicate the second position responsive to the processor receiving the first X-ray image from the medical imaging device. 7. The surgical instrument assembly as recited in claim 1 , the the memory having further stored therein instructions that, upon execution of the processor, further cause the processor to: determine a third position of the medical imaging device, such that, when the medical imaging device is placed in the third position and generates a third X-ray image from the third position, the third X-ray image includes the third locking hole of the intramedullary nail shown as a circle, the third locking hole different than the at least two locking holes. 8. The surgical instrument assembly as recited in claim 7 , wherein the display is further configured to indicate the third position responsive to the processor receiving the first X-ray image from the medical imaging device. 9. The surgical instrument assembly as recited in claim 1 , wherein the portion of the at least two locking holes are viewable as respective ellipses on the first X-ray image. 10. The surgical instrument assembly as recited in claim 1 , wherein the portion of the intramedullary nail of the of the first x-ray image includes only two locking holes. 11. The surgical instrument assembly as recited in claim 10 , wherein the portion of the two locking holes shown in the X-ray image is less than 30% of the two locking holes. 12. A method for determining an orientation for drilling a hole for a locking screw to secure an intramedullary nail to a bone, the method comprising the steps of: receiving, via a wireless communications channel, a first X-ray image of the bone and a portion of the intramedullary nail within the bone, the first X-ray image generated by a medical imaging device while the medical imaging device is in a first position, the first X-ray image including a first visual perspective of at least two locking holes defined by the intramedullary nail; identifying the intramedullary nail from a plurality of intramedullary nails so as to determine an intramedullary nail identity that is associated with physical characteristics of the intramedullary nail; retrieving the physical characteristics of the intramedullary nail based on the intramedullary nail identity; and based on the first visual perspective of the least two locking holes, and based on the physical characteristics of the intramedullary nail, determining a second position for the medical imaging device, wherein, when the medical imaging device generates a second X-ray image while the medical imaging device is in the second position, the second X-ray image includes a second visual perspective of the at least two locking holes, the second visual perspective defining circles that correspond to respective perimeters of the at least two locking holes. 13. The method as recited in claim 12 , wherein the first visual perspective defines ellipses or lenses that correspond to respective perimeters of the at least two locking holes. 14. The method as recited in claim 12 , the method further comprising: based on the first visual perspective of the at least two locking holes, and based on the physical characteristics of the intramedullary nail, determining a third position for the medical imaging device, wherein, when the medical imaging device generates a third X-ray image while the medical imaging device is in the third position, the third X-ray image includes a third visual perspective of a third locking hole of the intramedullary nail, the third locking hole not visible in the first X-ray image, the third visual perspective defining a circle that corresponds to a perimeter of the third locking hole. 15. A method of drilling a hole for a locking screw to secure an intramedullary nail to a bone, the method comprising: identifying the intramedullary nail from a plurality of intramedullary nails so as to determine an intramedullary nail identity that is associated with physical characteristics of the intramedullary nail; causing a medical imaging device to be in a first position relative to the intramedullary nail; while the medical imaging device is in the first position, generating a first X-ray image of the bone, the first X-ray image including a portion of the intramedullary nail, the portion of the intramedullary nail including a first visual perspective of a locking hole defined by the intramedullary nail; based on the first visu