Hip replacement navigation system and method

What is claimed is: 1. A hip joint navigation system, comprising: a jig having an anchor portion configured to be immovably connected to the pelvis, the jig having a connector; a landmark acquisition probe coupled with the connector, the connector configured to move in at least two degrees of freedom relative to the jig, the landmark acquisition probe configured to move in at least one additional degree of freedom relative to the connector; a first inertial navigation device configured to be immovably connected to the jig; and a second inertial navigation device configured to determine the orientation of the landmark acquisition probe when the landmark acquisition probe is moved to touch an anatomical landmark, wherein the first inertial navigation device, the second inertial navigation device, or the first inertial navigation device and the second inertial navigation device comprises software incorporated into a processor configured to calculate the orientation of an anatomical plane based on data from at least one of the first inertial navigation device and the second inertial navigation device. 2. The hip joint navigation system of claim 1 , wherein one of the degrees of freedom corresponds to translation of a tip of the landmark acquisition probe toward and away from the anchor portion, the landmark acquisition probe comprising a scale reflecting the position of the tip relative to the anchor portion. 3. The hip joint navigation system of claim 1 , further comprising a latch disposed on the jig to immobilize the landmark acquisition probe. 4. The hip joint navigation system of claim 3 , wherein the latch comprises a device that restricts two of three degrees of freedom of the landmark acquisition probe. 5. The hip joint navigation system of claim 1 , wherein the connector comprises a channel that restricts two degrees of freedom of the landmark acquisition probe. 6. The hip joint navigation system of claim 1 , wherein the first inertial navigation device is coupled with the anchor portion of the jig. 7. The hip joint navigation system of claim 1 , wherein the second inertial device comprises a mount device configured to detachably connect the second inertial device to the landmark acquisition probe. 8. The hip joint navigation system of claim 1 , wherein the second inertial device comprises a camera. 9. The hip joint navigation system of claim 1 , wherein the connector comprises a window configured to enable a scale to be viewed therethrough. 10. The hip joint navigation system of claim 1 , wherein the first inertial navigation device and the second inertial navigation device determine the orientation of an acetabular plane based on the position of the anatomical landmarks. 11. The hip joint navigation system of claim 1 , wherein the first inertial navigation device comprises a display. 12. A hip joint navigation system, comprising: a jig having an anchor portion configured to be immovably connected to the pelvis, the jig having a connector; a landmark acquisition probe coupled with the connector, the connector configured to move in at least two degrees of freedom relative to the jig, the landmark acquisition probe configured to move in at least one additional degree of freedom relative to the connector; a first inertial navigation device configured to be immovably connected to the jig; and a second inertial navigation device configured to generate spatial location information related to a point when the landmark acquisition probe contacts the point, wherein the first inertial navigation device, the second inertial navigation device, or the first inertial navigation device and the second inertial navigation device is or are configured to record the spatial location information of the point. 13. The hip joint navigation system of claim 12 , wherein the landmark acquisition probe comprises a scale indicating the position of a tip of the landmark acquisition probe relative to the anchor portion. 14. The hip joint navigation system of claim 12 , wherein the connector comprises a channel that restricts two degrees of freedom of the landmark acquisition probe. 15. The hip joint navigation system of claim 12 , wherein the first inertial navigation device is coupled with the anchor portion of the jig. 16. The hip joint navigation system of claim 12 , wherein the second inertial device comprises a mount device configured to detachably connect the second inertial device to the landmark acquisition probe. 17. The hip joint navigation system of claim 12 , wherein the second inertial device comprises a camera. 18. The hip joint navigation system of claim 12 , wherein the connector comprises a window configured to enable a scale to be viewed therethrough. 19. The hip joint navigation system of claim 12 , wherein the first inertial navigation device, the second inertial navigation device, or the first inertial navigation device and the second inertial navigation device is or are configured to determine the position of the neck of the femur based on the position of the point. 20. The hip joint navigation system of claim 12 , wherein the first inertial navigation device comprises a display. 21. A hip joint navigation system, comprising: a jig having an anchor portion configured to be immovably connected to the pelvis, the jig having a connector; a landmark acquisition probe coupled with the connector, the connector configured to move in at least two degrees of freedom relative to the jig, the landmark acquisition probe configured to move in at least one additional degree of freedom relative to the connector; a first inertial navigation device configured to be immovably connected to the jig; and a second inertial navigation device configured to determine at least one of a position and an orientation of a tip of the landmark acquisition probe when the tip of the landmark acquisition probe contacts a landmark, wherein the first inertial navigation device, the second inertial navigation device, or the first inertial navigation device and the second inertial navigation device comprise software incorporated into a processor configured to calculate at least one of the position and the orientation of an anatomical plane based on a plurality of landmarks contacted by the tip of the landmark acquisition probe. 22. The hip joint navigation system of claim 21 , wherein the first inertial navigation device, the second inertial navigation device, or the first inertial navigation device and the second inertial navigation device is or are configured to determine the orientation of an acetabular plane based on the position of the landmarks. 23. The hip joint navigation system of claim 21 , wherein the first inertial navigation device, the second inertial navigation device, or the first inertial navigation device and the second inertial navigation device is or are configured to determine the orientation of a pelvic plane based on the position of the landmarks. 24. A hip joint navigation system, comprising: a jig having an anchor portion configured to be immovably connected to the pelvis, the jig having a connector; a landmark acquisition probe coupled with the connector, the connector configured to move in at least two degrees of freedom relative to the jig, the landmark acquisition probe configured to move in at least one additional degree of freedom relative to the connector; a first inertial navigation device configured to be immovably connected to the j