Instruments for navigated orthopedic surgeries

What is claimed is: 1. A system for computer-assisted navigation during surgery, the system comprising: a robotic navigation system including a computer, a display coupled to the computer, and a camera coupled to the computer and configured to detect tracking markers; a first dynamic reference base including a first reference array with a plurality of tracking markers, the first dynamic reference base configured to attach to and track a first bone; a second dynamic reference base including a second reference array with a plurality of tracking markers, the second dynamic reference base configured to attach to and track a second bone; and a navigable stylus including an elongate body defining a longitudinal axis, a third reference array attached to a proximal portion of the elongate body and having a plurality of tracking markers, and wherein the robotic navigation system is adapted to determine a position of a surgical instrument attached to the stylus using only the third reference array regardless of which surgical instrument is attached to the navigable stylus wherein a plurality of surgical instruments configured to connect to the stylus, wherein the stylus includes a plane checker, wherein the plane checker includes a collar and a foot, wherein the collar includes a longitudinal opening configured to receive the universal quick-connect attachment tip, and the foot includes a U-shaped plate with a flat bottom surface configured to be placed on a resection plane to return an angulation and/or cut depth to the robotic navigation system. 2. The system of claim 1 , wherein the plane checker is free to rotate relative to a longitudinal axis of the stylus, thereby allowing quick reorientation of the third reference array. 3. The system of claim 1 , wherein the stylus is configured for landmark localization and point acquisition. 4. The system of claim 3 , wherein once the stylus is on a landmark or point of interest, rotation of the stylus by a threshold rotation is captured by the robotic navigation system, thereby capturing the landmark or point of interest by the robotic navigation system. 5. The system of claim 4 , wherein the threshold rotation is at least 30°. 6. The system of claim 3 , wherein one tracking marker associated with the third reference array is physically movable relative to the other tracking markers, and once the stylus is on a landmark or point of interest, the robotic navigation system detects movement of the one tracking marker relative to the other tracking markers and captures the landmark or point of interest. 7. A system for computer-assisted navigation during surgery, the system comprising: a robotic navigation system including a computer, a display coupled to the computer, and a camera coupled to the computer and configured to detect tracking markers; a first dynamic reference base including a first reference array having a plurality of tracking markers trackable by the camera, the first dynamic reference base configured to attach to and track a first bone; a second dynamic reference base including a second reference array with a plurality of tracking markers trackable by the camera, the second dynamic reference base configured to attach to and track a second bone; and a navigable stylus including: an elongate body defining a longitudinal axis; a third reference array disposed at a proximal portion of the elongate body and having a plurality of tracking markers trackable by the camera, the third reference array including an array frame and a shaft extending distally from the array frame, wherein three of the third reference array tracking markers are attached to the array frame and one of the third reference array tracking markers is distally spaced from the three third reference array tracking markers and attached to the shaft; and wherein the robotic navigation system is adapted to determine a position of the surgical instrument attached to the stylus using only the third reference array regardless of which surgical instrument is attached to the navigable stylus wherein a plurality of surgical instruments configured to connect to the stylus, wherein the stylus includes a plane checker, wherein the plane checker includes a collar and a foot, wherein the collar includes a longitudinal opening configured to receive the universal quick-connect attachment tip, and the foot includes a U-shaped plate with a flat bottom surface configured to be placed on a resection plane to return an angulation and/or cut depth to the robotic navigation system. 8. The system of claim 7 , wherein the longitudinal axis of the elongate body is different from a longitudinal axis of the shaft. 9. The system of claim 8 , further comprising a connection shaft attached between the elongate body and the shaft, the connection shaft positioned at an angle to the elongate body. 10. The system of claim 7 , wherein the third reference array is immovably attached to the elongate body such that a position of all of the third reference array tracking markers is fixed and non-movable regardless of which surgical instrument is attached to the navigable stylus.