Methods and systems for adjusting an external fixation frame

The invention claimed is: 1. A method for implementing a predetermined correction plan in an external fixation frame having a first fixation ring coupled to a second fixation ring by plurality of adjustable-length struts, the method comprising: receiving correction plan data in a tool for implementing the predetermined correction plan, the correction plan data including information about the predetermined correction plan for adjusting the adjustable-length struts of the external fixation frame, the predetermined correction plan including a list of adjustment times and positions for each of the plurality of adjustable-length struts; determining, via a processor operably coupled to the tool, movement of at least one of the plurality of adjustable-length struts based on the correction plan data; engaging a driver of the tool to the at least one of the adjustable-length struts; using the tool to start moving the at least one of the plurality of adjustable-length struts according to the movement determined by the processor, wherein, upon disengagement of the driver from the at least one of the adjustable-length struts, a controller of the tool is configured to receive, from the processor, a signal indicative of the disengagement; and disengaging the driver from the at least one of the adjustable-length struts prior to finishing moving the at least one of the plurality of adjustable-length struts according to the movement determined by the processor, such that the tool receives the signal indicative of the disengagement. 2. The method of claim 1 , further comprising: re-engaging the driver to the at least one of the adjustable-length struts following the disengagement but prior to finishing moving the at least one of the plurality of adjustable-length struts according to the movement determined by the processor. 3. The method of claim 2 , further comprising: after re-engaging the driver to the at least one of the adjustable-length struts, finishing moving the at least one of the adjustable-length struts according to the movement determined by the processor. 4. The method of claim 1 , further comprising: receiving, via the tool, identification data including information for identifying at least one of the plurality of adjustable-length struts. 5. The method of claim 4 , wherein the tool includes an RFID reader adapted to receive a signal containing the identification data, the identification data originating from RFID tags attached to each of the plurality of adjustable-length struts. 6. A method for implementing a predetermined correction plan in an external fixation frame having a first fixation ring coupled to a second fixation ring by plurality of adjustable-length struts, the method comprising: receiving correction plan data in a tool for implementing the predetermined correction plan, the correction plan data including information about the predetermined correction plan for adjusting the adjustable-length struts of the external fixation frame, the predetermined correction plan including a list of adjustment times and positions for each of the plurality of adjustable-length struts; determining, via a processor operably coupled to the tool, movement of at least one of the plurality of adjustable-length struts based on the correction plan data; engaging a driver of the tool to the at least one of the adjustable-length struts; using the tool to start moving the at least one of the plurality of adjustable-length struts according to the movement determined by the processor, wherein, upon disengagement of the driver from the at least one of the adjustable-length struts, a controller of the tool is configured to receive, from the processor, a signal indicative of the disengagement; wherein using the tool to start moving the at least one of the plurality of adjustable-length struts includes operating a motor of the tool to drive the driver of the tool; and measuring an angular position of the driver using an angular position sensor coupled to at least one of the motor or the driver. 7. The method of claim 6 , wherein the angular position sensor includes a rotary encoder.