Energizable instrument assembly

What is claimed is: 1 . A system to control operation of an energizable electrosurgical RF instrument, comprising: a controller configured to control a generator configured to generate a power signal to be transmitted to a working end of the energizable electrosurgical RF instrument; and a processor module configured to execute instructions to: receive pose data of the energizable electrosurgical RF instrument based on navigation data, compare a current operation parameter of the energizable electrosurgical RF instrument to a recalled planned operation parameter of the energizable electrosurgical RF instrument; determine whether the current operation parameter should change based on the comparison; and if it is determined the current operation parameter should change, generate a control signal to change an operation of the generator to transmit a power signal to the working end of the energizable electrosurgical RF instrument so that an edge portion of the working end of the energizable electrosurgical RF instrument is energized, wherein the recalled planned operation parameter includes a kinematic feature that includes a speed of movement of the energizable electrosurgical RF instrument along a path of the energizable electrosurgical RF instrument. 2 . The system of claim 1 , wherein the processor module is further configured to execute instructions to: recall the recalled planned operation parameter, wherein the recalled planned operation parameter includes at least one of a power, a voltage, a duty cycle, or combinations thereof to be delivered to the working end of the energizable electrosurgical RF instrument, and wherein the current operation parameter includes at least one of a power, a voltage, a duty cycle, or combinations thereof that is delivered to the working end of the energizable electrosurgical RF instrument. 3 . The system of claim 2 , wherein the recalled planned operation parameter includes at least one of a planned power, voltage, duty cycle, or combinations thereof at a selected parameter relative to a trajectory path, resection region, and an avoidance region. 4 . The system of claim 3 , wherein the selected parameter relative to the trajectory path, resection region, and avoidance region includes at least one of a pose feature, a kinematic feature, or combinations thereof. 5 . The system of claim 4 , wherein the kinematic feature includes at least a rate of change along a path toward the avoidance region. 6 . The system of claim 1 , further comprising: an input configured to input a selection of an avoidance region of a subject. 7 . The system of claim 6 , wherein the avoidance region is at least one of manually determined, automatically determined, or combinations thereof. 8 . The system of claim 6 , further comprising: a navigation system configured to track the energizable electrosurgical RF instrument relative to a region of the subject. 9 . The system of claim 8 , wherein the processor is operable to execute further instructions to determine a past position of the working end of the energizable electrosurgical RF instrument and illustrate relative to a displayed image of the subject the past position of the working end of the energizable electrosurgical RF instrument. 10 . The system of claim 1 , further comprising: the generator configured to be controlled by the controller. 11 . A method to control operation of an energizable electrosurgical RF instrument, comprising: determining a pose of the energizable electrosurgical RF instrument having a working end; generating a power signal to be transmitted to the working end of the energizable electrosurgical RF instrument for performing a procedure; and executing instructions with a processor module configured to: compare a current operation parameter of the energizable electrosurgical RF instrument to a recalled planned operation parameter of the energizable electrosurgical RF instrument based on determined pose data; determine whether the current operation parameter should change based on the comparison; if it is determined the current operation parameter should change, generate a control signal to transmit an updated power signal to the working end of the energizable electrosurgical RF instrument to change the current operation parameter to an updated operation parameter, wherein the recalled planned operation parameter includes a kinematic feature that includes a speed of movement of the energizable electrosurgical RF instrument along a path of the energizable electrosurgical RF instrument; and energize an edge portion of the working end of the energizable electrosurgical RF instrument based upon the updated operation parameter. 12 . The method of claim 11 , further comprising: executing further instructions with the processor module to determine a planned operation parameter based on a planned pose or path of at least one of the working end of the energizable electrosurgical RF instrument based on the recalled planned operation parameter of the energizable electrosurgical RF instrument. 13 . The method of claim 12 , further comprising: executing further instructions with the processor module to receive pose data of the energizable electrosurgical RF instrument based on navigation data, wherein the determined current pose is based on the navigation data. 14 . The method of claim 13 , further comprising: determining the pose data with a navigation system; transmitting the pose data to the processor module; and coupling a tracker to the energizable electrosurgical RF instrument, wherein determining the pose data comprises tracking a tracker with a tracking system. 15 . The method of claim 14 , further comprising: generating the control signal to transmit the updated power signal to change the current operation parameter to the updated operation parameter by changing at least one of a power, a voltage, a duty cycle, or combinations thereof. 16 . The method of claim 14 , further comprising: displaying with a display device an image of a subject and a graphical icon representing a pose of removed portions of the subject based on at least one determined past pose of the energizable electrosurgical RF instrument. 17 . The method of claim 11 , further comprising: receiving an input of a determined trajectory path, resection region, and an avoidance region, wherein the recalled planned operation parameter of the energizable electrosurgical RF instrument is based on the input determined trajectory path, resection region, and avoidance region. 18 . The method of claim 11 , further comprising: receiving a manual input from a user to cease the updated operation parameter so as to not change the current operation parameter. 19 . A system to control operation of an energizable instrument, comprising: an energizable instrument having a working end; a generator configured to generate a power signal to be transmitted to the working end of the energizable instrument for performing a procedure; and a processor module configured to execute instructions to: compare a current operation parameter of the energizable instrument to a recalled planned operation parameter of the energizable instrument based on determined pose data; determine whether the current operation parameter should change based on the comparison; and if it is determined the current operation parameter should change, generate a control signal to change an operation of the generator to transmit a power signal to the working e