Method and system for performing invasive medical procedures using a surgical robot

1. A system performing an invasive medical procedure using an instrument, comprising:

• a robot having an effectuator element, the effectuator element forming or being configured to securely hold the instrument that is to be positioned at a desired position within a patient'"'"'s body;
  
  a plurality of RF transmitters including two or more RF transmitters affixed to the effectuator element at desired locations thereof and at least one RF transmitter adapted to be affixed to or inserted into the patient'"'"'s body;
  
  a plurality of RF receivers that receive a signal from the plurality of RF transmitters;
  
  a motor assembly that is mounted on the robot, and that is configured to move the effectuator element in each one of the x, y and z directions independently of movement in the others of the x, y and z directions, the x, y and z directions being perpendicular to each other;
  
  a control unit that receives a desired point of insertion and trajectory of the instrument into the patient to an anatomical target, the control unit operatively coupled to the motor assembly, the control unit supplying signals to the motor assembly to cause it to selectively move the effectuator element along the x, y and z directions, the control unit configured (i) to calculate the position of the plurality of RF transmitters by analysis of radio frequency signals emitted by at least one RF transmitter of the two or more RF transmitters affixed to the effectuator element and by the at least one RF transmitter affixed to or inserted into the patient'"'"'s body, (ii) to show an actual position and actual trajectory of the instrument and the desired trajectory superimposed over an anatomical image of the patient on a display, (iii) to control actuation of the motor assembly to move along the desired trajectory from the desired point of insertion to the anatomical target based on the analyzed radio frequency signals, and (iv) to selectively energize the two or more RF transmitters affixed to the effectuator element to cause at least a portion of the effectuator element to move in the desired trajectory, wherein the at least one RF transmitter affixed to or inserted into the patient'"'"'s body is used to initially locate the anatomical target and to detect movement of the patient and correct the movement of the effectuator element in response thereto.