Intelligent positioning system and methods therefore

The invention claimed is: 1. A medical navigation system for tracking a medical device having a tracking marker attachable to the medical device, the medical navigation system comprising: a computing device having a processor coupled to: a memory, a tracking system for tracking the medical device, and a display for displaying an image; and an automated arm assembly electrically coupled to the computing device and controlled by a signal provided by the computing device, the automated arm assembly including a plurality of multi-joint arms each having a distal end connectable to respective end effectors, at least one end effector supporting an imaging device electrically coupled to the computing device; the computing device being configured to: track, based on a signal from the tracking system, a position and orientation of the medical device; position the automated arm assembly, based on the tracked position and orientation of the medical device, according to one of at least three modes including: automatic alignment of the imaging device to a longitudinal axis and a rotation of the medical device where the medical device is an access port; automatic alignment of the imaging device to the longitudinal axis only of the medical device where the medical device is an access port; and automatic alignment of a field of view of the imaging device to a point on the medical device; and display on the display an image provided by an image signal generated by the imaging device; wherein the automatic alignment is performed only when the tracked position and orientation of the medical device has been constant for more than a threshold period of time. 2. The medical navigation system of claim 1 , wherein the computing device is further configured to track the distal end or end effector of each multi-joint arm, based on respective signals from the tracking system, and wherein each multi-joint arm is controlled independently based on the respective signals. 3. The medical navigation system of claim 1 , wherein each end effector supports respective medical tools, wherein the computing device is further configured to track position and orientation of each medical tool, based on respective signals from the tracking system. 4. The medical navigation system of claim 1 , wherein the computing device is further configured to control the imaging device to perform autofocus on a site of interest whenever the imaging device is moved. 5. The medical navigation system of claim 1 , wherein the automatic alignment is performed only when the tracked position and orientation of the medical device changes more than a threshold amount. 6. The medical navigation system of claim 1 , wherein the automatic alignment is performed only when an estimated occlusion of the field of view of the imaging device is greater than an acceptable occlusion amount. 7. The medical navigation system of claim 1 , wherein the automatic alignment is performed in response to an input command. 8. The medical navigation system of claim 7 , wherein the input command is provided by at least one of a foot pedal, a joystick, a microphone receiving a voice instruction, a transducer detecting a gesture, and a wireless electronic device. 9. The medical navigation system of claim 1 , wherein the computer device is configured to position the automated arm assembly by: identifying a site of interest in a predetermined coordinate frame, the site of interest being based on the position and an orientation of the medical device; obtaining a position and an orientation for the end effector supporting the imaging device, the position and orientation being defined in the predetermined coordinate frame; obtaining a desired standoff distance and a desired orientation between the site of interest and the end effector supporting the imaging device; determining a new desired position and a new desired orientation for the end effector based on the position and orientation of the site of interest, the desired standoff distance and the desired orientation; and moving the end effector to the new position and orientation. 10. A method for use in a medical navigation system having a computing device including a processor coupled to a memory, a tracking system for tracking a medical device, and a display for displaying an image; and an automated arm assembly electrically coupled to the computing device and controlled by a signal provided by the computing device, the automated arm assembly including a plurality of multi-joint arms each having a distal end connectable to respective end effector, at least one end effector supporting an imaging device electrically coupled to the computing device, the method comprising: tracking, based on a signal provided to the computing device by the tracking system, a position and orientation of the medical device; positioning the automated arm assembly, based on the tracked position and orientation of the medical device, according to one of at least three modes including: automatic alignment of the imaging device to a longitudinal axis and a rotation of the medical device where the medical device is an access port; automatic alignment of the imaging device to the longitudinal axis only of the medical device where the medical device is an access port; and automatic alignment of a field of view of the imaging device to a point on the medical device; and displaying on the display an image provided by an image signal generated by the imaging device; wherein the automatic alignment is performed only when the tracked position and orientation of the medical device has been constant for more than a threshold period of time. 11. The method of claim 10 , further comprising tracking, by the computing device, the distal end or end effector of each multi-joint arm, based on respective signals from the tracking system, and wherein each multi-joint arm is controlled independently based on the respective signals. 12. The method of claim 10 , wherein each end effector supports respective medical tools, the method further comprising tracking, by the computing device, position and orientation of each medical tool, based on respective signals from the tracking system. 13. The method of claim 10 , further comprising controlling, by the computing device, the imaging device to perform autofocus on a site of interest whenever the imaging device is moved. 14. The method of claim 10 , wherein the automatic alignment is performed only when the tracked position and orientation of the medical device changes more than a threshold amount. 15. The method of claim 10 , wherein the automatic alignment is performed only when an estimated occlusion of the field of view of the imaging device is greater than an acceptable occlusion amount. 16. The method of claim 10 , wherein the automatic alignment is performed in response to an input command. 17. The method of claim 16 , wherein the input command is provided by at least one of a foot pedal, a joystick, a microphone receiving a voice instruction, a transducer detecting a gesture, and a wireless electronic device. 18. The method of claim 10 , further comprising positioning the automated arm assembly by: identifying a site of interest in a predetermined coordinate frame, the site of interest being based on the position and an orientation of the medical device; obtaining a position and an orientation for the end effector supporting the imaging device, the position and orientation being defined in the predetermined coordinate frame; obtaining a desired standoff distance and a de