Apparatus and method for computerized rotational head impulse test

What is claimed is: 1. A method for computerized rotational head impulse testing of a subject comprising the steps of: providing a system for assessing at least one pair of the semicircular canals of the subject including a rotary chair having controllable rotary motion, a head mounted VOG system with head tracking sensors and a target generation system; placing the a head mounted VOG system with head tracking sensors on the subject whereby the VOG system tracks and records eye movement from the subject; placing the subject into the chair; generating a visual target for the subject with the target generation system; generating at least one head impulse for the subject for rotational head impulse testing of a subject via whole body rotation of the subject in the chair through controlled rotation of the chair; recording eye movements and head movements by the head mounted VOG system with head tracking sensors and analyzing the results including isolating and assessing at least one pair of the semicircular canals of the subject. 2. The method for computerized rotational head impulse testing of a subject according to claim 1 wherein the controlled rotation of the chair is through a servo motor control with high resolution encoder. 3. The method for computerized rotational head impulse testing of a subject according to claim 1 further including the step of fore-aft adjusting of the subject in the chair to place the subject on a desired vertical axis for testing. 4. The method for computerized rotational head impulse testing of a subject according to claim 1 wherein the chair further includes a fiber optic slip ring which passes data from the VOG system. 5. The method for computerized rotational head impulse testing of a subject according to claim 1 wherein the VOG system is operating at least at 250 FPS. 6. The method for computerized rotational head impulse testing of a subject according to claim 1 wherein the head tracking sensors of the VOG system are 6 degrees of freedom sensors. 7. The method for computerized rotational head impulse testing of a subject according to claim 1 further including a calibration laser installed on the VOG system. 8. The method for computerized rotational head impulse testing of a subject according to claim 1 wherein the target generation system is a laser based system mounted on the chair. 9. The method for computerized rotational head impulse testing of a subject according to claim 1 further including the step of calibrating the head tracking sensor of the head mounted VOG system to the orientation of the subjects canals whereby a transformation matrix can be used to transform movement data to the specific canals. 10. The method for computerized rotational head impulse testing of a subject according to claim 1 including the step of assessing of at least the vertical semicircular canals of the subject with the recording of the eye movements and head movements by the head mounted VOG system with head tracking sensors. 11. The method for computerized rotational head impulse testing of a subject according to claim 1 including the step of assessing of all six semicircular canals of the subject with the recording of the eye movements and head movements by the head mounted VOG system with head tracking sensors. 12. The method for computerized rotational head impulse testing of a subject according to claim 1 wherein the controlled rotation of the chair includes rotating the chair in an oscillating fashion at low amplitude less than +/−15 degrees and at a frequency between 0.1 and 0.3 Hz. 13. The method for computerized rotational head impulse testing of a subject according to claim 1 wherein the controlled rotation of the chair includes rotating the chair in random directions for at 750 to 1000 deg/sec.sup.2 chair acceleration. 14. The method for computerized rotational head impulse testing of a subject according to claim 1 further including the step of placing the patient in proper orientation to align either the RALP or LARP canals in an earth-horizontal plane. 15. The method for computerized rotational head impulse testing of a subject according to claim 14 wherein the step of placing the patient in proper orientation to align either the RALP or LARP canals in an earth-horizontal plane comprising aligning a head mounted goggle laser image with an image generated by the visual stimulus generating system. 16. A method for computerized rotational head impulse testing of a subject comprising the steps of: A) providing a system for assessing the semicircular canals of the subject including a rotary chair having controllable rotary motion and a head mounted VOG system with head tracking sensors; B) placing the a head mounted VOG system with head tracking sensors on the subject whereby the VOG system tracks and records eye movement from the subject; C) placing the subject into the chair; D) placing the patient in proper orientation to align either the horizontal, RALP or LARP canals in an earth-horizontal plane; E) generating at least one head impulse for the subject via whole body rotation of the subject in the chair through controlled rotation of the chair; F) recording eye movements and head movements by the head mounted VOG system with head tracking sensors; G) Repeating steps D-F for the remaining canals; and H) assessing of all six semicircular canals of the subject with the recording of the eye movements and head movements by the head mounted VOG system with head tracking sensors. 17. The method for computerized rotational head impulse testing of a subject according to claim 16 further including the step of calibrating the head tracking sensor of the head mounted VOG system to the orientation of the subjects canals whereby a transformation matrix can be used to transform movement data to the specific canals. 18. The method for computerized rotational head impulse testing of a subject according to claim 16 wherein the VOG system is operating at least at 250 FPS and wherein the head tracking sensors of the VOG system are 6 degrees of freedom sensors. 19. The method for computerized rotational head impulse testing of a subject according to claim 16 wherein the controlled rotation of the chair includes rotating the chair in an oscillating fashion at low amplitude less than +/−15 degrees and at a frequency between 0.1 and 0.3 Hz.