Vision system with articulated support frame

What is claimed is: 1. A mechanical framework for a vision system comprising: an attachment device; an articulated support frame comprising: at least one proximal frame member mechanically coupled to the attachment device and a pair of distal frame members configured to retain respective optical devices in fixed mutual parallelism between optical axes of the respective optical devices and mounting axes of the respective distal frame members; and a plurality of joints mechanically interposed between the frame members and defining respective axes of rotation about which the frame members are moveable relative one to another to afford thereby motion of the distal frame members through respective spatial trajectories that mutually terminate in a stow configuration in which the mounting axes are non-parallel one with the other and in a binocular viewing configuration in which the mounting axes are parallel one with the other; and a bridge device by which the distal frame members are immobilized on their respective spatial trajectories in the binocular viewing configuration. 2. The mechanical framework of claim 1 , wherein the bridge device defines a transverse plane in which none of the axes of rotation of the joints are parallel with any other of the axes of rotation of the joints. 3. The mechanical framework of claim 1 , wherein the attachment device is configured to mechanically couple with a wearable item engaged with a human individual at a predetermined position relative to the human head. 4. The mechanical framework of claim 1 further comprising offset positioning mechanisms mechanically coupled to the respective distal frame members, each offset positioning mechanism comprising: an optical device mount configured for coupling to a corresponding one of the optical devices; and at least one actuator engaged with the optical device mount and being configured to move the optical device mount relative to the corresponding distal frame member along a corresponding at least one spatial dimension responsive to an actuating force applied thereto. 5. The mechanical framework of claim 4 , wherein the offset positioning mechanisms include a mediolateral translation mechanism at each of the distal frame members, each being operable independently one from the other. 6. The mechanical framework of claim 1 , wherein the articulated support frame is mechanically separable into sub-frames. 7. The mechanical framework of claim 6 , wherein one of the sub-frames includes the attachment device incorporated therein and another of the sub-frames includes the bridge device incorporated therein. 8. The mechanical framework of claim 1 , wherein the distal frame members are independently releasable from the bridge device to be independently moved along the respective spatial trajectories. 9. The mechanical framework of claim 8 , further comprising at least one mechanical catch between the bridge device and each distal frame member, the mechanical catch being configured to selectively immobilize and release the corresponding distal frame member relative to the bridge device. 10. The mechanical framework of claim 9 , wherein the mechanical catch comprises a magnet. 11. The mechanical framework of claim 9 , wherein the bridge device comprises anteroposterior stops between which each distal frame member is received. 12. The mechanical framework of claim 11 , wherein at least one of the anteroposterior stops is a flexure to apply a resilient force against the corresponding distal frame member in the direction of the other of the anteroposterior stops. 13. The mechanical framework of claim 1 , wherein the joints include bridge joints to mechanically couple each of the distal frame members to the bridge device. 14. The mechanical framework of claim 13 , wherein the bridge joints define respective compound axes of rotation. 15. The mechanical framework of claim 14 , wherein the axes of rotation of the respective bridge joints are non-parallel with the mounting axes of the respective distal frame members. 16. The mechanical framework of claim 15 , wherein the axis of rotation of each of the bridge joints is non-parallel with the axis of rotation of the other of the bridge joints. 17. A binocular vision system comprising: a pair of optical devices defining respective optical sighting axes; an attachment device; an articulated support frame comprising: at least one proximal frame member mechanically coupled to the attachment device and a pair of distal frame members configured to retain the respective optical devices in fixed mutual parallelism between the optical sighting axes of the respective optical devices and mounting axes of the respective distal frame members; and a plurality of joints mechanically interposed between the frame members and defining respective axes of rotation about which the frame members are moveable relative one to another to afford thereby motion of the distal frame members through respective spatial trajectories that mutually terminate in a stow configuration in which the mounting axes are non-parallel one with the other and in a binocular viewing configuration in which the mounting axes are parallel one with the other; and a bridge device by which the distal frame members are immobilized on their respective spatial trajectories in the binocular viewing configuration. 18. The binocular vision system of claim 17 , wherein the bridge device defines a transverse plane in which none of the axes of rotation of the joints are parallel with any other of the axes of rotation of the joints. 19. The binocular vision system of claim 17 , wherein the attachment device is configured to mechanically couple with a wearable item engaged with a human individual at a predetermined position relative to the human head. 20. The binocular vision system of claim 17 further comprising offset positioning mechanisms mechanically coupled to the respective distal frame members, each offset positioning mechanism comprising: an optical device mount configured for coupling to a corresponding one of the optical devices; and at least one actuator engaged with the optical device mount and being configured to move the optical device mount relative to the corresponding distal frame member along a corresponding at least one spatial dimension responsive to an actuating force applied thereto. 21. The binocular vision system of claim 20 , wherein the offset positioning mechanisms include a mediolateral translation mechanism at each of the distal frame members, each being operable independently one from the other. 22. The binocular vision system of claim 17 , wherein the joints include bridge joints to mechanically couple each of the distal frame members to the bridge device, the bridge joints defining respective compound axes of rotation. 23. The binocular vision system of claim 22 , wherein the respective compound axes of rotation of the bridge joints are non-parallel with the optical axes of the respective optical devices. 24. The binocular vision system of claim 17 , wherein the articulated support frame is mechanically separable into sub-frames. 25. The binocular vision system of claim 24 , wherein one of the sub-frames includes the attachment device incorporated therein and another of the sub-frames includes the bridge device incorporated therein. 26. The binocular vision system of claim 17 , wherein the distal frame members