Capture and docking apparatus, method, and applications

We claim: 1. An apparatus enabling the coupling by an in-transit ROV in a water column with an in-transit suspended machinery in the water column that is suspended from a link from an in transit marine surface vessel, platform, or other surface or sub-surface structure, comprising: a suspended machinery; an ROV; at least one docking assembly including a capture collar disposed in one of the ROV and the suspended machinery; a linearly extendable/retractable harpoon respectively disposed in one of the suspended machinery and the ROV; and actuating machinery associated with the extendable/retractable harpoon to controllably effect linear extension and retraction thereof. 2. The apparatus of 1 , wherein a distal end of the harpoon includes a controllable capture collar latching mechanism. 3. The apparatus of 2 , wherein the controllable capture collar latching mechanism includes a retractable component in the form of a barb or a finger. 4. The apparatus of 1 , wherein the capture collar has a front end and a back end, further wherein the capture collar is characterized by a cone-like geometry having a progressively narrowing dimension between the two ends. 5. The apparatus of 1 , wherein the harpoon is rigid. 6. The apparatus of 2 , wherein the controllable latching mechanism is remotely activatable. 7. The apparatus of 1 , further comprising a set of complimentary alignment fixtures attached to respective ones of the ROV and the suspended machinery. 8. The apparatus of 7 , wherein the set of complimentary alignment fixtures comprises an elongate male structure and a female structure that can engage the male structure. 9. The apparatus of 8 , wherein the female alignment fixture is disposed on the suspended machinery and the male alignment fixture is disposed on the ROV. 10. The apparatus of 8 , wherein the female alignment fixture is disposed on the ROV and the male alignment fixture is disposed on the suspended machinery. 11. The apparatus of 1 , further comprising a payload cage in which resides at least one of the at least one docking assembly including a capture collar and the extendable/retractable harpoon and the associated actuating machinery, wherein the payload cage has a capacity for receiving, holding, and discharging a unit payload. 12. A method for coupling an in-transit ROV in a water column with an in-transit suspended machinery in the water column that is suspended from a link from an in-transit marine surface vessel, platform, or other surface or sub-surface structure, comprising: providing the in-transit suspended machinery having at least one docking assembly including a capture collar; providing the in-transit ROV having a linearly extendable/retractable harpoon and associated actuating machinery; approaching the in-transit suspended machinery with the ROV, wherein the linearly extendable/retractable harpoon is partially extended, wherein the partially extended harpoon is aligned with the capture collar on the suspended machinery; maneuvering the ROV so as to bring an end of the partially extended harpoon into aligned proximity with the capture collar; and further linearly extending the harpoon so that it passes through and securely engages the capture collar. 13. The method of 12 , further comprising at least partially retracting the engaged harpoon so as to draw the ROV and the suspended machinery closer to one another into a securely coupled arrangement. 14. The method of 12 , further comprising activating a latching mechanism on a distal end of the harpoon to securely engage the capture collar. 15. The method of 13 , further comprising transferring a unit payload disposed within at least one of the ROV and the suspended machinery to the respective suspended machinery and the ROV. 16. The method of 12 , further comprising de-activating a latching mechanism on a distal end of the harpoon and reducing an in-transit speed of the ROV to a value that is less than the in-transit speed of the suspended machinery so as to increase the separation distance between the in-transit suspended machinery and the ROV.