Methods and systems for free-floating nautical stationkeeping

We claim: 1. A wave engine, comprising: a buoyant body having rotational symmetry about a vertical axis; a water reservoir incorporated into the buoyant body; a pair of outlet ports in fluid communication with the water reservoir and positioned on opposite sides of the buoyant body, said pair of outlets positioned to release water from the water reservoir in opposing, parallel directions; and at least one processor in communication with a a remote controller for automated positioning the wave engine; and controlling an amount of water released from the pair of outlet ports to induce rotation of the buoyant body: wherein the induced rotation of the buoyant body generates a Magnus effect resulting in a lift force which adjusts a direction of a translational motion of the wave engine in accordance with the positioning from the remote controller. 2. The wave engine of claim 1 , wherein the pair of outlet ports protrude from the buoyant body. 3. The wave engine of claim 1 , wherein the buoyant body includes a second reservoir configured for storing an energy product. 4. The wave engine of claim 3 , wherein the energy product is hydrogen. 5. The wave engine of claim 3 , wherein the energy product is a fuel. 6. The wave engine of claim 1 , wherein said processor cooperates with the pair of outlet ports to control a rotational speed of the wave engine. 7. The wave engine of claim 1 , wherein the pair of outlet ports comprise three way valves. 8. The wave engine of claim 1 , further comprising first and second turbines disposed at a respective ones of the first and second outlet ports for developing power from water escaping through the respective outlet port. 9. The wave engine of claim 1 , further comprising mechanical devices for rotationally propelling the wave engine. 10. The wave engine of claim 9 , wherein the mechanical devices are propellers.