Joint Robot and Aircraft Carriers Combinatorial Systems in the Sea in 5G OGCE

Abstract

Based on the fifth generation of mobile communication (5G), 5G open grid computing environment (5G OGCE), in order to adapt to “civil-military integration strategy” in region from deep sea to space, at the same time to meet the needs of ocean engineering development, a joint (connecting or docking-and-berthing) robot and aircraft carriers combinatorial systems are presented in this paper, the aim of which is to, (1) achieve aircraft carrier combinatorial systems jointed dynamically by double aircraft carriers, or more ships and aircraft carriers, providing the new runway of 600 meters long taking off and landing aircraft in the sea; (2) integrate unmanned aircraft carriers (and manned aircraft carriers) to take off and land the sixth generation strike fighter or unmanned stealth fighter; (3) combine the aircraft carrier and new production systems of ocean engineering, including polar icebreaker, underwater rare earth mining, combustible ice mining, underwater power generation and so on; (4) support the development of sea wave energy, offshore power generation plant and weather radar forecasting platform, and the launch and recovery of offshore rockets. By using distributed control cloud architecture in 5G OGCE, large passenger aircraft taking off and landing at 600 meters runway in aircraft carriers combinatorial systems can be realized.