Thank you for your opinion in support of the use of artificial intelligence for developments in the field of marine energy. Figuratively speaking, you represent the state of Pennsylvania, where the oldest and richest Benjamin Franklin University is located, whose 45th and 47th President of the United States Donald Trump is a graduate and therefore we can say with special pride that your opinion can be quite reasonable, and thus your decision to join the strategic development of HYPOT is a very valuable acquisition. Yes, you are absolutely right when you talk about the strategic direction of HYPOT technology research, since the construction of an underwater energy supply infrastructure will have a staggering development of mining technologies on a completely unexplored 70% of the world.
Low percentage of ocean exploration and the strategic goal of using underwater hydroelectric power stations built using HYPOT technology to fully meet the energy supply needs of global artificial intelligence, to increase this percentage and achieve the most comfortable conditions for human activities in the ocean
The ocean covers more than 70% of the Earth’s surface, but its study is still at a relatively low level. According to various estimates, only a few percent of the ocean depths have been explored. This is due to technical, economic, and technological limitations.
The strategic goal of using HYPOT underwater hydroelectric power stations:
to increase the percentage of explored ocean depths;
to provide energy supply for global artificial intelligence (AI) and other systems;
to create the most comfortable conditions for human activities in the ocean.
How HYPOT underwater hydroelectric power stations can help achieve these goals:
Increasing the exploration of the ocean:
the stations can become bases for deploying research equipment;
the energy generated by the stations can power autonomous underwater vehicles and sensors for exploring the ocean depths;
data collected using equipment installed on the stations will help create detailed maps of the ocean floor and study oceanic processes.
Ensuring energy supply for global AI and other systems:
underwater hydroelectric power stations can generate a significant amount of energy, which will be used to operate data centres, AI systems, and other technological solutions;
HYPOT technology (assuming it is a hypothetical or specific technology) can ensure high efficiency and reliability of energy supply.
Creating comfortable conditions for human activities in the ocean:
stable energy supply will allow the development of underwater research laboratories, stations, and other facilities;
technologies developed for hydroelectric power stations can be applied to create safe and efficient underwater communication and navigation systems;
studying the ocean with the help of stations will help optimise shipping routes, the location of underwater structures, and marine farms.
Additional benefits:
development of new technologies and materials for working in the extreme conditions of the ocean;
stimulation of innovations in the field of underwater energy and robotics;
improved understanding of oceanic processes, which will help in predicting natural disasters and protecting the environment.
Possible challenges and risks:
technical difficulties in the construction and operation of underwater facilities;
the need to develop reliable systems for transmitting energy from depth to the surface;
the impact of hydroelectric power stations on the marine ecosystem and the need to protect it.