ARTIFICIAL INTELLIGENCE BASED OCEANOGRAPHY AI Oceanography - The fourth industrial revolution comes in the form of oceanographic science Artificial Intelligence - In 2019 the term is practically inescapable. From self-driving cars to AI-enabled smartphones; The explosion in the functioning and trading of AI games, expert game-playing computers, machine learning techniques for an endless variety of tasks. Led by companies such as Amazon, Google, Apple and Samsung, companies around the world are revolutionizing their businesses, with recent developments in deep learning (large neural network) algorithms and a steady decline in computing power. Scientists in many disciplines are at the forefront of finding new ways to exploit powerful modeldetection and statistical reasoning enabled by modern AI. In Life Sciences, AI provides insights into the human genome, predicts cancer development, and accelerates drug discovery at an unprecedented place.
In the earth sciences, AI improves atmospheric and environmental time series by representing missing data and integrating conflicting observations, correcting bias, and building better models of attendance than previously possible. The long-standing and uninterrupted geological research question of when and when the next major earthquake will occur, for the first time, maybe soluble using neural networks. The promise of machine learning solutions for problems that are impossible or too challenging to use traditional methods is appealing.
Marine science has its unique challenges and uncertainties - collecting data on vast spatiotemporal scales, tracking and isolating the effects of different water masses in highly dynamic systems, or accessing remote and often dangerous areas. Thanks to pioneering projects such as high-resolution, long-term in situ observational datasets, Argo now boasts about 4000 widely dispersed autonomous platforms, which cover the upper 2000 m of the ocean. Biogeochemical arc floats are also increasingly online, allowing measurements of chlorophyll fluorescence, acoustic backscatter, dissolved oxygen, and other crucial marine properties. For large datasets, such as the Global Argo Observational Output, deep