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What if a formation of wind turbines could learn to maximise airflows generated from the movement of other machines to improve their efficiency? What if planes could learn to fly to avoid turbulence? ERC grantee Philippe Chatelain uses artificial intelligence and solutions inspired by nature to answer these questions.
Spacecraft follow the same tendency as our computers to become continuously smaller, but more connected. In his ERC grant “NetSat”, Klaus Schilling, from the Zentrum für Telematik in Würzburg, studies control strategies for small pico-satellites in formation, in order to achieve the best performance through their cooperation.
Can highly automated vehicles fare better than traditional cars in traffic gridlock conditions? Cooperation between vehicle intelligent transport systems via connected vehicles may provide a solution.
Will spacecraft follow a similar evolution to computers? While information processing in the last century was performed by large mainframe computers, today, networked smart phones dominate the market. In spacecraft engineering a similar paradigm shift is apparent: from traditional single, large, and multifunctional satellites towards groups of very small satellites that cooperate together. Professor Klaus Schilling, in his ERC project “NetSat”, addresses crucial challenges to enable small satellite formations to self-organise. This offers innovative application perspectives in areas like Earth observation, science exploration or telecommunications.
The discovery, conquest, and subsequent colonization of the Americas gave rise to surprising, multifaceted encounters between the Old and New Worlds. These encounters were not limited to the first-contact phase or to the military subjugation of new lands by the Europeans. They have been long processes of cross-cultural communication—in which both sides participated equally—that continued to develop through the colonial and postcolonial eras up to the present day.