![]() A similar approach to route finding for fleets of vehicles could help them make the most efficient journeys. In an interview with The Verge, Simon Garnier from the Swarm Lab at the New Jersey Institute of Technology suggested this decentralised and reconfigurable process could inform the development of self-driving cars. The network refined over hours, creating an efficient and resilient system. In 2010 researchers from the University of Oxford and Hokkaido University in Japan found that the slime made networks amazingly similar to the Tokyo transit system when linking up oat flakes positioned like surrounding cities. Despite having no brain it can make decisions – after finding food, it builds complex and efficient networks to distribute nutrients. The slime mould is a single-cell organism capable of aggregating to spread across several square metres of forest floor. Some creatures, however, are so strange that researchers take a different approach. A wing configuration or way of moving is immediately identifiable, and its potential is clear. Autonomous carsĭrones, underwater robots, turbines – biological inspirations frequently influence mechanical devices. Regardless of labels, this week we are looking at five projects and their biological inspirations, revealing how nature continues to offer engineers a guiding hand. Some call their work biomimicry, while others prefer the term bio-inspired engineering. Search our library and digital resourcesīut today, in the age of simulation and artificial intelligence, how much more can nature teach us?. ![]()
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