[{"command":"openDialog","selector":"#drupal-modal","settings":null,"data":"\u003Cdiv id=\u0022republish_modal_form\u0022\u003E\u003Cform class=\u0022modal-form-example-modal-form ecl-form\u0022 data-drupal-selector=\u0022modal-form-example-modal-form\u0022 action=\u0022\/en\/article\/modal\/10954\u0022 method=\u0022post\u0022 id=\u0022modal-form-example-modal-form\u0022 accept-charset=\u0022UTF-8\u0022\u003E\u003Cp\u003EHorizon articles can be republished for free under the Creative Commons Attribution 4.0 International (CC BY 4.0) licence.\u003C\/p\u003E\n \u003Cp\u003EYou must give appropriate credit. We ask you to do this by:\u003Cbr \/\u003E\n 1) Using the original journalist\u0027s byline\u003Cbr \/\u003E\n 2) Linking back to our original story\u003Cbr \/\u003E\n 3) Using the following text in the footer: This article was originally published in \u003Ca href=\u0027#\u0027\u003EHorizon, the EU Research and Innovation magazine\u003C\/a\u003E\u003C\/p\u003E\n \u003Cp\u003ESee our full republication guidelines \u003Ca href=\u0027\/horizon-magazine\/republish-our-stories\u0027\u003Ehere\u003C\/a\u003E\u003C\/p\u003E\n \u003Cp\u003EHTML for this article, including the attribution and page view counter, is below:\u003C\/p\u003E\u003Cdiv class=\u0022js-form-item form-item js-form-type-textarea form-item-body-content js-form-item-body-content ecl-form-group ecl-form-group--text-area form-no-label ecl-u-mv-m\u0022\u003E\n \n\u003Cdiv\u003E\n \u003Ctextarea data-drupal-selector=\u0022edit-body-content\u0022 aria-describedby=\u0022edit-body-content--description\u0022 id=\u0022edit-body-content\u0022 name=\u0022body_content\u0022 rows=\u00225\u0022 cols=\u002260\u0022 class=\u0022form-textarea ecl-text-area\u0022\u003E\u003Ch2\u003EThe flying, swimming and tunnelling robots inspired by nature\u003C\/h2\u003E\u003Cp\u003EThe Ornithopter in the sci-fi blockbuster film Dune resembles a helicopter crossed with a dragonfly. It\u2019s no wonder why.\u003C\/p\u003E\u003Cp\u003EEver since humankind has imagined flight, pioneering engineers have taken inspiration from nature. Today they\u2019re striving to build flying robots that can reach remote places to monitor the environment and collect samples.\u003C\/p\u003E\u003Cp\u003E\u003Cstrong\u003EFlapping wings\u003C\/strong\u003E\u003C\/p\u003E\u003Cp\u003EBirds, for example, are an excellent model for investigating designs, according to Dr Raphael Zufferey, a roboticist at the Swiss Federal Institute of Technology in Lausanne.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u2018They benefit from millions of years of evolution,\u2019 he said. \u2018So we have something that has been optimising throughout history.\u2019\u003C\/p\u003E\u003Cp\u003EZufferey leads a research project that received EU funding to develop robots with flapping wings.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003ECalled\u0026nbsp;\u003Ca href=\u0022https:\/\/cordis.europa.eu\/project\/id\/101029670\u0022\u003EFAAV\u003C\/a\u003E, the project began two years ago and has focused on light, affordable flying machines that could be sent to explore rivers, lakes and seas to monitor their health and gather data.\u003C\/p\u003E\u003Cp\u003EAerial-aquatic flapping robots can both fly to reach secluded locations and dive to explore, for example, the underwater realm of volcanic lakes.\u003C\/p\u003E\u003Cp\u003E\u2018With a robot that weighs 200 grammes, you could strap it to your backpack, walk to the edge of a volcano and launch it into a lake,\u2019 said Zufferey.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003EHe reeled off examples of other potential uses for these robot helpers such as studying the health of coral reefs, taking specimens from marine organisms for DNA tests or analysing underwater sediments.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u003Cstrong\u003ETakeoff test, swim success\u003C\/strong\u003E\u003C\/p\u003E\u003Cp\u003EZufferey said the main technical challenge is getting the robot airborne from the water. So far, his team has had some success in the laboratory.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u2018It\u2019s still a work in progress,\u2019 he said. \u2018But there were quite good first results.\u2019\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u003Cblockquote class=\u0022tw-text-center tw-text-blue tw-font-bold tw-text-2xl lg:tw-w-1\/2 tw-border-2 tw-border-blue tw-p-12 tw-my-8 lg:tw-m-12 lg:tw--ml-16 tw-float-left\u0022\u003E\n \u003Cspan class=\u0022tw-text-5xl tw-rotate-180\u0022\u003E\u201c\u003C\/span\u003E\n \u003Cp class=\u0022tw-font-serif tw-italic\u0022\u003EWith a robot that weighs 200 grammes, you could strap it to your backpack, walk to the edge of a volcano and launch it into a lake.\u003C\/p\u003E\n \u003Cfooter\u003E\n \u003Ccite class=\u0022tw-not-italic tw-font-normal tw-text-sm tw-text-black\u0022\u003EDr Raphael Zufferey, FAAV\u003C\/cite\u003E\n \u003C\/footer\u003E\n\u003C\/blockquote\u003E\n\u003C\/p\u003E\u003Cp\u003EThe researchers are investigating both folding and non-folding wings to see what works best. The team also managed to get its robot to swim at a speed of one metre a second after entering the water from the air \u003Cspan style=\u0022font-family:\u0026quot;Verdana\u0026quot;,sans-serif;font-size:11.0pt;mso-ansi-language:EN-GB;mso-bidi-font-family:\u0026quot;Times New Roman\u0026quot;;mso-bidi-language:AR-SA;mso-fareast-font-family:\u0026quot;Times New Roman\u0026quot;;mso-fareast-language:EN-US;\u0022 lang=\u0022EN-GB\u0022\u003E\u2013 \u003C\/span\u003Efaster than most other swimming robots.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u2018This was also a very good first result,\u2019 said Zufferey. \u2018We were able to get a robot to swim well even though it was originally made for flight.\u2019\u003C\/p\u003E\u003Cp\u003EMimicking nature in these ways is less simple than it may seem and involves plenty of trade-offs. For instance, the robot needs to be both light enough to fly and dense enough to dive with sensors for sampling.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003EIn seeking the best mix of materials, the researchers have turned to advanced polymers and carbon fibre \u2013 known for its good strength-to-weight ratio.\u003C\/p\u003E\u003Cp\u003EZufferey said it may be possible to have a robot that is able to fly and swim within around six months. He estimated the cost at about\u0026nbsp;\u20ac350 apiece, saying that\u2019s good value for activities like environmental monitoring.\u003C\/p\u003E\u003Cp\u003E\u003Cstrong\u003ESubterranean realm\u003C\/strong\u003E\u003C\/p\u003E\u003Cp\u003EGoing yet deeper, other researchers are designing a robot able to venture\u0026nbsp;into challenging underground places, including ones with water,\u0026nbsp;to extract minerals.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003EEurope has about 30 000 closed mines that still hold raw materials including chromium, copper, gold, iron and zinc crucial to industries such as energy and electronics. Recovering these\u0026nbsp;\u003Ca href=\u0022https:\/\/ec.europa.eu\/research-and-innovation\/en\/horizon-magazine\/secure-raw-materials-europe-turns-recycling\u0022\u003Ematerials\u003C\/a\u003E with robots in an environmentally sound way would avoid humans having to go into dangerous places and reduce the need for imports.\u003C\/p\u003E\u003Cp\u003E\u003Cblockquote class=\u0022tw-text-center tw-text-blue tw-font-bold tw-text-2xl lg:tw-w-1\/2 tw-border-2 tw-border-blue tw-p-12 tw-my-8 lg:tw-m-12 lg:tw--ml-16 tw-float-left\u0022\u003E\n \u003Cspan class=\u0022tw-text-5xl tw-rotate-180\u0022\u003E\u201c\u003C\/span\u003E\n \u003Cp class=\u0022tw-font-serif tw-italic\u0022\u003EThe ultimate idea is to provide Europe with sustainable domestic sources of raw materials.\u003C\/p\u003E\n \u003Cfooter\u003E\n \u003Ccite class=\u0022tw-not-italic tw-font-normal tw-text-sm tw-text-black\u0022\u003EDr Claudio Rossi, ROBOMINERS\u003C\/cite\u003E\n \u003C\/footer\u003E\n\u003C\/blockquote\u003E\n\u003C\/p\u003E\u003Cp\u003E\u2018The logical choice is to send robots,\u2019 said Dr Claudio Rossi, a roboticist at the Technical University of Madrid in Spain. \u2018The ultimate idea is to provide Europe with sustainable domestic sources of raw materials. They\u2019re used everywhere, including in mobile phones, computers and cars.\u2019\u003C\/p\u003E\u003Cp\u003EThe EU-funded\u0026nbsp;\u003Ca href=\u0022https:\/\/cordis.europa.eu\/project\/id\/820971\u0022\u003EROBOMINERS\u003C\/a\u003E project that he leads has been developing a prototype inspired by the movements of fish, insects and worms.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003ECapable of tunnelling through flooded mines, this type of intrepid explorer would enable ultra-deep mining and the extraction of deposits that would otherwise be uneconomical for companies as well as dangerous for people.\u003C\/p\u003E\u003Cp\u003EAt around one metre across and three metres long, the robot\u2019s relatively small size and precision digging would reduce waste and be more eco-friendly than conventional machinery, according to Rossi. The idea is to use this kind of robot in fleets.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u003Cstrong\u003EMole-like whiskers\u003C\/strong\u003E\u003C\/p\u003E\u003Cp\u003EThe robot would be able to repair itself and would operate with sensors and artificial intelligence.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u2018The robot has whiskers like a mole,\u2019 said Rossi. \u2018With these, it can touch walls or obstacles and we can construct a 3D model of the mine. It can tell us there\u2019s a wall here, there\u2019s a stone here, there\u2019s a tunnel on the left.\u2019\u003C\/p\u003E\u003Cp\u003EUnderwater-drilling trials have taken place in Estonia and Slovenia, with most of the robot\u2019s key components having been tested to a water pressure of about 100 bar.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u2018That means the machine would be capable of working at up to 1 000 metres down, which is more than enough,\u2019 said Rossi.\u003C\/p\u003E\u003Cp\u003EWhile the project is due to end on 30 November 2023 after four and a half years, Rossi said follow-up work will be needed to perfect the prototype.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003EHe projected that it could take three to four more years to integrate the AI in the robot, a decade to have a fully working model and 20 years to get production underway.\u003C\/p\u003E\u003Cp\u003E\u2018We\u2019re just starting, but we\u2019ve learned a lot,\u2019 said Rossi.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003ELooking at things the other way around, Zufferey of FAAV thinks its work on flapping robots could be useful to bird researchers.\u0026nbsp;\u003C\/p\u003E\u003Cp\u003E\u2018Why do diving birds have the size of wings that they have and why do they have the type of rigidity they have?\u2019 he said. \u2018We could potentially come to a biologist and say: \u2018\u2019this answers your question\u201d.\u2019\u003C\/p\u003E\u003Cp\u003E\u003Cem\u003EResearch in this article was funded by the EU via the Marie Sk\u0142odowska-Curie Actions (MSCA). The views of the interviewees don\u2019t necessarily reflect those of the European Commission. 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