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Researchers, including those from the University of Queensland in Australia, used a slow motion camera to capture the nuanced movement of eight species of Australian agamid lizards that run on two legs — an action known as ‘bipedal’ movement.
The study, published in the Journal of the Royal Society Interface, challenged existing mathematical models based on the animals’ movement.
“There was an existing understanding that the backwards shift in these lizards’ centre of mass, combined with quick bursts of acceleration, caused them to start running on two legs at a certain point,” said Nicholas Wu, a researcher at the University of Queensland.
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Christofer Clemente from the University of the Sunshine Coast in Australia said these results may have important implications for the design of bio-inspired robotic devices.
“We’re still teasing out why these species have evolved to run like this in the first place, but as we learn more, it’s clear that these lessons from nature may be able to be integrated into robotics,” Clemente said.
“It’s been suggested that this movement might have something to do with increasing vision in moments of urgency, by elevating the head at the same time and helping to navigate over obstacles,” he said.
Bipedalism would be advantageous for robots in specific habitats, for example, on open grasslands where, in nature, many bipedal running agamids are found, researchers said.
“If obstacle negotiation is indeed improved with bipedal locomotion, then we have shown how the tail and body can be moved to enable it sooner and for longer,” Clemente said. “Maybe adding a tail to robots can help them go ‘off-road’ sooner,” he said.