A pigeon-inspired robot has solved the mystery of how birds fly without the vertical tail fins that human-designed aircraft rely on. Its makers say the prototype could eventually lead to passenger ...

While autonomous flying robots have some intriguing potential applications, their usefulness is limited if they can't move across uneven terrain once they land. A new bio-inspired bot can do so, ...

Scientists have revealed an adaptive robotic wing equipped with artificial nerves so sensitive to air currents that it outperformed a barn owl ...

Scientists have created a flying robot inspired by how a rhinoceros beetle flaps its wings to take off. The concept is based on how some birds, bats, and other insects tuck their wings against their ...

Ever watched a bird swoop through the air, effortlessly twisting and turning, and wondered: why can’t planes do that? For ...

Have you ever wondered why an airplane has a vertical tailfin? The plane needs it to stabilize its flight. Since flying without a vertical tail is much more energy-efficient, the aviation industry has ...

Flapping-wing robo-bird uses two tails to fly fast or slow Many readers will remember the MetaFly, a remote-control robotic insect that flies by actually flapping its wings. Well, its inventor is back ...