People who have seen "Atlas" videos are impressed with this large, two-legged robot, but many experts are still focusing on functional small robots as they reach places where large robots can not go . Recently, the Bionic and Dexterity Lab at Stanford University in the United States announced a new robot they are working on: fly in the air, land on a vertical wall, and climb up the wall. A video posted on the lab site introduces the new SCAMP member of the bionic robot family, the abbreviation for "Stanford Climbing and Aerial Maneuvering Platform." "SCAMP" has two long front legs and two prickled legs, as well as a woodpecker-like tail, carrying a four-wing propeller. Two long legs, made of carbon fiber and another high-strength Light Spectra fiber, crawl through the force of two caster wheels to provide the same efficiency as real insects. According to the laboratory website, the robot can fly, land, climb, slippery at the foot and then get up again, and then take off, all through airborne sensors and computers to achieve. "Atlas" large robots can supply supplies over rugged terrain to places beyond human reach, and "SCAMP" can reach "Atlas" where it can not, playing a significant role in the battlefield or disaster relief. New robot flight, landing, climbing wall demo The researchers believe that the smaller the robot, the higher the viscosity relative to the volume, will be more stable when the collision, the direction can be faster to adjust, easier to find the end result. In addition, the smaller the robot, the greater the interaction with the air. But it also has the disadvantage that most such quadcopter vehicles have only enough batteries to fly for a few minutes. The researchers presented the results in the recent Journal of Robotics and Spectroscopy. The first author, Morgan Porter, said SCAMP was the first to combine flying, landing and passive attachment techniques with climbing. Although landings are a dilemma because the drone has a low probability of finding a suitable landing point, it will be able to reach its destination more accurately with the climbing ability. In addition, it can climb even if the wind is too big for flight. Chief editor punctuality Earlier this year, a study published in the Proceedings of the National Academy of Sciences in PNAS magazine found that heavier animals, if they want to be adsorbed on walls or ceilings, must increase the area they adsorb and conclude that humans can not afford Spider-Man . Today, Stanford has developed SCAMP, a small robot that flies up and down the wall, to help make Spider-Man's dream come true for some of the larger robots that can not be reached. In conjunction with the recent performance of AlphaGo in the most sophisticated board games, there may continue to be a wide range of highly intelligent, divine-skilled robots that will continue to help humans reach where we can not go. Oxo biodegradable technology can make plastic totally degradable. Plastic incorporating with TDRAâ„¢ additive, that is TDPâ„¢ plastic, will degrade in months and finally become carbon dioxide, water and bio mass particles without leaving any toxic or harmful residue. Hense, TDPâ„¢ plastic is 100% environment friendly. MST now can make kraft paper/PLA degradable bags, PLA is a 100% degradable material which we import from Italy, meantime all these material are FDA approved, suitable and safe for food packaging. Biodegradable Flexible Packaging,Biodegradable Food Packaging,Compostable Bags,Biodegradable Plastic Bags MST Packaging Co., Ltd. , https://www.mstpack.com