Recently robotics engineers have increasingly turned to nature for inspiration, and a team at the University of California at Berkeley and Johns Hopkins University has studied the development of the antennae used as a type of motion-controlled passive sensor. Means system based on their report in the Journal of Experimental Biology. The researchers said that their observations inspired the crooked tentacles to bend the running insects and they imitated them to prevent them from hitting the walls. According to the author of the study Jean-Michel Mongeau, the positioning of the antenna may be more passive than that of the phrenic nervous system. When animals move slowly, they rely mainly on their own nervous system for completing tasks, but since animals are pushed to more extreme performances, they face potential constraints in their nervous systems, such as sensory conduction delays. In this study, the researchers will blindly enter the arena that was shot by two high-speed cameras. From the researchers moderately urged to send along the walls, with 30 to 60 degrees of turbulence in the middle. The tentacles of the beak often project straight lines because they follow the smooth acrylic wall. However different methods of antennae are on the wooden wall. When the wall becomes rough, you can think of more ecologically related to this animal, the antenna will bend backwards, almost all the time, in an inverted J shape. After measuring the distance from the human body to the wall, the researcher realized that the antenna caused by the bending of the antenna positioned itself farther away from the wall to prevent them from colliding, unlike the straight antennae. We speculate that very tiny tactile hairs on the antenna could potentially engage and stick to a rough surface, and when coupled to the forward motion, this would be enough to flip the antenna. In order to verify their theory, the team chose to remove these small tactile hairs - one that turned out to be more difficult than it would seem to be. The first thing I tried to do was pull the hair out with tiny tweezers, but it turned out it was impossible because these hairs are very powerful and they are embedding in the exoskeleton and have undergone several rounds of trials. And wrong, or most of the mistakes, I decided to try a laser system that burns the tip of these little hairs. After laser hair removal, hairless antennae rarely curve backwards, even as they drag along the walls. The research team then applied their findings to the design and discovery of a robot that could get their artificial antennas bent in a similar manner. The researchers also pointed out that slight changes in the direction of the hair may result in the antenna completely over-crimping into an inverted C, making the antenna useless. Massey Ferguson is a manufacturer of agricultural equipment, formed by the 1953 merger of farm machinery manufacturers Massey Harris of Canada and the Ferguson Company in Britain.And now Holdwell Group also supply the replacement parts for Massey Ferguson Engine.Holdwell Group stock many engine parts in the warehouse and gives you very fast delivery time,and also we can develop engine parts for you,ensure you get the parts in cheap price but also in good quality,You will have wonderful experience in Holdwell Group. Engine Parts For Ferguson,Ferguson Engine Components,Ferguson Engine Parts,Ferguson Auto Engine Parts Hangzhou Holdwell Mechanical&Electrical Co.,LTD , https://www.dieselpart.nl