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Bikes aren't actually creatures!
In 1790, there was a Frenchman named Sifrak, who was particularly fond of using his brains. One day, he was walking on a street in Paris, because it had rained the day before, and there was a lot of rain on the road, and it was very difficult to walk. Suddenly, a four-wheeled carriage rolled from behind him, the street was narrow, and the carriage was wide, and Sifrak ducked but was not knocked over, but was splashed with mud and rain.
When others saw it, they felt sorry for him, and they were so angry that they scolded and wanted to call the carriage to stop and negotiate reasonably. But Sifrak muttered, "Stop shouting, stop shouting, let them go."
The carriage was far away, and he was still standing on the side of the road. He wondered: the road is so narrow, and there are so many pedestrians, why can't the structure of the carriage be changed......?With this in mind, he went home and started designing.
After trial and error, in 1791 the first "Wooden Horse Wheel" car was built. The cart had two wooden wheels at the front and rear, with a beam in the middle, and a bench mounted on it, like a toyclub. Because the car does not have a transmission chain, the car can move forward slowly by pushing the ground with the rider's feet, and there is no steering device on the car, so it can only go straight and will not turn, and it will be tired and sweaty after going out to ride for a while.
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Bikes aren't actually creatures!
Do creatures move by round, wheel-like things?
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Not all inventions are biomimicries.
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Bike mode is scrolling mode, and normal mobs are translational mode. Moreover, the real natural conditions and the ground level conditions are not suitable for rolling, and the bicycle frame should not be in the category of bionics. However, the angle of the bicycle frame should be conducive to pedaling, and the current trend is towards a streamlined design, with some design components in terms of air flow and aerodynamics.
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The overall use of the triangular stability principle, the wheel follows the ancient principle of wood rolling weights. Non-biomimicry.
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With the development of science and technology, there are more and more new instruments and equipment made by imitating organisms, such as radar, which imitates the echolocation of bats
So the answer is: bats.
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Biomimicry is based on biomimicry. Biomimicry is a recently developed interdisciplinary discipline that combines biology and technology.
There are many biomimicry, and all instruments made of biomimetic structures or physiological characteristics are biomimicries. Such as:
Dragonflies – helicopters, turtle shells – thin-shelled buildings, frog eyes – electronic frog eyes, humans – robots, etc.
It has been found that some of the similar functions of plants and animals are actually beyond the technical design of humans in this regard. Plants and animals have evolved naturally over millions of years not only perfectly adapted to nature, but to a near-perfect degree. Biomimicry attempts to mimic the functions of animals and plants in nature in terms of technology.
This idea bridges the gap between biology and technology, and helps solve technical problems. By reproducing the principles of biology, humanity has not only found a technical solution, but at the same time it has been fully adapted to the needs of nature. And simulating the ability of organisms to adapt to the environment is undoubtedly a good opportunity.
Simulating things in nature in the technological world of humans is not a new idea, and humans have been obsessed with it ever since the legendary ikarus flew into the air with wings made of bird feathers and finally fell to the ground due to the heat of the sun.
Biomimicry is the science that studies the structure and properties of biological systems in order to provide new design ideas and working principles for engineering technology. It is a marginal discipline between biological sciences and technical sciences. It involves subject areas such as biology, biophysics, biochemistry, physics, cybernetics, engineering, etc.
Biomimetic technology studies the functional principles and mechanisms of various biological systems as biological models, and finally realizes new technology design and manufactures better new instruments and machinery.
In life, there are many examples of biomimicry, such as: Biologists have made high-grade silk threads, tear-resistant parachutes and high-strength cables for temporary suspension bridges through the study of spider silk. Boats and submarines come from people's imitations of fish and dolphins.
The Sidewinder missile is a modernization developed by scientists imitating the snake's "hot eye" function and the principle that its tongue is arranged with a natural infrared perception ability similar to a camera device.
The rocket liftoff uses the principle of jellyfish and cuttlefish recoil. Through the study of the chameleon's color-changing ability, scientific research personnel have developed a lot of military camouflage equipment for the troops. Scientists studied frog eyes and invented the electronic frog eye.
Not only do termites use adhesive to build their mounds of dirt, but they can also spray adhesive at enemies through the small tubes in their heads. So people made a working ** according to the same principle - a dry rubber cannonball. The U.S. Air Force has developed a miniature thermal sensor through the Viper's "hot eye" function.
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Biomimicry is a tool that mimics the morphological and functional characteristics of living organisms and is applied to human architectural clothing.
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It is recommended that you check out that biomimetics are a theory and not just something.
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For example: electronic nose and dog: dog's sense of smell is the most sensitive, and the electronic nose is made by simulating the principle of dog smell.
Electronic Frog Eyes and Frogs: The eyes of frogs are capable of seeing moving objects, and electronic frog eyes are made to simulate the principle of frog vision. Used to detect moving enemy aircraft.
Dome and eggshell: The shape of the eggshell can withstand a large amount of ground pressure, and a dome made of simulated eggshells can also withstand a large amount of ground pressure.
Military camouflage defenses and squid: Squid can spray ink after the enemy is damaged, and the sea water turns black, and they can take the opportunity to escape, and the military camouflage defense facilities created by the simulated squid can also disturb the enemy's sight.
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A little bit like you attitude compassionate bunny.
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Biomimicry, the science of building technological devices in imitation of living things, is a new marginal science that emerged only in the middle of the last century. Biomimicry is the study of the structure, function and working principles of objects, and transplanting these principles into engineering technology, inventing instruments, devices and machines with superior performance, and creating new technologies.
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The technique of manufacturing instruments that mimic certain morphological structural characteristics or physiological functions of living organisms.
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It refers to the technology required by humans to make a living organism according to a certain biological characteristics.
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Biomimicry refers to the construction of technical systems by mimicking the principles of biological systems, or giving man-made systems the characteristics of biological systems or similar characteristics. That is, the science of imitating living beings to build technological devices.
The word biomimicry is based on the Latin word "bios" (meaning way of life) and the ending "nic" ("to have ......nature" meaning). Bionics is a word composed of the Greek word bion, which means life, and ICS with engineering connotations.
Biomimicry is a comprehensive discipline that emerged in the mid-twentieth century on the periphery of multidisciplinarity. It is to study the structure, function and working principle of the object, and transplant these principles into engineering technology, improve the existing engineering and technical equipment, invent superior instruments, devices and machines, and create new technological processes and architectural configurations.
In September 1960, the first conference on bionics was held at Dayton, Air Force Base in Ohio, USA, and the central topic of the conference was "Can the concepts obtained from the analysis of biological systems be used in the design of artificially manufactured information processing systems?" This conference marks the official birth of bionics as an emerging discipline.
Biomimicry provides new principles, new methods and new ways for the design and construction of new technical equipment through the study of various excellent characteristics of biological systems, such as structure, characteristics, functions, energy conversion, information control, etc., and their application to technical systems. Improve the existing technical engineering equipment, and create new technological processes, building configurations, automation devices and other technical systems, to provide human beings with the most reliable, most flexible, most efficient, most economical technical systems close to biological systems, for the benefit of human beings.
Simple and direct "copying" is not the research purpose of bionics, but the essential knowledge, understanding and application of the working principles of biological systems is the fundamental. Divergent analogy, simulation, and modelling in this process are the main methods of biomimicry research, and mathematical models are the key from biological prototypes to application models.
The biomimicry research process is a process of comprehensive analysis and innovation. From the determination of the bionic object, the selection of the bionic function, to the establishment of the mathematical model and the application in the technical system, the innovative thinking of the designer is required. Throughout the development of bionics and the generation of bionic inspiration, innovation has become an important step and research content of bionics.
Therefore, innovation is the soul of the development of bionics.
Mechanical biomimicry. Molecular biomimicry.
Energy bionics. Information and control biomimicry.
Electronic bionics. Mechanical bionics.
Architectural biomimicry. Material biomimicry.
Medical biomimicry. Human body biomimicry.
Cosmic biomimicry. Morphological biomimicry.
Functional biomimicry. Structural biomimicry.
Color biomimicry. Imagery biomimicry.
Mechanistic biomimicry. Form beauty biomimetic.
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Biomimicry refers to the science of human beings imitating biological functions to invent and create technical structures. It is a new marginal discipline that emerged in the 60s of the 20th century. The object of study is the structure, function and working principles of living organisms, and these principles are transplanted into man-made engineering techniques to invent and create new technologies.
The advent of this discipline has opened up a unique path for the development of manufacturing technology for human beings - the road of seeking inspiration from the biological world, which has greatly broadened the technological horizons of human beings and shown great potential for development.
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Biomimicry is a special ability to imitate organisms, using the structural and functional principles of organisms to study machinery or various new technologies. (Definitions).
Since ancient times, the natural world has been the source of various technical ideas, engineering principles and major inventions of human beings. (Why people study it and what it means).
Since the fifties of the twentieth century, people have recognized that biological systems are one of the main ways to open up new technologies, and have consciously regarded the biological world as a source of various technical ideas, design principles and inventions. (Sprout).
Biomimicry was born in September 1960 as an independent discipline. "Biomimicry" was named by American scientist Steele at the first biological conference held in the United States, named "Bionics".", Greek, means "the science that studies the functioning of living systems." In 1963 our country will be "bionics"Translated as "biomimicry".
Origin, birth).
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