There were several directions to study the sustainable growth of the firm , including the “ enterprise bionics ” , “ enterprise system theory ” , and “ enterprise health theory ” 企业可持续成长的研究视角有很多,比如企业仿生学、企业系统论、企业养生论等等。
Nature has operated a vast laboratory for two billion years , and bionics probes the secrets of the wonderful " special - purpose " mechanisms that have developed 自然界是一个已进行了二十亿年实验的巨大实验室,它创制了许多奇妙的"专用"机制,仿生学就是要研究这些机制"奥秘" 。
Intelligent control resolve question based on simulating human ' s thinking activities using the computer with high speed and exacting quality , it is a bionics concept 而智能控制即是模仿人的思维活动,利用计算机的高速运算性能和精确性来解决问题,属于一种仿生学的范畴。
In order to inspire the building to innovate rationally and make the urban environment reach the ecological balance and develop continuously , bio - architecture is a kind of important means 为了启发建筑合理创新,以及使城市环境达到生态平衡和持续发展,建筑仿生学是一种重要手段。
Robotics research is the embodiment of man ' s long - standing and deep desire to create something like himself , and robot is the highest form of the achievements in mechanical bionics 机器人研究体现了人类复制自身的愿望,是最高意义上的机械仿生学,是当代众多高技术领域成果的综合体现。
The findings show that the bionic eye may restore some sight for the blind and raise hopes for the estimated 10 million americans afflicted with blinding eye diseases 这项研究成果表明,仿生学眼睛也许能使盲人恢复一定程度的视力,从而给大约1000万患有盲眼病而影响视觉的美国人带来希望。
Use bionics anciently in the building is created , has already become a kind of new tendency of the day so far after thousands of years of development , it is a new subject of the culture of the building too 在建筑创作中运用仿生学古已有之,经过数千年的发展至今已成为一种新时代潮流,也是建筑文化的新课题。
Bionics was founded in the mid - 1950s . during the process of bionic research , many scientists obtained from the theories of biological evolution some novel methods that can guide the research on artificial systems 仿生学创立于20世纪50年代中期,在仿生学的研究过程中,许多科学家从生物的进化规律中获得了指导人造系统研究的新方法。
From the view of bionics to imitate biology motion in the nature , this dissertation is devoted to study and design micro mobile robot in liquid by the help of propulsion mechanism of fish and flagella protozoa 本论文从模拟自然界生物运动仿生学的角度出发,主要借鉴鱼类和鞭毛原生动物的推进机理,致力于研究与设计在液体中运动的微机器人。
Synthesizing the results of the research of power transmission of smr model , the vibration isolation mechanism and the structure of a woodpecker ' s head and bionic mechanism , we desgn the micro - manufacturing platform 综合了smr模型的的功率流传递特性研究和啄木鸟头部的隔振机理和生理结构的研究,再结合仿生学的原理设计了微制造隔振平台。