仿生模拟
- 网络human simulation
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仿生模拟是现代口腔医学实验课教学的重要新教学技术,国内尚缺乏仿生模拟实践教学体系的研究。
Human simulation is an important new technique in lab teaching of modern stomatological education . However , in our country inadequate research has been conducted on the practice teaching system of human simulation in stomatological teaching .
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口腔仿生模拟实践教学体系的探索和实践
Research on the construction of practice teaching system of human simulation in stomatological education
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研究PSⅡ的结构与功能对于将来提高作物的光能转化效率,仿生模拟太阳能利用具有重要的意义。
It is very significant for us to do research on PSII in order to know how to raise the efficiency of transforming light to energy and of simulating the sun energy in the future .
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对纯度为99.9%的纯镁表面改性,以提高纯镁在仿生模拟体液(SBF)中的耐腐蚀性能。
The surface modification on magnesium ( 99.9 % ) was carried out to improve its corrosion resistance in simulated body fluid ( SBF ) solution .
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为了提高纯镁在仿生模拟体液(SBF)中的耐腐蚀性能,对纯镁进行了碱热处理表面改性。
The pure Mg samples were treated as surface modification by alkali heat treatment to improve its corrosion resistance in the simulated body fluid ( SBF ) solution .
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碱热处理镁及其在仿生模拟体液中耐蚀性能
Corrosion Resistance of Alkali Heat Treated Magnesium in Bionics Simulated Body Fluid
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另外,还对植物根系生长分别进行了二维仿生模拟和三维可视化仿真。
In addition , we present two-dimensional biological modelling and three-dimensional visual simulation to describe the growth of plant root intuitively .
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在对昆虫扑翼飞行运动的仿生模拟基础上,对实际可飞的微扑翼飞行器的扑翼运动建立了三维翼型的运动学与空气动力学模型。
A three-dimensional flapping wing model was established for the MAV , which mimicked biological locomotion , such as insect flight .
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在此基础上,进一步仿生模拟人体皮肤的结构与功能,构建了一种具有双层结构的组织工程皮肤支架:胶原&壳聚糖/硅橡胶双层皮肤支架。
Further , mimicking the structures and functions of the human skin , a bilayer artificial skin , collagen-chitosan / silicone bilayer scaffold , is fabricated .
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本文以教学实验中心为平台,以口腔多课程仿生模拟技术应用为研究对象,提出了口腔仿生模拟实践教学体系的框架及主要内容。
This paper proposed the framework and main contents of the practice curriculum by studying the application of human simulation technique in stomatological multi-courses at Dental Preclinical Training Center .
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遗传算法作为现代优化算法的一个分支,以其宽松的优化条件、独特的仿生模拟、优良的优化效果,使其在工程结构优化领域中的应用成为可能。
Noticing that a branch of modern optimization algorithms , genetic algorithm has a peculiar ability of bionic simulation with relaxed optimal conditions and better optimization results , the author introduced this method in the research program .
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无机微滤膜纳米涂层修饰改性与仿生化学模拟研究
Study on Inorganic Microfiltration Membrane Modification by Nano-coating and Biomimetic Simulation
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测试平台利用仿生装置模拟仿生对象多种波动运动模式,借助测量系统对受试模型的各种波动运动进行静态与动态流体动力/力矩测量,并通过测控系统对整个平台进行远程测控。
The test platform utilizes the bionic device to imitate diversified undulatory movement modes of bionic object , uses the measurement system to obtain the hydrodynamic force and moment under the static and dynamic condition , and realizes remote operation through the measurement and control system .
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分子印迹技术(molecularimprintingtechnology,MIT)是在仿生科学和模拟自然界中酶-底物及受体-抗体作用的基础之上发展起来的一项技术。
Molecular imprinting technique ( MIT ) is a technology developed on the basis of the bionic science , as well as the simulation of enzyme-substrate and antigen-antibody interactions in the nature .
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用复数矢量法,导出了仿生手指机构模拟指端点的位置方程。
Deducing the positional equation of mechanism of a bionics fingers by complex arrow .
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分子印迹聚合物在分离分析、仿生传感器和模拟酶催化等领域将具有重要的应用前景。
Molecularly imprinted polymers will possess promising application future in the separation and analysis , biomimetic sensors and enzyme mimics catalysis .
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应用仿生思维,模拟生物圈的无废料生产,使设计成为人与自然联接的纽带,在数字化生存的今天尤为重要。
That 's very important that the application of Bionic Design which imitate the biosphere 's non-waste production will make design become the tie which connects human and nature .
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基于MATLAB仿生非光滑形态模拟
Simulation of the Bionic Nonsmoothed Surface Based on MATLAB
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仿生合成技术通过模拟生物矿化机理,以有机物为模板控制无机物的生成,制备具有特殊结构及性能的无机材料。
The formation of inorganic materials with special structure and properties was controlled by organic templates through biomimetic synthesis .
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仿生机器鱼是模拟大自然中鱼类游动的推进机理,结合机械、电子等学科设计的一种水下机器人。
The biomimetic robotic fish is one of the underwater robots , which combines propulsion mechanism of the fish in the nature and the technology in the field of mechanics and electronics .
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结构仿生作为其中一个重要的分支,以自然原型及力学原理为基础,研究其中不同层次的结构形态以获得灵感,进而对建筑结构的外在形式与内在机理进行仿生模拟以提高工程结构效率。
As one of the important branch , Bionic structure researches the structure of different levels based on the natural prototype and mechanical principles , gaining inspiration and then using bionic simulation on the engineering structures of the external form and internal mechanism to enhance efficiency .