仿生传感器
- 网络Bionic Sensor
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分子印迹-仿生传感器的研究进展
The Progress of the Study on Molecular Imprinting-Based Biomimetic Sensors
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给出一种基于昆虫毛状感触器的微型仿生传感器,用以测量低速气体流动。
A new biomimetic microsensor modeled on trichoid sensillum of insects which can detect low velocity gas flow is demonstrated .
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本文综述了分子印迹聚合物合成技术的最新进展及分子印迹聚合物在色谱分析和分离、固相萃取、仿生传感器等方面的应用。
In this thesis , progress on synthetic method or technology of Molecular imprinting polymers ( MIPS ) was reviewed .
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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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近年来,鼻舌仿生传感器的出现和广泛研究,为目标待测物的快速高效检测提供了新策略。
Recently , biomimetic sensors had been widely studied and provide a feasible alternative for rapid and cost-efficient analysis of various substances .
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近来,分子印迹聚合物已在固相萃取、模拟酶催化、化学仿生传感器等领域展现了良好的应用前景。
It has been reported recently that molecular imprinting polymers have a good foreground applied in solid phase extraction , enzyme-mimicking catalyzer , chemical-bionic sensor and so on .
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分子印迹技术已在手性物质拆分、仿生传感器、固相萃取、抗体与酶的模拟及控释药物等领域显示出了很好的应用前景。
Applications of molecularly imprinted polymer to chiral separation , bio-mimetic sensors , solid phase extraction , antibody and enzyme mimics , and drug release have been proven promising .
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综述了分子印迹技术的基本原理及其在仿生传感器方面的应用研究现状,并对分子印迹仿生传感器的发展前景进行了评述。
The principle of MIT and some applications of it in biomimetic sensors are reviewed in this paper , and the trend of the molecular imprinting-based biomimetic sensors is also discussed .
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人体是各种传感器云集之处,这些人体传感器具有灵敏度高、选择性好、集成度高等特点,因此,模仿人体的生物感受器研制仿生传感器成为传感技术的一个重要发展方向。
The human body includes various kinds of sensors that have many good characteristics such as high sensitivity , and integration . So , the study on mimetic sensors that imitate the biological receptor of human body is an important development direction .
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基于此,本论文在细胞和分子水平上构建新型仿生嗅觉传感器,并对传感器的性能及其在生物医学中的应用进行了较深入的研究。
To address these issues , this thesis developed novel biomimetic olfactory-based biosensors at the cell and molecule level , investigated the performances of these olfactory-based biosensors and their applications in biomedicine .
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仿生嗅觉传感器具有灵敏度高、响应速度快、选择性好等特点,可广泛应用于生物医学、环境监测、药物开发、食品和水源质量控制等诸多领域,具有潜在的工业应用前景和商业价值。
The olfactory biosensors are characterized with high sensitivity , rapid response and excellent selectivity . They have great potential commercial prospects and promising applications in such fields as biomedicine , pharmaceutical screening and the quality control of food and water .
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随着嗅觉机理研究的不断深入以及现代生物医学传感技术的不断进步,人们模仿嗅觉感知气味的机理,以生物活性材料作为敏感元件,耦合各种二级换能器,构建了多种仿生嗅觉传感器。
With the progress of research on olfactory mechanisms and the advancements of modern biomedical sensing technologies , by imitating the biological mechanisms of olfaction , many types of biomimetic olfactory-based biosensors have been developed by the combination of olfactory functional components with various secondary sensors .
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新型仿生偏振测角传感器及角度误差补偿算法
A Novel Polarization Angle Sensor and Error Compensation Algorithm for Navigation
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仿生偏振导航传感器原理样机与性能测试研究
Research on Principle Prototype and Performance Test of Bionic Polarization Sensor for Navigation
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仿生型触觉传感器在机器人上的应用
The Application of Bionics Tactile Sensor on Robot
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概要总结了红外图像处理、红外制导、生物视觉及仿生、多传感器图像融合的国内外研究现状。
The present research state and development of infrared imaging processing , infrared guidance , vision and its bionic technology , multi-sensor image fusion are summarized .
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针对研制仿生导航微传感器的需要,设计并且搭建了偏振导航传感器实验模型。
The work principle of the bionic polarized navigation sensor was analyzed , and then the sensor experiment model and optic calibration instrument were set up .
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针对研制仿生导航微纳传感器的需要,设计了一种以光电二极管为光电转换元件、以ARM微处理器为控制核心的仿生偏振光测试系统。
The bionic test system for polarized light based on ARM micro-controller was designed for the demand of development of the bionic navigation microsensor .
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一种仿生神经元纤维皮肤传感器的研究
Study of a Sensor of the Bionics Neurofibril Skin
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针对研制仿生微纳导航传感器的需要,设计了一种基于虚拟仪器的仿生偏振光测试系统。
The model and the device for the bionic polarized light test and the overall framework of the test system were introduced .