点样机器人工作路径分析

周强; 于宝; 毕树生

点样机器人工作路径分析

1.
北京航空航天大学自动化科学与电气工程学院, 北京 100083
2. 大庆石油学院, 大庆 151400
3. 北京航空航天大学机械工程及自动化学院, 北京 100083

基金项目: 国家863基金资助项目(2001AA422190)

详细信息

中图分类号: TP 206⁺.1
计量
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- 被引次数: 0
出版历程
- 收稿日期: 2004-10-30
- 网络出版日期: 2005-07-31

Study on working path of microarrayer

1.
School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China
2. School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China
3. School of Mechanical Engineering and Automation, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

摘要

摘要: 点样机器人是制备微阵列生物芯片的核心设备.在分析了点样机器人的工作过程以及系统结构组成的基础上,着重对点样机器人制备微阵列生物芯片所消耗的工作路径进行了理论分析和详细分类.在已知样品种类、玻片数量、样品点阵列模式、点样针阵列模式等给定参数的前提下,将工作路径分为z轴点样针路径长度、xy轴点样路径长度,而后采用类似图形树的分类方法给出了详尽的迭加计算方法与公式,对主要影响因素进行了深入研究.实验表明该方法快捷准确可行,可用于工程分析.其对点样机器人的结构设计与路径规划都具有指导意义.
- 生物芯片 /
- 点样机器人 /
- 工作路径
Abstract: Microarrayer is the key instrument for biochip fabrication. The working process and system configuration of microarrayer were studied. Special attention was paid to the computation method of the microarrayer working path in biochip fabrication. On the condition of given parameters, such as sample variety, slip quantity, spot matrix module, pin matrix module etc., the working path was divided into two main sub-path, such as z axis pin path, xy axis spotting path. Then the tree classing method was taken to calculate the working path with the given parameters. The method and expressions were presented. The main factors for working path were analyzed. The agreement of the final computation results with the experimental data indicates this method can be used to estimate the working path of microarrayer quickly and effectively at engineering analyses. It has the significance for design of microarrayer and working path plan.
- biochip /
- microarrayer /
- working path

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参考文献(1)

[1] 高威,吴庆余. 生物芯片技术[J] 命科学,2000,12(5):237~240 Gao Wei, Wu Qingyu. The introduction of biochip and its developmeng[J] Chinese Bulletin of Life Sciences, 2000,12(5):237~240(in Chinese) [2] 李绍平,李萍,董婷霞,等. 生物芯片技术在中药鉴定研究中的应用与展望[J] 界科学技术,2000,2(3):15~19 Li Shaoping, Li Ping, Dong Tingxia, et al. Application and prospects of biological chip techniques in identification of traditional chinese medicinal materials[J] World Science and Technology, 2000,2(3):15~19(in Chinese) [3] 杨瑞馥,宋亚军. 生物芯片技术及其应用[J] 物技术通讯,1999,10(4):286~292 Yang Ruifu, Song Yajun. Development and application of biochip technology[J] Letters in Biotechnology,1999,10(4):286~292(in Chinese) [4] Cheung V G, Morley M, Aguilar F. Making and reading microarrays[J] Nature Genetics Supplement, 1999,21:15~19 [5] McCreedy Tom. Fabrication techniques and materials commonly used for the production of microreactors and micro total analytical systems[J] Trends in Analytical Chemistry,2000,19(6):396~401

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