这样的平台类似一种活的生物,用其深入到应用系统生态环境的触角,拉入数据并将数据处理结果输出到业务系统。
These platform are like living creatures in a way, providing tentacles that extend into the application ecosystem, pulling in data and pushing it out as part of a transaction environment.
在本论文中,主要研究基因芯片图像的分析和数据处理,从而提取出基因芯片的杂交反应信号点的亮度信息,获得有用的生物信息。
In this paper, we study mainly the methods of Gene image analysis and data processing. It can extract the hybridizing intensity and obtain the useful biological information.
这种状况造成了生物序列比对、模式发现等数据处理的低效率。
This state makes the low efficiency when biological sequence data are processed.
系统包含在线微量取样、级联稀释、微型生物传感器、生化工程数据处理和分析软件与计算机。
The on line analysis system consisted of a micro flow sampler, a cascade dilution unit, a micro biosensor, a software for bioprocess data processing, and a computer.
基于对生物复眼几何结构的模拟,提出一类新颖而有效的数据处理方法——方向量子化方法。
A new data representation method called direction quantization representation is presented by simulating a simplified geometric model of biological compound eye.
生物序列数据的表达和存储是生物序列数据处理的关键。
The appropriate storage manner of biological sequence data is critical for accessing and dealing with them efficiently.
通过对光在微生物悬浊液中传播机理的分析和研究,研制了一套智能微生物浓度测量系统。该系统采用特制的光纤传感器,并用单片机进行数据处理。
The litle measurement system is developed on the grounds of exhaustive analysis and investigation of the optical propagation in microbe by application of light scattering and transport theory.
通过对光在微生物悬浊液中传播机理的分析和研究,研制了一套智能微生物浓度测量系统。该系统采用特制的光纤传感器,并用单片机进行数据处理。
The litle measurement system is developed on the grounds of exhaustive analysis and investigation of the optical propagation in microbe by application of light scattering and transport theory.
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