最后介绍了图像预处理方法和芯片分析技术。
Finally, we briefly introduce the image preprocessing methods and chip analysis.
生物芯片分析技术可从同一病人样本获得多种不同的检测结果,并可迅速得到准确的结果。
Biochip array technology allows multiple results from a single patient sample, minimizing biologic variation and resulting in a more rapid and accurate diagnosis.
该芯片的成本最终将取决于有需要多少个SNP,但分析一个样品的成本,应不超过10美元,随着技术的成熟成本也会随之下降。
The cost of the chip will depend ultimately on how many SNPs are required, but analysing a sample should cost no more than $10, and that should drop as the technology matures.
基因芯片技术是近几年出现的一种基因表达分析技术。
The gene chip is that a kind of gene expression analyses technology appearing in recent years.
微通道制作是微分析芯片制作中的关键技术之一。
Fabrication of micro channels is a key technique for production of analysis chip.
文中介绍JTAG边界扫描的概念、技术特点,以及在芯片功能测试、系统诊断、仿真、性能分析和导通测试方面的应用。
This paper focuses on the JTAG ideas and technical characteristics and summarizes the JTAG usage in chip function test, system diagnosis, simulation, performance analysis and conduction test.
本文介绍了一种基于扩频技术的电力线调制解调芯片SC1128,分析其通信特性,与国内外同类产品进行了对比。
This paper introduces a power line modem chip SC1128 based on Expanding Frequency technique, analyzes it' s characteristic and compare it with other modem chips.
随着DNA芯片技术的广泛应用,基因表达数据分析已成为生命科学的研究热点。
Along with the research and extensive application of DNA chip technology, gene expression data analysis have become a hotspot in life science field.
目的建立组织芯片制备技术并观察在各种原位分析中的应用。
Objective To study the methods of preparation tissue arrays and observe the results of application in technology of in situ analysis.
微流控芯片技术具有制备简单、试剂用量少、操作方便等优点,因此在生化分析中的应用越来越受到重视。
Microfluidic chip technology has the preparation of simple, low reagent use, easy to operate, etc. , so in the biochemical analysis of the growing attention.
本论文选用了一种基于扩频技术的电力线调制解调芯片SC1128,通过与国内外同类产品的对比,分析其通信特性和适用性。
This paper introduces a power line modem chip SC1128 based on Spread Spectrum technique, analyzes it's characteristic and compare it with other modem chips.
分析了微流控芯片与毛细管各自特点,并对紫外固化技术进行了阐述。
The character of microfluidic chip and capillary is analyzed, and UV-Curing technology is expounded.
生物芯片的检测技术是生化分析系统中最重要的组成部分。
The detection technology of biochip is one of the most important parts of biology and chemistry analyzes system.
生物芯片技术是一种全新微量分析技术,目前已经成为研究的热点之一。
As a new micro-analysis technology, biochip has become one of research hot spots.
基因芯片技术是一种高通量的研究手段,可以在同一时刻对成千上万个基因的表达情况进行分析,形成完整的细胞基因表达谱。
DNA microarray technology is a high throughout method that can analyze the expression of thousands of genes at the same time to form a complete cellular gene expression profile.
生物芯片检测技术是一种全新的微量分析技术。
Biochip technology was a kind of novel microanalysis technology.
在目前悬浮生物芯片检测技术的基础上,提出了一种新颖的悬浮式生物芯片并行检测分析方法。
On the basis of current detection technology of suspension biochip, a novel parallel detection method for suspension biochip is brought up.
本文将主要讨论现阶段一般的封装失效分析的技术与设备,并且重点研究失效分析技术在多芯片封装领域的应用。
In this thesis, the application of the failure analysis in MCP package technology will be addressed along with some general fa instrument and methods.
基于MEMS技术的微流体芯片在分析化学和生物医学领域显示了巨大的应用潜力。
Microfluidic chips based on MEMS technology exhibit great potentials in analytical chemistry and biomedical fields.
分析了非接触式IC卡芯片耦台电源及读写距离的计算方法,并简要介绍了相关低压电路的设计技术。
Method of calculation for the non-contact IC card chip coupling power supply and the read and write distance were analyzed, and the relative low-voltage circuit designs were introduced.
实验室鉴定方法包括聚合酶链式反应、限制酶片段长度多态性分析以及生物芯片技术等。
In laboratories, the methods mainly include polymerase chain reaction, restriction fragment length polymorphism, and biochip technology. The methods mentioned above all have their merits and defects.
摘要:基因芯片技术是近几年出现的一种基因表达分析技术。
Absrtact: The gene chip is that a kind of gene expression analyses technology appearing in recent years.
在对RFID芯片系统的相关理论和技术的深入研究的基础上,分析设计了RFID芯片的射频接口电路、数字电路和EEPROM存储电路。
Based on the deep study of relate theories and technologies of RFID chip, the paper has finished the analysis and design of the rf interface circuits, digital circuits and EEPROM circuits.
实验室鉴定方法包括聚合酶链式反应、限制酶片段长度多态性分析以及生物芯片技术等。
In laboratories, the methods mainly include polymerase chain reaction, restriction fragment length polymorphism, and biochip technology.
本文通过分析基因芯片的图象特征,提出了基于变形模板技术的基因芯片杂交样点自动识别方法。
In this paper, based on the recognized microarray image features, an automatic spot identification method using the deformable template technique is proposed.
着重分析了DSP技术的特点和用DSP芯片实现的自适应算法的性能。
The paper mainly discusses the characteristic of DSP technology and the performance of the improved LMS algorithm which is realized by DSP chip.
基因芯片技术是一种全新微量分析技术,目前已经成为研究的热点之一。
As a new micro-analysis technology, DNA chip has became one of research hot spots.
就近年来国际上蛋白质芯片的高通量蛋白质生产及固定技术的研究进展进行了系统的总结和分析。
In this article, we describe various methods in protein high throughput expression and attachment for protein chips.
就近年来国际上蛋白质芯片的高通量蛋白质生产及固定技术的研究进展进行了系统的总结和分析。
In this article, we describe various methods in protein high throughput expression and attachment for protein chips.
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