信号处理、成像、医学成像、地质学、生物信息学、编码理论、信息论、控制系统……它几乎已经扩散到每一个工程学科与领域。
Signal processing, imaging, medical imaging, geology, bioinformatics, coding theory, information theory, control systems... It has been disseminated to almost every engineering field.
文献信息学和书目情报理论作为图书馆学两个重要的学术成果,具有重要的理论与实践意义。
Documentary information science and bibliographic information theory, being as two important academic achievements of library science, have important theoretical and practical significance.
A 7掌握现代生物技术包括基因工程、细胞工程、酶工程、发酵工程、生物信息学等相关学科的专业理论知识。
A7 Grasp theory of modern biotechnology such as gene engineering, cell engineering, enzyme engineering, fermentation engineering, and bioinformatics etc.
作为电力信息学的基础理论之一,将电力系统的分析决策过程看成是一个广义的信息重建过程。
As the foundation of electrical informatics, any decision making process for power system operation can be regarded as a generalized information reconstruction.
在复杂性理论中,此问题是一类重要的NP难问题,被广泛应用于调度、代码优化和生物信息学等领域。
In complexity theory, set packing problems is an important NP-hard problem, which is used widely in the fields of scheduling and code optimization.
LUCC信息学方法体系是集区域自然地理学理论方法与GIS技术于一体的新兴学科领域。
LUCC informatics system, LUCCIS, is a newly developed research field on the basis of integrating the classical methodology of physical geography and the new progresses in GIS technologies.
讨论了地球空间信息学的形成、理论基础和技术体系,以及数字地球的关键技术和应用。
The formation, basic theory and technical system of Geomatics are discussed, and the key techniques and applications of Digital Earth are also discussed.
LIAI科学家理论上认为对抗原决定簇mhc结合的生物信息学预测方法同样适用于其他病毒。
The LIAI scientists theorize that the bioinformatics prediction approach for epitope MHC binding will be applicable to other viruses.
作物信息学是用数理和信息科学的观点、理论和方法去研究各种农作物的生长、生产管理中的信息规律。
Crop informatics USES mathematical and information science viewpoint, theory and method to study the growth of various crops, information laws in production management.
当前量子信息学无论在理论上,还是在实验上都在不断取得重要突破。
Nowadays, some significant progress about quantum information has been obtained in both theory and experiment.
自1990年开始,丘成栋教授开始对应用数学的很多分支产生了浓厚的兴趣,包括滤波理论、控制论和生物信息学。
Since 1990, he got interested in many branches of applied mathematics, including filtering, control theory and Bioinformatics.
自1990年开始,丘成栋教授开始对应用数学的很多分支产生了浓厚的兴趣,包括滤波理论、控制论和生物信息学。
Since 1990, he got interested in many branches of applied mathematics, including filtering, control theory and Bioinformatics.
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