本文对两个具有时滞的生物数学模型进行了研究。
The oscillatory behavior of solutions of two biological models with time delays has been studied.
利用反演原理和极值原理讨论了一类生物数学模型正解的爆破现象,获得了解的爆破集和爆破率。
By the maximum principles and reflection principles, the blow-up of positive solutions of a biomathematics model was studied, and blow-up set and blow-up rate are obtained.
从底物物质平衡出发,在提出新的代谢概念基础上,系统地建立了描述富底物条件下微生物合成-能量代谢行为的生物数学模型体系。
Based on study of metabolic theory, this paper established a series of bioenergetic models describing the relationship between microbial anabolism-catabolism and S_O/X_O ratio.
一种数学模型发现98.6华氏度的体温,对抵御绝大多数微生物的感染,已经足够了;而对于将食物吸收维持在一个可控水平上,也足够低。
A mathematical model finds that a temperature of about 98.6 F is high enough to ward off the majority of fungal infections, but still low enough to only require a manageable level of food intake.
从流体微元出发,用计算流体力学(CFD)的方法建立热管生物反应器的传热数学模型。
Using the fluid differential unit, the heat transfer mathematic model of heat pipe bioreactor (HPBR) was established by the calculated fluid hydrodynamics (CFD).
以往关于生物种群增长的数学模型多是用微分方程和概率极限定理的方法来推导的。
Differential equation and probability limit theorem have been widely used in the mathematical model of biological population growth.
从反应动力学出发,综合介绍了一般废水生物处理过程的数学模型、信息检测以及一般控制方案。
On the basis of reaction dynamics, the mathematical model, information feedback and general management method of wastewater biotreatment were introduced.
数学模型在生物传热的研究中占有极其重要的地位,是进行理论探讨和现实应用的共同基础。
Mathematical model is very important to the study of Bio-heat transfer, and it is also the common foundation for both of the theoretical research and practical application.
按照经典的控制理论,讨论了生物系统的稳定性,提出了血压控制的数学模型。
The stability of biological system was discussed based on classic automatic control system and a mathematic model of blood pressure control was presented.
本文介绍了典型振荡反应的特点、机理、数学模型、动力学方程序及在化学和生物学中的某些应用。
This paper introduces the features, mechanism, mathematical model, dynamic equations of the classic chemical oscillation and some applications in chemistry and biology.
本文提出了一个关于某纺织厂生物质污水处理系统的数学模型。
The paper proposes a mathematical model of a biomass wastewater treatment system in textile factory.
由于微生物发酵过程的复杂性和高度非线性,更多的简单的数学模型不能很好地描述这类生化系统。
Due to the complexity and high non-linearity of microbial fermentation process, most simple mathematical models cannot describe the behavior of biochemistry systems very well.
根据生物的生命体行为特征,提出一种新的生物识别方法,并建立了多普勒频移数学模型。
A biological recognition method by feature detection of human body on the move was presented, and the mathematical model of Doppler shift was established.
介绍了生物活性多肽定量构效关系(QSAR)中化学结构描述符和建立数学模型统计方法的研究概况。
This paper introduced the study general situation of the chemical structure descriptors and statistical method of mathematical modeling in bioactivity polypeptide QSAR research.
偏泛函微分方程来源于物理学、生物学、工程学等学科领域中众多的数学模型,具有强烈的实际背景。
Partial functional differential equations come from many mathematical models in physics, biology, engineering and other fields, which have strongly practical background.
研究了具有底物和产物抑制以及代谢过量特征的微生物连续培养过程的数学模型。
Mathematic model was studied in continuous cultivation of microorganisms with overflow metabolism, whose growth was inhibited by substrates and products.
从系统能量分配和平衡的角度,简化了生物质气化与废弃物焚烧联合发电系统的数学模型。
In the view of the distribution and balance of energy, mathematic model of biomass gasification and waste incineration combined power generation system was simplified in this paper.
预测微生物的数学模型可以对食品中微生物的生长、残存和死亡进行数量化预测。
The mathematical model of predictive microbiology can qualitatively analyze the growth and survival of microorganisms existed in food.
以葡萄糖母液为原料,对在气升式生物反应器中流加发酵生产红曲色素进行了研究,建立了简单的数学模型控制流加。
Production of Monascus pigments is studied by using disused glucose solution in air lift reactor using fed batch culture, and a simple mathematical model to control fed batch is established.
生物发酵过程非常复杂,经典的基于数学模型的控制方法往往难以胜任。
Fermentation process is so complicated that classical control methods based on mathematics models are often incompetent.
验证结果证明,选用的膜生物污染数学模型能正确模拟中空纤维膜的生物污染过程。
The model can exactly simulate biological fouling process of hollow fibre membrane by experimental validation.
生物信息学是一门新兴交叉学科,隐马模型是广泛用于该学科的数学模型。
Bioinformatics is a new cross-subject, and Hidden Markov models are widely used in it.
在颗粒物对水中邻苯二甲酸酯吸附、水解、生物降解和藻类富集实验的基础上,提出了颗粒物与天然水体中痕量有机物相互作用的动态数学模型。
A dynamic model on interaction between water particles and trace organic chemicals was presented on the basis of the research of adsorption, hydrolysis, biodegradation and algae accumulation in water.
英国科学家表示,他们构建出了第一个“实际生物学数学模型”,它和大脑制定复杂决策的方式相匹配。
Scientists in the UK say they've constructed "the first biologically realistic mathematical model" that matches the way the brain makes complex decisions.
本研究运用传热学和生物环境工程学的理论,建立了日光温室热环境的动态数学模型。
A dynamic simulation of sun-light greenhouse thermal environment was made by using the heat transfer and bio-environmental engineering theory.
进而对生物颗粒沉降、悬浮床反应器膨胀率等基本特性进行了数学模型的研究,并通过实验予以验证。
Through the detail study of the flow pattern in the transition of the reactor, the concept of suspended bed reactor had been developed.
该研究使用电脑以数学模型模拟生物路径,以检测该治疗手段的效率。
The research USES computers to mathematically model biologic pathways that test the efficacy of a therapy.
针对苯丙氨酸解氨酶生物传感器非线性特性,依据最小二乘法理论,采用最优化技术,建立了最佳拟合直线的数学模型,并给出基于可编程控制器的数据拟合程序。
To solve the non-linear problem of a biosensor, the least square method and the optimum technique have been applied to build a mathematical model to evaluate the optimum fitting straight.
针对苯丙氨酸解氨酶生物传感器非线性特性,依据最小二乘法理论,采用最优化技术,建立了最佳拟合直线的数学模型,并给出基于可编程控制器的数据拟合程序。
To solve the non-linear problem of a biosensor, the least square method and the optimum technique have been applied to build a mathematical model to evaluate the optimum fitting straight.
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