数学智能:教养而非天生。
加德纳博士说,学校和文化把主要的关注点放在了语言和逻辑--数学智能上。
Dr. Gardner says that our schools and culture focus most of their attention on linguistic and logical-mathematical intelligence.
加德纳博士指出,我们的校园及其文化把太多的注意力放在了语言和逻辑数学智能上了。
Dr.Gardner says that our schools and culture focus most of their attention on linguistic and logical-mathematical intelligence.
其中的逻辑数学智能是指有效运用数字和推理的能力,强调了运用逻辑数学思维解决问题的能力。
Stressing on the ability of using logic mathematics thinking to solve problems, the logic mathematics intelligence of the theory refers to the ability of using numerals and reasoning.
我们不仅需要聪明的学生,还需要吸引普通的学生,让他们掌握成为人工智能设计师所需要的数学技能。
We not only want bright students, but also need to attract average students and give them the math skills which are needed to change them into AI designers.
1965年,一位想象力丰富的数学家欧文·古德推测说,人们终会发明出一台“超智能机器”,不管是多聪明的人,它都能远超其智力活动的总和。
In 1965, an imaginative mathematician called Irving Good predicted the eventual creation of an "ultra-intelligent machine…that can far surpass all the intellectual (智力的) activities of any man, however clever".
有了Web上的有效数学处理以及各种开源工具和技术,您就能够与他人协作,让我们的星球变得更智能。
With efficient mathematical processing on the Web and by using open source tools and technologies, you have the ability to collaboratively build a smarter planet.
早在1950年,英国数学家AlanTuring就曾提出过人工智能这一说。
That, at least, was the test proposed in 1950 by Alan Turing, a British mathematician.
你可能还会依稀记得,高中数学里的对数,这就给了我们这些计算机科学家们,一些启示,即,这种算法更智能,更迅速。
You might remember vaguely logarithms from high school math and such but what this suggests for us, the computer scientists, is that this is certainly a smarter, a faster algorithm.
早在1965年,数学家I·J·古德就提出所谓“智能爆炸”的构想,智能机器将会自行设计出更聪明的机器。
The idea of an "intelligence explosion" in which smart machines would design even more intelligent machines was proposed by the mathematician I. J. Good in 1965.
真正的研究人员要么在人工智能研究室里遭遇挫折,要么在俄罗斯偏僻的科研机构里继续工作,在那里控制论研究作为数学的分支确实继续进行着。
Real researchers were bumping their heads in frustration in AI LABS, or working in obscure institutes in Russia, where cybernetics did continue as a branch of mathematics.
数学的最终目的是不需要智能的思考。
The ultimate goal of mathematics is not to need to smart thinking.
本文以教室智能灯具开关为例,从系统数学模型的建立、基本系统结构到系统硬件设计给以详述。
This paper, taking Classroom Intelligent Switch for example , discussed the mathematical model of system structure and the design of hardware and software.
九点控制器是一种新型的智能控制器,它不依赖于控制对象的数学模型,而是根据控制行为来调整控制器的输出。
A nine-points controller is a new type of intelligent controller that can regulate output of a controller not depending on mathematical model of the controlled object but its behavior.
在建立温度传感器和流量传感器数学模型的基础上,详细阐述了智能热量表的软硬件设计方法。
Based on the mathematical models of temperature sensor and flow sensor, the design methods of software and hardware of intelligent heat meter were narrated.
智能优化控制技术是以数学、计算机为基础,用于求解各种工程问题优化解的应用技术。
Based on mathematics and computer technology, an intelligent optimization control technology is used to find the optimized solution of many engineering projects.
通过对智能控制理论数学建模的分析,阐述了它们的控制原理。
The mathematic modeling of these intelligent control theories was analyzed, their control principles were expounded.
提出了一种新的数学模型和专家系统相结合的智能方法。
A new intelligent method in which mathematical model and expert system are combined, is presented.
该模型结合了基于热平衡的数学模型和模糊神经网络模型,再通过一个智能协调器输出结果。
The model combines a mathematical model based on heat balance and a fuzzy neural networks model, the results are sent through an intelligent coordinator.
工艺控制论的模式:解析数学模型,分层递阶智能控制结构,计算机仿真实验和模型参数自适应。
The models of technological control theory included: analytical mathematical model, multilevel intelligent control, and simulation experiment on computer and self-adaptation for model parameter.
根据灌溉系统不易建立精确数学模型的特点,设计了基于模糊控制技术的智能灌溉控制系统。
An intelligent irrigation control system based on fuzzy control was designed, considering that modeling precise mathematic model for irrigation system is difficult.
本文研究了模糊数学原理应用于大系统决策的理论和方法,设计了相应的多用途智能人工化决策知识系统IDSS。
In this paper, we would use fuzzy maths′s principle in large system decision theory and method, design corresponding, mutiuse and intelligent system IDSS.
根据神经科学实验的相关结果,本文给出了一个基于属性的思维建构与智能模拟的数学理论与方法,简称属性论的初略框架。
Based on some neural science experiments, a mathematical theory and method for thinking construction and intelligence modeling called attribute theory and method is presented in this paper.
介绍了RH装置自动化系统的功能分配、数学模型的功能和过程控制系统中应用的智能控制方法。
The function assignment of automatic system, mathematic model for process control and intelligent control method used in process control system of RH equipment were reviewed and discussed.
目前,无功优化方法主要有线性规划法,非线性规划法,混合整数规划法,动态规划法等传统的数学优化方法,以及人工智能优化算法。
The algorithm mostly includes the tradition math optimization means, such as linear layout, nonlinear layout, mixed integral layout means, dynamic layout means, and artificial intelligence algorithm.
本文将新型智能教育软件《数学实验室》运用于教学实践中,收到了显著的教学效果。
The authors made an effort in computer_aided instruction in classroom by means of the smart software "Mathematical Laboratory", and obtained various good results in teaching research.
具有“数理逻辑智能”的人,在数学和自然科学方面表现出有杰出的才能。
Those who are" numbers and logic smart" excel at math and science.
具有“数理逻辑智能”的人,在数学和自然科学方面表现出有杰出的才能。
Those who are" numbers and logic smart" excel at math and science.
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