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Home > chinese-english > "human computer interface" in English

English translation for "human computer interface"

人 机接口
人与计算机接口


Related Translations:
humans:  人类(复数)人类联盟人类总动员
human:  adj.1.人的,人类的 (opp. divine, animal)。2.凡人皆有的,显示人类特点的。3.有人性的,通人情的。短语和例子human affairs 人事。 a human being [creature] 人。 the human race 人类。 To err is human. 〔谚语〕人皆有过。 human torpedo 人控鱼雷。n.〔口、谑〕人;
humen:  湖门虎门
human interface:  人机接口人机界面人类接口
interfaces:  接口相互联系
interface:  n.分界面,两个独立体系的相交处。vt.(-faced, -facing) 把界面缝合。vi.交流,交谈。
human too human:  人性太人性太人性
human user interface:  拟人化用户界面(接口)
human machine interface:  人机界面
human interface device:  人体接口器件人体学输入设备
Example Sentences:
1.Recommended practice for human computer interfaces for space system operations
个人计算机对空间系统操作的接口的推荐规程
2.Thanks to computer vision techniques , gestures have been widely used in human computer interface
受惠于电脑视觉技术的发达,手势辨识已广泛低应用在人机介面中。
3.Audio sense technology is a main branch of human computer interface , and it is important for the automatism and intelligence of computer
声音感知技术作为人机接口的一个重要分支,对提高计算机的自动化和智能化程度具有重要的意义。
4.Xu yan , huai jin - peng , wang zhaoqi , , a data mining approach : modeling the constraints of human hand motion , asia - pacific human computer interface ( apchi2002 ) ( acceptted )
毛天露,王兆其,一种基于相片的虚拟人体克隆方法,计算机研究与发展(增刊) , 2002 。
5.With the performance of pc ( personal computer ) being improved obviously , hci ( human computer interface ) is developing more humanely , natural and intelligent
近年来,随着个人计算机性能的大幅度提高,人机界面越来越向着人性化、自然化、智能化方向发展。
6.Xu yan , huai jin - peng , wang zhaoqi , , a data mining approach : modeling the constraints of human hand motion , asia - pacific human computer interface ( apchi2002 ) ( acceptted )
左力,李锦涛,王兆其,用于实时变形的解剖学人体肌肉建模,计算机仿真学报,已录用, 2002 。
7.High - speed data entry is becoming more challenging in the recently years with the great progress in electronic computer and worldwide web , especially in the area of human computer interface
在计算机应用越来越广泛的今天,计算机信息高速录入成为一个越来越迫切的研究课题。
8.This paper researches and analyses the developments of web technology and magnetostrictive transducers from world wide region . the paper also analyes the characteristics curve of magnetostrictive transducers based on its equivalent circuit and researches the method how to make sure its syntony frequency and its electric simulation network parameters . at the same time , by using jsp technology , a magnetostrictive transducer electric simulation application is designed based on b / s three - tier system structure . the experiment data is fitted by curve fitting module . the equivalent input impedance of it with stimulate loop is separated based on the results of curve fitting and the syntony frequency and electric simulation network parameters of magnetostrictive transducers is determined by the input impedance . the method presented in this paper can determine the syntony frequency and electric simulation network parameters of magnetostrictive transducers with a better accuracy than the testing method of syntony & anti - synton y . further more , jsp , the advanced technology at current , has been used to realize a magnetostrictive transducer web electric simulation system . the system has good human computer interface and the function of resource sharing and information publishing . the research of this paper and its achievements have some practical merits in the researchful and applied fields of magnetostrictive transducer
用java编程语言编写的曲线拟合模块,对输入的实验数据进行了最小二乘法的曲线拟合;根据曲线拟合结果可从带激励线圈的磁致伸缩换能器的输入阻抗中分离出磁致伸缩换能器铁芯在无激励电流时由机械振动形成的等效输入阻抗,并由此输入阻抗确定磁致伸缩换能器的谐振频率及电气模拟网络参数。本课题提出的方法与传统的谐振?反谐振法相比,能更准确地确定磁致伸缩换能器的谐振频率及其电气网络参数。同时,采用当前比较先进的web技术,实现了基于jsp的磁致伸缩换能器web电气模拟系统,该系统具有良好的人机界面和资源共享、信息发布功能。
9.In this paper , a collaborative virtual product design platform is introduced . virtual reality technology is used to build the human computer interface , haptic feedback input device is used for producing a series of sculpting operations to change the shape of the model , collaborative design environment is realized by programming winsocket programs , rapid manufacturing is implemented by connecting with numerically controlled milling machine
本文介绍了一种协同式产品外形虚拟设计平台,它利用虚拟现实技术建立自然的设计界面,利用力反馈位置输入装置产生一系列虚拟雕刻操作进行设计,利用winsocket编程建立网络连接,实现网络协同设计,通过和数控机床建立无缝连接还可快速加工出所设计的产品外形。
Similar Words:
"human competition" English translation, "human computer" English translation, "human computer conversation" English translation, "human computer interaction" English translation, "human computer interaction (hci)" English translation, "human computer symbiosis" English translation, "human concept learning" English translation, "human condition" English translation, "human conditions of production" English translation, "human consumption" English translation