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   水下视觉 的翻译结果: 查询用时:0.452秒
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水下视觉
相关语句
  underwater vision
     An underwater vision system is presented.
     提出了水下视觉系统的总体设计方案 .
短句来源
     A turbid water observation system using the laser synchronization scanning method is urgently needed to solve the problem of underwater vision in the coastal water.
     在我国沿海近岸,急需通过激光同步扫描方法建立1套浑水观测系统,解决水下视觉问题。
短句来源
  “水下视觉”译为未确定词的双语例句
     And the color is transformed from RGB space to HSI space, which improves speed of image processing and robust of feature extracting. The prper analyzes location of point and line in underwater environment in detail, and offers an algorithm of locatioo. Experiment results show that the method can achieve quite precise results.
     论述了在水下环境下如何通过视觉识别管线并给以精确的定位.提出了水下视觉系统的总体设计方案.在识别目标时,以目标的颜色为特征,并将颜色从RGB空间转换到HSI空间,使图象处理的速度和特征抽取的鲁棒性得到提高.对水下环境中点和线的精确定位进行了详细的分析,给出定位算法.最后的实验结果证明了算法的有效性.
短句来源
     The underwater visual image navigation composes two kinds of images,that is,the acoustic and optical image.
     水下视觉图像包括声视觉和光视觉两种图像形式。
短句来源
  相似匹配句对
     Vision
     视觉
短句来源
     An underwater vision system is presented.
     提出了水下视觉系统的总体设计方案 .
短句来源
     Model-based vision for station keeping of an underwater vehicle
     基于模型的水下机器人视觉悬停定位技术
短句来源
     Visual Kunming
     视觉昆明
短句来源
     Underwater Concrete
     水下混凝土
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  underwater vision
Utilizing the testbed robots, many intelligent systems, especially those for underwater vision systems, have been developed.
      
Good underwater vision and streamlined bodies allow for swift movement through the water.
      
In underwater vision applications it is very common for the image acquisition rate to be high when compared to the camera motion.
      
One of the principal difficulties underwater vision systems have to face is that related to the lighting effects.
      
This loss of refracting power causes an induced hyperopia and blurring of underwater vision.
      
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This paper discusses how to recognize and locate pipeline accurately by vision underwater. An undersater vision system is presented. The object's color is the feature when the object be recognized. And the color is transformed from RGB space to HSI space, which improves speed of image processing and robust of feature extracting. The prper analyzes location of point and line in underwater environment in detail, and offers an algorithm of locatioo. Experiment results show that the method can achieve quite precise...

This paper discusses how to recognize and locate pipeline accurately by vision underwater. An undersater vision system is presented. The object's color is the feature when the object be recognized. And the color is transformed from RGB space to HSI space, which improves speed of image processing and robust of feature extracting. The prper analyzes location of point and line in underwater environment in detail, and offers an algorithm of locatioo. Experiment results show that the method can achieve quite precise results.

论述了在水下环境下如何通过视觉识别管线并给以精确的定位.提出了水下视觉系统的总体设计方案.在识别目标时,以目标的颜色为特征,并将颜色从RGB空间转换到HSI空间,使图象处理的速度和特征抽取的鲁棒性得到提高.对水下环境中点和线的精确定位进行了详细的分析,给出定位算法.最后的实验结果证明了算法的有效性.

This paper discusses how to recognize and locate pipeline accurately by vision in underwater environment. An underwater vision system is presented. The object′s color is the feature when the object be recognized. And the color is transformed from RGB space to HSI space, which improves speed of image processing and robustness of feature extraction. Because the illumination of underwater environment changes tempestuously, fuzzy network is used to adjust threshold value of feature color dynamically. The paper analyzes...

This paper discusses how to recognize and locate pipeline accurately by vision in underwater environment. An underwater vision system is presented. The object′s color is the feature when the object be recognized. And the color is transformed from RGB space to HSI space, which improves speed of image processing and robustness of feature extraction. Because the illumination of underwater environment changes tempestuously, fuzzy network is used to adjust threshold value of feature color dynamically. The paper analyzes location of point and line in underwater environment in detail, and offers an algorithm of location. Experiment results show that the method can achieve quite precise location effectiveness.

本文论述了在水下环境下如何通过视觉识别管线并给以精确的定位 .提出了水下视觉系统的总体设计方案 .在识别目标时 ,以目标的颜色为特征 ,并将颜色从 RGB空间转换到 HSI空间 ,使图像处理的速度和特征抽取的鲁棒性得到提高 .由于水下环境光照变化剧烈 ,使用模糊神经网络来动态调整特征颜色阈值 .对水下环境中点和线的精确定位进行了详细的分析 ,给出定位算法 .最后的实验结果证明了算法的有效性

Following the development in computer tech.,digital image processing and transducer tech.,it becomes a novel research aspect to apply visual image sitting and ranging system in submarine navigation It can realizes independent navigation,which decreases the opportunity of discovery and disturbance by enemies.The underwater visual image navigation composes two kinds of images,that is,the acoustic and optical image.In the paper,the development of underwater image navigation is introduced in the acquisition of underwater...

Following the development in computer tech.,digital image processing and transducer tech.,it becomes a novel research aspect to apply visual image sitting and ranging system in submarine navigation It can realizes independent navigation,which decreases the opportunity of discovery and disturbance by enemies.The underwater visual image navigation composes two kinds of images,that is,the acoustic and optical image.In the paper,the development of underwater image navigation is introduced in the acquisition of underwater image,theories of image navigation as well as the software and hardware realization.

潜艇传统的导航方法是采用惯导、无线电导航等技术。随着计算机技术、数字图像处理技术以及传感器技术的发展 ,在潜艇上采用视觉图像定位测距系统进行导航是一个新的发展方向。它可以实现潜艇自主导航 ,减少被敌方发现和干扰的机会 ,从而增强潜艇的隐蔽性及其发起攻击的突然性。因此 ,研究图像导航技术并将其应用到实际战斗单元上是迫切需要的。水下视觉图像包括声视觉和光视觉两种图像形式。文中就水下图像导航技术的几个方面阐述目前的技术现状 ,指出将其应用于潜艇导航的可行性。

 
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