1) dynamic contour
动态轮廓线
1.
Detection and tracking scheme of multi-resolution dynamic contour based on image fusion;
基于图像融合的多分辨率动态轮廓线检测跟踪
2.
In this paper, the authors research on the algorithm of tracking moving target on the basis of dynamic contour.
运动目标的检测与跟踪技术是计算机视觉研究的核心 ,本文主要研究基于动态轮廓线的目标跟踪算法 ,将轮廓的 B样条模板考虑进运动方程即耦合的动态 B样条轮廓线模型 。
3.
A new feature level fusion method of target s contour was proposed, which minimizes norm s square of the difference of control point vectors of convergent dynamic contours in two modal images.
使用了动态轮廓线使其收敛到目标轮廓。
2) dynamic contour model
动态轮廓线模型
3) active contour
动态轮廓
1.
Only constraining the curves to be continuous and regular,the general active contour models achieve their local flexibility in the cost of global integrity and consequently cause the contour extraction to be highly sensitive to noise and nearby edges.
针对普通的动态轮廓算法对曲线仅提供有限的连续与正则性约束,虽然带来了局部的灵活性,却丧失了全局的完整性,从而导致轮廓提取结果强烈敏感于图像噪声及邻近边缘点,针对这一问题,给出了一种基于椭圆变形模板的椭圆提取新算法。
2.
In general, the general active contour models is constrained barely by local features such as continuity and regularity, which made the curve moving flexibly and being capable of capturing various edge shapes.
普通的动态轮廓算法仅提供局部的连续与正则性约束,虽然使得曲线可以灵活适应各种不同的边缘形状,但也导致轮廓强烈敏感于图像噪声及邻近边缘点,引入全局模型是改善性能的关键。
4) multi-resolution dynamic contour
多分辨率动态轮廓线
1.
A novel scheme to an object′s surface area measurement is proposed based on a multi-resolution dynamic contour.
提出了一种基于多分辨率动态轮廓线的物体表面积测量方法。
5) active contours model
动态轮廓线模型(ACM)
6) dynamic false contour
动态伪轮廓
1.
Simulation results show that this method can greatly reduce dynamic false contour and overcome the shortcoming of insufficient gray levels in pure stretched-out coding display.
仿真结果显示,此法能够良好地抑制动态伪轮廓,并且有助于克服单纯延伸编码显示灰度级不足的缺点。
2.
A new evaluation method for dynamic false contour of color PDP based on experimental data collection was proposed.
提出一种基于实验数据采集的彩色PDP动态伪轮廓评价方法,在现有距离法的基础上,对其不足之处进行了改进,综合考虑了实际PDP荧光粉的发光特性,可区分RGB三色荧光粉对动态伪轮廓的影响程度。
补充资料:地下轮廓线
地下轮廓线
underground outline
暇挡包坏及排拘图t的 卿水吵地砂廓豁黔擎纂鬓豁燕!廓不许平均坡降值为工必亡‘则要大 L一C式中L为渗径长度朴万为上下游最大水头备允许平均渗透坡降的赓吐数,称为渗径系数,与地为土?tⅡI型i当不透水层埋藏深度不大时,j采用截流板桩或深齿墙截断透水层露图2,j畦)≯j_0- |l _0。、Ⅳ型,底板上下游均设置板桩的布置型式(图2,d)’适用于无粘性土地基j、特别是双向挡水自句J隋况。当地基土质’为粉砂或极细砸步时,0闸室基底左右两侧也常采用板桩封闭O?ll_…~ 一0 0_一_彝赞淤砰潍┌────┬───┬───┬──┬─────┬──┬──────┐│谈 │粉砂 │细_砂 │中砂│粗砂 │中、│粗砂芙 ││ │ │ │ │ ,│细砾│卵石 │├────┼───┼───┼──┼─────┼──┼──────┤│有反滤层│_9一13│了一9 │5~7 │4一5 │3一4│_么5今店 │├────┼───┼───┼──┼─────┼──┼──────┤│无反滤层│ │ │ │ │ │ │├────┼───┴┬──┴─┬┴─────┴──┼──────┤│ │ │ │ │ │├────┼────┼────┼───┬─────┼──────┤│谈 │轻粉质 │沙壤土- │壤土 │粘土 │ - ││ │沙壤土 │ │ │ │淤泥 │├────┼────┼────┼───┼─────┼──────┤│有反滤层│7一9 │5一7 │3一百 │ │ 价一、- ││ │ │ │ │2一3 │ — │├────┼────┼────┼───┼─────┼──────┤│无反滤层│ │ │4一7 │3~4 │ │└────┴────┴────┴───┴─────┴──────┘和地鬓摄辉鬓纂盟暴鬓肆霆裂粼置,一最后所采用的实际地下轮廓线长度应不小于按照老少型臭粉咒黔奎念翼睿{翼麒蕊吵卿聊冲排水铺盖前板桩主板桩截流板桩粘土排水图2地下轮廓布置型式
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条