1) binary pattern detector
二进制模式检测器
2) binary integration detection
二进制积累检测
1.
In this paper,through the analysis and processing of the measured data of a 2D shipborne radar,an algorithm based on binary integration detection is presented for active noise jamming resistance.
本文结合某型舰载两坐标雷达外场实测数据的分析和处理,提出了采用二进制积累检测算法对有源噪声干扰进行抑制的方法。
2.
Finally, comparisons for detection performance between this algorithm and conventional binary integration detection algorithm are also given by simulation.
对脉冲限制雷达高度表回波脉冲展宽的特点,提出一种改进的基于多距离门的二进制积累检测算法。
3) model checkers
模式检测器
4) local binary pattern
局部二进制模式
1.
In the proposed method,we apply uniform LBP/C(local binary patterns and pattern contrasts) operator to extracting texture features from a texture image,and then we use improved active contours without edges to segment the texture image.
针对此问题,提出了一种基于局部二进制模式(localbinary pattern,LBP)驱动的区域围道分割模型。
2.
The key points of an image were generated from the extreme points in difference of Gaussian(DOG) image pyramid,and the local image descriptor was based on local binary pattern(LBP) histogram and color histogram.
以高斯差值函数图像金字塔中的空间极值点作为图像关键点,在关键点邻接域中,以基于局部二进制模式(LBP)的纹理统计和色彩分布作为特征量,应用特征量在视频序列中的匹配实现目标跟踪。
3.
Secondly,the method has low computation complexity,because the LBP(local binary pattern) is employed to extract texture features.
与现有的基于几何活动围道的纹理分割技术相比,该分割模型具有三个优点:一是使用图像的灰度信息和纹理信息来驱动活动围道进行图像分割,因而,不仅适用于分割纹理图像,而且适用于分割非纹理图像;二是使用局部二进制模式来提取纹理特征,计算复杂度小;三是模型求解时,增加了约束项不需要对符号距离函数进行反复初始化,因此可采用大的时间步长,迭代步数明显减少,从而提高了活动围道的收敛速度。
5) mode detection
模式检测
1.
A method of signal mode detection and time domain frame synchronization is proposed, which can be used in DAB/DMB system.
针对数字多媒体广播(DAB/DMB)系统,提出了一种可实际应用的信号模式检测和时域帧同步技术,该方法是基于信号空符号的能量自适应检测方法(Energy-BasedDetection,EBD)。
6) Pattern Detection
模式检测
1.
If the result of the pattern detection is not satisfactory,an advanced Sequential Similarity Detection Algorithm(SSDA) is applied to realize image matching.
该算法采用模式检测技术寻找两幅相邻照片的相似区域,计算图像的缝合位置。
补充资料:二进制
一种记数法,采用0和1两个数码,逢二进位。如十进制的2,5在二进制中分别记为10,101。二进制广泛应用在电子计算机的计算中。
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