【摘 要】
:
In this paper, under different illuminations and random noises, focusing on the local texture feature’s defects of a face image that cannot be completely described because the threshold of local ternary pattern (LTP) cannot be calculated adaptively, a loc
【机 构】
:
KeyLaboratoryofOptoelectronicInformationSensingandTechnology,ChongqingUniversityofPostsandTele-commu
【出 处】
:
OptoelectronicsLetters
论文部分内容阅读
In this paper, under different illuminations and random noises, focusing on the local texture feature’s defects of a face image that cannot be completely described because the threshold of local ternary pattern (LTP) cannot be calculated adaptively, a local three-value model of improved adaptive local ternary pattern (IALTP) is proposed. Firstly, the dif-ference function between the center pixel and the neighborhood pixel weight is established to obtain the statistical characteristics of the central pixel and the neighborhood pixel. Secondly, the adaptively gradient descent iterative function is established to calculate the difference coefficient which is defined to be the threshold of the IALTP opera-tor. Finally, the mean and standard deviation of the pixel weight of the local region are used as the coding mode of IALTP. In order to reflect the overall properties of the face and reduce the dimension of features, the two-directional two-dimensional PCA ((2D)2PCA) is adopted. The IALTP is used to extract local texture features of eyes and mouth area. After combining the global features and local features, the fusion features (IALTP ) are obtained. The experi-mental results on the Extended Yale B and AR standard face databases indicate that under different illuminations and random noises, the algorithm proposed in this paper is more robust than others, and the feature’s dimension is smaller. The shortest running time reaches 0.329 6 s, and the highest recognition rate reaches 97.39%.
其他文献
For the laser-induced damage (LID) in large-aperture final optics, we present a novel approach of damage online inspection and its experimental system, which solves two problems: classification of true and false LID and size measurement of the LID. We fir
A high-performance monolithic integrated wavelength division multiplexing silicon (Si) photonics receiver chip is fabricated on a silicon-on-insulator platform. The receiver chip has a 25-channel Si nanowire-arrayed waveguide grating, and each channel is
利用时域ABCD矩阵引入过程中给出的与ABCD矩阵的类比关系,给出了对光脉冲传输的基本时间特征(脉冲形状、宽度和啁啾行为)可作出定性或半定量分析的时间菲涅耳数,引入了有效传输时间的概念,讨论了几种特例。
我们讨论了一台用红宝石激光器泵浦的红外染料激光器的性能和运转情况,它具有很宽的调谐范围和很高的输出功率。这种纵向泵浦的红外激光器是采用没有内腔扩束器的Littrow结构而工作的。红外125染料的调谐范围从8325埃一直可延 伸到9375埃。用2.3焦耳的红宝石激光泵浦的染料激光器的脉宽为20亳微秒,输出功率为12.5兆瓦,这种红外激光器的最大输出功率受调谐元件的损伤阈值限制。
有限光束矢量特性可以由全局化的特征单位矢量和广义琼斯矢量完整地描述,特征单位矢量平行于传播轴的光束为柱矢量光束。通过这种表示理论描述了在近轴近似条件下柱矢量光束的透射情况。在透射过程中光束的特征单位矢量发生了变化,透射光束的特征单位矢量既不平行于传播轴,也不垂直于传播轴。特征单位矢量的变化导致光束产生了一个与入射面垂直的横向位移,同时这个横向位移和光束的偏振椭圆率有关,不同圆偏振态(左旋和右旋)的透射光束所产生的横向位移的方向相反。这一结果和近年来在实验中检测到的均匀偏振光束的自旋霍尔效应类似,表明柱矢量
依据3个闪电回击过程的时间分辨光谱,采用不同的方法计算闪电核心电流通道温度及外围发光通道温度,研究了回击电流衰减过程中通道温度随时间的演化特性。结果表明,核心电流通道温度比外围发光通道温度高4000~5000 K。在峰值电流之后,相比于电流的变化,通道温度的衰减更为缓慢。峰值电流之后约400 μs时,通道温度仍维持在20000 K左右,如此长时间的高温导致的热效应是许多闪电灾害的主要根源。
为解决YOLOv3算法在检测道路交通灯时存在的漏检率高、召回率低等问题,提出一种基于优化YOLOv3算法的交通灯检测方法。首先,采用K-means算法对数据进行聚类分析,结合聚类结果和交通灯标签的统计结果,确定先验框的宽高比及其数量。然后,根据交通灯尺寸特点,精简网络结构,分别将8倍降采样信息、16倍降采样信息与高层语义信息进行融合,在两个尺度上建立目标特征检测层。同时,为了避免交通灯特征随着网络
We propose and experimentally demonstrate compact on-chip 1 × 2 wavelength selective switches (WSSs) based on silicon microring resonators (MRRs) with nested pairs of subrings (NPSs). Owing to the resonance splitting induced by the inner NPSs, the propose
第六届国际激光光谱会议于六月二十七日至七月一日在瑞士的Intelaken举行。各国科学家三百多人出席会议,其中有诺贝尔奖金获得者肖洛。会议报告共一百四十多篇,其中口头报告六十一篇,墙报八十二篇,分十八个会段进行。会议还举行了一次讲台上半圆桌讨论会(Podium discussion),主题是:“近代光谱学已解决的或能够解决的物理学中的基本问题”,由肖洛主持。
化学碘-氧激光器是基于激发态氧分子O2(1Δ)向碘原子转移能量而实现的,其碘原子则是通过碘分子I2与激发氧相互作用分解形成。