1) ASM facial model
ASM人脸定位模型
3) face localization
人脸定位
1.
This paper proposes a new method of face localization in complex poses.
本文研究了复杂多变人脸的检测和定位问题,提出了一种新的基于对称特征的人脸定位方法。
4) face location
人脸定位
1.
Face location based on voluntary irradiation;
基于主动照射式的人脸定位
2.
Face Location Based on Feature Inertia Surface and an Adaptive Grid of Frame Curves;
基于特征惯性平面和结构曲线自适应网格的人脸定位方法
3.
By strengthening the contrast between face features and facial complexion and by adopting binary image processing method,the system has improved the preprocessing effect;and by using boundary-based algorithm plus region-based algorithm, the system has realized face location through the extraction o.
使用了基于边界方法和基于区域方法相结合的算法,提取了眼睛、嘴和鼻子等关键特征,最终较好地实现了人脸定位。
5) face detection
人脸定位
1.
Method of face detection in video images;
基于视频图像的人脸定位方法
2.
Research of Driver s Drowsy Detection System Based on Face Detection;
基于人脸定位的疲劳驾驶检测方法的研究
3.
To improve the efficiency and robustness of the face detection algorithm,a novel approach based on traditional SNoW(Sparse Network of Winnows)is proposed.
为了提高人脸定位算法的执行效率和鲁棒性,以传统的SNoW(Sparse Network of Winnows)算法为理论基础,提出一种新的人脸定位算法。
6) ASM model
ASM模型
1.
On the base of ASM model,we construct a multi-agent simulation model of herding behavior.
通过改进ASM模型,构造了一个多主体的羊群行为仿真模型,并运用LSV方法测算了虚拟股票市场中的羊群行为值。
2.
The establishment and development of the dynamic models in enhanced biological phosphorus removal process( EBPR) worldwide were de- scribed, with focus on the operational conditions ,advantages and disadvantages of two kinds of dynamic models:ASM models and Metabolic models.
概述了国内外强化生物除磷(EBPR)动态模型的研究进展,主要介绍了其中较成熟的ASM模型和代谢模型,并对这两类模型中的代表模型的运用条件、优缺点进行了评述。
3.
By solving the ASM(Algebraic Slip Mixture)model,which included momentum,continuity equations for the mixture,the volume fraction equations for the secondary phase and algebraic expressions for the relative velocities,the water-sediment two phases flow could be solved by such ASM model coupled with standard k-ε equations.
还介绍了针对异重流研究设计的多相流试验水槽及模型试验方法,对ASM模型计算的结果进行试验验证并分析模型适用条件。
补充资料:AS
丙烯腈-苯乙烯共聚物是由丙烯腈和苯乙烯通过本体法、悬浮法或乳液法制得。透明或半透明的水白色颗航。相对密度1.06-1.08。折射率1.57。平衡吸水性0.66%。热变形温度82-105℃。具有高光泽、高透明、高冲击、良好的耐热性和机械性能。刚性大,具有较高的化学稳定性,耐水、耐油、耐酸、耐碱、耐醇类。溶于酮类溶剂和某些芳烃、氯代烃。耐候性中等,脆性较大。
拉伸强度 72-78MPa
冲击强度 2.1-2.5kJ/m2
洛氏硬度 R76-80
熔体指数 l. 4-3.3g/10min
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