1) Coupled map lattices
耦合映像格子
1.
Recovery of statistical property of initial conditions based on time-varying parameter from coupled map lattices;
基于时变耦合映像格子模型的信号初值估计
2.
Study of initial condition recovery from multi-coupled map lattices;
基于多重耦合映像格子的信号初值恢复研究
3.
Initial condition estimation from coupled map lattices based on symbolic vector dynamics;
基于符号向量动力学的耦合映像格子初始向量估计
2) coupled map lattice
耦合映像格子
1.
Initial condition estimation for global coupled map lattice systems
全局耦合映像格子系统的初始状态估计
2.
Aim\ The spatiotemporal periodic pattern of coupled map lattice are contracted.
目的 构造均匀耦合映像格子中的时空周期图案 。
3.
In the algorithm,the two-way coupled map lattice model is adopted,and the traditional logic functions are replaced with the integer tent map,so that it .
提出的算法采用双向耦合映像格子模型,用整数帐篷映射取代了传统的逻辑函数,具有较为理想的混淆与扩散特性。
3) two-dimensional coupled map lattices
二维耦合映像格子
4) radial basis function coupled map lattice(RBF-CML)
径向基耦合映像格子
5) OCML
单向耦合映像格
1.
OCML chaos systems to encrypt the iris identify code,and compound chaos encryption system(CCES)which combines Arnold transform and OCML,to encrypt iris image were proposed.
提出了针对特征码的单向耦合映像格混沌加密系统,以及Arnold变换与单向耦合映像格混沌系统相结合对虹膜信息进行加密的复合混沌加密系统。
6) coupled map lattices
耦合映象格子
1.
Seeing the evolution of the saturation line can be displayed either in the dimension of time or of space as well as the slanting angle of the tailings dam, the present author has come up with a coupled map lattices model, v_(n+1)(i)=(1-ε)f(v_n(i))+ε(1+sinθ)f(v_n(i-1)) to describe the above evolution.
在单向耦合映象格子模型基础上 ,考虑尾矿坝坡角因素 ,建立了浸润线耦合映象格子模型 vn+ 1 (i) =(1-ε) f(vn(i) ) + ε(1+sinθ) f(vn(i-1) )。
2.
This paper deals with the problem of controlling spatiotemporal chaos in coupled map lattices (CML).
研究耦合映象格子中的时空混沌控制问题。
补充资料:映像清晰度、投影清晰度
分子式:
CAS号:
性质:又称映像清晰度、投影清晰度。反映固体表面平整程度的相对性物理量,经常用于表征金属、塑料制品的表观涂装质量,用Dorigon鲜映度测定仪测定。例如以有底漆钢板涂装的A级表面为100,无底漆钢板的涂装表面可达96,聚氨酯RIM系统(无填料)涂装后DOI为95,添加22.5%云母片的聚氨酯RRIM系统涂装后可达94,而加有25%锤磨玻纤的聚氨酯RRIM系统仅78。
CAS号:
性质:又称映像清晰度、投影清晰度。反映固体表面平整程度的相对性物理量,经常用于表征金属、塑料制品的表观涂装质量,用Dorigon鲜映度测定仪测定。例如以有底漆钢板涂装的A级表面为100,无底漆钢板的涂装表面可达96,聚氨酯RIM系统(无填料)涂装后DOI为95,添加22.5%云母片的聚氨酯RRIM系统涂装后可达94,而加有25%锤磨玻纤的聚氨酯RRIM系统仅78。
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