目录 Introduction.- Object of research.- Intelligent control of mechatronics systems.- Optimal control methods for mechatronic systems.- Learning methods for intelligent systems.- Control of mechatronic systems.- Experimental verification of control al
For the perpetual wireless sensor network (WSN), energy harvesting (EH) technology is emerging as a promising solution. However, the randomness and the instability of the harvested energy may lead to the occurrence of the temporal death, which is ha
最佳路径与wasserstein距离的介绍与应用。 The Wasserstein distance | which arises from the idea of optimal transport | is being used more and more in Statistics and Machine Learning. In these notes we review some of the basics about this topic.
book{
author = {Anderson, Brian DO and Moore, John B},
title = {Optimal filtering},
publisher = {Prentice-Hall, Inc.},
address = {New Jersey},
year = {1979},
type = {Book}
}OPTIMAL
FILTERING
Brian D.O. Anderson
John b. moore
Profess
This book contains a rigorous descr iption of the theory of optimal transport and of some neglected variants and explains the most important connections that it has with many topics in evolution PDEs, image processing, and economics.学习最优化传输的入门书籍
ANN-based fatigue reliability analysis and optimal design with fatigue reliability constraints,Meng Guangwei,Sha Lirong,The ANN-based optimization for considering fatigue reliability requirements in structural optimal design is proposed in this paper
Optimal control of the nonlinear one dimensional periodic wave equation with x-dependent coefficients,李恒燕,冀书关,This paper is concerned with an optimal control problem governed by the nonlinear one dimensional periodic wave equation with x-dependent co
间变大细胞淋巴瘤的临床病理特征和最佳治疗策略,何小慧,石远凯,To investigate the clinicopathological features of anaplastic large-cell lymphoma (ALCL) and explore the optimal treatment strategies. Methods: Sixty-four primary systematic ALCL p
加州伯克利数学学院(Department of Mathematics, University of California, Berkeley)Lawrence C. Evans教授的最优控制笔记,非常简明扼要。原版没有目录,我添加了目录:
1 Introduction 3
2 Controllability, bang-bang principle 15
3 Linear time-optimal control 31
4 The Pontryagin Maximum Principle 41