扫一扫
关注中图网
官方微博
本类五星书更多>
-
>
宇宙、量子和人类心灵
-
>
(精)BBC地球故事系列-星际旅行
-
>
从一到无穷大
-
>
图说相对论(32开平装)
-
>
一本有趣又有料的化学书
-
>
刘薰宇的数学三书:原来数学可以这样学全3册
-
>
光学零件制造工艺学
带有潜在故障恢复系统的半马尔柯夫模型控制 版权信息
- ISBN:9787560357607
- 条形码:9787560357607 ; 978-7-5603-5760-7
- 装帧:暂无
- 册数:暂无
- 重量:暂无
- 所属分类:>>
带有潜在故障恢复系统的半马尔柯夫模型控制 本书特色
《带有潜在故障恢复系统的半马尔柯夫模型控制(英文)》涵盖了半马尔柯夫模形在单组分系统里不同的控制策略,定义了它们的可靠性和有效性的平稳特征,并且利用了由V.S.Korolyuk和A.F.Turbin自主开发的渐近阶段扩大的方法。其次,探索了半马尔科夫模形在双组分系统中的潜在失败控制。*后,给出了不同函数系统的半马尔柯夫模型。
带有潜在故障恢复系统的半马尔柯夫模型控制 内容简介
《带有潜在故障恢复系统的半马尔柯夫模型控制(英文)》由哈尔滨工业大学出版社出版。
带有潜在故障恢复系统的半马尔柯夫模型控制 目录
目录
Preface
List of Notations and Abbreviations
Introduction
1.Preliminaries
1.1 Strategies and Characteristics of Technical Control
1.2 Preliminaries on Renewal Theory
1.3 Preliminaries on Semi—Markov Processes with Arbitrary Phase Space of States
2.Semi—Markov Models of One—Component Systems
with Regard to Control of Latent Failures
2.1 The System Modelwith Component Deactivation while Control Execution
2.1.1 The System Description
2.1.2 Semi—Markov Model Building
2.1.3 Definition of EMC Stationary Distribution
2.1.4 Stationary Characteristics Definition
2.2 The System Modelwithout Component Deactivation while Control Execution
2.2.1 The System Description
2.2.2 Semi—Markov Model Building
2.2.3 Definition of EMC Stationary Distribution
2.2.4 Stationary Characteristics Definition
2.3 Approximation of Stationary Characteristics of One—Component System without Component Deactivation
2.3.1 System Description
2.3.2 Semi—Markov Model Building of the Supporting System
2.3.3 Definition of EMC Stationary Distribution for Supporting System
2.3.4 Approximation of the System Stationary Characteristics
2.4 The System Model with Component Deactivation and Possibility of Control Errors
2.4.1 System Description
2.4.2 Semi—Markov Model Building
2.4.3 Definition of EMC Stationary Distribution
2.4.4 System Stationary Characteristics Definition
2.5 The System Model with Component Deactivation and Preventive Restoration
2.5.1 System Description
2.5.2 Semi—Markov Model Building
2.5.3 Definition of the EMC Stationary Distribution
2.5.4 Definition of the System Stationary Characteristics
3.Semi—Markov Models of Two—Component Systems with Regard to Control of Latent Failures
3.1 The Model of Two—Component Serial System with Immediate Control and Restoration
3.1.1 System Description
3.1.2 Semi—Markov Model Building
3.1.3 Definition of EMC Stationary Distribution
3.1.4 Stationary Characteristics Definition
3.2 The Model of Two—Component Parallel System with Immediate Control and Restoration
3.2.1 System Description
3.2.2 Definition of System Stationary Characteristics
3.3 The Model of Two—Component Serial System with Components Deactivation While Control Execution, the Distribution of Components Operating TF is Exponential
3.3.1 System Description
3.3.2 Semi—Markov Model Building
3.3.3 Definition of EMC Stationary Distribution
3.3.4 Stationary Characteristics Definition
3.4 The Model of Two—Component Parallel System with Components Deactivation While Control Execution, the Distribution of Components Operating TF is Exponential
3.4.1 Definition of EMC Stationary Distribution
3.5 Approximation of Stationary Characteristics of Two—Component Serial Systems with Components Deactivation While Control Execution
3.5.1 System Description
3.5.2 Semi—Markov Model Building of the Initial System
3.5.3 Approximation of the Initial Stationary Characteristics
4.Optimization of Execution Periodicity of Latent Failures Control
4.1 Definition of Optimal Control Periodicity for One—Component Systems
4.1.1 Control Periodicity Optimization for One—Component System with Component Deactivation
4.1.2 Optimal Control Periodicity for One—Component System Without Deactivation
4.1.3 Control Periodicity Optimization for One—Component System with Regard to Component Deactivation and Control Failures
4.2 Definition of Optimal Control Periodicity for Two—Component Systems
4.2.1 Control Periodicity Optimization for Two—Component Serial System
4.2.2 Control Periodicity Optimization for Two—Component Parallel System
5.Application and Verification of the Results
5.1 Simulation Models of Systems with Regard to Latent Failures Control
5.1.1 Comparison of Semi Markov with Simulation Model in Case of One—Component System
5.1.2 Comparison of Semi—Markov with Simulation Model in Case of Two—Component System
5.2 The Structure of the Automatic Decision System for the Management of Periodicity of Latent Failures Control
5.2.1 Description of ADS CPM of Latent Failures Operation
5.2.2 Passive Industrial Experiment
6.Semi—Markov Models of Systems of Different Function
6.1 Semi—Markov Model of a Queuing System with Losses
6.1.1 System Description
6.1.2 Semi—Markov Model Building
6.1.3 EMC Stationary Distribution Determination
6.1.4 System Stationary Characteristics Determination
6.2 The System with Cumulative Reserve of Time
6.2.1 System Description
6.2.2 Semi—Markov Model Building
6.2.3 System Characteristics Determination
6.3 Two—phase System with a Intermediate Buffer
6.3.1 System Description
6.3.2 Semi Markov Model Building
6.3.3 System Stationary Characteristics Approximation
6.4 The Model of Technological Cell with Nondepreciatory Failures
6.4.1 System Description
6.4.2 TC Semi—Markov Model Building
6.4.3 TC Characteristics Determination
Appendix A The Solution of the System of Integral Equations (2.24)
Appendix B The Solution of the System of Integral Equations (2.74)
Appendix C The Solution of the System of Integral Equation (3.6)
Appendix D The Solution of the System of Equation (3.34)
References
Index
List of Notations and Abbreviations
Introduction
1.Preliminaries
1.1 Strategies and Characteristics of Technical Control
1.2 Preliminaries on Renewal Theory
1.3 Preliminaries on Semi—Markov Processes with Arbitrary Phase Space of States
2.Semi—Markov Models of One—Component Systems
with Regard to Control of Latent Failures
2.1 The System Modelwith Component Deactivation while Control Execution
2.1.1 The System Description
2.1.2 Semi—Markov Model Building
2.1.3 Definition of EMC Stationary Distribution
2.1.4 Stationary Characteristics Definition
2.2 The System Modelwithout Component Deactivation while Control Execution
2.2.1 The System Description
2.2.2 Semi—Markov Model Building
2.2.3 Definition of EMC Stationary Distribution
2.2.4 Stationary Characteristics Definition
2.3 Approximation of Stationary Characteristics of One—Component System without Component Deactivation
2.3.1 System Description
2.3.2 Semi—Markov Model Building of the Supporting System
2.3.3 Definition of EMC Stationary Distribution for Supporting System
2.3.4 Approximation of the System Stationary Characteristics
2.4 The System Model with Component Deactivation and Possibility of Control Errors
2.4.1 System Description
2.4.2 Semi—Markov Model Building
2.4.3 Definition of EMC Stationary Distribution
2.4.4 System Stationary Characteristics Definition
2.5 The System Model with Component Deactivation and Preventive Restoration
2.5.1 System Description
2.5.2 Semi—Markov Model Building
2.5.3 Definition of the EMC Stationary Distribution
2.5.4 Definition of the System Stationary Characteristics
3.Semi—Markov Models of Two—Component Systems with Regard to Control of Latent Failures
3.1 The Model of Two—Component Serial System with Immediate Control and Restoration
3.1.1 System Description
3.1.2 Semi—Markov Model Building
3.1.3 Definition of EMC Stationary Distribution
3.1.4 Stationary Characteristics Definition
3.2 The Model of Two—Component Parallel System with Immediate Control and Restoration
3.2.1 System Description
3.2.2 Definition of System Stationary Characteristics
3.3 The Model of Two—Component Serial System with Components Deactivation While Control Execution, the Distribution of Components Operating TF is Exponential
3.3.1 System Description
3.3.2 Semi—Markov Model Building
3.3.3 Definition of EMC Stationary Distribution
3.3.4 Stationary Characteristics Definition
3.4 The Model of Two—Component Parallel System with Components Deactivation While Control Execution, the Distribution of Components Operating TF is Exponential
3.4.1 Definition of EMC Stationary Distribution
3.5 Approximation of Stationary Characteristics of Two—Component Serial Systems with Components Deactivation While Control Execution
3.5.1 System Description
3.5.2 Semi—Markov Model Building of the Initial System
3.5.3 Approximation of the Initial Stationary Characteristics
4.Optimization of Execution Periodicity of Latent Failures Control
4.1 Definition of Optimal Control Periodicity for One—Component Systems
4.1.1 Control Periodicity Optimization for One—Component System with Component Deactivation
4.1.2 Optimal Control Periodicity for One—Component System Without Deactivation
4.1.3 Control Periodicity Optimization for One—Component System with Regard to Component Deactivation and Control Failures
4.2 Definition of Optimal Control Periodicity for Two—Component Systems
4.2.1 Control Periodicity Optimization for Two—Component Serial System
4.2.2 Control Periodicity Optimization for Two—Component Parallel System
5.Application and Verification of the Results
5.1 Simulation Models of Systems with Regard to Latent Failures Control
5.1.1 Comparison of Semi Markov with Simulation Model in Case of One—Component System
5.1.2 Comparison of Semi—Markov with Simulation Model in Case of Two—Component System
5.2 The Structure of the Automatic Decision System for the Management of Periodicity of Latent Failures Control
5.2.1 Description of ADS CPM of Latent Failures Operation
5.2.2 Passive Industrial Experiment
6.Semi—Markov Models of Systems of Different Function
6.1 Semi—Markov Model of a Queuing System with Losses
6.1.1 System Description
6.1.2 Semi—Markov Model Building
6.1.3 EMC Stationary Distribution Determination
6.1.4 System Stationary Characteristics Determination
6.2 The System with Cumulative Reserve of Time
6.2.1 System Description
6.2.2 Semi—Markov Model Building
6.2.3 System Characteristics Determination
6.3 Two—phase System with a Intermediate Buffer
6.3.1 System Description
6.3.2 Semi Markov Model Building
6.3.3 System Stationary Characteristics Approximation
6.4 The Model of Technological Cell with Nondepreciatory Failures
6.4.1 System Description
6.4.2 TC Semi—Markov Model Building
6.4.3 TC Characteristics Determination
Appendix A The Solution of the System of Integral Equations (2.24)
Appendix B The Solution of the System of Integral Equations (2.74)
Appendix C The Solution of the System of Integral Equation (3.6)
Appendix D The Solution of the System of Equation (3.34)
References
Index
展开全部
带有潜在故障恢复系统的半马尔柯夫模型控制 作者简介
作者:(俄罗斯)阿布泽瑞(Obzherin Y.E.) (俄罗斯)博伊科(Boyko E.G.)
书友推荐
- >
小考拉的故事-套装共3册
小考拉的故事-套装共3册
¥35.4¥68.0 - >
名家带你读鲁迅:朝花夕拾
名家带你读鲁迅:朝花夕拾
¥10.5¥21.0 - >
伊索寓言-世界文学名著典藏-全译本
伊索寓言-世界文学名著典藏-全译本
¥6.1¥19.0 - >
龙榆生:词曲概论/大家小书
龙榆生:词曲概论/大家小书
¥9.1¥24.0 - >
回忆爱玛侬
回忆爱玛侬
¥10.5¥32.8 - >
大红狗在马戏团-大红狗克里弗-助人
大红狗在马戏团-大红狗克里弗-助人
¥4.4¥10.0 - >
随园食单
随园食单
¥20.6¥48.0 - >
中国人在乌苏里边疆区:历史与人类学概述
中国人在乌苏里边疆区:历史与人类学概述
¥37.1¥48.0
本类畅销
-
随机过程基础及其应用
¥9.5¥28 -
概率论与数理统计
¥4.2¥12 -
2022图书×抽奖盲袋
¥9.9¥25 -
2023读书月阅读盲盒——天黑,闭眼,刀谁?
¥42.3¥158 -
2022读者节纪念徽章-三星会员专属
¥45¥45.6
浏览历史
美学与现代性:阿格妮丝·赫勒论文选
¥64.1¥89.0外国文学作品导读(第二版)(21世纪远程教育精品教材·汉语言文学系列)
¥32.3¥38.0幼小衔接测试卷(共8册)
¥61.6¥108.0国际商法新论-第四版
¥28.7¥39.8子部-域外汉籍珍本文库-1-6册
¥840.0¥1400.0