A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies

A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies

Cyber Physical Systems (CPS) has been a popular research area in the last decade. The dependability of CPS is still a critical issue, and few surveys have been published in this domain. CPS is a dynamic complex system, which involves various multidisciplinary technologies. To avoid human errors and...

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Main Authors: Peng Zhou, Decheng Zuo, Kun Mean Hou, Zhan Zhang, Jian Dong, Jianjin Li, Haiying Zhou
Format: Article
Language:English
Published: MDPI AG 2019-02-01
Series:Sensors
Subjects:
Cyber Physical Systems
Industry 4.0
MDE
lifetime verification &amp
validation
dependability
correctness
flexibility
real-time self-adaptation
self-management
self-healing
Online Access:https://www.mdpi.com/1424-8220/19/5/1033
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spelling doaj-48bd175259aa46be8355f1d0e4812fa12020-11-25T00:02:24ZengMDPI AGSensors1424-82202019-02-01195103310.3390/s19051033s19051033A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management StrategiesPeng Zhou0Decheng Zuo1Kun Mean Hou2Zhan Zhang3Jian Dong4Jianjin Li5Haiying Zhou6School of Computer Science and Technology, Harbin Institute of Technology, Harbin 150001, ChinaSchool of Computer Science and Technology, Harbin Institute of Technology, Harbin 150001, ChinaLIMOS, UMR 6158 CNRS, University Clermont Auvergne, 63173 Aubière CEDEX, FranceSchool of Computer Science and Technology, Harbin Institute of Technology, Harbin 150001, ChinaSchool of Computer Science and Technology, Harbin Institute of Technology, Harbin 150001, ChinaLIMOS, UMR 6158 CNRS, University Clermont Auvergne, 63173 Aubière CEDEX, FranceSchool of Electrical and Information Engineering, Hubei University of Automotive Technology, Shiyan 442002, ChinaCyber Physical Systems (CPS) has been a popular research area in the last decade. The dependability of CPS is still a critical issue, and few surveys have been published in this domain. CPS is a dynamic complex system, which involves various multidisciplinary technologies. To avoid human errors and to simplify management, self-management CPS (SCPS) is a wise choice. To achieve dependable self-management, systematic solutions are necessary to verify the design and to guarantee the safety of self-adaptation decisions, as well as to maintain the health of SCPS. This survey first recalls the concepts of dependability, and proposes a generic environment-in-loop processing flow of self-management CPS, and then analyzes the error sources and challenges of self-management through the formal feedback flow. Focusing on reducing the complexity, we first survey the self-adaptive architecture approaches and applied dependability means, then we introduce a hybrid multi-role self-adaptive architecture, and discuss the supporting technologies for dependable self-management at the architecture level. Focus on dependable environment-centered adaptation, we investigate the verification and validation (V&V) methods for making safe self-adaptation decision and the solutions for processing decision dependably. For system-centered adaptation, the comprehensive self-healing methods are summarized. Finally, we analyze the missing pieces of the technology puzzle and the future directions. In this survey, the technical trends for dependable CPS design and maintenance are discussed, an all-in-one solution is proposed to integrate these technologies and build a dependable organic SCPS. To the best of our knowledge, this is the first comprehensive survey on dependable SCPS building and evaluation.https://www.mdpi.com/1424-8220/19/5/1033Cyber Physical SystemsIndustry 4.0MDElifetime verification &ampvalidationdependabilitycorrectnessflexibilityreal-time self-adaptationself-managementself-healing
collection DOAJ
language English
format Article
sources DOAJ
author Peng Zhou
Decheng Zuo
Kun Mean Hou
Zhan Zhang
Jian Dong
Jianjin Li
Haiying Zhou
spellingShingle Peng Zhou
Decheng Zuo
Kun Mean Hou
Zhan Zhang
Jian Dong
Jianjin Li
Haiying Zhou
A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies
Sensors
Cyber Physical Systems
Industry 4.0
MDE
lifetime verification &amp
validation
dependability
correctness
flexibility
real-time self-adaptation
self-management
self-healing
author_facet Peng Zhou
Decheng Zuo
Kun Mean Hou
Zhan Zhang
Jian Dong
Jianjin Li
Haiying Zhou
author_sort Peng Zhou
title A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies
title_short A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies
title_full A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies
title_fullStr A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies
title_full_unstemmed A Comprehensive Technological Survey on the Dependable Self-Management CPS: From Self-Adaptive Architecture to Self-Management Strategies
title_sort comprehensive technological survey on the dependable self-management cps: from self-adaptive architecture to self-management strategies
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2019-02-01
description Cyber Physical Systems (CPS) has been a popular research area in the last decade. The dependability of CPS is still a critical issue, and few surveys have been published in this domain. CPS is a dynamic complex system, which involves various multidisciplinary technologies. To avoid human errors and to simplify management, self-management CPS (SCPS) is a wise choice. To achieve dependable self-management, systematic solutions are necessary to verify the design and to guarantee the safety of self-adaptation decisions, as well as to maintain the health of SCPS. This survey first recalls the concepts of dependability, and proposes a generic environment-in-loop processing flow of self-management CPS, and then analyzes the error sources and challenges of self-management through the formal feedback flow. Focusing on reducing the complexity, we first survey the self-adaptive architecture approaches and applied dependability means, then we introduce a hybrid multi-role self-adaptive architecture, and discuss the supporting technologies for dependable self-management at the architecture level. Focus on dependable environment-centered adaptation, we investigate the verification and validation (V&V) methods for making safe self-adaptation decision and the solutions for processing decision dependably. For system-centered adaptation, the comprehensive self-healing methods are summarized. Finally, we analyze the missing pieces of the technology puzzle and the future directions. In this survey, the technical trends for dependable CPS design and maintenance are discussed, an all-in-one solution is proposed to integrate these technologies and build a dependable organic SCPS. To the best of our knowledge, this is the first comprehensive survey on dependable SCPS building and evaluation.
topic Cyber Physical Systems
Industry 4.0
MDE
lifetime verification &amp
validation
dependability
correctness
flexibility
real-time self-adaptation
self-management
self-healing
url https://www.mdpi.com/1424-8220/19/5/1033
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