A Software Defined architecture for Cyberphysical Systems

Ala' Darabseh, Nikolaos Freris

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

The explosive proliferation of smart devices and cloud computing has ushered the era of Cyberphysical Systems (CPS), a congruence of physical dynamical systems with the cyberspace. The success of deploying an Internet of Things (IoT) interconnecting billions of devices relies heavily upon making the right choices in revisiting traditional architectures for networked control and information processing. Inspired by the concept of Software Defined Systems (SDSys), we propose a control architecture for cyberphysical systems and discuss its advantages in terms of scalability, robustness, security, flexibility, and interoperability. The proposed architecture explicitly leverages the fact that agents possess computational units that may be used for in-network processing and decentralized control actions. We integrate a set of components such as sensors, actuators, access points and coordinators and specify the communication flow, the data flow, and the control flow in a programmable fashion. Control is spread over multiple layers (self-controllers, coordinators, local area controllers, and super-controllers) that form a hierarchy with added autonomy for distributed and decentralized actions. A middleware layer is integrated into the proposed design with several services and units to account for real-time operations in highly dynamic environments. We proceed to identify a wide range of potential vulnerabilities to cyberattacks at all levels, and propose solutions for effective resilience, detection and recovery. The proposed architecture aims at a holistic view with increased adaptability, where the controllers efficiently collaborate to quickly capture and respond to abnormal situations in a self-adjusting manner.

Original languageEnglish (US)
Title of host publication2017 4th International Conference on Software Defined Systems, SDS 2017
PublisherInstitute of Electrical and Electronics Engineers Inc.
Pages54-60
Number of pages7
ISBN (Electronic)9781538628553
DOIs
StatePublished - Jun 5 2017
Event4th International Conference on Software Defined Systems, SDS 2017 - Valencia, Spain
Duration: May 8 2017May 11 2017

Other

Other4th International Conference on Software Defined Systems, SDS 2017
CountrySpain
CityValencia
Period5/8/175/11/17

Fingerprint

Controllers
Decentralized control
Cloud computing
Middleware
Flow control
Interoperability
Scalability
Dynamical systems
Actuators
Recovery
Software
Controller
Communication
Sensors
Processing
Internet of things
Leverage
Dynamic environment
Resilience
Proliferation

Keywords

  • Cyber Security
  • Cyberphysical Systems (CPS)
  • Decentralized Control
  • Distributed Systems
  • Middleware
  • Software Defined Systems (SDSys)
  • System Architecture

ASJC Scopus subject areas

  • Information Systems and Management
  • Computer Networks and Communications
  • Hardware and Architecture

Cite this

Darabseh, A., & Freris, N. (2017). A Software Defined architecture for Cyberphysical Systems. In 2017 4th International Conference on Software Defined Systems, SDS 2017 (pp. 54-60). [7939141] Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SDS.2017.7939141

A Software Defined architecture for Cyberphysical Systems. / Darabseh, Ala'; Freris, Nikolaos.

2017 4th International Conference on Software Defined Systems, SDS 2017. Institute of Electrical and Electronics Engineers Inc., 2017. p. 54-60 7939141.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Darabseh, A & Freris, N 2017, A Software Defined architecture for Cyberphysical Systems. in 2017 4th International Conference on Software Defined Systems, SDS 2017., 7939141, Institute of Electrical and Electronics Engineers Inc., pp. 54-60, 4th International Conference on Software Defined Systems, SDS 2017, Valencia, Spain, 5/8/17. https://doi.org/10.1109/SDS.2017.7939141
Darabseh A, Freris N. A Software Defined architecture for Cyberphysical Systems. In 2017 4th International Conference on Software Defined Systems, SDS 2017. Institute of Electrical and Electronics Engineers Inc. 2017. p. 54-60. 7939141 https://doi.org/10.1109/SDS.2017.7939141
Darabseh, Ala' ; Freris, Nikolaos. / A Software Defined architecture for Cyberphysical Systems. 2017 4th International Conference on Software Defined Systems, SDS 2017. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 54-60
@inproceedings{d8b0186bc8ba44f1a56a8e20633b3e89,
title = "A Software Defined architecture for Cyberphysical Systems",
abstract = "The explosive proliferation of smart devices and cloud computing has ushered the era of Cyberphysical Systems (CPS), a congruence of physical dynamical systems with the cyberspace. The success of deploying an Internet of Things (IoT) interconnecting billions of devices relies heavily upon making the right choices in revisiting traditional architectures for networked control and information processing. Inspired by the concept of Software Defined Systems (SDSys), we propose a control architecture for cyberphysical systems and discuss its advantages in terms of scalability, robustness, security, flexibility, and interoperability. The proposed architecture explicitly leverages the fact that agents possess computational units that may be used for in-network processing and decentralized control actions. We integrate a set of components such as sensors, actuators, access points and coordinators and specify the communication flow, the data flow, and the control flow in a programmable fashion. Control is spread over multiple layers (self-controllers, coordinators, local area controllers, and super-controllers) that form a hierarchy with added autonomy for distributed and decentralized actions. A middleware layer is integrated into the proposed design with several services and units to account for real-time operations in highly dynamic environments. We proceed to identify a wide range of potential vulnerabilities to cyberattacks at all levels, and propose solutions for effective resilience, detection and recovery. The proposed architecture aims at a holistic view with increased adaptability, where the controllers efficiently collaborate to quickly capture and respond to abnormal situations in a self-adjusting manner.",
keywords = "Cyber Security, Cyberphysical Systems (CPS), Decentralized Control, Distributed Systems, Middleware, Software Defined Systems (SDSys), System Architecture",
author = "Ala' Darabseh and Nikolaos Freris",
year = "2017",
month = "6",
day = "5",
doi = "10.1109/SDS.2017.7939141",
language = "English (US)",
pages = "54--60",
booktitle = "2017 4th International Conference on Software Defined Systems, SDS 2017",
publisher = "Institute of Electrical and Electronics Engineers Inc.",

}

TY - GEN

T1 - A Software Defined architecture for Cyberphysical Systems

AU - Darabseh, Ala'

AU - Freris, Nikolaos

PY - 2017/6/5

Y1 - 2017/6/5

N2 - The explosive proliferation of smart devices and cloud computing has ushered the era of Cyberphysical Systems (CPS), a congruence of physical dynamical systems with the cyberspace. The success of deploying an Internet of Things (IoT) interconnecting billions of devices relies heavily upon making the right choices in revisiting traditional architectures for networked control and information processing. Inspired by the concept of Software Defined Systems (SDSys), we propose a control architecture for cyberphysical systems and discuss its advantages in terms of scalability, robustness, security, flexibility, and interoperability. The proposed architecture explicitly leverages the fact that agents possess computational units that may be used for in-network processing and decentralized control actions. We integrate a set of components such as sensors, actuators, access points and coordinators and specify the communication flow, the data flow, and the control flow in a programmable fashion. Control is spread over multiple layers (self-controllers, coordinators, local area controllers, and super-controllers) that form a hierarchy with added autonomy for distributed and decentralized actions. A middleware layer is integrated into the proposed design with several services and units to account for real-time operations in highly dynamic environments. We proceed to identify a wide range of potential vulnerabilities to cyberattacks at all levels, and propose solutions for effective resilience, detection and recovery. The proposed architecture aims at a holistic view with increased adaptability, where the controllers efficiently collaborate to quickly capture and respond to abnormal situations in a self-adjusting manner.

AB - The explosive proliferation of smart devices and cloud computing has ushered the era of Cyberphysical Systems (CPS), a congruence of physical dynamical systems with the cyberspace. The success of deploying an Internet of Things (IoT) interconnecting billions of devices relies heavily upon making the right choices in revisiting traditional architectures for networked control and information processing. Inspired by the concept of Software Defined Systems (SDSys), we propose a control architecture for cyberphysical systems and discuss its advantages in terms of scalability, robustness, security, flexibility, and interoperability. The proposed architecture explicitly leverages the fact that agents possess computational units that may be used for in-network processing and decentralized control actions. We integrate a set of components such as sensors, actuators, access points and coordinators and specify the communication flow, the data flow, and the control flow in a programmable fashion. Control is spread over multiple layers (self-controllers, coordinators, local area controllers, and super-controllers) that form a hierarchy with added autonomy for distributed and decentralized actions. A middleware layer is integrated into the proposed design with several services and units to account for real-time operations in highly dynamic environments. We proceed to identify a wide range of potential vulnerabilities to cyberattacks at all levels, and propose solutions for effective resilience, detection and recovery. The proposed architecture aims at a holistic view with increased adaptability, where the controllers efficiently collaborate to quickly capture and respond to abnormal situations in a self-adjusting manner.

KW - Cyber Security

KW - Cyberphysical Systems (CPS)

KW - Decentralized Control

KW - Distributed Systems

KW - Middleware

KW - Software Defined Systems (SDSys)

KW - System Architecture

UR - http://www.scopus.com/inward/record.url?scp=85021767224&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85021767224&partnerID=8YFLogxK

U2 - 10.1109/SDS.2017.7939141

DO - 10.1109/SDS.2017.7939141

M3 - Conference contribution

AN - SCOPUS:85021767224

SP - 54

EP - 60

BT - 2017 4th International Conference on Software Defined Systems, SDS 2017

PB - Institute of Electrical and Electronics Engineers Inc.

ER -