IEEE Organizations related to Cyber-physical Systems

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No organizations are currently tagged "Cyber-physical Systems"



Conferences related to Cyber-physical Systems

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2018 37th Chinese Control Conference (CCC)

variable structure control; vehicle systems control; sensor networks; big data analysis and compressed sampling; nonlinear systems control; nonlinear systems theory; complexity and complex system theory; industrial systems and manufacturing; transportation systems; robust control; fuzzy system and fuzzy control; neural networks; data driven modeling and control; stochastic systems; micro-nano and quantum systems; stability and stabilization; systems modeling and identification; motion control; signal processing and information fusion; intelligent robot; etc.

  • 2017 36th Chinese Control Conference (CCC)

    variable structure control; vehicle systems control; sensor networks; big data analysis and compressed sampling; nonlinear systems control; nonlinear systems theory; complexity and complex system theory; industrial systems and manufacturing; transportation systems; robust control; fuzzy system and fuzzy control; neural networks; data driven modeling and control; stochastic systems; micro-nano and quantum systems; stability and stabilization; systems modeling and identification; motion control; signal processing and information fusion; intelligent robot; etc.

  • 2016 35th Chinese Control Conference (CCC)

    variable structure control; vehicle systems control; sensor networks; big data analysis andcompressed sampling; nonlinear systems control; nonlinear systems theory; complexity andcomplex system theory; industrial systems and manufacturing; transportation systems; robustcontrol; fuzzy system and fuzzy control; neural networks; data driven modeling and control;stochastic systems; micro-nano and quantum systems; stability and stabilization; systemsmodeling and identification; motion control; signal processing and information fusion; intelligentrobot; etc.

  • 2015 34th Chinese Control Conference (CCC)

    The Chinese Control Conference (CCC) is an annual international conference initiated by the Technical Committee on Control Theory (TCCT), Chinese Association of Automation (CAA). It provides a forum for scientists and engineers over the world to present their new theoreticalresults and techniques in the field of systems and control. The conference consists of plenary talks, panel discussions, invited sessions, pre-conference workshops, oral sessions and poster sessions etc. for academic exchanges.

  • 2014 33rd Chinese Control Conference (CCC)

    variable structure control; vehicle systems control; sensor networks; big data analysis and compressed sampling; nonlinear systems control; nonlinear systems theory; complexity and complex system theory; industrial systems and manufacturing; transportation systems; robust control; fuzzy system and fuzzy control; neural networks; data driven modeling and control; stochastic systems; micro-nano and quantum systems; stability and stabilization; systems modeling and identification; motion control; signal processing and information fusion; intelligent robot; etc.

  • 2013 32nd Chinese Control Conference (CCC)

    The Chinese Control Conference (CCC) is an annual international conference initiated by the Technical Committee on Control Theory (TCCT), Chinese Association of Automation (CAA). It provides a forum for scientists and engineers over the world to present their new theoretical results and techniques in the field of systems and control. The conference consists of plenary talks, panel discussions, invited sessions, pre-conference workshops, oral sessions and poster sessions etc. for academic exchanges.

  • 2012 Chinese Control Conference (CCC)

    The Chinese Control Conference (CCC) is an annual international conference organized by the Technical Committee on Control Theory (TCCT), Chinese Association of Automation (CAA). It provides a forum for scientists and engineers over the world to present their new theoretical results and techniques in the field of systems and control. The conference consists of pre-conference workshops, plenary talks, panel discussions, invited sessions, oral sessions and poster sessions etc. for academic exchanges.

  • 2011 30th Chinese Control Conference (CCC)

    Systems and Control

  • 2010 29th Chinese Control Conference (CCC)

    S1 System Theory and Control Theory S2 Nonlinear Systems and Control S3 Complexity and Complex System Theory S4 Distributed Parameter Systems S5 Stability and Stabilization S6 Large Scale Systems S7 Stochastic Systems S8 System Modeling and System Identification S9 DEDS and Hybrid Systems S10 Optimal Control S11 Optimization and Scheduling S12 Robust Control S13 Adaptive Control and Learning Control S14 Variable Structure Control S15 Neural

  • 2008 Chinese Control Conference (CCC)

    The Chinese Control Conference (CCC) is an annual international conference organized by Tech. Com. on Control Theory, CAA. It provides a forum for scientists and engineers over the world to present their new theoretical results and techniques in the field of systems and control. The conference consists of plenary talks, panel discussions, oral and poster sessions etc. for academic exchanges. The conference proceedings have been selected for coverage in ISI proceedings/ISTP (Index to Scientific and Technical

  • 2007 Chinese Control Conference (CCC)

    The CCC is an annual international conference organized by Tech. Com. on Control Theory, CAA. It provides a forum for scientists and engineers over the world to present their new theoretical results and techniques in the field of systems and control. The conference consists of pre-conference workshops, plenary talks, oral and poster sessions etc. for academic exchanges. The 26th CCC is organized by the Central South University and will be held in Zhangjiajie.

  • 2006 Chinese Control Conference (CCC)


2018 ACM/IEEE 9th International Conference on Cyber-Physical Systems (ICCPS)

ACM/IEEE ICCPS is the premier single-track conference for reporting advances in all CPS aspects, including theory, tools, applications, systems, test-beds and field deployments.

  • 2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS)

    As computers become ever-faster and communication bandwidth ever-cheaper, computing and communication capabilities will be embedded in all types of objects and structures in the physical environment. Applications with enormous societal impact and economic benefit will be created by harnessing these capabilities in time and across space. Such systems that bridge the cyber-world of computing and communications with the physical world are called cyberphysical systems. Cyber-physical systems (CPS) are physical and engineered systems whose operations are monitored, coordinated, controlled and integrated by a computing and communication core. Cyber-physical systems will transform how we interact with the physical world just like the Internet transformed how we interact with one another.

  • 2016 ACM/IEEE 7th International Conference on Cyber-Physical Systems (ICCPS)

    As computers become ever-faster and communication bandwidth ever-cheaper, computing and communication capabilities will be embedded in all types of objects and structures in the physical environment. Applications with enormous societal impact and economic benefit will be created by harnessing these capabilities in time and across space. Such systems that bridge the cyber-world of computing and communications with the physical world are called cyberphysical systems. Cyber-physical systems (CPS) are physical and engineered systems whose operations are monitored, coordinated, controlled and integrated by a computing and communication core. Cyber-physical systems will transform how we interact with the physical world just like the Internet transformed how we interact with one another.

  • 2015 ACM/IEEE 6th International Conference on Cyber-Physical Systems (ICCPS)

    As computers become ever-faster and communication bandwidth ever-cheaper, computing and communication capabilities will be embedded in all types of objects and structures in the physical environment. Applications with enormous societal impact and economic benefit will be created by harnessing these capabilities in time and across space. Such systems that bridge the cyber-world of computing and communications with the physical world are called cyber-physical systems.Cyber-physical systems (CPS) are physical and engineered systems whose operations are monitored, coordinated, controlled and integrated by a computing and communication core. Cyber-physical systems will transform how we interact with the physical world just like the Internet transformed how we interact with one another.

  • 2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS)

    Cyber-physical systems are systems with a coupling of the cyber aspects of computing and communications with the physical aspects of dynamics and engineering that must abide by the laws of physics. The objective of ICCPS 2013, the 4th ACM/IEEE International Conference onCyber-Physical Systems, is to serve as a single-track forum for reporting advances in all aspects of cyber-physical systems, including but not limited to theory, tools, applications, systems, and testbeds.

  • 2013 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS)

    Cyber-physical systems are systems with a coupling of the cyber aspects of computing and communications with the physical aspects of dynamics and engineering that must abide by the laws of physics. The objective of ICCPS 2013, the 4th ACM/IEEE International Conference on Cyber-Physical Systems, is to serve as a single-track forum for reporting advances in all aspects of cyber-physical systems, including but not limited to theory, tools, applications, systems, and testbeds.

  • 2012 IEEE/ACM Third International Conference on Cyber-Physical Systems (ICCPS)

    Cyber-physical systems are systems with a tight coupling of the cyber aspects of computing and communications with the physical aspects of dynamics and engineering that must abide by the laws of physics. The objective of this conference is to be a primary forum for reporting state -of-the-art advances and innovations in theoretical principles, tools, applications, systems infrastructure, and testbeds for cyber-physical systems.

  • 2011 IEEE/ACM International Conference on Cyber-Physical Systems (ICCPS)

    The objective of this conference is to be a primary forum for reporting state-of-the-art advances and innovations in theoretical principles, tools, applications, systems infrastructure, and testbeds for cyber-physical systems.

  • 2010 IEEE/ACM First International Conference on Cyber-Physical Systems (ICCPS)

    Cyber-physical systems are systems with a tight coupling of the cyber aspects of computing and communications with the physical aspects of dynamics and engineering that must abide by the laws of physics. The objective of this conference is to be a primary forum for reporting state-of-the-art advances and innovations in theoretical principles, tools, applications, systems infrastructure, and testbeds for cyber-physical systems.



Periodicals related to Cyber-physical Systems

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No periodicals are currently tagged "Cyber-physical Systems"


Most published Xplore authors for Cyber-physical Systems

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Xplore Articles related to Cyber-physical Systems

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What Is the Internet of Things: An Introduction

What Is the Internet of Things: An Introduction, 04/05/2017

This module provides an overview of the Internet of Things technology. The emergence of the paradigm is explored and a range of application areas and challenges are discussed. In particular, we explain the broader implications of networked small devices, and the types of services they can provide. Some implications in the area of personal and information security challenges associated with ...


The Smart Grid: From Concept to Reality

The Smart Grid: From Concept to Reality, 01/06/2011

In this tutorial, we will provide an overview of the Smart Grid. We begin by explaining what is the smart grid and what are the basic concepts behind it. We will discuss its components and develop an understanding of the elements that you need to think about to get a fuller picture of the smart grid. We will also examine ...


Continuous-Time Computational Aspects of Cyber-Physical Security

2016 Workshop on Fault Diagnosis and Tolerance in Cryptography (FDTC), 2016

A wide variety of mixed digital-physical (cyber-physical) systems with complex and often loosely defined components are now deployed, whose behavior affect our daily lives in significant and sometimes critical ways. Cyber-physical systems (CPS) can provide much richer functionality, efficiency, autonomy, and reliability than manually controlled and loosely coupled systems. However, they also create inherent vulnerability related to privacy, security, robustness, ...


An improved real-time task preemptive scheduling in cyber-physical systems

2017 29th Chinese Control And Decision Conference (CCDC), 2017

To improve the performance of real-time task scheduling and the utilization of the system resources in Cyber-Physical System, at the same time, to reduce the number of task switching, this paper improved traditional preemptive task scheduling, introduced the concept of buffer time and the guard time, made judgments when the task may need to switch to, according to the situation ...


Strengthening the "Engineering" in Software Engineering Education: A Software Engineering Bachelor of Engineering Program for the 21st Century

2016 IEEE 29th International Conference on Software Engineering Education and Training (CSEET), 2016

In the fall of 2015, Stevens Institute of Technology welcomed the first freshmen into a newly launched Software Engineering Undergraduate Program based largely on the most recent ACM and IEEE-CS guidelines for undergraduate software engineering programs. This is the first such program in the US that also has an ABET accredited general engineering curriculum. Students will receive a B. E. ...


More Xplore Articles

Educational Resources on Cyber-physical Systems

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IEEE.tv Videos

Fragility of Interconnected Cyber-Physical Systems - Marios M. Polycarpou - WCCI 2016
Cyber-Physical ICT for Smart Cities: Emerging Requirements in Control and Communications - Ryogo Kubo
Ivan Ruchkin: Challenges in Physical Modeling for Adaptation of Cyber-Physical Systems: WF IoT 2016
Hausi Muller: Models At Runtime and Networked Control for Smart Cyber Physical Systems: WF IoT 2016
Toward Cyber-Physical/Human Systems that are Responsive and Scalable - Jing Li - IEEE Sarnoff Symposium, 2019
Norha Villegas: The Role of Models at Runtime in Smart Cyber Physical Systems: WF IoT 2016
Karin Hollerbach: Far Futures Panel - TTM 2018
Validating Cyber-Physical Energy Systems, Part 2: IECON 2018
Validating Cyber-Physical Energy Systems, Part 4: IECON 2018
Validating Cyber-Physical Energy Systems, Part 3: IECON 2018
Vint Cerf: Opening Keynote: WF IoT 2016
Validating Cyber-Physical Energy Systems, Part 1: IECON 2018
Mary Shaw: Control Theory and Designing Cyber-Physical Systems: WF IoT 2016
Adaptive Learning and Optimization for MI: From the Foundations to Complex Systems - Haibo He - WCCI 2016
Q&A with Marilyn Wolf: IEEE Rebooting Computing Podcast, Episode 13
Proceedings of the IEEE: An Overview
Opportunities in Physical Computing driven by Analog Realization - Jennifer Hasler: 2016 International Conference on Rebooting Computing
Jacopo Cassina: The Scorpius Roadmap for Cyber, Physical and System - WF-IoT 2015
Industrial Standards and IoT Use Cases - Talk One: IECON 2018
The Proceedings of the IEEE: Editorial Process

IEEE-USA E-Books

  • What Is the Internet of Things: An Introduction

    This module provides an overview of the Internet of Things technology. The emergence of the paradigm is explored and a range of application areas and challenges are discussed. In particular, we explain the broader implications of networked small devices, and the types of services they can provide. Some implications in the area of personal and information security challenges associated with deployment of Internet of Things and broad adoption of Internet connected small devices and sensor networks are also explored.

  • The Smart Grid: From Concept to Reality

    In this tutorial, we will provide an overview of the Smart Grid. We begin by explaining what is the smart grid and what are the basic concepts behind it. We will discuss its components and develop an understanding of the elements that you need to think about to get a fuller picture of the smart grid. We will also examine how the smart grid can be realized, and will provide some examples of smart grids as they are deployed.

  • Continuous-Time Computational Aspects of Cyber-Physical Security

    A wide variety of mixed digital-physical (cyber-physical) systems with complex and often loosely defined components are now deployed, whose behavior affect our daily lives in significant and sometimes critical ways. Cyber-physical systems (CPS) can provide much richer functionality, efficiency, autonomy, and reliability than manually controlled and loosely coupled systems. However, they also create inherent vulnerability related to privacy, security, robustness, and reliability of the underlying components and as a whole system. The mixed digital-physical aspect of such systems opens new and, as- of-yet, lightly explored opportunities for hybrid design, modeling, and analysis. Robust and safe systems must be designed and deployed to meet operational and security challenges. Additionally, the continuous-time nature of the physical components of these systems implies a fit for certain high- performance, low-power analog computing solutions. Here we survey existing efforts related to such risks and opportunities. We also tie the topics together and provide guidance to other researchers interested in exploring the hybrid aspects of mixed digital-physical systems.

  • An improved real-time task preemptive scheduling in cyber-physical systems

    To improve the performance of real-time task scheduling and the utilization of the system resources in Cyber-Physical System, at the same time, to reduce the number of task switching, this paper improved traditional preemptive task scheduling, introduced the concept of buffer time and the guard time, made judgments when the task may need to switch to, according to the situation to retain the task which had lower priority but should not be suspended, and let the higher priority task wait for a while. Finally, our research verifies the performance of the algorithm by examples and simulation experiments, demonstrates that the algorithm can optimize the performance of CPS, avoids the jitter caused by frequent task switching and its adverse effects on system performance, reduces the number of task switching, and improves the utilization of resources within the system to some extent.

  • Strengthening the "Engineering" in Software Engineering Education: A Software Engineering Bachelor of Engineering Program for the 21st Century

    In the fall of 2015, Stevens Institute of Technology welcomed the first freshmen into a newly launched Software Engineering Undergraduate Program based largely on the most recent ACM and IEEE-CS guidelines for undergraduate software engineering programs. This is the first such program in the US that also has an ABET accredited general engineering curriculum. Students will receive a B. E. in Software Engineering Degree, and be prepared to sit for the Fundamentals of Engineering (FE) examination. In addition to its strong engineering foundation, the program benefits from the success of the Stevens graduate program in software engineering. This paper describes the program: the motivation, the curriculum, the program assessment plan, the early challenges, and the results to date, including some consideration as a potential model of an undergraduate Cyber-Physical Systems Engineering curriculum.

  • Fast Controller Switching for Fault-Tolerant Cyber-Physical Systems on Software-Defined Networks

    In this paper, we propose a fault-tolerant mechanism that responds quickly to controller failures in cyber-physical systems that have a primary controller and multiple backup controllers for resilient control of physical objects. Using software-defined networking (SDN), the primary and backup controllers are configured to have the same IP address. In the event of controller failure, the other nodes, including physical objects, are not required to use the address resolution protocol (ARP) to find the media access control (MAC) address of the backup controller. The proposed mechanism enables the SDN controller to substitute the MAC address in frames destined for the primary controller with that of the backup controller on an SDN switch.

  • SEnSE – An Architecture for a Safe and Secure Integration of Safety-Critical Embedded Systems

    Embedded systems that communicate with each other over the internet and build up a larger, loosely coupled (hardware) system with an unknown configuration at runtime is often referred to as a cyberphysical system. Many of these systems can become, due to its associated risks during their operation, safety critical. With increased complexity of such systems, the number of configurations can either be infinite or even unknown at design time. Hence, a certification at design time for such systems that documents a safe interaction for all possible configurations of all participants at runtime can become unfeasible. If such systems come together in a new configuration, a mechanism is required that can decide whether or not it is safe for them to interact. Such a mechanism can generally not be part of such systems for the sake of trust. Therefore, we present in the following sections the SEnSE device, short for Secure and Safe Embedded, that tackles these challenges and provides a secure and safe integration of safety-critical embedded systems.

  • Low Resource-Consuming Cyber-physical System Sampling Method using Bernoulli Circulant Matrix

    Cyber-physical System (CPS) have a high requirement on real-time property, and it is difficult to improve the sampling efficiency base on traditional sampling theory. In this paper, the compression sensing (CS) theory is applied to the sampling compression process of CPS system. The CS theory was used to the sampling compression method of CPS system. The Bernoulli circulant matrix, which is easy to be realized and stored, and its construction algorithm were designed to simplify the realization of CS theory in CPS. It is concluded that for random data set, the compression ratio increases from 14.06 % to 42.18 % and the reconstruction error decreases from 27.65 to 1.28 with increasing repetition times. Note that the sampling time are around tens of microseconds and the reconstruction time are around several milliseconds, which indicates a high real-time performance for CPS. In addition, for image data set, the compression ratios are about 42.90 % which indicates a high compression ratio and huge storage resources saving. More importantly, the sampling time and reconstruction time are only several microseconds and several seconds respectively, which indicates a high real-time performance for CPS.

  • A security assessment scheme for interdependent cyber-physical power systems

    A security assessment scheme for interdependent cyber-physical power systems is proposed. The focus of the scheme is to assess the impact of node failures in the communication network on the total power system. A contingency set is formed by failures of each node in the communication network, which is ranked according to the node importance. Two mechanisms to trigger cascading failures of the power network are considered including re-routing of power flow and hidden failures of protection following the initial random event. After the contingency set is enumerated, the N-1 security assessment for the interdependent cyber-physical power system is completed. The impact of each contingency is measured by the resulting load loss of the power system. Simulation results of New England 10-machine 39-bus test system demonstrate the effectiveness of the proposed scheme.

  • Live Demonstration: Low-Power Low-Cost Cyber-Physical System for Bird Monitoring

    This live demonstration showcases a cyber-physical system tailored for inexpensive remote bird monitoring. A comprehensive analysis of the application requirements along with a tight system integration have given rise to a smart autonomous nest-box ready for deployment. This nest-box includes radio-frequency identification (RFID), a weighing scale, two temperature sensors, passive infrared devices (PIR), massive data storage and internet connection via mobile infrastructure. It is powered through a solar panel. The bill of materials has been diminished 77% with respect to the previous version of the nest-box whereas the power consumption has been reduced 84%.



Standards related to Cyber-physical Systems

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No standards are currently tagged "Cyber-physical Systems"


Jobs related to Cyber-physical Systems

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