IEEE Organizations related to Complex Systems

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Conferences related to Complex Systems

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2020 IEEE International Conference on Systems, Man, and Cybernetics (SMC)

The 2020 IEEE International Conference on Systems, Man, and Cybernetics (SMC 2020) will be held in Metro Toronto Convention Centre (MTCC), Toronto, Ontario, Canada. SMC 2020 is the flagship conference of the IEEE Systems, Man, and Cybernetics Society. It provides an international forum for researchers and practitioners to report most recent innovations and developments, summarize state-of-the-art, and exchange ideas and advances in all aspects of systems science and engineering, human machine systems, and cybernetics. Advances in these fields have increasing importance in the creation of intelligent environments involving technologies interacting with humans to provide an enriching experience and thereby improve quality of life. Papers related to the conference theme are solicited, including theories, methodologies, and emerging applications. Contributions to theory and practice, including but not limited to the following technical areas, are invited.


2020 IEEE International Symposium on Circuits and Systems (ISCAS)

The International Symposium on Circuits and Systems (ISCAS) is the flagship conference of the IEEE Circuits and Systems (CAS) Society and the world’s premier networking and exchange forum for researchers in the highly active fields of theory, design and implementation of circuits and systems. ISCAS2020 focuses on the deployment of CASS knowledge towards Society Grand Challenges and highlights the strong foundation in methodology and the integration of multidisciplinary approaches which are the distinctive features of CAS contributions. The worldwide CAS community is exploiting such CASS knowledge to change the way in which devices and circuits are understood, optimized, and leveraged in a variety of systems and applications.


2020 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

One of the flagship conferences for the IEEE Robotics and Automation Society (RAS)


2019 14th Annual Conference System of Systems Engineering (SoSE)

IEEE System, Man, and Cybernetics Society and IEEE Reliability Society announce the 14th International Conference on System of Systems Engineering (SoSE) with its vast ramifications in numerous engineering fields such as control, computing, communication, information technology and in applications such manufacturing, defense, national security, aerospace, aeronautics, energy, environment, healthcare, and transportation. The conference theme is “Internet of Things as System of Systems”. Papers on theories, methodologies, and applications of System of Systems Engineering in science, technology, industry, and education are welcome.

  • 2018 13th Annual Conference on System of Systems Engineering (SoSE)

    SoSE is the main conference on Systems of Systems, defined as complex systems created by the systematic and dynamic assembly of various interacting sub-systems. The 2018 conference theme is “Systems of systems Management and Control: Frontiers between cyber, physical, and social systems”.

  • 2017 12th System of Systems Engineering Conference (SoSE)

    Internet of Things as System of Systems

  • 2016 11th System of Systems Engineering Conference (SoSE)

    IEEE System, Man, and Cybernetics Society and IEEE Reliability Society announce the Eleventhth International Conference on System of Systems Engineering (SoSE) with its vast ramifications in numerous engineering fields such as control, computing, communication, information technology and in applications such manufacturing, defense, national security, aerospace, maritime, energy, environment, healthcare, and transportation. The conference theme is "SoSE and Cyber Physical Systems (CPS), from academia to application and back" We welcome papers on theories, methodologies, and applications of SoSE and CPS in science, technology, industry, and education. Particularly those that deal with the interaction between research institutes, industry, funding and policy makers. What can we do to stimulate both knowledge creation and economic value? Papers should be five to six pages in length, in standard two-column IEEE Conference Proceedings format.

  • 2015 10th System of Systems Engineering Conference (SoSE)

    IEEE System, Man, and Cybernetics Society and IEEE Reliability Society announce the Sixth International Conference on System of Systems Engineering (SoSE) with its vast ramifications in numerous engineering fields such as control, computing, communication, information technology and in applications such manufacturing, defense, national security, aerospace, aeronautics, energy, environment, healthcare, and transportation. The conference theme is “SoSE Controls, Modeling, and Simulation” three areas of significant investment within the public and private sectors as well as being significant initiatives areas of IEEE. Papers on theories, methodologies, and applications of System of Systems Engineering in science, technology, industry, and education are welcome.

  • 2014 9th International Conference on System of Systems Engineering (SOSE)

    Sociotechnical Aspects of SoSE; The Nexus between Complex Systems Concepts and SoSE; SoSE Application Domains and Case Studies; Open Cloud Computing; SoSE Approaches, Tools, Methods and Processes; SoSE modelling, simulation & and analysis; Entrepreneurship.

  • 2013 8th International Conference on System of Systems Engineering (SoSE)

    IEEE System, Man, and Cybernetics Society and IEEE Reliability Society announce the 8th International Conference on System of Systems Engineering (SoSE) with its vast ramifications in numerous engineering fields such as control, computing, communication, information technology and in applications such manufacturing, defense, national security, aerospace, aeronautics, energy, environment, healthcare, and transportation. The conference theme is

  • 2012 7th International Conference on System of Systems Engineering (SoSE)

    The conference theme is SoSE in cooperative and competitive distributed decision making in complex dynamic systems , focusing on SoSE control and simulation methodologies to support decisions in different application fields, among others transport, energy, industrial and environmental risk management. Papers on theories, methodologies, and applications of System of Systems Engineering in science, technology, industry, and education are welcome.

  • 2011 6th International Conference on System of Systems Engineering (SoSE)

    the Sixth International Conference on System of Systems Engineering (SoSE) with its vast ramifications in numerous engineering fields such as control, computing, communication, information technology and in applications such manufacturing, defense, national security, aerospace, aeronautics, energy, environment, healthcare, and transportation. The conference theme is SoSE in Cloud Computing, Smart Grid, and Cyber Security, three areas of significant investment within the public and private sectors as well

  • 2010 5th International Conference on System of Systems Engineering (SoSE)

    The 5th International Conference on System of Systems Engineering (SoSE) covers engineering fields such as control, computing, communication, information technology and the applications to manufacturing, defense, national and homeland security, aerospace, aeronautics, energy, environment, transport.

  • 2009 IEEE International Conference on System of Systems Engineering (SoSE)

    SYSTEM OF SYSTEMS, ARCHITECHTURE, MODLEING, SIMULATION, EMERGENCE, ENGINEERING, CONTROL, APPLICATION IN DEFENSE, ENERGY, SECURITY, SPACE, AERONAUTICS, MANUFACTURING, EARTH OBSERVATION, WATER RESOURCES, ETC.

  • 2008 IEEE International Conference on System of Systems Engineering (SoSE)

    Various concepts and fundamental theories and applications of system of systems and SoS Engineering will be discussed in this meeting. This is the 3rd of its sereis.

  • 2007 IEEE International Conference on System of Systems Engineering (SoSE)

  • 2006 IEEE/SMC International Conference on System of Systems Engineering (SoSE)


2019 Chinese Control And Decision Conference (CCDC)

Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2018 Chinese Control And Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

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

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2016 Chinese Control and Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create aforum for scientists, engineers and practitioners throughout the world to present the latestadvancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2015 27th Chinese Control and Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2014 26th Chinese Control And Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create aforum for scientists, engineers and practitioners throughout the world to present the latestadvancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2013 25th Chinese Control and Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2012 24th Chinese Control and Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2011 23rd Chinese Control and Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2010 Chinese Control and Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies

  • 2009 Chinese Control and Decision Conference (CCDC)

    Chinese Control and Decision Conference is an annual international conference to create a forum for scientists, engineers and practitioners throughout the world to present the latest advancement in Control, Decision, Automation, Robotics and Emerging Technologies.

  • 2008 Chinese Control and Decision Conference (CCDC)


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Periodicals related to Complex Systems

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No periodicals are currently tagged "Complex Systems"


Most published Xplore authors for Complex Systems

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Xplore Articles related to Complex Systems

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Tutorial 2: Combining Structural and Functional Test Approaches across System Levels

2016 IEEE 25th Asian Test Symposium (ATS), 2016

Provides an abstract of the tutorial presentation and a brief professional biography of the presenter. The complete presentation was not made available for publication as part of the conference proceedings.


Dynamic modeling of a supply vessel power system for DP3 protection system

2017 IEEE Power & Energy Society General Meeting, 2017

The work is focused on modeling and simulation of a supply vessel from a static and dynamic perspective in an integrated way. Modern marine vessels with electric propulsion are becoming more and more complex systems. Therefore, there is a strong necessity to develop models capable to integrate different subsystems in order to evaluate the overall performance under faults conditions, harsh ...


Reliability analysis of complex systems based on the probability dynamics of subsystem failures and deviation of parameters

2017 14th International Conference The Experience of Designing and Application of CAD Systems in Microelectronics (CADSM), 2017

Radio-electronic means for various purposes are classified as complex systems and are characterized by a multilevel hierarchical structure in the form of separate units, blocks, and modules. As the system is influenced by a complex of factors in the process of operation, reliability of complex systems functioning depends on the reliability of the system elements and optimal distribution of reliability ...


Research on reliability evaluation method of complex multistate system based on fuzzy fault tree

2016 International Conference on Fuzzy Theory and Its Applications (iFuzzy), 2016

The failure mode of complex multistate system is uncertain, and the normal work probability or the failure probability of the system can not reflect the actual use of a single system. Users concern about whether the system works to a certain point of time then will fail, and then targeted for maintenance. How to evaluate the reliability of complex multistate ...


Distributed Bounded Predictability

2013 32nd International Conference of the Chilean Computer Science Society (SCCC), 2013

Complex systems often exhibit unexpected faults that are difficult to handle. A system that is predictable can anticipate faults and act accordingly. In particular, bounded predictability offers information that can be exploited by the system to adopt the best contingency plan. Such information is offered in form of a lower and upper bound. A lower bound guarantees a fault to ...


More Xplore Articles

Educational Resources on Complex Systems

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IEEE.tv Videos

Philippe Wolf: Designing Secure and Private Complex Data Systems - WF-IoT 2015
Multiple Sensor Fault Detection and Isolation in Complex Distributed Dynamical Systems
MicroApps: Simulation of Airborne, Space-Borne and Ship-Based Radar Systems with Complex Environment (Agilent EEsof)
Safety Synergies and Engineering Opportunities Complex Systems in Life Sciences
Soumya Kanti Datta: Connected Cars as Complex Systems - IoT Challenges Industry Forum Panel: WF IoT 2016
Innovative Transmission Line Measurement and Characterization Reduce Time to Repair for Complex Communication Systems: MicroApps 2015 - Keysight Technologies
A Fully-Integrated SOI CMOS Complex-Impedance Detector for Matching Network Tuning in LTE Power Amplifier: RFIC Interactive Forum
Adaptive Learning and Optimization for MI: From the Foundations to Complex Systems - Haibo He - WCCI 2016
Fragility of Interconnected Cyber-Physical Systems - Marios M. Polycarpou - WCCI 2016
Q&A - IoT Challenges Industry Forum Panel: WF IoT 2016
Lillie Coney on the IoT and the Ability to Defend Against the Silent Intruder: 2016 End to End Trust and Security Workshop for the Internet of Things
Said Tabet: IoT Moving Forward - IoT Challenges Industry Forum Panel: WF IoT 2016
ICASSP 2010 - Advances in Neural Engineering
Life Sciences: Mary Capelli-Schellpfeffer on engineering safety
Planning for Complex High-Level Missions
IEEE Simon Ramo Medal - Heinz Stoewer - 2018 IEEE Honors Ceremony
26 Years of Risk Management Standardisation - Kevin Knight - Closing Ceremony: Sections Congress 2017
Q&A with Dr. Al Emondi: IEEE Brain Podcast, Episode 13
Stan Schneider: Complexity Management in the Industrial IoT - IoT Challenges Industry Forum Panel: WF IoT 2016
The Prospects for Scalable Quantum Computing with Superconducting Circuits - Applied Superconductivity Conference 2018

IEEE-USA E-Books

  • Tutorial 2: Combining Structural and Functional Test Approaches across System Levels

    Provides an abstract of the tutorial presentation and a brief professional biography of the presenter. The complete presentation was not made available for publication as part of the conference proceedings.

  • Dynamic modeling of a supply vessel power system for DP3 protection system

    The work is focused on modeling and simulation of a supply vessel from a static and dynamic perspective in an integrated way. Modern marine vessels with electric propulsion are becoming more and more complex systems. Therefore, there is a strong necessity to develop models capable to integrate different subsystems in order to evaluate the overall performance under faults conditions, harsh weather and other critical situations. In particular, the focus of the work is to highlight the need to implement zonal protection scheme to respect DP3 (Dynamic Position 3) constraints in case of severe busbar faults, operating the system with the main tie breaker closed. The model developed is characterized with a complete representation of a Platform Supply Vessel (PSV). The model represents also the full protection system (static and dynamic) in accordance to fine-tuning conducted on the real system. In this work, the innovative contribution is the investigation of the short-term dynamics after a busbar faults with a detailed electric model of the full network taking into account zonal power system protections and load shedding actions. The work is also focused on representing the electromechanical model of the propulsion power converters.

  • Reliability analysis of complex systems based on the probability dynamics of subsystem failures and deviation of parameters

    Radio-electronic means for various purposes are classified as complex systems and are characterized by a multilevel hierarchical structure in the form of separate units, blocks, and modules. As the system is influenced by a complex of factors in the process of operation, reliability of complex systems functioning depends on the reliability of the system elements and optimal distribution of reliability indicators between the elements of the system. The purpose of this article is to define the reliability requirements for structural elements, taking into account failure rates, and possible gradual changes in parameters of the designed system elements. It is required to ensure the minimum cost for a given level of the system reliability. Systems analysis method, reliability of complex systems theory and probability theory are used in the article with reference to failure rates and changing parameters in the process of operation. This approach provides an opportunity to complement the known methods and to obtain analytical expressions for solving design problems of ensuring the reliability with reference to possible gradual and sudden failures, as well as possible gradual changing in parameters of the designed system elements. It is proposed to apply the developed methodology for defining the reliability requirements for the elements of complex technical systems at the early design stages, when the lack of information makes it impossible to find the optimal distribution of reliability norms for structural elements, providing the minimum total cost of the product. In addition, the method for determining the reliability of structural elements can be used to design highly reliable onboard radio- electronic systems of long-term operation.

  • Research on reliability evaluation method of complex multistate system based on fuzzy fault tree

    The failure mode of complex multistate system is uncertain, and the normal work probability or the failure probability of the system can not reflect the actual use of a single system. Users concern about whether the system works to a certain point of time then will fail, and then targeted for maintenance. How to evaluate the reliability of complex multistate system becomes an important research direction. In view of the above problems, a method of reliability evaluation of complex multistate system based on fuzzy fault tree was proposed in this paper. The mapping relationship between system set and fault tree set was established, and the system reliability evaluation analysis was transformed into fault tree analysis method: defined the reliability evaluation rules, established the “time - reliability” truth table of the units, established the reliability truth table of subsystems and complex systems at different time, and carried out the maintenance to the system. The evaluation rules of the method were expressed by a simple complex multistate system, and the effectiveness of the proposed method was proved.

  • Distributed Bounded Predictability

    Complex systems often exhibit unexpected faults that are difficult to handle. A system that is predictable can anticipate faults and act accordingly. In particular, bounded predictability offers information that can be exploited by the system to adopt the best contingency plan. Such information is offered in form of a lower and upper bound. A lower bound guarantees a fault to occur after certain execution event, whereas an upper bound guarantees a fault to occur, in the future, but before some event. Complex systems are usually built from simpler components running concurrently. We study how to infer the bounded predictability property of a complex system (distributed and with multiple faults) from a parallel verification of bounded predictability of each of its components synchronising with fault free versions of the other one.

  • Complex systems: Risk model based on social network analysis

    Risk is difficult to analyze and predict in complex systems, especially if it is necessary to evaluate mission-critical systems risks in real-time. This work proposes a theoretical model, based on social network analysis and risk classification. The work objective is to understand risks from data and evidence obtained in real time, not coming from statistics of similar systems nor risk probabilities taken a priori. The analysis model seeks to design the structure or environment at risk as a complex system in which all components and relations are essential. These components and their relations form a social network, which can be analysed through the mathematics of Graphs. This is the main point and the novelty of the work, which will allow users of the method to assess risks in real time. As an example to illustrate the model application a typical datacenter diagram is showed in the paper, and used as a complex system to perform a case study.

  • Computer-aided simulation of unsteady oscillations ofviscoelastic plates of structures and buildings

    This article discusses the issue of simulation of oscillations of viscoelastic plates used in construction of underground structures. The test task setting, software for the tested target and the results of simulation modeling of unsteady oscillation of viscoelastic plates obtained with the help of Matlab and designed software package are provided herein.

  • Control 5.0: from Newton to Merton in popper's cyber-social-physical spaces

    The future of control in cyberspace of parallel worlds is discussed. It argues for the coming age of Control 5.0, the control technology for the new IT capable of dealing with artificial worlds with VR, AR, AI and robotics. The discipline of automation needs a new interpretation of its core knowledge and skill set of modeling, analysis, and control for cyber-socialphysical systems, and a paradigm shift from Newtonian Systems with Newton's Laws or Big Laws with Small Data to Mertonian Systems with Merton's Laws or Small Laws with Big Data.

  • The Future of Legal and Ethical Regulations for Autonomous Robotics

    “Autonomous robotics” promise significant improvements across a host of different complex systems, which will need to be managed within regulatory frameworks to promote, at a minimum, device safety. Contrary to how they are often portrayed, however, these systems do not necessarily require fundamentally new approaches to engineering or regulatory challenges, i.e., the development of a novel “autonomy framework” applicable to different types of devices. Rather, because autonomous systems generally represent a progressive improvement of existing complex systems, preexisting regulatory scheme offer the best guidance for considering future regulation of autonomous elements. Moreover, the regulatory landscape differs considerably based on the type of device at issue (e.g., consumer electronics vis-à-vis medical devices).' This talk argues that users and regulators must consider future autonomy regulations within the specific framework those devices currently inhabit, rather than focusing on a novel set of rules divorced from the preexisting context.

  • Method of Calculating A Priori Reliability of Elements of Complex System

    The method for calculation of a posteriori failure-free operating time of a complex technical system based on the data on failures of system elements is proposed. This method allows one to identify groups of elements, the increasing of a priori reliability of which can lead to an increasing of the reliability of the system during the selected time interval. The method is illustrated by the calculation of the example of the car steering system. The proposed method could be applied to any complex systems for which the composition of the elements and the kinematic scheme of their interactions are known.



Standards related to Complex Systems

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No standards are currently tagged "Complex Systems"