1. Title of the workshop:
International Workshop on Cyber-Physical Systems (IEEE ICCCS-CPS 2021)

2. Workshop Length:
Full-day workshop: 1 Keynote Speech + technical session (morning) and two afternoon sessions.

3. Full contact and a short bio of the workshop chairs

  • Amjad Gawanmeh, (This email address is being protected from spambots. You need JavaScript enabled to view it.) is an affiliate Assistant professor, Concordia University

    Montreal, Canada, and associate professor, University of Dubai, UAE.

  • Kashif Saleem (This email address is being protected from spambots. You need JavaScript enabled to view it.) is currently working as an Associate Professor at the Center of
    Excellence in Information Assurance (CoEIA), King Saud University, Saudi Arabia. 
  • Joel J. P. C. Rodrigues [F’20] is a professor at the Federal University of Piauí, Brazil; and senior researcher at
    the Instituto de Telecomunicações, Portugal.


4. Description, Scope & Topics

This workshop solicits unpublished research work related to the latest challenges, technologies, solutions,
techniques and fundamentals pertaining to communication, computing, networking, control in CPS.
• Cyber-physical issues in the design of next-generation communication systems
• Real-time Sensing, Reasoning and Adaptation for Cyber-Physical Systems
• Distributed and decentralized systems: Blockchain
• Smart cities: technologies, challenges, and solutions
• Cloud-integrated Cyber-Physical Systems.

• Evolutionary computing for CPS.
• Design Theory for Cyber-Physical Systems
• Cyber-Physical Systems Security and Privacy
• Computation Models for Cyber-Physical Systems
• Addresses computation issues in CPS
• Verification and Formal Methods for Cyber-Physical Systems
• Mobile Sensors in Cyber-Physical Systems
• Design and Performance Optimization in Cyber-Physical Systems
• Adaptive Control in Cyber-Physical Systems
• Distributed computing in CPS.
• Autonomous systems and UAVs.
• Communication and Networking for Cyber-Physical Systems
• Applications of CPS on e-Health, life sciences, energy, and smart cities.
• Optimizing computing and communication resources
• Safety-critical, dependable, fault-tolerant
• Distributed, highly networked architectures for interconnected CPS
• Communication and Infotainment Systems in vehicles
• CPS Industrial applications
• Networking for intelligent mobility and transport infrastructures
• Sensor networks for cyber-physical systems
• Intelligent and collaborative methods for CPS
• Simulation and visualization of CPS.
• CPS security and privacy
• Smart energy systems
• Social computing and CPS
• Sustainability and environmental issues in CPS
• Testing and Validation of CPS.
• Other related issues