CYBER PHYSICAL SYSTEM

Miss. Bhagyashree Arvind Gatade; Mr. Neehal Jiwane; Mr. Vijay Rakhde

doi:10.59367/hd61hq76

Authors

Miss. Bhagyashree Arvind Gatade Assistant Professor, Department of Computer Science and Engineering , Shri Sai College of Engineering and Technology,Chandrapur India
Mr. Neehal Jiwane Assistant Professor, Department of Computer Science and Engineering , Shri Sai College of Engineering and Technology,Chandrapur India
Mr. Vijay Rakhde Assistant Professor, Department of Computer Science and Engineering , Shri Sai College of Engineering and Technology,Chandrapur India

DOI:

https://doi.org/10.59367/hd61hq76

Keywords:

physical systems, architecture, modeling, design, dependability

Abstract

Cyber-Physical Systems (CPSs) have garnered significant interest among researchers in recent times. This abstract begins by elucidating the concept of CPS and delves into the imperative of implementing these systems across diverse application domains. It also highlights the research challenges associated with crafting a suitable formalism that transcends traditional networking and information technology paradigms, as it entails the integration of information and knowledge into physical entities. Given the expected pivotal role of CPSs in shaping the future landscape of engineering systems, this abstract concludes with a brief overview of the primary research areas within the CPS domain, encompassing topics such as generic architecture, design principles, modeling, dependability, and implementation.

References

Avizienis, A., Laprie, J.C., Randall, B., and Landwehr, C. (2004). Basic concepts and taxonomy of dependable and secure computing. IEEE Transactions On Dependable And Secure Computing, 1, 11-33.

Baheti, R. and Gill, H. (2011). Cyber-physical systems. The Impact of Control Technology, 161-166.

Bujorianu, M. and Barringer, H. (2009). An integrated specification logic for cyber-physical systems. In Proceedings of 14th IEEE International Conference on Engineering of Complex Computer Systems, 291-300.

CPS-Steering-Group (2008). Cyber-physical systems - executive summary. URL http://varma.ece.cmu.edu/summit.

Flores, A., Quiles, E., and et. al. (2008). New formulation through arti_cial neural networks in the diagnosis of faults in power systems - a modular approach. In Electronics, Robotics and Automotive Mechanics Conference 2008, 411-416.

Huang, B. (2008). Cyber physical systems: a survey.

Huang, H.M., Tidwell, T., and et. al. (2010). Cyber-physical systems for real-time hybrid structural testing: a case study. In Proceedings of ICCPS10, 69-78.

Lee, E.A. (2008). Cyber physical systems: design challenges. Technical report no. UCB/EECS-2008-8.

Lee, E.A. and Seshia, S.A. (2011). Introduction to embedded systems - a cyber-physical systems approach. LeeSeshia.org.

Lin, J., Sedigh, S., and et.al. (2011). A semantic agent framework for cyber-physical systems.

Lin, J., Sedigh, S., and Miller, A. (2009a). A general framework for quantitative modeling of dependability in cyber-physical systems: a proposal for doctoral research. In 2009 33rd Annual IEEE International Computer Software and Applications Conference, 668-671.

Lin, J., Sedigh, S., and Miller, A. (2010). Modeling cyber-physical systems with semantic agents. In Proceedings of 34th Annual IEEE Computer Software and Applications Conference Workshops, 13-18. Lin, J., Sedigh, S., and Miller, A. (2009b). Towards Integrated Simulation of Cyber-Physical Systems

Lowlesh Nandkishor Yadav, “Predictive Acknowledgement using TRE System to reduce cost and

Bandwidth”IJRECE VOL. 7 ISSUE 1 (JANUARY- MARCH 2019) pg no 275-278