ICCC 2024

11th IEEE International Conference on Computational Cybernetics and Cyber-Medical Systems

Hanoi, Vietnam                  April 4-6, 2024

Welcome to ICCC 2024!

image 1

Do not miss this conference!

Authors are welcome to submit original and unpublished papers and attend the IEEE 11th International Conference on Computational Cybernetics and Cyber-Medical Systems (ICCC 2024) to be held on April 4-6, 2024 in Hanoi, Vietnam.

IEEE Publication

image 2

IEEE Xplore publication possibility

The conference appears on the IEEE Conference Search.
Conference proceedings that meet IEEE quality review standards may be eligible for inclusion in the IEEE Xplore Digital Library. IEEE reserves the right to exclude a paper from distribution after the conference (e.g., removal from IEEE Xplore), if the paper is not presented at the conference. 'Pay to publish' is not allowed by IEEE. So at least one author of a paper must show up and present the paper at the conference.

Journal Publication

image 2

Journal publication possibility

Selected papers may be published in a special issue of journal Acta Polytechnica Hungarica.


Computational Cybernetics is the synergetic integration of Cybernetics and Computational Intelligence techniques. Hence the topics of the ICCC covers not only mechanical, but biological (living), social and economical systems and for this uses computational intelligence-based results of communication theory, signal processing, information technology, control theory, the theory of adaptive systems, the theory of complex systems (game theory, operational research), and computer science.

Plenary Speakers

image 3

Yo-Ping Huang

AIoT and its Applications: Industry and Healthcare

image 3

József Bokor

Nonlinear Sytems: Some New Trends in System Identification

image 3

Péter Galambos

Generative Neural Models in Robotics: Pioneering the Embodied AI Revolution

image 3

Yoshihiro Tanaka

Subjective Haptics: Sharing and Augmentation of Sensorimotor Control

image 3

Jia-Yush Yen

A Bipedal Controller Design to Realize Human Gaits