Scope
Cognitive infocommunications (CogInfoCom) investigates the link between the research areas of infocommunications and cognitive sciences, as well as the various engineering applications which have emerged as the synergic combination of these sciences. The primary goal of CogInfoCom is to provide a systematic view of how cognitive processes can co-evolve with infocommunications devices so that the capabilities of the human brain may not only be extended through these devices, irrespective of geographical distance but may also be blended with the capabilities of any artificially cognitive system. This merging and extension of cognitive capabilities are targeted towards engineering applications in which artificial and/or natural cognitive systems are enabled to work together more effectively.
Topics
The Chapter of the journal is open to topics (not limited to):
- Artificial cognitive capabilities
- Artificial Intelligence
- Machine and deep learning
- Human-AI, HCI,HMI,HRI, Human cognitive interfaces
- Industry 4.0
- Human in Virtual and Augmented Reality
- Future Internet
- Cognitive sciences in the digital world
- Embodied and enactive cognitive systems
- Cognitive networks and their intelligent capabilities
- Virtual and real avatars
- Face and gesture recognition
- Human-Computer and Bio-Interfaces
- Intelligent Vehicle and Transportation Systems
- Smart city
- Digital Education, Digital transformation environment for education
- CogInfoCom based learnability
- Intelligent Vehicle and Transportation Systems
- Advanced driver assistance systems
- Cognitive Data Visualization
- Mathability
- Ergonomics-based aspects of CogInfoCom
- Socio-cognitive ICT
- Ergonomics-based aspects of CogInfoCom
- Affective Computing
Further information, contact Peter Baranyi Chapter editor or Pal Varga Editor-In-Chief.
Cognitive Infocommunications
Area Editor
Péter Baranyi
Péter Baranyi established the Cognitive Infocommunications concept around 2010. It is a scientific discipline today focusing on the new cognitive capabilities of the blended combination of human and informatics. It has an annual IEEE International Conference and a number of scientific journal special issues. He invented the TP model transformation which is a higher-order singular value decomposition of continuous functions. It has a crucial role in nonlinear control design theories and opens new ways for optimization. He is the inventor of MaxWhere which is the first 3D platform including 3D web, 3D browser, 3D store, and 3D Cloud. His research group published a number of journal papers firstly reporting that users get 40-50% better effectiveness in 3D digital environments. These results got a very high international impact within a few years.