Dear Colleagues,

Digital twins are emerging today as a popular technology approach in many industries. A digital twin is generally considered a digital replica of a physical system that captures attributes and behaviors of that system. A digital twin is typically materialized as a set of isolated models that are either empirical or first-principles-based. A digital twin made of a combination of multiple models is often called a hybrid digital twin. The scope and impact of digital twins could be substantially increased with the incorporation of properties we usually associate with cognition, such as reasoning, planning, and learning.

Cognitive twins represent the next step in the evolution of the digital twin concept by including the cognitive properties to effectively deal with unforeseen situations. They will revolutionize digital twins not only by intertwining different models to achieve higher predictive capabilities but also by incorporating expert knowledge to find new answers to emerging questions. By combining human tacit knowledge with the power of digital twin models, better reactions will be enabled in situations where, when tackling the problem alone, neither human nor digital twin models can perform well without interactions.

The present Special Issue intends to explore new directions in the field of digital twins in combination with cognitive computing and to clarify the underlying reasons and benefits. The objective will be to document the current state-of-the-art, identify future directions, and compare and contrast various perspectives on using cognitive technologies for digital twins. Experimental studies and technical challenges characterized by innovative cognitive aspects are welcome. This Special Issue will also examine the industrial applications and implementation of cognitive digital twin technology in process and manufacturing industries. It will be particularly useful to learn of the approaches which have been undertaken by the industry in dealing with issues such as uncertainty, synergy between physical and data-driven models, collaborative aspects, etc.

Dr. Ljiljana Stojanovic
Dr. Arne Jørgen Berre
Guest Editors

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• Formal representation of digital twins
• Lifecycle management of digital twins
• AI-enhanced digital twins
• Cognitive computing
• Cognitive architecture
• Acquisition, extraction, formalization, and usage of human knowledge for digital twins
• Self-awareness and self-improvement of digital twins
• Integrative learning and reasoning for digital twins
• Industrial knowledge graphs
• Digital twins for system of systems
• Industry 4.0
• Use cases from manufacturing and process industry