Smart designing of smart systems
Note: This SWOT analysis outline provides a comprehensive framework for analyzing the strengths, weaknesses, opportunities, and threats related to smart designing of smart systems. It serves as a starting point for further analysis and can be customized according to specific business requirements.
Conclusion and Acknowledgments
Hopeful Impact of the Thematic Collection on Research and Industry
Acknowledgment of Authors, Reviewers, and Editors
Summary of Key Points
Individual Papers in Thematic Collection
Paper 8: Assurance Monitoring of Learning Enabled Cyberphysical Systems Using Inductive Conformal Prediction Based on Distance Learning
Paper 7: Association Rules Mining between Service Demands and Remanufacturing Services
Paper 6: Autonomous Resource Allocation of Smart Workshops for Cloud Machining Orders
Paper 5: Smart Platform Experiment Cycle – A Process to Design, Analyze, and Validate Digital Platforms
Paper 4: A Self-Learning Element Extraction System by Reinforcement Learning
Paper 3: A Scenario-Integrated Approach for Functional Design of Smart Systems
Paper 2: Smart Design of Intelligent Companion Toys for Preschool Children
Paper 1: Connectors of Smart Design and Smart Systems
Contributions to Thematic Collection
Overview of Papers Included
Sources of Papers: TMCE 2020 and Call for Papers
Explanation of Thematic Collection
Convergence and Cognitive Processes
Influence on Cognitive Capabilities of Humans and Engineering Systems
Influence on Perceptive Processes
Influence on Physical Processes
Impact of Convergence on Different Fields
Merge of Massive Data, Information, and Knowledge
Interaction between Social Demands and Technological Affordances
Integration of Hardware, Software, and Cyberware in Complex Systems
Influence on Scientific Disciplines
Introduction to Convergence
Various Forms and Domains of Convergence
Definition and Explanation of Convergence
