| a |
| abstraction levels | Towards systems that dynamically change and evaluate abstractions |
| Advanced Driving Assistance Systems | A modified Hidden Markov Model (HMM)-based state machine model for driving behavior recognition: Effectiveness of features using different sub-HMMs
Comparison of different hyperparameter optimization methods on driving behavior recognition |
| AI | Clinician-AI Collaboration for Decision Support in Telemedicine |
| AR | Clinician-AI Collaboration for Decision Support in Telemedicine |
| Artificial Intelligence | A Quantum Decision Approach for Human-AI Decision-Making
Adaptive Artificial Intelligence to Teach Interactive Molecular Dynamics in the Context of Human-Computer Interaction |
| Automatic modeling | Autonomous Computational Partners |
| autonomous systems | Autonomous Computational Partners |
| b |
| Bayesian optimization | Comparison of different hyperparameter optimization methods on driving behavior recognition |
| behavior in crisis situation | Effects of Culture on Public Behavior Patterns in Crisis Situations |
| behaviour analysis | A Framework for Surface Vessel Nautical-Behaviour Analysis towards Cognitive Situation Awareness |
| board game | Investigating Team Level KSAs in Cybersecurity: Insights from Observing a Cybersecurity-Themed Board Game Pilot Study |
| c |
| case study | Exploring Cognition and Proficiency in Cybersecurity Incident Response: Description of a Subject-Matter Expert Interview |
| ChatGPT | Clinician-AI Collaboration for Decision Support in Telemedicine |
| civilian missions | PINPOINT - A multidisciplinary framework for semi-automatic risk assessment in military operations and civilian missions |
| Clinician AI Collaboration | Clinician-AI Collaboration for Decision Support in Telemedicine |
| Cloud | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| cognitive | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| cognitive situation management | Let's Add Highly Stressed People to the Cyber-Physical-Social System
A Framework for Surface Vessel Nautical-Behaviour Analysis towards Cognitive Situation Awareness |
| Cognitive Task Analysis | Exploring Cognition and Proficiency in Cybersecurity Incident Response: Description of a Subject-Matter Expert Interview |
| Competency | Objective Assessment of Point-of-Care Ultrasound (POCUS) Competency Using Arm Motion Data and Machine Learning Classifiers |
| Computational Semiotics | Autonomous Computational Partners |
| Computer Network Defense | Exploring Cognition and Proficiency in Cybersecurity Incident Response: Description of a Subject-Matter Expert Interview |
| Costa Rica | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| COVID-19 | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| Curiosity | Adaptive Artificial Intelligence to Teach Interactive Molecular Dynamics in the Context of Human-Computer Interaction |
| Cyber-Physical-Social system | Let's Add Highly Stressed People to the Cyber-Physical-Social System |
| Cyber-physical-social systems (CPSS) | Effects of Culture on Public Behavior Patterns in Crisis Situations |
| Cybersecurity | Exploring Cognition and Proficiency in Cybersecurity Incident Response: Description of a Subject-Matter Expert Interview |
| cybersecurity testbed | Investigating Team Level KSAs in Cybersecurity: Insights from Observing a Cybersecurity-Themed Board Game Pilot Study |
| d |
| decision making | Objective Assessment of Point-of-Care Ultrasound (POCUS) Competency Using Arm Motion Data and Machine Learning Classifiers
A Quantum Decision Approach for Human-AI Decision-Making |
| decision-making support system | Situated and sequential planning and prediction of human driving behavior as decision making support system |
| Digital Shadow | A Framework for Surface Vessel Nautical-Behaviour Analysis towards Cognitive Situation Awareness |
| disaster response | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| Driving behavior recognition | A modified Hidden Markov Model (HMM)-based state machine model for driving behavior recognition: Effectiveness of features using different sub-HMMs
Comparison of different hyperparameter optimization methods on driving behavior recognition |
| e |
| edge | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| f |
| feature selection | A modified Hidden Markov Model (HMM)-based state machine model for driving behavior recognition: Effectiveness of features using different sub-HMMs |
| g |
| Generative Modelling | A Framework for Surface Vessel Nautical-Behaviour Analysis towards Cognitive Situation Awareness |
| Genetic Algorithm | Comparison of different hyperparameter optimization methods on driving behavior recognition |
| h |
| Health Systems | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| Hidden Markov Model | A modified Hidden Markov Model (HMM)-based state machine model for driving behavior recognition: Effectiveness of features using different sub-HMMs |
| Hofstede's cultural dimensions | Effects of Culture on Public Behavior Patterns in Crisis Situations |
| Human Computer Interaction | Let's Add Highly Stressed People to the Cyber-Physical-Social System
Adaptive Artificial Intelligence to Teach Interactive Molecular Dynamics in the Context of Human-Computer Interaction |
| Human System Cooperation | Autonomous Computational Partners |
| human-in-the-loop | A Quantum Decision Approach for Human-AI Decision-Making |
| human-machine teaming | Adaptive Artificial Intelligence to Teach Interactive Molecular Dynamics in the Context of Human-Computer Interaction |
| human-robot interaction | Uncertainty-Aware Visual Workload Estimation for Human-Robot Teams |
| human-robot teams | Uncertainty-Aware Visual Workload Estimation for Human-Robot Teams |
| i |
| Incident Response | Exploring Cognition and Proficiency in Cybersecurity Incident Response: Description of a Subject-Matter Expert Interview |
| information deficiency | Building Holistic Situation Awareness through Large Language Models |
| Internet Backpack | A Description of Strengthening COVID-19 Cognitive Cloud to Health Systems by Costa Rican Community Design |
| l |
| large language models | Building Holistic Situation Awareness through Large Language Models |
| m |
| machine learning | Objective Assessment of Point-of-Care Ultrasound (POCUS) Competency Using Arm Motion Data and Machine Learning Classifiers
Situation Identification using Context Space Theory and Decision Tree |
| Maritime Traffic Analysis | A Framework for Surface Vessel Nautical-Behaviour Analysis towards Cognitive Situation Awareness |
| military operations | PINPOINT - A multidisciplinary framework for semi-automatic risk assessment in military operations and civilian missions |
| mixed methods | Exploring Cognition and Proficiency in Cybersecurity Incident Response: Description of a Subject-Matter Expert Interview |
| Model Deficiency Analysis | Autonomous Computational Partners |
| Model-Based Operation | Autonomous Computational Partners |
| molecular dynamics | Adaptive Artificial Intelligence to Teach Interactive Molecular Dynamics in the Context of Human-Computer Interaction |
| n |
| neural network | Comparison of different hyperparameter optimization methods on driving behavior recognition |
| nonlinear dynamical systems | Adaptive Artificial Intelligence to Teach Interactive Molecular Dynamics in the Context of Human-Computer Interaction |
| o |
| OSINT | PINPOINT - A multidisciplinary framework for semi-automatic risk assessment in military operations and civilian missions |
| p |
| Pandemic Situation Management | Situation Identification using Context Space Theory and Decision Tree |
| PNT | PINPOINT - A multidisciplinary framework for semi-automatic risk assessment in military operations and civilian missions |
| Point-of-care ultrasound (POCUS) | Objective Assessment of Point-of-Care Ultrasound (POCUS) Competency Using Arm Motion Data and Machine Learning Classifiers |
| public behavior patterns | Effects of Culture on Public Behavior Patterns in Crisis Situations |
| q |
| quantum probability | A Quantum Decision Approach for Human-AI Decision-Making |
| r |
| risk analysis | PINPOINT - A multidisciplinary framework for semi-automatic risk assessment in military operations and civilian missions |
| s |
| Self-Aware Systems | Towards systems that dynamically change and evaluate abstractions |
| self-modeling | Autonomous Computational Partners |
| Situated behavior planning and prediction | Situated and sequential planning and prediction of human driving behavior as decision making support system |
| situation awareness | Let's Add Highly Stressed People to the Cyber-Physical-Social System
Building Holistic Situation Awareness through Large Language Models |
| situation model | Situation Identification using Context Space Theory and Decision Tree |
| Situation-Operator-Modeling | Situated and sequential planning and prediction of human driving behavior as decision making support system |
| Situational Awareness | A Framework for Surface Vessel Nautical-Behaviour Analysis towards Cognitive Situation Awareness |
| state machine | Comparison of different hyperparameter optimization methods on driving behavior recognition |
| state machines | A modified Hidden Markov Model (HMM)-based state machine model for driving behavior recognition: Effectiveness of features using different sub-HMMs |
| stress | Let's Add Highly Stressed People to the Cyber-Physical-Social System |
| Sub-Hidden Markov Model | A modified Hidden Markov Model (HMM)-based state machine model for driving behavior recognition: Effectiveness of features using different sub-HMMs |
| Supervision of Human-Machine-interaction | Situated and sequential planning and prediction of human driving behavior as decision making support system |
| swarm tracking | Towards systems that dynamically change and evaluate abstractions |
| t |
| team competencies | Investigating Team Level KSAs in Cybersecurity: Insights from Observing a Cybersecurity-Themed Board Game Pilot Study |
| Teamwork | Investigating Team Level KSAs in Cybersecurity: Insights from Observing a Cybersecurity-Themed Board Game Pilot Study |
| technology acceptance | Clinician-AI Collaboration for Decision Support in Telemedicine |
| Telemedicine | Clinician-AI Collaboration for Decision Support in Telemedicine |
| traffic flow | A Framework for Surface Vessel Nautical-Behaviour Analysis towards Cognitive Situation Awareness |
| training | Investigating Team Level KSAs in Cybersecurity: Insights from Observing a Cybersecurity-Themed Board Game Pilot Study |
| Trust | Clinician-AI Collaboration for Decision Support in Telemedicine |
| v |
| Vehicle systems | Situated and sequential planning and prediction of human driving behavior as decision making support system |
| Visual Workload | Uncertainty-Aware Visual Workload Estimation for Human-Robot Teams |
| w |
| wearable sensors | Uncertainty-Aware Visual Workload Estimation for Human-Robot Teams |
| Wrapping Integration Infrastructure | Autonomous Computational Partners |
