at Goa, India
HDAAS 2027 (Human-Centric Decision Intelligence and Adaptive Autonomous Systems) is an international workshop dedicated to the next generation of intelligent systems that combine human sensing, contextual understanding, artificial intelligence, and autonomous decision-making.
The workshop explores how information obtained from humans, sensors, and intelligent environments can be transformed into actionable knowledge supporting adaptive and autonomous systems. HDAAS provides a forum for researchers and practitioners working at the intersection of pervasive computing, AI, human–AI collaboration, robotics, cyber-physical systems, and intelligent decision support.
Built around the vision Perceive → Reason → Act, the workshop aims to bridge the gap between sensing technologies, decision intelligence, and real-world autonomous actions
The objective of HDAAS 2027 is to advance research on intelligent systems capable of perceiving their environment, understanding context, making informed decisions, and adapting their behavior in dynamic conditions.
The workshop promotes interdisciplinary collaboration among researchers working in:
Human-Centric Sensing and Human–AI Collaboration
Context-Aware and Pervasive Intelligence
Decision Intelligence and Explainable AI
Autonomous and Cyber-Physical Systems
Planning, Scheduling, and Resource Optimization
Machine Learning, Hybrid AI, and Adaptive Intelligent Systems
HDAAS focuses on the complete intelligence pipeline:
Human Sensing → Context Understanding → Decision Intelligence → Adaptive Autonomous Action
bringing together communities that develop technologies enabling intelligent systems not only to observe the world, but also to reason, decide, and act effectively in complex real-world environments.
Decision Intelligence and Human-AI Collaboration
Human-Centric Decision Intelligence
Human-in-the-Loop Systems
Collaborative Intelligence
Decision Support Systems
Explainable and Trustworthy AI
Cognitive Computing
Human-AI Teaming
Adaptive Decision-Making Systems
Human-Centric Intelligent Sensing
Eye Tracking and Gaze-Based Interaction
EEG and Brain–Computer Interfaces
Wearable and Mobile Sensing
Physiological and Behavioral Computing
Multimodal Sensing
Sensor Fusion
Human State and Attention Monitoring
Context Awareness and Pervasive Intelligence
Context-Aware Computing
Context Modeling and Reasoning
Situation Awareness
Ambient Intelligence
Intelligent Environments
Smart Spaces
Context-Aware Decision Support
Adaptive Autonomous Systems
Autonomous Agents
Multi-Agent Systems
UAV and Drone Systems
Robotics and Autonomous Platforms
Cyber-Physical Systems
Adaptive and Self-Organizing Systems
Planning, Scheduling and Resource Optimization
Scheduling and Planning
Resource Allocation
Dynamic Resource Management
Multi-Agent Coordination
Constraint-Based Optimization
Decision Optimization
Algebraic-Logical Meta-Modeling
Advanced AI for Intelligent Decision Making
Machine Learning and Deep Learning
Hybrid Artificial Intelligence
Physics-Informed AI
Fractional-Order Artificial Intelligence
Edge AI and Federated Learning
AI for Adaptive and Autonomous Systems