@article{ART003332452},
author={Jung Soo Han},
title={Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles},
journal={Journal of Internet of Things and Convergence},
issn={2466-0078},
year={2026},
volume={12},
number={2},
pages={131-136}
TY - JOUR
AU - Jung Soo Han
TI - Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles
JO - Journal of Internet of Things and Convergence
PY - 2026
VL - 12
IS - 2
PB - The Korea Internet of Things Society
SP - 131
EP - 136
SN - 2466-0078
AB - This study proposes an integrated framework of immersive Augmented Reality Head-Up Display interface design principles and Cognitive User Experience optimization strategies to enhance situational awareness and safety in autonomous driving environments. With the advancement of autonomous driving technologies, in-vehicle interfaces have evolved to support user understanding and trust formation, requiring integrated design approaches that consider both human cognitive characteristics and system-level technologies. This study identifies four core AR HUD design principles: information structure and visual hierarchy design, spatial alignment and depth perception design, context-adaptive and dynamic information presentation, and attention-guidance and error-prevention design. In addition, Cognitive UX optimization strategies based on human cognitive processing characteristics are systematically organized, including cognitive workload management, situational awareness support, multimodal interface design, and user-state-based adaptive interface strategies. Furthermore, this study presents an integrated AR HUD system architecture incorporating sensor fusion and data-processing-based interface generation, along with a context-based interface model applicable to diverse driving environments. The proposed framework provides a systematic foundation for autonomous vehicle interface design and offers practical guidelines for future AR HUD-based interface development and system implementation.
KW - AR HUD;Autonomous Vehicle Interface;Cognitive UX;Situational Awareness;Multimodal Interface Design
DO -
UR -
ER -
Jung Soo Han. (2026). Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles. Journal of Internet of Things and Convergence, 12(2), 131-136.
Jung Soo Han. 2026, "Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles", Journal of Internet of Things and Convergence, vol.12, no.2 pp.131-136.
Jung Soo Han "Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles" Journal of Internet of Things and Convergence 12.2 pp.131-136 (2026) : 131.
Jung Soo Han. Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles. 2026; 12(2), 131-136.
Jung Soo Han. "Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles" Journal of Internet of Things and Convergence 12, no.2 (2026) : 131-136.
Jung Soo Han. Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles. Journal of Internet of Things and Convergence, 12(2), 131-136.
Jung Soo Han. Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles. Journal of Internet of Things and Convergence. 2026; 12(2) 131-136.
Jung Soo Han. Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles. 2026; 12(2), 131-136.
Jung Soo Han. "Immersive AR HUD Interface Design Principles and Cognitive UX Optimization Strategies in Autonomous Vehicles" Journal of Internet of Things and Convergence 12, no.2 (2026) : 131-136.
