[1] GUO Qi. Global Perception Mechanisms and Experimental Studies of Complex Information Interfaces[M]. 2022.
[2] GUO Qi, XUE Chengqi, YU Mingjiu. Quantitative Study on Perceptual Differences of Representational Elements Affecting Shape Encoding [J]. Journal of Southeast University (Natural Science Edition), 2021, 51(04): 694-699.
[3] GUO Qi, XUE Chengqi, ZHOU Xiaozhou, et al. Experimental Study on Quantitative Perception of Color Coding in Complex Information Interfaces Driven by Recognition Tasks [J]. Journal of Southeast University (Natural Science Edition), 2019, 49(6): 1048-1053.
[4] GUO Qi, XUE Chengqi, YU Mingjiu, et al. A New User Implicit Requirements Process Method Oriented to Product Design [J]. Journal of Computing and Information Science in Engineering, 2019, 19(1): 011010.
[5] GUO Qi, XUE Chengqi, WANG He, et al. Ergonomic Evaluation of DSV Cockpit Console Based on Comprehensive Decision Making Method [J]. Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2018, 12(2): JAMDSM0060.
[6] GUO Qi, XUE Chengqi, LIN Yi, et al. A Study for Human-Machine Interface Design of Spacecraft Display Control Device Based on Eye-Tracking Experiments [C]. International Conference on Engineering Psychology and Cognitive Ergonomics. Springer, Cham, 2017: 211-221.
[7] GUO Qi, XUE Chengqi, ZHOU Lin, et al. Comprehensive Evaluation of Deep-Sea HOV Cockpit Console Based on Fuzzy Gravity Center Method [J]. Transdisciplinary Engineering: A Paradigm Shift, 2017: 547-555.
Trust in Autonomous Driving
Visual Cognition Mechanisms for Complex Systems (Smart Manufacturing, Aviation Equipment)
Information Visualization Interface Design & Evaluation
Design Ergonomics
[1] GUO Qi. Global Perception Mechanisms and Experimental Studies of Complex Information Interfaces[M]. 2022.
[2] GUO Qi, XUE Chengqi, YU Mingjiu. Quantitative Study on Perceptual Differences of Representational Elements Affecting Shape Encoding [J]. Journal of Southeast University (Natural Science Edition), 2021, 51(04): 694-699.
[3] GUO Qi, XUE Chengqi, ZHOU Xiaozhou, et al. Experimental Study on Quantitative Perception of Color Coding in Complex Information Interfaces Driven by Recognition Tasks [J]. Journal of Southeast University (Natural Science Edition), 2019, 49(6): 1048-1053.
[4] GUO Qi, XUE Chengqi, YU Mingjiu, et al. A New User Implicit Requirements Process Method Oriented to Product Design [J]. Journal of Computing and Information Science in Engineering, 2019, 19(1): 011010.
[5] GUO Qi, XUE Chengqi, WANG He, et al. Ergonomic Evaluation of DSV Cockpit Console Based on Comprehensive Decision Making Method [J]. Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2018, 12(2): JAMDSM0060.
[6] GUO Qi, XUE Chengqi, LIN Yi, et al. A Study for Human-Machine Interface Design of Spacecraft Display Control Device Based on Eye-Tracking Experiments [C]. International Conference on Engineering Psychology and Cognitive Ergonomics. Springer, Cham, 2017: 211-221.
[7] GUO Qi, XUE Chengqi, ZHOU Lin, et al. Comprehensive Evaluation of Deep-Sea HOV Cockpit Console Based on Fuzzy Gravity Center Method [J]. Transdisciplinary Engineering: A Paradigm Shift, 2017: 547-555.
Research Projects (PI)
May 2025 – May 2026: Shanghai Science and Technology Program, Dynamic Deconstruction of Social Symbiosis in Autonomous Driving: Trust Flow Field Construction and Policy Intervention Pathways.
Jan. 2023 – Dec. 2025: National Natural Science Foundation of China (Youth Program), Associations Between Trust in Autonomous Driving and In-Vehicle Interface Information Design Under Cognitive Load.
Oct. 2021 – Sep. 2024: Shanghai Pujiang Talent Program (Category C), Research on Multi-Channel Interactive HMI Design for Intelligent Vehicles.
Dec. 2021 – Dec. 2023: Exploration Fund Project, Cognitive Decision-Making Research on Intelligent Vehicle Interfaces for Driver Emotional Experience.
Research Projects (Co-I)
Jan. 2025 – Dec. 2025:Transport for London & BYD Collaborative Project: Optimization Design of Public Transport Systems for Enhanced Lighting Comfort.
Jan. 2019 – Dec. 2022: NSFC General Program, Mechanisms Linking Information Visualization Design and Decision-Making in Complex Human-Computer Systems.
Sep. 2019 – July. 2020: UBC Visual Cognition Lab & Boeing Collaborative Project: Attention and Perception of Pilots in Autopilot Scenarios.
2018–2019: HMI Design Research for XXX Command and Control Systems.
Dec. 2017 – Dec. 2019: Equipment Fundamental Research Project, Ergonomic Evaluation Standards for Digital HMI of XXX Equipment.
Jan. 2015 – Dec. 2018: NSFC General Program, Information Visualization Design Methodology for Big Data Applications.
Design Projects
Space Experiment Module Design
Spatial Layout Design for Deep-Sea Submersibles
Ergonomic Evaluation of Special Vehicle Cabins
HMI Design and Development
Product Market Research
