Trust Issues in Design for Human-AI Collaboration: Challenges, Progress and Prospects

doi:10.3901/JME.260381

Abstract

Abstract: With the continuous development of generative AI technology, vertical-oriented AI generative design has become a new paradigm，whose trust relationship in human-AI team work has a significant impact on the innovation, efficiency and quality of design results. However, the current related research lacks a complete and systematic discussion. Therefore, in order to clarify the trends, hotspots and methods of the research related to the trust relationship in design for human-AI collaboration, the influencing factors of trust are defined by clustering and analyzing the literature from the development of research on trust. Based on the design field, a trust level model for human-AI collaboration in design is constructed, the research content and architecture of the three aspects of technology, interaction and experience are systematically explored. The key technologies of trust measurement, calibration, repair, decision-making, and evaluation are summarized. Research trends and perspectives of human-AI collaboration trust in design are presented in terms of theory, methods, technology, systems, and practice, which can provide references for future related research.

Key words: human-AI collaboration, generative design, generative AI, trust relationships, trust models

CLC Number:

TB472

LUO Shijian, GUO Herui, LI Qingling, YI Peiqi. Trust Issues in Design for Human-AI Collaboration: Challenges, Progress and Prospects[J]. Journal of Mechanical Engineering, 2026, 62(7): 324-342.

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: http://www.cjmenet.com.cn/EN/10.3901/JME.260381

http://www.cjmenet.com.cn/EN/Y2026/V62/I7/324

References

[1] 潘云鹤. 人工智能走向2.0[J]. Engineering,2016,2(04):51-61. PAN Yunhe. Heading toward artificial intelligence 2.0[J]. Engineering,2016,2(04):51-61.
[2] POSNER T,LI F F. AI will change the world,so it's time to change AI[J]. Nature,2020,588(7837):S118-S118.
[3] WU F,HSIAO S W,LU P. An AIGC-empowered methodology to product color matching design[J]. Displays,2023:102623.
[4] ANANTRASIRICHAI N,BULL D. Artificial intelligence in the creative industries:A review[J]. Artificial Intelligence Review,2022,55(1):589-656.
[5] 陈晓红,杨柠屹,周艳菊,等. 数字经济时代AIGC技术影响教育与就业市场的研究综述——以ChatGPT为例[J]. 系统工程理论与实践,2024,44(1):260-271. CHEN Xiaohong,YANG Ningyi,ZHOU Yanju,et al. AIGC affecting education and employment in era of digital economy——Take ChatGPT as an example[J]. System Engineering Theory and Practice,2024,44(1):260-271.
[6] PAN S L,NISHANT R. Artificial intelligence for digital sustainability:An insight into domain-specific research and future directions[J]. International Journal of Information Management,2023,72:102668.
[7] LEINO K,LEINONEN J,SINGH M,et al. FinChat: Corpus and evaluation setup for finnish chat conversations on everyday topics[C]//Proceedings of Interspeech 2020. Baixas:ISCA-International Speech Communication Association,2020:429-433.
[8] UMAPATHY V R,RAJ R D S,YADAV S,et al. Perspective of artificial intelligence in disease diagnosis:A review of current and future endeavours in the medical field[J]. Cureus,2023,15(9).
[9] LIU V,VERMEULEN J,FITZMAURICE G,et al. 3DALL-E:Integrating text-to-image AI in 3D design workflows[C]//Proceedings of the 2023 ACM designing interactive systems conference. New York:Association for Computing Machinery,2023:1955-1977.
[10] 张林. 生成式人工智能应用的风险研判及伦理规制[J].人民论坛,2023(24):136-138. ZHANG Lin. Risk assessment and ethical regulation of generative artificial intelligence applications[J]. People's Tribune,2023(24):136-138.
[11] 刘金瑞. 生成式人工智能大模型的新型风险与规制框架[J]. 行政法学研究,2024,(02):17-32. LIU Jinrui. Regulatory framework for new risks of large generative Al models[J]. Administrative Law Review,2024,(02):17-32.
[12] 陈建兵,王明. 负责任的人工智能:技术伦理危机下AIGC的治理基点[J]. 西安交通大学学报(社会科学版),2024,44(1):111-120. CHEN Jianbing,WANG Ming. Responsible artificial intelligence: Governance fundamentals for AIGC in the ethical crisis of technology[J]. Journal of Xi'an Jiaotong University (Social Sciences),2024,44(1):111-120.
[13] BROWN T,MANN B,RYDER N,et al. Language models are few-shot learners[J]. Advances in Neural Information Processing Systems,2020,33:1877-1901.
[14] 万力勇,杜静,熊若欣. 人机共创:基于AIGC的数字化教育资源开发新范式[J]. 现代远程教育研究,2023,35(5):12-21. WAN Liyong,DU Jing,XIONG Ruoxin. Human-machine co-creation:A new paradigm for the development of digital educational resources based on AIGC[J]. Modern Distance Education Research,2023,35(5):12-21.
[15] 冯玉泉. AIGC在工业设计上的应用与思考[J]. 包装工程,2024,45(08):337-345. FENG Yuquan. Application and thinking of AIGC in industrial design[J]. Packaging Engineering,2024,45(08):337-345.
[16] 谭征宇,张瑞佛,刘芝孜,等. 智能网联汽车人机交互信任研究现状与展望[J]. 机械工程学报,2024,60(10):366-383. TAN Zhengyu,ZHANG Ruifo,LIU Zhizi,et al. Human machine interaction trust in intelligent and connected vehicles:Overview and perspectives[J]. Journal of Mechanical Engineering,2024,60(10):366-383.
[17] MAYER R C,DAVIS J H,SCHOORMAN F D. An integrative model of organizational trust[J]. Academy of Management Review,1995,20(3):709-734.
[18] CLARKE L. Alarmed tech leaders call for AI research pause[J]. Science,2023,380(6641):120-121.
[19] WANG Y,PAN Y,YAN M,et al. A survey on ChatGPT: AI-generated contents,challenges,and solutions[J]. IEEE Open Journal of the Computer Society,2023(01):1-20.
[20] LEE J D,SEE K A. Trust in automation:Designing for appropriate reliance[J]. Human Factors,2004,46(1):50-80.
[21] 吴俊,张迪,刘涛,等. 人类对人工智能信任的接受度及脑认知机制研究:实证研究与神经科学实验的元分析[J]. 管理工程学报,2024,38(01):60-73. WU Jun,ZHANG Di,LIU Tao,et al. A study on the acceptance of human trust in artificial intelligence and brain cognitive mechanism: A meta-analysis of empirical studies and neuroscience experiments[J]. Journal of Industrial Engineering and Engineering Management,2024,38(01):60-73.
[22] BINDEWALD J M,RUSNOCK C F,MILLER M E. Measuring human trust behavior in human-machine teams[C]//Advances in Human Factors in Simulation and Modeling:Proceedings of the AHFE 2017 International Conference on Human Factors in Simulation and Modeling,Los Angeles:Springer International Publishing,2018:47-58.
[23] WANG F Y,GUO J,BU G,et al. Mutually trustworthy human-machine knowledge automation and hybrid augmented intelligence:Mechanisms and applications of cognition,management,and control for complex systems[J]. Frontiers of Information Technology & Electronic Engineering,2022,23(8):1142-1157.
[24] RAHMAN S M M,WANG Y. Mutual trust-based subtask allocation for human-robot collaboration in flexible lightweight assembly in manufacturing[J]. Mechatronics,2018,54:94-109.
[25] 许为,高在峰,葛列众. 智能时代人因科学研究的新范式取向及重点[J]. 心理学报,2024,56(03):363-382. XU Wei,GAO Zaifeng,GE Liezhong. New research paradigms and agenda of human factors science in the intelligence era[J]. Acta Psychologica Sinica,2024,56(03):363-382.
[26] JEON M. The effects of emotions on trust in human-computer interaction:A survey and prospect[J]. International Journal of Human-Computer Interaction,2023:1-19.
[27] WOIDE M,STIEGEMEIER D,PFATTHEICHER S,et al. Measuring driver-vehicle cooperation:Development and validation of the human-machine-interaction- interdependence questionnaire (HMII)[J]. Transportation Research Part F:Traffic Psychology and Behaviour,2021,83:424-439.
[28] HOFFMAN R R,JOHNSON M,BRADSHAW J M,et al. Trust in automation[J]. IEEE Intelligent Systems,2013,28(1):84-88.
[29] HUO W,ZHENG G,YAN J,et al. Interacting with medical artificial intelligence:Integrating self- responsibility attribution,human-computer trust,and personality[J]. Computers in Human Behavior,2022,132:107253.
[30] FANG Z,WANG J,LIANG J,et al. Authority allocation strategy for shared steering control considering human- machine mutual trust level[J]. IEEE Transactions on Intelligent Vehicles,2023,9(1):2002-2015.
[31] 董文莉,方卫宁. 自动化信任的研究综述与展望[J]. 自动化学报,2021,47(6):1183-1200. DONG Wenli,FANG Weining. Trust in automation:research review and future perspectives[J]. Acta Automatica Sinica,2021,47(6):1183-1200.
[32] SHERIDAN T B. Trustworthiness of command and control systems[M]//Analysis,Design and Evaluation of Man-Machine Systems 1988. Pergamon,1989:427-431.
[33] MUIR B M. Trust in automation:Part I. Theoretical issues in the study of trust and human intervention in automated systems[J]. Ergonomics,1994,37(11):1905-1922.
[34] MUIR B M,MORAY N. Trust in automation. Part II. Experimental studies of trust and human intervention in a process control simulation[J]. Ergonomics,1996,39(3):429-460.
[35] JIAN J Y,BISANTZ A M,DRURY C G. Foundations for an empirically determined scale of trust in automated systems[J]. International Journal of Cognitive Ergonomics,2000,4(1):53-71.
[36] MERRITT S M,ILGEN D R. Not all trust is created equal: Dispositional and history-based trust in human-automation interactions[J]. Human Factors,2008,50(2):194-210.
[37] MERRITT S M. Affective processes in human-automation interactions[J]. Human Factors,2011,53(4):356-370.
[38] WANG D,CHURCHILL E,MAES P,et al. From human-human collaboration to human-AI collaboration:Designing AI systems that can work together with people[C]//Extended Abstracts of the 2020 CHI Conference on Human Factors in Computing Systems. 2020:1-6.
[39] PARK S Y,KUO P Y,BARBARIN A,et al. Identifying challenges and opportunities in human-AI collaboration in healthcare[C]//Companion Publication of the 2019 Conference on Computer Supported Cooperative Work and Social Computing. 2019:506-510.
[40] ZHANG D,WU Z,CHEN J,et al. Human-robot shared control for surgical robot based on context-aware sim-to-real adaptation[C]//2022 International Conference on Robotics and Automation (ICRA). IEEE,2022:7694-7700.
[41] XING Y,LV C,CAO D,et al. Toward human-vehicle collaboration: Review and perspectives on human-centered collaborative automated driving[J]. Transportation Research Part C:Emerging Technologies,2021,128:103199.
[42] WANG D,WANG L,ZHANG Z,et al. “Brilliant AI doctor” in rural clinics:Challenges in AI-powered clinical decision support system deployment[C]//Proceedings of the 2021 CHI Conference on Human Factors in Computing Systems. 2021:1-18.
[43] DESHPANDE K V,PAN S,FOULDS J R. Mitigating demographic Bias in AI-based resume filtering[C]//Adjunct Publication of the 28th ACM Conference on User Modeling,Adaptation and Personalization. 2020:268-275.
[44] JEON Y,JIN S,SHIH P C,et al. FashionQ:An ai-driven creativity support tool for facilitating ideation in fashion design[C]//Proceedings of the 2021 CHI Conference on Human Factors in Computing Systems. 2021:1-18.
[45] LOUIE R,COENEN A,HUANG C Z,et al. Novice-AI music co-creation via AI-steering tools for deep generative models[C]//Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems. 2020:1-13.
[46] VAN ECK N,WALTMAN L. Software survey:VOSviewer,a computer program for bibliometric mapping[J]. Scientometrics,2010,84(2):523-538.
[47] 罗仕鉴,郭和睿,沈诚仪,等.智能产品用户体验设计评价研究现状与进展[J]. 计算机集成制造系统,2024,30(6):1919-1935. LUO Shijian,GUO Herui,SHEN Chengyi,et al. Status and progress of research on user experience design evaluation for intelligent products[J]. Computer Integrated Manufacturing Systems,2024,30(6):1919-1935.
[48] 罗仕鉴,王瑶,刘长奥,等.产品风格计算研究现状与展望[J]. 计算机集成制造系统,2023,29(10):3425-3439. LUO Shijian,WANG Yao,LIU Changao,et al. Research and prospect of product style computing[J]. Computer Integrated Manufacturing Systems,2023,29(10):3425-3439.
[49] ZUPIC I,ČATER T. Bibliometric methods in management and organization[J]. Organizational Research Methods,2015,18(3):429-472.
[50] COBO M J,LÓPEZ-HERRERA A G,HERRERA-VIEDMA E,et al. Science mapping software tools: Review, analysis, and cooperative study among tools[J]. Journal of the American Society for information Science and Technology,2011,62(7):1382-1402.
[51] GLIKSON E,WOOLLEY A W. Human trust in artificial intelligence:Review of empirical research[J]. Academy of Management Annals,2020,14(2):627-660.
[52] WU J,QIAN X,WANG M Y. Advances in generative design[J]. Computer- Aided Design,2019,116:102733.
[53] KRISH S. A practical generative design method[J]. Computer-Aided Design,2011,43(1):88-100.
[54] RAINA A,MCCOMB C,CAGAN J. Learning to design from humans:Imitating human designers through deep learning[J]. Journal of Mechanical Design,2019,141(11):111102.
[55] URQUHART L,WODEHOUSE A,LOUDON B,et al. The application of generative algorithms in human-centered product development[J]. Applied Sciences,2022,12(7):3682.
[56] SINGH V,GU N. Towards an integrated generative design framework[J]. Design Studies,2012,33(2):185-207.
[57] 罗仕鉴,于慧伶,易珮琦. 数智时代工业设计知识生产新范式[J]. 机械设计,2024,41(8):6-10. LUO Shijian,YU Huilin,YI Peiqi. A new paradigm of industrial design knowledge production in the era of digital intelligence[J]. Journal of Machine Design,2024,41(8):6-10.
[58] ZHAO Y. Exploring the application and influence of artificial intelligence AIGC technology on logo design[C]//2nd International Conference on Intelligent Design and Innovative Technology (ICIDIT 2023). Amsterda:Atlantis Press,2023:451-459.
[59] 袁烽,许心慧,王月阳. 走向生成式人工智能增强设计时代[J]. 建筑学报,2023(10):14-20. YUAN Feng,XU Xinhui,WANG Yueyang. Toward an Al-augmented generative design era[J]. Architectural Journal,2023(10):14-20.
[60] HUANG L,ZHENG P. Human-computer collaborative visual design creation assisted by artificial intelligence[J]. ACM Transactions on Asian and Low-Resource Language Information Processing,2023,22(9):1-21.
[61] SHI Y,GAO T,JIAO X,et al. Understanding design collaboration between designers and artificial intelligence:A systematic literature review[J]. Proceedings of the ACM on Human-Computer Interaction,2023,7(CSCW2):1-35.
[62] VARTIAINEN H,LIUKKONEN P,TEDRE M. Emerging human-technology relationships in a co-design process with generative AI[J]. Thinking Skills and Creativity,2025,56:101742.
[63] TAO W,GAO S,YUAN Y. Boundary crossing:an experimental study of individual perceptions toward AIGC[J]. Frontiers in Psychology,2023,14:1185880.
[64] KRIPPENDORFF K. The semantic turn:A new foundation for design[M]. Calabasas:CRC Press,2005.
[65] BøDKER S. When second wave HCI meets third wave challenges[C]//Proceedings of the 4th Nordic conference on Human-computer Interaction:Changing Roles. 2006:1-8.
[66] YANG Q,STEINFELD A,ZIMMERMAN J. Unremarkable AI:Fitting intelligent decision support into critical,clinical decision-making processes[C]// Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems. 2019:1-11.
[67] 罗仕鉴,郭和睿,易珮琦,等. 设计建构论:数据智能时代的新兴设计认识论[J]. 包装工程,2024,45(2):1-13,45,509. LUO Shijian,GUO Herui,YI Peiqi,et al. Design constructionism: emerging design epistemology in the era of data intelligence[J]. Packaging Engineering,2024,45(02):1-13,45,509.
[68] YIN H,ZHANG Z,LIU Y. The exploration of integrating the Midjourney artificial intelligence generated content tool into design systems to direct designers towards future-oriented innovation[J]. Systems,2023,11(12):566.
[69] LIU M,HU Y. Application potential of stable diffusion in different stages of industrial design[C]//International Conference on Human-Computer Interaction. Cham:Springer Nature Switzerland,2023:590-609.
[70] ABDELAZIZ H A. Utilizing artificial intelligence applications to enhance the creative design of textile hangings printed in caravans[J]. International Design Journal,2023,13(4):21-42.
[71] 罗仕鉴,张德寅,邵文逸,等. 群智创新设计研究现状与进展[J]. 计算机集成制造系统,2024,30(2):407-423. LUO Shijian,ZHANG Deyin,SHAO Wenyi,et al. Research status and progress of crowd intelligence innovative design[J]. Computer Integrated Manufacturing Systems,2024,30(2):407-423.
[72] 罗仕鉴,龚何波,林伟. 智能产品交互设计研究现状与进展[J]. 机械工程学报,2023,59(11):1-15. LUO Shijian,LONG Hebo,LIN Wei. Status and progress of intelligent products interaction design[J]. Journal of Mechanical Engineering,2023,59(11):1-15.
[73] 罗仕鉴,张宇飞,边泽,等. 产品外形仿生设计研究现状与进展[J]. 机械工程学报,2018,54(21):138-155. LUO Shijian,ZHANG Yufei,BIAN Ze,et al. Status and progress of product shape bionic design[J]. Journal of Mechanical Engineering,2018,54(21):138-155.
[74] 孔祥维,王子明,王明征,等.人工智能使能系统的可信决策:进展与挑战[J]. 管理工程学报,2022,36(6):1-14. KONG Xiangwei,WANG Ziming,WANG Mingzheng,et al. Trustworthy decision-making in artificial intelligence-enabled systems:Progress and challenges[J]. Journal of Industrial Engineering and Engineering Management,2022,36(6):1-14.
[75] KIM J H,KIM J,KIM C,et al. Do you trust ChatGPTs? Effects of the ethical and quality issues of generative AI on travel decisions[J]. Journal of Travel & Tourism Marketing,2023,40(9):779-801.
[76] 张琪玮. 中国工程院院士陈鲸:大数据、算力、算法是人工智能应用的基石[N]. 中国电子报,2023-11-28(005). ZHANG Qiwei. Chen Jing,academician of the CAE member: Big data,computing power and algorithms are the cornerstone of AI applications[N]. China Electronic News,2023-11-28(005).
[77] 罗仕鉴. 群智设计新思维[J]. 机械设计,2020,37(3):121-127. LUO Shijian. New thought of crowd intelligence design[J]. Journal of Machine Design,2020,37(3):121-127.
[78] SIAU K,WANG W. Building trust in artificial intelligence,machine learning,and robotics[J]. Cutter Business Technology Journal,2018,31(2):47.
[79] PRZYBYłA P,SOTO A J. When classification accuracy is not enough:Explaining news credibility assessment[J]. Information Processing & Management,2021,58(5):102653.
[80] GOFF A J,BARTON C J,MEROLLI M,et al. Comprehensiveness,accuracy,quality,credibility and readability of online information about knee osteoarthritis[J]. Health Information Management Journal,2023,52(3):185-193.
[81] ALRUBAIAN M,AL-QURISHI M,HASSAN M M,et al. A credibility analysis system for assessing information on twitter[J]. IEEE Transactions on Dependable and Secure Computing,2016,15(4):661-674.
[82] ZHOU T,CAI Z,WU K,et al. FIDC:A framework for improving data credibility in mobile crowdsensing[J]. Computer Networks,2017,120:157-169.
[83] LIANG T P,CHENG J C,SAINI V,et al. Is being helpful good enough for online reviews? Exploring the role of information credibility and data source through meta-analysis[J]. Journal of Electronic Commerce Research,2021,22(4):336-362.
[84] 刘坤锋,李艳红,张心源. 信任视角下数据智能与专家知识的对比实证研究[J]. 图书情报工作,2021,65(6):110-117. LIU Kunfeng,LI Yanhong,ZHANG Xinyuan. A comparative empirical study on data intelligence and expert knowledge from the perspective of trust[J]. Library and Information Service,2021,65(6):110-117.
[85] 王长潇,刘娜. 人工智能时代的隐私危机与信任重建[J]. 编辑之友,2021(8):101-106. WANG Changxiao,LIU Na. Privacy crisis and trust reconstruction in the age of artificial intelligence[J]. Editorial Friend,2021(8):101-106.
[86] O'NEILL O. A question of trust: The BBC reith lectures 2002[M]. Cambridge:Cambridge University Press,2002.
[87] BINNS R,VAN KLEEK M,VEALE M,et al. 'It's reducing a human being to a percentage' perceptions of justice in algorithmic decisions[C]//Proceedings of the 2018 Chi Conference on Human Factors in Computing Systems. 2018:1-14.
[88] 骆昱宇,秦雪迪,谢宇鹏,等. 智能数据可视分析技术综述[J]. 软件学报,2024,35(1):356-404. LUO Yuyu,QIN Xuedi,XIE Yupeng,et al. Intelligent data visualization analysis techniques:A survey[J]. Journal of Software,2024,35(1):356-404.
[89] RUBIN V,LUKOIANOVA T. Veracity roadmap: Is big data objective,truthful and credible?[J]. Advances in Classification Research Online,2013,24(1):4.
[90] 杜雨,张孜铭. AIGC智能创作时代[M]. 北京:中译出版社,2023. DU Yu,ZHANG Ziming. AIGC: The era of intelligent creation[M]. Beijing:China Translation and Publishing Corporation,2023.
[91] CABIDDU F,MOI L,PATRIOTTA G,et al. Why do users trust algorithms? A review and conceptualization of initial trust and trust over time[J]. European Management Journal,2022,40(5):685-706.
[92] BAEK T H,KIM M. Is ChatGPT scary good? How user motivations affect creepiness and trust in generative artificial intelligence[J]. Telematics and Informatics,2023,83:102030.
[93] 郭华源,刘盼,卢若谷,等. 人工智能大模型医学应用研究[J]. 中国科学:生命科学,2024,54(3):482-506. GUO Huayuan,LIU Pan,LU Ruogu,et al. Research on medical applications of artificial intelligence large models[J]. Scientia Sinica(Vitae),2024,54(3):482-506.
[94] YOU H,ZHOU L,XIAO B,et al. Learning visual representation from modality-shared contrastive language- image pre-training[C]//European Conference on Computer Vision. Cham:Springer Nature Switzerland,2022:69-87.
[95] SKARLATIDOU A,CHENG T,HAKLAY M. Guidelines for trust interface design for public engagement Web GIS[J]. International Journal of Geographical Information Science,2013,27(8):1668-1687.
[96] SECKLER M,HEINZ S,FORDE S,et al. Trust and distrust on the web: User experiences and website characteristics[J]. Computers in Human Behavior,2015,45:39-50.
[97] SUEN H Y,HUNG K E. Building trust in automatic video interviews using various AI interfaces: Tangibility,immediacy,and transparency[J]. Computers in Human Behavior,2023,143:107713.
[98] 谭浩,唐诗妍. 智能汽车交互界面用户体验评估方法体系综述[J]. 包装工程,2023,44(6):12-24,469. TAN Hao,TANG Shiyan. User experience evaluation methodology of interactive interface in intelligent vehicle[J]. Packaging Engineering,2023,44(6):12-24,469.
[99] GERLACH J H,KUO F Y. Understanding human- computer interaction for information systems design[J]. MIS Quarterly,1991:527-549.
[100] 谭征宇,张瑞佛,金奕. 全身交互视域下的智能座舱体验需求洞察[J]. 装饰,2023(8):18-24. TAN Zhengyu,ZHANG Ruifo,JIN Yi. The requirements insight of experience in intelligent cockpit from a whole body interaction perspective[J]. Zhuangshi,2023(8):18-24.
[101] LIU J,MARRIOTT K,DWYER T,et al. Increasing user trust in optimisation through feedback and interaction[J]. ACM Transactions on Computer-Human Interaction,2023,29(5):1-34.
[102] 张宁卓. 面向信任问题的自动驾驶汽车人机界面设计方法研究[J]. 设计,2020,33(3):50-53. ZHANG Ningzhuo. HMI design method for the trust problem of autonomous vehicles[J]. Design,2020,33(3):50-53.
[103] BALL C. What is transparency?[J]. Public Integrity,2009,11(4):293-308.
[104] BEAUXIS-AUSSALET E,BEHRISCH M,BORGO R,et al. The role of interactive visualization in fostering trust in AI[J]. IEEE Computer Graphics and Applications,2021,41(6):7-12.
[105] LEE S. Human-centered artificial intelligence[M]. Berkeley:Academic Press,2022:91-102.
[106] BALAKRISHNAN J,DWIVEDI Y K. Role of cognitive absorption in building user trust and experience[J]. Psychology & Marketing,2021,38(4):643-668.
[107] ZHOU T. Examining mobile banking user adoption from the perspectives of trust and flow experience[J]. Information Technology and Management,2012,13:27-37.
[108] GUO L,DALY E M,ALKAN O,et al. Building trust in interactive machine learning via user contributed interpretable rules[C]//27th International Conference on Intelligent User Interfaces. New York:Association for Computing Machinery. 2022:537-548.
[109] EDMONDSON A. Psychological safety and learning behavior in work teams[J]. Administrative Science Quarterly,1999,44(2):350-383.
[110] BILGIHAN A. Gen Y customer loyalty in online shopping:An integrated model of trust,user experience and branding[J]. Computers in Human Behavior,2016,61:103-113.
[111] LARGE D R,HARRINGTON K,BURNETT G,et al. To please in a pod:Employing an anthropomorphic agent-interlocutor to enhance trust and user experience in an autonomous,self-driving vehicle[C]//Proceedings of the 11th International Conference on Automotive User Interfaces and Interactive Vehicular Applications. New York:Association for Computing Machinery. 2019:49-59.
[112] RAMADHAN B A,IQBAL B M. User experience evaluation on the cryptocurrency website by trust aspect[C]//2018 International Conference on Intelligent Informatics and Biomedical Sciences (ICIIBMS). New York:IEEE,2018,3:274-279.
[113] BRANLEY-BELL D,WHITWORTH R,COVENTRY L. User trust and understanding of explainable AI:Exploring algorithm visualisations and user biases[C]//International Conference on Human- Computer Interaction. Cham:Springer International Publishing,2020:382-399.
[114] WEITZ K,SCHILLER D,SCHLAGOWSKI R,et al. " Do you trust me?" Increasing user-trust by integrating virtual agents in explainable AI interaction design[C]//Proceedings of the 19th ACM International Conference on Intelligent Virtual Agents. New York:Association for Computing Machinery. 2019:7-9.
[115] OKAMURA K,YAMADA S. Empirical evaluations of framework for adaptive trust calibration in human-AI cooperation[J]. IEEE Access,2020,8:220335-220351.
[116] WEI J,BOLTON M L,HUMPHREY L. The level of measurement of trust in automation[J]. Theoretical Issues in Ergonomics Science,2020,22(3):274-295.
[117] HU W L,AKASH K,REID T,et al. Computational modeling of the dynamics of human trust during human-machine interactions[J]. IEEE Transactions on Human-Machine Systems,2018,49(6):485-497.
[118] HOFF K A,BASHIR M. Trust in automation:Integrating empirical evidence on factors that influence trust[J]. Human Factors,2015,57(3):407-434.
[119] PARASURAMAN R,RILEY V. Humans and automation:Use,misuse,disuse,abuse[J]. Human Factors,1997,39(2):230-253.
[120] BAER M D,VAN DER WERFF L,COLQUITT J A,et al. Trusting the “look and feel”: Situational normality,situational aesthetics,and the perceived trustworthiness of organizations[J]. Academy of Management Journal,2018,61(5):1718-1740.
[121] SHARMA K,SCHOORMAN F D,BALLINGER G A. How can it be made right again? A review of trust repair research[J]. Journal of Management,2023,49(1):363-399.
[122] DE VISSER E J,PAK R,SHAW T H. From ‘automation'to ‘autonomy':the importance of trust repair in human-machine interaction[J]. Ergonomics,2018,61(10):1409-1427.
[123] LANGER M,KöNIG C J,BACK C,et al. Trust in Artificial Intelligence:Comparing trust processes between human and automated trustees in light of unfair bias[J]. Journal of Business and Psychology,2023,38(3):493-508.
[124] MILLER T. Explanation in artificial intelligence: Insights from the social sciences[J]. Artificial Intelligence,2019,267:1-38.
[125] MEHRABI N,MORSTATTER F,SAXENA N,et al. A survey on bias and fairness in machine learning[J]. ACM Computing Surveys (CSUR),2021,54(6):1-35.
[126] WANG Y,PAN Y,YAN M,et al. A survey on ChatGPT:AI-generated contents,challenges,and solutions[J]. IEEE Open Journal of the Computer Society,2023,4:280-302.
[127] GULATI S,SOUSA S,LAMAS D. Design,development and evaluation of a human-computer trust scale[J]. Behaviour & Information Technology,2019,38(10):1004-1015.
[128] WANG J,JING X,YAN Z,et al. A survey on trust evaluation based on machine learning[J]. ACM Computing Surveys (CSUR),2020,53(5):1-36.
[129] CHEN P,YAO J,CHENG Z,et al. CoExploreDS:Framing and advancing collaborative design space exploration between human and AI[C]//Proceedings of the 2025 CHI Conference on Human Factors in Computing Systems. 2025:1-20.
[130] BACH T A,KHAN A,HALLOCK H,et al. A systematic literature review of user trust in AI-enabled systems:An HCI perspective[J]. International Journal of Human-Computer Interaction,2024,40(5):1251-1266.
[131] SCHAEFER K E,CHEN J Y C,SZALMA J L,et al. A meta-analysis of factors influencing the development of trust in automation: Implications for understanding autonomy in future systems[J]. Human Factors,2016,58(3):377-400.
[132] 许为. 九论以用户为中心的设计:智能时代的“用户体验3.0”范式[J]. 应用心理学,2024,30(2):99-117. XU Wei. User-centered design(IX):A “user experience 3.0” paradigm framework in the intelligence era[J]. Chinese Journal of Applied Psychology,2024,30(2):99-117.
[133] SHIN D. The effects of explainability and causability on perception,trust,and acceptance:Implications for explainable AI[J]. International Journal of Human- computer Studies,2021,146:102551.
[134] LI H,LIANG M,NIU K,et al. A human-machine trust evaluation method for high-speed train drivers based on multi-modal physiological information[J]. International Journal of Human-Computer Interaction,2025,41(4):2659-2676.
[135] SHERIDAN T B. Human-robot interaction:status and challenges[J]. Human Factors,2016,58(4):525-532.
[136] LOTFALIAN SAREMI M,ZIV I,ASAN O,et al. Trust,workload and performance in human-AI partnering:The role of AI attributes in solving classification problems[J]. Journal of Mechanical Design,2024:1-10.
[137] JU W,LEIFER L. The design of implicit interactions:Making interactive systems less obnoxious[J]. Design Issues,2008,24(3):72-84.
[138] SHOKRI R,SHMATIKOV V. Privacy-preserving deep learning[C]//Proceedings of the 22nd ACM SIGSAC Conference on Computer and Communications Security. 2015:1310-1321.
[139] HANCOCK P A,BILLINGS D R,SCHAEFER K E,et al. A meta-analysis of factors affecting trust in human-robot interaction[J]. Human Factors,2011,53(5):517-527.