Papers
Topics
Authors
Recent
Gemini 2.5 Flash
Gemini 2.5 Flash
129 tokens/sec
GPT-4o
28 tokens/sec
Gemini 2.5 Pro Pro
42 tokens/sec
o3 Pro
4 tokens/sec
GPT-4.1 Pro
38 tokens/sec
DeepSeek R1 via Azure Pro
28 tokens/sec
2000 character limit reached

MindShift: Leveraging Large Language Models for Mental-States-Based Problematic Smartphone Use Intervention (2309.16639v2)

Published 28 Sep 2023 in cs.CL, cs.AI, and cs.HC

Abstract: Problematic smartphone use negatively affects physical and mental health. Despite the wide range of prior research, existing persuasive techniques are not flexible enough to provide dynamic persuasion content based on users' physical contexts and mental states. We first conducted a Wizard-of-Oz study (N=12) and an interview study (N=10) to summarize the mental states behind problematic smartphone use: boredom, stress, and inertia. This informs our design of four persuasion strategies: understanding, comforting, evoking, and scaffolding habits. We leveraged LLMs to enable the automatic and dynamic generation of effective persuasion content. We developed MindShift, a novel LLM-powered problematic smartphone use intervention technique. MindShift takes users' in-the-moment app usage behaviors, physical contexts, mental states, goals & habits as input, and generates personalized and dynamic persuasive content with appropriate persuasion strategies. We conducted a 5-week field experiment (N=25) to compare MindShift with its simplified version (remove mental states) and baseline techniques (fixed reminder). The results show that MindShift improves intervention acceptance rates by 4.7-22.5% and reduces smartphone usage duration by 7.4-9.8%. Moreover, users have a significant drop in smartphone addiction scale scores and a rise in self-efficacy scale scores. Our study sheds light on the potential of leveraging LLMs for context-aware persuasion in other behavior change domains.

Definition Search Book Streamline Icon: https://streamlinehq.com
References (93)
  1. Inertia and decision making. Frontiers in psychology 7 (2016), 169.
  2. Amap. 2023. Amap API website. (2023). https://lbs.amap.com/.
  3. Ian A Anderson and Wendy Wood. 2021. Habits and the electronic herd: The psychology behind social media’s successes and failures. Consumer Psychology Review 4, 1 (2021), 83–99.
  4. Menthal: quantifying smartphone usage. In Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing: Adjunct. 559–564.
  5. Palm 2 technical report. arXiv preprint arXiv:2305.10403 (2023).
  6. Forest APP. 2021. Stay focused, be present. (2021). https://www.forestapp.cc/.
  7. Apple. 2021. About the security content of iOS 14.1 and iPadOS 14.1. (2021). https://support.apple.com/en-us/HT208982.
  8. Impact of smartphone addiction on academic performance of business students: A case study. Md. and Mustafi, Mohitul and Afrin, Sharmina and Islam, Nazrul, Impact of Smartphone Addiction on Academic Performance of Business Students: A Case Study (August 21, 2018) (2018).
  9. Cecil A Arnolds and Christo Boshoff. 2002. Compensation, esteem valence and job performance: an empirical assessment of Alderfer’s ERG theory. International Journal of Human Resource Management 13, 4 (2002), 697–719.
  10. Joseph B Bayer and Robert LaRose. 2018. Technology habits: Progress, problems, and prospects. The psychology of habit: Theory, mechanisms, change, and contexts (2018), 111–130.
  11. Self-persuasion as marketing technique: the role of consumers’ involvement. European Journal of Marketing 51, 5/6 (2017), 1075–1090.
  12. Ibrahim Bozaci. 2020. The effect of boredom proneness on smartphone addiction and impulse purchasing: A field study with young consumers in Turkey. The Journal of Asian Finance, Economics and Business (JAFEB) 7, 7 (2020), 509–517.
  13. Jane R Caulton. 2012. The development and use of the theory of ERG: A literature review. Emerging Leadership Journeys 5, 1 (2012), 2–8.
  14. Shao-I Chiu. 2014. The relationship between life stress and smartphone addiction on Taiwanese university student: A mediation model of learning self-efficacy and social self-efficacy. Computers in human behavior 34 (2014), 49–57.
  15. Semi-automated tracking: a balanced approach for self-monitoring applications. IEEE Pervasive Computing 16, 1 (2017), 74–84.
  16. Palm: Scaling language modeling with pathways. arXiv preprint arXiv:2204.02311 (2022).
  17. Robert B Cialdini and Robert B Cialdini. 2007. Influence: The psychology of persuasion. Vol. 55. Collins New York.
  18. The extended iSelf: The impact of iPhone separation on cognition, emotion, and physiology. Journal of computer-mediated communication 20, 2 (2015), 119–135.
  19. Barriers to engagement with a personal informatics productivity tool. In Proceedings of the 26th Australian Computer-Human interaction Conference on Designing futures: The future of design. 370–379.
  20. Coping with stress during childhood and adolescence: problems, progress, and potential in theory and research. Psychological bulletin 127, 1 (2001), 87.
  21. Tantrums, toddlers and technology: Temperament, media emotion regulation, and problematic media use in early childhood. Computers in Human Behavior 120 (2021), 106762.
  22. Éilish Duke and Christian Montag. 2017. Smartphone addiction, daily interruptions and self-reported productivity. Addictive behaviors reports 6 (2017), 90–95.
  23. Technology can sting when reality bites: Adolescents’ frequent online coping is ineffective with momentary stress. Computers in Human Behavior 102 (2020), 248–259.
  24. Cynthia D Fisherl. 1993. Boredom at work: A neglected concept. Human relations 46, 3 (1993), 395–417.
  25. Iason Gabriel. 2020. Artificial intelligence, values, and alignment. Minds and machines 30, 3 (2020), 411–437.
  26. Return of the JITAI: applying a just-in-time adaptive intervention framework to the development of m-health solutions for addictive behaviors. International journal of behavioral medicine 24 (2017), 673–682.
  27. Martin S Hagger. 2016. Non-conscious processes and dual-process theories in health psychology. Health Psychology Review 10, 4 (2016), 375–380.
  28. Activity tracking: barriers, workarounds and customisation. In Proceedings of the 2015 ACM International Joint Conference on Pervasive and Ubiquitous Computing. 617–621.
  29. Andree Hartanto and Hwajin Yang. 2016. Is the smartphone a smart choice? The effect of smartphone separation on executive functions. Computers in human behavior 64 (2016), 329–336.
  30. Toxigen: A large-scale machine-generated dataset for adversarial and implicit hate speech detection. arXiv preprint arXiv:2203.09509 (2022).
  31. Constantly connected–The effects of smart-devices on mental health. Computers in Human Behavior 34 (2014), 267–272.
  32. MyTime: designing and evaluating an intervention for smartphone non-use. In Proceedings of the 2016 CHI conference on human factors in computing systems. 4746–4757.
  33. Why would you do that? predicting the uses and gratifications behind smartphone-usage behaviors. In Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing. 634–645.
  34. Impulse and self-control from a dual-systems perspective. Perspectives on psychological science 4, 2 (2009), 162–176.
  35. Smartphone overuse and upper extremity pain, anxiety, depression, and interpersonal relationships among college students. The Journal of the Korea Contents Association 12, 10 (2012), 365–375.
  36. Bytedance Inc. 2023. Tiktok App. (2023). https://www.tiktok.com/.
  37. Understanding the Benefits and Challenges of Deploying Conversational AI Leveraging Large Language Models for Public Health Intervention. In Proceedings of the 2023 CHI Conference on Human Factors in Computing Systems. 1–16.
  38. Adaptive persuasive systems: a study of tailored persuasive text messages to reduce snacking. ACM Transactions on Interactive Intelligent Systems (TiiS) 2, 2 (2012), 1–25.
  39. Alan E Kazdin. 1982. Observer effects: Reactivity of direct observation. New Directions for Methodology of Social & Behavioral Science (1982).
  40. Let’s focus: location-based intervention tool to mitigate phone use in college classrooms. In Proceedings of the 2017 ACM International Joint Conference on Pervasive and Ubiquitous Computing and Proceedings of the 2017 ACM International Symposium on Wearable Computers. 101–104.
  41. Goalkeeper: Exploring interaction lockout mechanisms for regulating smartphone use. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 3, 1 (2019), 1–29.
  42. LocknType: Lockout task intervention for discouraging smartphone app use. In Proceedings of the 2019 CHI conference on human factors in computing systems. 1–12.
  43. TimeAware: Leveraging framing effects to enhance personal productivity. In Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems. 272–283.
  44. NUGU: a group-based intervention app for improving self-regulation of limiting smartphone use. In Proceedings of the 18th ACM conference on computer supported cooperative work & social computing. 1235–1245.
  45. Stress revisited: a critical evaluation of the stress concept. Neuroscience & Biobehavioral Reviews 35, 5 (2011), 1291–1301.
  46. Rotating online behavior change interventions increases effectiveness but also increases attrition. Proceedings of the ACM on Human-Computer Interaction 2, CSCW (2018), 1–25.
  47. Exploring the Use of Large Language Models for Improving the Awareness of Mindfulness. In Extended Abstracts of the 2023 CHI Conference on Human Factors in Computing Systems (Hamburg, Germany) (CHI EA ’23). Association for Computing Machinery, New York, NY, USA, Article 129, 7 pages. https://doi.org/10.1145/3544549.3585614
  48. Performance of ChatGPT on USMLE: Potential for AI-assisted medical education using large language models. PLoS digital health 2, 2 (2023), e0000198.
  49. Emotional inertia and psychological maladjustment. Psychological science 21, 7 (2010), 984–991.
  50. Development and validation of a smartphone addiction scale (SAS). PloS one 8, 2 (2013), e56936.
  51. Bishal Lamichhane. 2023. Evaluation of chatgpt for nlp-based mental health applications. arXiv preprint arXiv:2303.15727 (2023).
  52. Is smartphone usage truly smart? A qualitative investigation of IT addictive behaviors. In 2013 46th Hawaii international conference on system sciences. IEEE, 1063–1072.
  53. Hooked on smartphones: an exploratory study on smartphone overuse among college students. In Proceedings of the SIGCHI conference on human factors in computing systems. 2327–2336.
  54. Development and validation of the Smartphone Addiction Inventory (SPAI). PloS one 9, 6 (2014), e98312.
  55. Bingjie Liu and S Shyam Sundar. 2018. Should machines express sympathy and empathy? Experiments with a health advice chatbot. Cyberpsychology, Behavior, and Social Networking 21, 10 (2018), 625–636.
  56. AppDetox: helping users with mobile app addiction. In Proceedings of the 12th international conference on mobile and ubiquitous multimedia. 1–2.
  57. What makes smartphone use meaningful or meaningless? Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 2, 1 (2018), 1–26.
  58. The Goldilocks level of support: Using user reviews, ratings, and installation numbers to investigate digital self-control tools. International journal of human-computer studies 166 (2022), 102869.
  59. Self-control in cyberspace: Applying dual systems theory to a review of digital self-control tools. In proceedings of the 2019 CHI conference on human factors in computing systems. 1–18.
  60. William L Mikulas and Stephen J Vodanovich. 1993. The essence of boredom. The Psychological Record 43, 1 (1993), 3.
  61. Recent advances in natural language processing via large pre-trained language models: A survey. Comput. Surveys (2021).
  62. Data Decentralisation of LLM-Based Chatbot Systems in Chronic Disease Self-Management. In Proceedings of the 2023 ACM Conference on Information Technology for Social Good. 205–212.
  63. Towards an artificially empathic conversational agent for mental health applications: system design and user perceptions. Journal of medical Internet research 20, 6 (2018), e10148.
  64. Just-in-time adaptive interventions (JITAIs) in mobile health: key components and design principles for ongoing health behavior support. Annals of Behavioral Medicine 52, 6 (2018), 446–462.
  65. What to do when feeling bored?: Students’ strategies for coping with boredom. Learning and Individual Differences 20, 6 (2010), 626–638.
  66. Chukwuemeka Nwagu. 2023. Design and Evaluation of the Chai Wallpaper: A Mindfulness-Based Persuasive Intervention for Absent-Minded Smartphone Use. (2023).
  67. Good vibrations: can a digital nudge reduce digital overload?. In Proceedings of the 20th international conference on human-computer interaction with mobile devices and services. 1–12.
  68. OpenAI. 2022. Introducing ChatGPT. (2022). https://openai.com/blog/chatgpt.
  69. OpenAI. 2023. GPT best practices. (2023). https://platform.openai.com/docs/guides/gpt-best-practices.
  70. Rita Orji and Karyn Moffatt. 2018. Persuasive technology for health and wellness: State-of-the-art and emerging trends. Health informatics journal 24, 1 (2018), 66–91.
  71. Hancheol Park and Gahgene Gweon. 2015. Initiating moderation in problematic smartphone usage patterns. In Proceedings of the 33rd Annual ACM Conference Extended Abstracts on Human Factors in Computing Systems. 1585–1590.
  72. Interaction restraint: enforcing adaptive cognitive tasks to restrain problematic user interaction. In Extended Abstracts of the 2018 CHI Conference on Human Factors in Computing Systems. 1–6.
  73. Digital behaviour change interventions to break and form habits. ACM Transactions on Computer-Human Interaction (TOCHI) 25, 3 (2018), 1–66.
  74. Addressing Problematic Smartphone Use with a Personalized, Goal-based Approach. In Adjunct Proceedings of the 2021 ACM International Joint Conference on Pervasive and Ubiquitous Computing and Proceedings of the 2021 ACM International Symposium on Wearable Computers. 131–134.
  75. Alan M Rubin. 2009. Uses and gratifications. The SAGE handbook of media processes and effects (2009), 147–159.
  76. Maya Samaha and Nazir S Hawi. 2016. Relationships among smartphone addiction, stress, academic performance, and satisfaction with life. Computers in human behavior 57 (2016), 321–325.
  77. Ralf Schwarzer and Matthias Jerusalem. 1995. Generalized self-efficacy scale. J. Weinman, S. Wright, & M. Johnston, Measures in health psychology: A user’s portfolio. Causal and control beliefs 35 (1995), 37.
  78. Aaron Smith. 2015. US smartphone use in 2015. (2015).
  79. Systematic review of context-aware digital behavior change interventions to improve health. Translational behavioral medicine 11, 5 (2021), 1037–1048.
  80. Llama 2: Open foundation and fine-tuned chat models. arXiv preprint arXiv:2307.09288 (2023).
  81. Modeling the engagement-disengagement cycle of compulsive phone use. In Proceedings of the 2019 CHI conference on human factors in computing systems. 1–14.
  82. Zahra Vahedi and Alyssa Saiphoo. 2018. The association between smartphone use, stress, and anxiety: A meta-analytic review. Stress and Health 34, 3 (2018), 347–358.
  83. Leveraging Large Language Models to Power Chatbots for Collecting User Self-Reported Data.
  84. ’Don’t Waste My Time’ Use of Time Information Improves Focus. In Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems. 1729–1738.
  85. Boredom proneness and fear of missing out mediate relations between depression and anxiety with problematic smartphone use. Human Behavior and Emerging Technologies 2, 1 (2020), 61–70.
  86. Leveraging routine behavior and contextually-filtered features for depression detection among college students. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 3, 3 (2019), 1–33.
  87. Leveraging collaborative-filtering for personalized behavior modeling: a case study of depression detection among college students. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 5, 1 (2021), 1–27.
  88. Mental-LLM: Leveraging Large Language Models for Mental Health Prediction via Online Text Data. arXiv:2307.14385 [cs.HC]
  89. GLOBEM Dataset: Multi-Year Datasets for Longitudinal Human Behavior Modeling Generalization. In Thirty-sixth Conference on Neural Information Processing Systems Datasets and Benchmarks Track. 18.
  90. TypeOut: Leveraging Just-in-Time Self-Affirmation for Smartphone Overuse Reduction. In Proceedings of the 2022 CHI Conference on Human Factors in Computing Systems. 1–17.
  91. Chatdoctor: A medical chat model fine-tuned on llama model using medical domain knowledge. arXiv preprint arXiv:2303.14070 (2023).
  92. Exploring ai ethics of chatgpt: A diagnostic analysis. arXiv preprint arXiv:2301.12867 (2023).
  93. The role of maladaptive cognitive emotion regulation strategies and social anxiety in problematic smartphone and social media use. Personality and Individual Differences 173 (2021), 110647.
Citations (12)
View on Semantic Scholar

Summary

We haven't generated a summary for this paper yet.

Ai Sparkles Streamline Icon: https://streamlinehq.com Summarize Now
X Twitter Logo Streamline Icon: https://streamlinehq.com

Tweets