心理科学进展 ›› 2021, Vol. 29 ›› Issue (1): 178-189.doi: 10.3724/SP.J.1042.2021.00178
收稿日期:
2020-04-18
出版日期:
2021-01-15
发布日期:
2020-11-23
通讯作者:
周媛
E-mail:zhouyuan@psych.ac.cn
基金资助:
Received:
2020-04-18
Online:
2021-01-15
Published:
2020-11-23
Contact:
ZHOU Yuan
E-mail:zhouyuan@psych.ac.cn
摘要:
人际信任渗透在社会交互的各个方面, 是促进和维持合作的重要基石。以往研究者借助信任博弈范式, 主要探讨了人际信任的理论模型、生物基础和影响因素等方面。近年来, 研究者开始将计算模型应用于信任博弈的数据分析中, 深入挖掘人际信任行为背后的心理机制, 将计算模型与神经影像技术结合, 加深对信任行为背后脑机制的理解。目前将计算模型应用于信任博弈范式中的研究主要针对“信任是如何形成的”这一科学问题, 未来要进一步发展计算模型方法, 结合非侵入性脑刺激技术, 应用于精神疾病人群中, 以深入理解正常和异常信任形成的心理和神经机制。
中图分类号:
高青林, 周媛. (2021). 计算模型视角下信任形成的心理和神经机制——基于信任博弈中投资者的角度. 心理科学进展 , 29(1), 178-189.
GAO Qinglin, ZHOU Yuan. (2021). Psychological and neural mechanisms of trust formation: A perspective from computational modeling based on the decision of investor in the trust game. Advances in Psychological Science, 29(1), 178-189.
[1] | 陈欣, 叶浩生. (2009). 行为博弈视野下信任研究的回顾. 心理科学, 32(3), 636-639. |
[2] | 陈瀛, 徐敏霞, 汪新建. (2020). 信任的认知神经网络模型. 心理科学进展, 28(5), 800-809. |
[3] | 荣悦彤, 王晓明, 周媛. (2019). 非侵入性脑刺激技术在决策行为研究中的应用. 中华行为医学与脑科学杂志, 28(7), 666-670. |
[4] | 史燕伟, 徐富明, 罗教讲, 李燕, 刘程浩. (2015). 行为经济学中的信任: 形成机制及影响因素. 心理科学进展, 23(7), 1236-1244. |
[5] | 张宁, 张雨青, 吴坎坎. (2011). 信任的心理和神经生理机制. 心理科学, 34(5), 1137-1143. |
[6] | 张蔚, 张振, 高宇, 段华平, 吴兴南. (2016). 经济决策中人际信任博弈的理论模型与脑机制. 心理科学进展, 24(11), 1780-1791. |
[7] | Anderhub, V., Engelmann, D., & Güth, W. (2002). An experimental study of the repeated trust game with incomplete information. Journal of Economic Behavior & Organization, 48(2), 197-216. |
[8] |
Ben-Ner, A., Putterman, L., & Ren, T. (2011). Lavish returns on cheap talk: Two-way communication in trust games. Journal of Socio-Economics, 40(1), 1-13.
doi: 10.1016/j.socec.2010.09.009 URL |
[9] | Berg, J., Dickhaut, J., & McCabe, K. (1995). Trust, reciprocity, and social history. Games and Economic Behavior, 10(1), 122-142. |
[10] | Blue, P. R., Hu, J., Peng, L., Yu, H. B., Liu, H. Y., & Zhou, X. L. (2020). Whose promises are worth more? How social status affects trust in promises. European Journal of Social Psychology, 50(1), 189-206. |
[11] |
Chang, L. J., Doll, B. B., van't Wout, M., Frank, M. J., & Sanfey, A. G. (2010). Seeing is believing: Trustworthiness as a dynamic belief. Cognitive Psychology, 61(2), 87-105.
doi: 10.1016/j.cogpsych.2010.03.001 URL pmid: 20553763 |
[12] |
Charpentier, C. J., & O’Doherty, J. P. (2018). The application of computational models to social neuroscience: Promises and pitfalls. Social Neuroscience, 13(6), 637-647.
URL pmid: 30173633 |
[13] |
Cheong, J. H., Jolly, E., Sul, S., & Chang, L. J. (2017). Computational models in social neuroscience. In A. Moustafa (Ed.), Computational models of brain and behavior(pp. 229-244). Wiley.
URL pmid: 25365806 |
[14] |
Cisler, J. M., Bush, K., Scott Steele, J., Lenow, J. K., Smitherman, S., & Kilts, C. D. (2015). Brain and behavioral evidence for altered social learning mechanisms among women with assault-related posttraumatic stress disorder. Journal of Psychiatric Research, 63, 75-83.
URL pmid: 25769397 |
[15] | Claus, C., & Boutilier, C. (1998, July). The dynamics of reinforcement learning in cooperative multiagent systems. Paper presented at the meeting of the Proceedings of the fifteenth national/tenth conference on Artificial Intelligence/ Innovative Applications of Artificial Intelligence, California, United States. |
[16] | Cochard, F., van Nguyen, P., & Willinger, M. (2004). Trusting behavior in a repeated investment game. Journal of Economic Behavior & Organization, 55(1), 31-44. |
[17] |
Daw, N. D., & Doya, K. (2006). The computational neurobiology of learning and reward. Current Opinion in Neurobiology, 16(2), 199-204.
doi: 10.1016/j.conb.2006.03.006 URL pmid: 16563737 |
[18] |
Declerck, C. H., Boone, C., & Emonds, G. (2013). When do people cooperate? The neuroeconomics of prosocial decision making. Brain and Cognition, 81(1), 95-117.
URL pmid: 23174433 |
[19] | Diaconescu, A. O., Mathys, C., Weber, L. A. E., Daunizeau, J., Kasper, L., Lomakina, E. I., ... Stephan, K. E. (2014). Inferring on the intentions of others by hierarchical Bayesian learning. PLoS Computational Biology, 10(9), e1003952. |
[20] | Engelmann, J. B. (2010). Measuring trust in social neuroeconomics: A Tutorial. Hermeneutische Blätter, 1(2), 225-242. |
[21] |
Fareri, D. S., Chang, L. J., & Delgado, M. R. (2012). Effects of direct social experience on trust decisions and neural reward circuitry. Frontiers in Neuroscience, 6, 148.
URL pmid: 23087604 |
[22] |
Fareri, D. S., Chang, L. J., & Delgado, M. R. (2015). Computational substrates of social value in interpersonal collaboration. Journal of Neuroscience, 35(21), 8170-8180.
URL pmid: 26019333 |
[23] | Fehr, E., & Schmidt, K. M. (2006). The economics of fairness, reciprocity and altruism - Experimental evidence and new theories. In S. Kolm., & J. Ythier.(Eds), Handbook of the economics of giving, altruism and reciprocity |
[24] |
Fett, A. -K. J., Gromann, P. M., Giampietro, V., Shergill, S. S., & Krabbendam, L. (2014). Default distrust? An fMRI investigation of the neural development of trust and cooperation. Social Cognitive and Affective Neuroscience, 9(4), 395-402.
URL pmid: 23202661 |
[25] |
Fouragnan, E. (2013). The neural computation of trust and reputation. Biochemistry, 52(29), 4941-54.
doi: 10.1021/bi400178q URL |
[26] | Friston, K., Fitzgerald, T., Rigoli, F., Schwartenbeck, P., & Pezzulo, G. (2016). Active inference and learning. Neuroscience & Biobehavioral Review, 68, 862-879. |
[27] | Friston, K., Schwartenbeck, P., Fitzgerald, T., Moutoussis, M., Behrens, T., & Dolan, R. J. (2013). The anatomy of choice: Active inference and agency. Frontiers Humman Neuroscience, 7, 598. |
[28] |
Friston, K. J., Stephan, K. E., Montague, R., & Dolan, R. (2014). Computational psychiatry: The brain as a phantastic organ. The Lancet Psychiatry, 1(2), 148-158.
doi: 10.1016/S2215-0366(14)70275-5 URL |
[29] | Gonzalez, B., & Chang, L. J. (2019). Computational models of mentalizing. PsyArXiv. Advance online publication. |
[30] |
Gu, X. S., Wang, X. C., Hula, A., Wang, S. W., Xu, S., Lohrenz, T. M., ... Montague, P. R. (2015). Necessary, yet dissociable contributions of the insular and ventromedial prefrontal cortices to norm adaptation: Computational and lesion evidence in humans. Journal of Neuroscience, 35(2), 467-473.
doi: 10.1523/JNEUROSCI.2906-14.2015 URL pmid: 25589742 |
[31] |
Hackel, L. M., & Amodio, D. M. (2018). Computational neuroscience approaches to social cognition. Current Opinion in Psychology, 24, 92-97.
URL pmid: 30388495 |
[32] |
Haiyan, L. (2019). Dynamic trust game model between venture capitalists and entrepreneurs based on reinforcement learning theory. Cluster Computing, 22(3), 5893-5904.
doi: 10.1007/s10586-017-1666-x URL |
[33] |
Hula, A., Montague, P. R., & Dayan, P. (2015). Monte carlo planning method estimates planning horizons during interactive social exchange. PLoS Computational Biology, 11(6), e1004254.
URL pmid: 26053429 |
[34] |
Huys, Q. J. M., Moutoussis, M., & Williams, J. (2011). Are computational models of any use to psychiatry? Neural Networks, 24(6), 544-551.
URL pmid: 21459554 |
[35] | Jaafra, Y., Laurent, J. L., Deruyver, A., & Naceur, M. S. (2019). Reinforcement learning for neural architecture search: A review. Image and Vision Computing, 89, 57-66. |
[36] | Johnson, N. D., & Mislin, A. A. (2011). Trust games: A meta-analysis. Journal of Economic Psychology, 32(5), 865-889. |
[37] |
Jung, W. -M., Lee, Y. -S., Wallraven, C., & Chae, Y. (2017). Bayesian prediction of placebo analgesia in an instrumental learning model. PLoS One, 12(2), e0172609.
URL pmid: 28225816 |
[38] |
Kaelbling, L. P., Littman, M. L., & Cassandra, A. R. (1995). Partially observable Markov decision processes for artificial intelligence. Paper Presented at the International Workshop on Reasoning with Uncertainty in Robotics.
URL pmid: 19777080 |
[39] | Keser, C. (2003). Experimental games for the design of reputation management systems. IBM Systems Journal, 42(3), 498-506. |
[40] |
Khalvati, K., Park, S. A., Mirbagheri, S., Philippe, R., & Rao, R. P. N. (2019). Modeling other minds: Bayesian inference explains human choices in group decision-making. Science Advances, 5(11), eaax8783.
URL pmid: 32064310 |
[41] |
King-Casas, B., Tomlin, D., Anen, C., Camerer, C. F., Quartz, S. R., & Montague, P. R. (2005). Getting to know you: Reputation and trust in a two-person economic exchange. Science, 308(5718), 78-83.
URL pmid: 15802598 |
[42] |
King-Casas, B., Sharp, C., Lomax-Bream, L., Lohrenz, T., Fonagy, P., & Montague, P. R. (2008). The rupture and repair of cooperation in borderline personality disorder. Science, 321(5890), 806-810.
URL pmid: 18687957 |
[43] | Knoch, D., Schneider, F., Schunk, D., Hohmann, M., & Fehr, E. (2009). Disrupting the prefrontal cortex diminishes the human ability to build a good reputation. Proceedings of the National Academy of Sciences, 106(49), 20895-20899. |
[44] | Kreps, D. M. (1990). Corporate culture and economic theory. Perspectives on Positive Political Economy, 90, 109-110. |
[45] | Krueger, F., McCabe, K., Moll, J., Kriegeskorte, N., Zahn, R., Strenziok, M., ... Grafman, J. (2007). Neural correlates of trust. Proceedings of the National Academy of Sciences, 104(50), 20084-20089. |
[46] |
Krueger, F., & Meyer-Lindenberg, A. (2019). Toward a model of interpersonal trust drawn from neuroscience, psychology, and economics. Trends in Neurosciences, 42(2), 92-101.
URL pmid: 30482606 |
[47] |
Lee, D., Seo, H., & Jung, M. W. (2012). Neural basis of reinforcement learning and decision making. Annual Review of Neuroscience, 35, 287-308.
URL pmid: 22462543 |
[48] |
Luo, Y., Hétu, S., Lohrenz, T., Hula, A., & Ramey, C. (2018). Early childhood investment impacts social decision- making four decades later. Nature Communications, 9(1), 1-10.
URL pmid: 29317637 |
[49] |
Ma, Q. G., Liang, M., Qiang, S., & Yu, R. J. (2015). You have my word: Reciprocity expectation modulates feedback-related negativity in the trust game. Plos One, 10(2), e0119129.
URL pmid: 25719408 |
[50] |
Mathys, C., Daunizeau, J., Friston, K. J., & Stephan, K. E. (2011). A Bayesian foundation for individual learning under uncertainty. Frontiers in Human Neuroscience, 5, 39.
URL pmid: 21629826 |
[51] |
Maurer, C., Chambon, V., Bourgeois-Gironde, S., Leboyer, M., & Zalla, T. (2018). The influence of prior reputation and reciprocity on dynamic trust-building in adults with and without autism spectrum disorder. Cognition, 172, 1-10.
URL pmid: 29197230 |
[52] |
McCabe, K. A., Rigdon, M. L., & Smith, V. L. (2003). Positive reciprocity and intentions in trust games. Journal of Economic Behavior & Organization, 52(2), 267-275.
doi: 10.1016/S0167-2681(03)00003-9 URL |
[53] |
Mellick, W., Sharp, C., & Ernst, M. (2019). Depressive adolescent girls exhibt atypical social decision-making in an iterative trust game. Journal of Social and Clinical Psychology, 38(3), 224-244.
doi: 10.1521/jscp.2019.38.3.224 URL |
[54] | Montague, P. R. (2018). Computational phenotypes revealed by interactive economic games. In A, Anticevic & J, D. Murray (Eds), Computational psychiatry: Mathematical modeling of mental illness (pp. 273-292). Academic Press |
[55] |
Montague, P. R., Dolan, R. J., Friston, K. J., & Dayan, P. (2012). Computational psychiatry. Trends in Cognitive Sciences, 16(1), 72-80.
URL pmid: 22177032 |
[56] |
Moutoussis, M., Trujillo-Barreto, N. J., El-Deredy, W., Dolan, R., & Friston, K. (2014). A formal model of interpersonal inference. Frontiers in Human Neuroscience, 8, 160.
doi: 10.3389/fnhum.2014.00160 URL pmid: 24723872 |
[57] |
Nihonsugi, T., Ihara, A., & Haruno, M. (2015). Selective increase of intention-based economic decisions by noninvasive brain stimulation to the dorsolateral prefrontal cortex. Journal of Neuroscience, 35(8), 3412-3419.
URL pmid: 25716841 |
[58] | O'Doherty, J. P., Hampton, A., & Kim, H. (2007). Model- based fMRI and its application to reward learning and decision making. Annals of the New York Academy of Sciences, 1104(1), 35-53. |
[59] |
Ong, D. C., Zaki, J., & Goodman, N. D. (2019). Computational models of emotion inference in theory of mind: A review and roadmap. Topics in Cognitive Science, 11(2), 338-357.
URL pmid: 30066475 |
[60] | Parr, T., & Friston, K. J. (2017). Working memory, attention, and salience in active inference. Scientific Reports, 2017, 7(1), 1-21. |
[61] | Premack, D., & Woodruff, G. (1978). Does a chimpanzee have a theory of mind. Behavioral & Brain Sciences, 1(4), 515-526. |
[62] | Puterman, M. L. (1995). Markov decision processes: Discrete stochastic dynamic programming. Journal of the Operational Research Society, 46(6), 792-792. |
[63] | Radell, M. L., Sanchez, R., Weinflash, N., & Myers, C. E. (2016). The personality trait of behavioral inhibition modulates perceptions of moral character and performance during the trust game: Behavioral results and computational modeling. PeerJ-the Journal of Life & Environmental Sciences, 4, e1631. |
[64] |
Ray, D., King-Casas, B., Montague, P. R., & Dayan, P. (2009). Bayesian model of behaviour in economic games. In D. Koller, D. Schuurmans, Y. Bengio & L. Bottou. (Eds), Advances in neural information processing systems
URL pmid: 30971864 |
[65] | Riedl, R., & Javor, A. (2012). The biology of trust: Integrating evidence from genetics, endocrinology, and functional brain imaging. Journal of Neuroscience, Psychology, and Economics, 5(2), 63-91. |
[66] |
Rotter, J. B. (1967). A new scale for the measurement of interpersonal trust. Journal of Personality, 35(4), 651-665.
URL pmid: 4865583 |
[67] | Rusch, T., & Gläscher, J. (2019). Classification of theory of mind tasks and their computational models. PsyArXiv. Advance online publication. |
[68] |
Sanfey, A. G. (2007). Social decision-making: Insights from game theory and neuroscience. Science, 318(5850), 598-602.
URL pmid: 17962552 |
[69] |
Schwartenbeck, P., FitzGerald, T. H. B., Mathys, C., Dolan, R., Kronbichler, M., & Friston, K. (2015). Evidence for surprise minimization over value maximization in choice behavior. Scientific Reports, 5, 16575.
URL pmid: 26564686 |
[70] |
Smith, R., Khalsa, S. S., & Paulus, M. P. (2019). An active inference approach to dissecting reasons for nonadherence to antidepressants. Biological Psychiatry: Cognitive Neuroscience and Neuroimaging. doi: 10.1016/j.bpsc.2019.11.012
URL pmid: 12798984 |
[71] |
Smith, R., Lane, R. D., Parr, T., & Friston, K. J. (2019). Neurocomputational mechanisms underlying emotional awareness: Insights afforded by deep active inference and their potential clinical relevance. Neuroscience & Biobehavioral Reviews, 107, 473-491.
URL pmid: 31518636 |
[72] | Snijders, C., & Keren, G. (2001). Do you trust? Whom do you trust? When do you trust?. Advances in Group Processes, 18(18), 129-160. |
[73] |
Stephan, K. E., & Mathys, C. (2014). Computational approaches to psychiatry. Current Opinion in Neurobiology, 25, 85-92.
URL pmid: 24709605 |
[74] |
Tzieropoulos, H. (2013). The trust game in neuroscience: A short review. Social Neuroscience, 8(5), 407-416.
URL pmid: 23998424 |
[75] |
Wehebrink, K. S., Koelkebeck, K., Piest, S., de Dreu, C. K. W., & Kret, M. E. (2018). Pupil mimicry and trust - Implication for depression. Journal of Psychiatric Research, 97, 70-76.
URL pmid: 29202275 |
[76] | Wilson, R. K., & Eckel, C. C. (2006). Judging a book by its cover: Beauty and expectations in the trust game. Political Research Quarterly, 59(2), 189-202. |
[77] | Xiang, T., Ray, D., Lohrenz, T., Dayan, P., & Montague, P. R. (2012). Computational phenotyping of two-person interactions reveals differential neural response to depth- of-thought. PLoS Computtational Biology, 8(12), e1002841. |
[78] |
Zheng, H. L., Wang, S. Q., Guo, W. M., Chen, S., Luo, J., Ye, H., & Huang, D. Q. (2017). Enhancing the activity of the DLPFC with tDCS alters risk preference without changing interpersonal trust. Frontiers in Neuroscience, 11, 52.
URL pmid: 28232785 |
[1] | 黎穗卿, 陈新玲, 翟瑜竹, 张怡洁, 章植鑫, 封春亮. 人际互动中社会学习的计算神经机制[J]. 心理科学进展, 2021, 29(4): 677-696. |
[2] | 曲佳晨, 贡喆. 信任水平存在性别差异吗?[J]. 心理科学进展, 2021, 29(12): 2236-2245. |
[3] | 贡喆, 唐玉洁, 刘昌. 信任博弈范式真的能测量信任吗?[J]. 心理科学进展, 2021, 29(1): 19-30. |
[4] | 张银花, 李红, 吴寅. 计算模型在道德认知研究中的应用[J]. 心理科学进展, 2020, 28(7): 1042-1055. |
[5] | 李精精, 张剑, 田慧荣, Jeffrey B.Vancouver. 动态计算模型在组织行为学研究中的应用[J]. 心理科学进展, 2020, 28(2): 368-380. |
[6] | 区健新, 吴寅, 刘金婷, 李红. 计算精神病学:抑郁症研究和临床应用的新视角[J]. 心理科学进展, 2020, 28(1): 111-127. |
[7] | 高绍兵, 李永杰. 结合视觉自底向上和自顶向下机制的多光源颜色恒常性算法研究[J]. 心理科学进展, 2019, 27(suppl.): 96-96. |
[8] | 王一丹, 何生, 张杰栋. 基于降维分析的人类面孔加工脑区的细分[J]. 心理科学进展, 2019, 27(suppl.): 161-161. |
[9] | 辛自强. 市场化与人际信任变迁[J]. 心理科学进展, 2019, 27(12): 1951-1966. |
[10] | 魏柳青, 张学民. 多目标追踪的神经机制[J]. 心理科学进展, 2019, 27(12): 2007-2018. |
[11] | 段凯凯, 董昊铭, 苗丽雯, 苏学权, 相洁, 左西年. 人脑自适应多尺度功能连接的性别差异[J]. 心理科学进展, 2018, 26(9): 1567-1575. |
[12] | 李雅; 李晟. 轮廓整合的时空动态加工机制[J]. 心理科学进展, 2016, 24(Suppl.): 60-. |
[13] | 王沛;梁雅君;李宇;刘雍鹤. 特质认知和关系认知对人际信任的影响[J]. 心理科学进展, 2016, 24(5): 815-823. |
[14] | 张蔚; 张振;高宇;段华平;吴兴南. 经济决策中人际信任博弈的理论模型与脑机制[J]. 心理科学进展, 2016, 24(11): 1780-1791. |
[15] | 张芬;王穗苹;杨娟华;冯刚毅. 自闭症谱系障碍者异常的大脑功能连接[J]. 心理科学进展, 2015, 23(7): 1196-1204. |
阅读次数 | ||||||
全文 |
|
|||||
摘要 |
|
|||||