Abstract
This study analyzed existing survey instruments to provide an integrated list of keywords/constructs to measure the various perceptions of trust building in automation. While the trust between users and automated functions or systems has been an area of substantial research interest to understand the interactions between human and automation, research efforts to measure the trust to date have led to inconclusive and mixed outcomes. Of the existing scales for measuring trust in automation, inadequate development of constructs and the lack of reliability and validity have been identified as major causes for such outcomes. To develop a scale in a more objective and systematic approach, 86 keywords from existing 9 survey instruments were identified. The keyword network was developed based on the semantic textural similarity, and the network centrality analysis provided total 14 keywords with high centrality and degree matrics. The results can suggest some potential solutions about the lack of consistency and the wide array of constructs without adequate analytic justification in prior survey instruments. The outcomes will be utilized to develop a new integrated scale that can be generally applicable to a wide variety of automation adoption or, with slight modifications, in most trust in automation applications.
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References
Sheridan, T.B.: Task allocation and supervisory control. In: Handbook of Human-Computer Interaction. 8 (1988)
Onnasch, L., Wickens, C.D., Li, H., Manzey, D.: Human performance consequences of stages and levels of automation: an integrated meta-analysis. Hum. Factors 56, 476–488 (2014)
Jeong, H., Park, J., Park, J., Lee, B.C.: Inconsistent work performance in automation, can we measure trust in automation. Int. Robot. Autom. J. 3, 00075 (2017)
Lee, J.D., Moray, N.: Trust, self-confidence, and operators’ adaptation to automation. Int. J. Hum.-Comput. Stud. 40, 153–184 (1994)
Lee, J.D., See, K.A.: Trust in automation: designing for appropriate reliance. Hum. Factors J. Hum. Factors Ergon. Soc. 46, 50–80 (2004)
Chien, S.-Y., Lewis, M., Hergeth, S., Semnani-Azad, Z., Sycara, K.: Cross-country validation of a cultural scale in measuring trust in automation. Proc. Hum. Factors Ergon. Soc. Annu. Meet. 59, 686–690 (2015)
Singh, I.L., Molloy, R., Parasuraman, R.: Automation-induced “complacency”: development of the complacency-potential rating scale. Int. J. Aviat. Psychol. 3, 111–122 (1993)
Muir, B.M., Moray, N.: Trust in automation. Part II. Experimental studies of trust and human intervention in a process control simulation. Ergonomics 39, 429–460 (1996)
Larzelere, R.E., Huston, T.L.: The dyadic trust scale: toward understanding interpersonal trust in close relationships. J. Marriage Fam. 595–604 (1980)
Rempel, J.K., Holmes, J.G., Zanna, M.P.: Trust in close relationships. J. Pers. Soc. Psychol. 49, 95 (1985)
Doney, P.M., Cannon, J.P.: Trust in buyer-seller relationships. J. Mark. 61, 35–51 (1997)
Ganesan, S.: Determinants of long-term orientation in buyer-seller relationships. J. Mark. 1–19 (1994)
Lewis, J.D., Weigert, A.: Trust as a social reality. Soc. Forces 63, 967–985 (1985)
Mayer, R.C., Davis, J.H., Schoorman, F.D.: An integrative model of organizational trust. Acad. Manag. Rev. 20, 709–734 (1995)
Friedman, B., Khan Jr., P.H., Howe, D.C.: Trust online. Commun. ACM 43, 34–40 (2000)
Jian, J.-Y., Bisantz, A.M., Drury, C.G.: Foundations for an empirically determined scale of trust in automated systems. Int. J. Cogn. Ergon. 4, 53–71 (2000)
Madsen, M., Gregor, S.: Measuring human-computer trust. In: 11th Australasian Conference on Information Systems, pp. 6–8. Citeseer (2000)
Chien, S.-Y., Semnani-Azad, Z., Lewis, M., Sycara, K.: Towards the development of an inter-cultural scale to measure trust in automation. In: International Conference on Cross-Cultural Design, pp. 35–46. Springer (2014)
Merritt, S.M., Ilgen, D.R.: Not all trust is created equal: dispositional and history-based trust in human-automation interactions. Hum. Factors 50, 194–210 (2008)
Lee, I., Choi, B., Kim, J., Hong, S.-J.: Culture-technology fit: effects of cultural characteristics on the post-adoption beliefs of mobile Internet users. Int. J. Electron. Commer. 11, 11–51 (2007)
Hwang, Y., Lee, K.C.: Investigating the moderating role of uncertainty avoidance cultural values on multidimensional online trust. Inf. Manage. 49, 171–176 (2012)
Mcknight, D.H., Carter, M., Thatcher, J.B., Clay, P.F.: Trust in a specific technology: an investigation of its components and measures. ACM Trans. Manag. Inf. Syst. TMIS 2, 12 (2011)
Han, L., Kashyap, A.L., Finin, T., Mayfield, J., Weese, J.: UMBC_EBIQUITY-CORE: semantic textual similarity systems. In: * SEM@ NAACL-HLT, pp. 44–52 (2013)
Miller, G.A.: WordNet: a lexical database for English. Commun. ACM 38, 39–41 (1995)
Opsahl, T., Agneessens, F., Skvoretz, J.: Node centrality in weighted networks: generalizing degree and shortest paths. Soc. Netw. 32, 245–251 (2010)
Freeman, L.C.: A set of measures of centrality based on betweenness. Sociometry, 35–41 (1977)
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Jeong, H., Park, J., Park, J., Pham, T., Lee, B.C. (2019). Analysis of Trust in Automation Survey Instruments Using Semantic Network Analysis. In: Nunes, I. (eds) Advances in Human Factors and Systems Interaction. AHFE 2018. Advances in Intelligent Systems and Computing, vol 781. Springer, Cham. https://doi.org/10.1007/978-3-319-94334-3_2
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