Elderly’s acceptance of companion robots from the perspective of user factors (original) (raw)

References

  1. World Health Organization.: World report on ageing and health. https://www.who.int/ageing/events/world-report-2015-launch/en/ (2015). Accessed 10 Dec 2018
  2. National Development Council.: Population estimate of the republic of Taiwan (2018–2065). https://www.ndc.gov.tw/Content_List.aspx?n=84223C65B6F94D72 (2018). Accessed 09 Dec 2018
  3. Yan, F., Yuze, C.: Quantity can be improved to build a long-term care system of sustainable development. Commun. Dev. Quart. 153, 5–18 (2015)
    Google Scholar
  4. Miskelly, F.G.: Assistive technology in elderly care. Age Ageing 30(6), 455–458 (2001). https://doi.org/10.1093/ageing/30.6.455
    Article Google Scholar
  5. Xu, Q.L., Ng, J.S.L., Tan, O.Y., Huang, Z.Y.: Needs and attitudes of Singaporeans towards home service robots: a multi-generational perspective. Univ. Access Inf. Soc. 14(4), 477–486 (2015). https://doi.org/10.1007/s10209-014-0355-2
    Article Google Scholar
  6. Graf, B., Hans, M., Schraft, R.D.: Care-O-bot II—development of a next generation robotic home assistant. Auton. Robots 16(2), 193–205 (2004)
    Article Google Scholar
  7. Esposito, R., Fiorini, L., Limosani, R., Bonaccorsi, M., Manzi, A., Cavallo, F., Dario, P.: Supporting active and healthy aging with advanced robotics integrated in smart environment. In: Artificial Intelligence: Concepts, Methodologies, Tools, and Applications, pp 2656–2686. IGI Global (2017)
  8. Vandemeulebroucke, T., de Casterle, B.D., Gastmans, C.: How do older adults experience and perceive socially assistive robots in aged care: a systematic review of qualitative evidence. Aging Ment. Health 22(2), 149–167 (2018). https://doi.org/10.1080/13607863.2017.1286455
    Article Google Scholar
  9. Broekens, J., Heerink, M., Rosendal, H.: Assistive social robots in elderly care: a review. Gerontechnology 8(2), 94–103 (2009)
    Article Google Scholar
  10. Robinson, H., MacDonald, B.A., Kerse, N., Broadbent, E.: Suitability of healthcare robots for a dementia unit and suggested improvements. J. Am. Med. Dir. Assoc. 14(1), 34–40 (2013). https://doi.org/10.1016/j.jamda.2012.09.006
    Article Google Scholar
  11. Flandorfer, P.: population ageing and socially assistive robots for elderly persons: the importance of sociodemographic factors for user acceptance. Int. J. Popul. Res. 2012, 1–13 (2012). https://doi.org/10.1155/2012/829835
    Article Google Scholar
  12. Bartlett, B., Estivill-Castro, V., Seymon, S., Tourky, A.: Robots for pre-orientation and interaction of toddlers and preschoolers who are blind. In: Proceedings of the 2003 Australasian Conference on Robotics and Automation, CD-Rom Proceedings, Citeseer, pp. 0–9587
  13. Breazeal, C.L.: Designing Sociable Robots. MIT press, Cambridge (2004)
    Book Google Scholar
  14. Frennert, S., Östlund, B., Eftring, H.: Would granny let an assistive robot into her home? In: International Conference on Social Robotics, pp. 128–137. Springer
  15. Wu, Y.H., Cristancho-Lacroix, V., Fassert, C., Faucounau, V., de Rotrou, J., Rigaud, A.S.: The attitudes and perceptions of older adults with mild cognitive impairment toward an assistive robot. J. Appl. Gerontol. 35(1), 3–17 (2016). https://doi.org/10.1177/0733464813515092
    Article Google Scholar
  16. Zsiga, K., Edelmayer, G., Rumeau, P., Peter, O., Toth, A., Fazekas, G.: Home care robot for socially supporting the elderly: focus group studies in three European countries to screen user attitudes and requirements. Int. J. Rehabil. Res. 36(4), 375–378 (2013). https://doi.org/10.1097/MRR.0b013e3283643d26
    Article Google Scholar
  17. Wu, Y.-h., Wrobel, J., Cornuet, M., Kerhervé, H., Damnée, S., Rigaud, A.-S.: Acceptance of an assistive robot in older adults: a mixed-method study of human–robot interaction over a 1-month period in the Living Lab setting. Clin. Interv. Aging 9, 801 (2014)
    Article Google Scholar
  18. Pino, M., Boulay, M., Jouen, F., Rigaud, A.S.: “Are we ready for robots that care for us?” Attitudes and opinions of older adults toward socially assistive robots. Front. Aging Neurosci. 7, 15 (2015). https://doi.org/10.3389/fnagi.2015.00141
    Article Google Scholar
  19. Broadbent, E., Stafford, R., MacDonald, B.: Acceptance of healthcare robots for the older population: review and future directions. Int. J. Soc. Robot. 1(4), 319–330 (2009). https://doi.org/10.1007/s12369-009-0030-6
    Article Google Scholar
  20. Wada, K., Shibata, T., Saito, T., Tanie, K.: Effects of robot assisted activity to elderly people who stay at a health service facility for the aged. In: Proceedings. 2003 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2003), pp. 2847–2852. IEEE
  21. Shibata, T., Tanie, K.: Influence of a priori knowledge in subjective interpretation and evaluation by short-term interaction with mental commit robot. In: Proceedings 2000 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2000), pp. 169–174. IEEE (2000)
  22. Wada, K., Shibata, T., Musha, T., Kimura, S.: Effects of robot therapy for demented patients evaluated by EEG. In: IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2005), pp. 1552–1557. IEEE (2005)
  23. McGlynn, S.A., Kemple, S., Mitzner, T.L., King, C.H.A., Rogers, W.A.: Understanding the potential of PARO for healthy older adults. Int. J. Hum. Comput. Stud. 100, 33–47 (2017). https://doi.org/10.1016/j.ijhcs.2016.12.004
    Article Google Scholar
  24. Zsiga, K., Toth, A., Pilissy, T., Peter, O., Denes, Z., Fazekas, G.: Evaluation of a companion robot based on field tests with single older adults in their homes. Assist. Technol. 30(5), 259–266 (2018). https://doi.org/10.1080/10400435.2017.1322158
    Article Google Scholar
  25. Prakash, A., Rogers, W.A.: Why some humanoid faces are perceived more positively than others: effects of human-likeness and task. Int. J. Soc. Robot. 7(2), 309–331 (2015). https://doi.org/10.1007/s12369-014-0269-4
    Article Google Scholar
  26. Chen, T.L., Bhattacharjee, T., Beer, J.M., Ting, L.H., Hackney, M.E., Rogers, W.A., Kemp, C.C.: Older adults’ acceptance of a robot for partner dance-based exercise. PLoS ONE 12(10), 29 (2017). https://doi.org/10.1371/journal.pone.0182736
    Article Google Scholar
  27. Cortellessa, G., Scopelliti, M., Tiberio, L., Svedberg, G.K., Loutfi, A., Pecora, F.: A cross-cultural evaluation of domestic assistive robots. In: AAAI Fall Symposium: AI in Eldercare: New Solutions to Old Problems, pp. 24–31 (2008)
  28. Kowalewski, S., Wilkowska, W., Ziefle, M.: Accounting for user diversity in the acceptance of medical assistive technologies. In: International Conference on Electronic Healthcare, pp 175–183. Springer (2010)
  29. Van Dijk, J.A.: Digital divide research, achievements and shortcomings. Poetics 34(4–5), 221–235 (2006)
    Article Google Scholar
  30. Broadbent, E., Garrett, J., Jepsen, N., Li Ogilvie, V., Ahn, H.S., Robinson, H., Peri, K., Kerse, N., Rouse, P., Pillai, A., MacDonald, B.: Using robots at home to support patients with chronic obstructive pulmonary disease: pilot randomized controlled trial. J. Med. Internet Res. 20(2), 15 (2018). https://doi.org/10.2196/jmir.8640
    Article Google Scholar
  31. Mitzner, T.L., Boron, J.B., Fausset, C.B., Adams, A.E., Charness, N., Czaja, S.J., Dijkstra, K., Fisk, A.D., Rogers, W.A., Sharit, J.: Older adults talk technology: technology usage and attitudes. Comput. Hum. Behav. 26(6), 1710–1721 (2010). https://doi.org/10.1016/j.chb.2010.06.020
    Article Google Scholar
  32. Smarr, C.-A., Prakash, A., Beer, J.M., Mitzner, T.L., Kemp, C.C., Rogers, W.A.: Older adults’ preferences for and acceptance of robot assistance for everyday living tasks. In: Proceedings of the Human Factors and Ergonomics Society Annual Meeting, vol. 1, pp. 153–157. SAGE Publications Sage CA, Los Angeles (2012)
  33. Marcel, I.: Patient and staff acceptance of robotic technology in occupational therapy: a pilot study. J. Rehabil. Res. Dev. 28(2), 33–34 (1991). https://doi.org/10.1682/JRRD.1991.04.0033
    Article Google Scholar
  34. Koay, K.L., Syrdal, D.S., Walters, M.L., Dautenhahn, K.: Living with robots: investigating the habituation effect in participants’ preferences during a longitudinal human–robot interaction study. In: The 16th IEEE International Symposium on Robot and Human interactive Communication, 2007. RO-MAN 2007, pp. 564–569. IEEE (2007)
  35. Czaja, S.J., Charness, N., Fisk, A.D., Hertzog, C., Nair, S.N., Rogers, W.A., Sharit, J.: Factors predicting the use of technology: findings from the center for research and education on aging and technology enhancement (CREATE). Psychol. Aging 21(2), 333–352 (2006). https://doi.org/10.1037/0882-7974.21.2.333
    Article Google Scholar
  36. Ellis, R.D., Allaire, J.C.: Modeling computer interest in older adults: the role of age, education, computer knowledge, and computer anxiety. Hum. Factors 41(3), 345–355 (1999). https://doi.org/10.1518/001872099779610996
    Article Google Scholar
  37. Sugiyama, S., Vincent, J.: Social robots and emotion: transcending the boundary between humans and ICTs. Intervalla 1, 1–6 (2013)
    Google Scholar
  38. Heerink, M., Krose, B., Evers, V., Wielinga, B.: Assessing acceptance of assistive social agent technology by older adults: the Almere model. Int. J. Soc. Robot. 2(4), 361–375 (2010). https://doi.org/10.1007/s12369-010-0068-5
    Article Google Scholar
  39. Smarr, C.A., Mitzner, T.L., Beer, J.M., Prakash, A., Chen, T.L., Kemp, C.C., Rogers, W.A.: Domestic robots for older adults: attitudes, preferences, and potential. Int. J. Soc. Robot. 6(2), 229–247 (2014). https://doi.org/10.1007/s12369-013-0220-0
    Article Google Scholar
  40. Dillon, A.: User acceptance of information technology. In: Encyclopedia of Human Factors and Ergonomics. Taylor and Francis, London (2001). http://hdl.handle.net/10150/105880
  41. Chang, R.C.S., Lu, H.P., Yang, P.S.: Stereotypes or golden rules? Exploring likable voice traits of social robots as active aging companions for tech-savvy baby boomers in Taiwan. Comput. Hum. Behav. 84, 194–210 (2018). https://doi.org/10.1016/j.chb.2018.02.025
    Article Google Scholar
  42. Heerink, M.: Exploring the influence of age, gender, education and computer experience on robot acceptance by older adults. In: Proceedings of the 6th International Conference on Human–Robot Interaction, pp. 147–148. ACM (2011)
  43. Ezer, N., Fisk, A.D., Rogers, W.A.: Attitudinal and intentional acceptance of domestic robots by younger and older adults. In: International Conference on Universal Access in Human–Computer Interaction, pp. 39–48. Springer (2009)
  44. Arras, K.O., Cerqui, D.: Do we want to share our lives and bodies with robots? A 2000 people survey: a 2000-people survey. Technical Report 605 (2005)
  45. Heerink, M., Krose, B., Evers, V., Wielinga, B.: Measuring acceptance of an assistive social robot: a suggested toolkit. In: RO-MAN 2009—The 18th IEEE International Symposium on Robot and Human Interactive Communication, pp. 528–533. IEEE (2009)
  46. Nomura, T., Kanda, T., Suzuki, T., Kato, K.: Prediction of human behavior in human–robot interaction using psychological scales for anxiety and negative attitudes toward robots. IEEE Trans. Robot. 24(2), 442–451 (2008)
    Article Google Scholar
  47. Young, J.E., Hawkins, R., Sharlin, E., Igarashi, T.: Toward acceptable domestic robots: applying insights from social psychology. Int. J. Soc. Robot. 1(1), 95–108 (2009). https://doi.org/10.1007/s12369-008-0006-y
    Article Google Scholar
  48. Yang, H.-d., Yoo, Y.: It’s all about attitude: revisiting the technology acceptance model. Decis. Support Syst. 38(1), 19–31 (2004)
    Article Google Scholar
  49. Santos, J.R.A.: Cronbach’s alpha: a tool for assessing the reliability of scales. J. Ext. 37(2), 1–5 (1999)
    Google Scholar
  50. Park, E., Kwon, S.J.: The adoption of teaching assistant robots: a technology acceptance model approach. Progr. Electron. Libr. Inf. Syst. 50(4), 354–366 (2016). https://doi.org/10.1108/prog-02-2016-0017
    Article Google Scholar
  51. Ezer, N., Fisk, A.D., Rogers, W.A.: More than a servant: self-reported willingness of younger and older adults to having a robot perform interactive and critical tasks in the home. In: Proceedings of the Human Factors and Ergonomics Society Annual Meeting, vol 2, pp. 136–140. SAGE Publications Sage CA, Los Angeles (2009)
  52. Bevilacqua, R., Di Rosa, M., Felici, E., Stara, V., Barbabella, F., Rossi, L.: Towards an impact assessment framework for ICT-based systems supporting older people: making evaluation comprehensive through appropriate concepts and metrics. In: Longhi, S., Siciliano, P., Germani, M., Monteriù, A. (eds.) Ambient Assisted Living, pp 215–222. Springer, Cham (2014). https://doi.org/10.1007/978-3-319-01119-6_22
    Chapter Google Scholar
  53. Lattanzio, F., Abbatecola, A.M., Bevilacqua, R., Chiatti, C., Corsonello, A., Rossi, L., Bustacchini, S., Bernabei, R.: Advanced technology care innovation for older people in Italy: necessity and opportunity to promote health and wellbeing. J. Am. Med. Dir. Assoc. 15(7), 457–466 (2014). https://doi.org/10.1016/j.jamda.2014.04.003
    Article Google Scholar
  54. Beer, J., Prakash, A., Smarr, C., Chen, T., Hawkins, K., Nguyen, H., Rogers, W.: Older users’ acceptance of an assistive robot: attitudinal changes following brief exposure. Gerontechnology 16(1), 21–36 (2017)
    Article Google Scholar
  55. Giuliani, M.V., Scopelliti, M., Fornara, F.: Elderly people at home: technological help in everyday activities. In: IEEE International Workshop on Robot and Human Interactive Communication. ROMAN 2005, pp. 365–370. IEEE (2005)
  56. Turja, T., Van Aerschot, L., Särkikoski, T., Oksanen, A.: Finnish healthcare professionals’ attitudes towards robots: reflections on a population sample. Nurs. Open 5, 300–309 (2018)
    Article Google Scholar
  57. Hall, A.K., Backonja, U., Painter, I., Cakmak, M., Sung, M., Lau, T., Thompson, H.J., Demiris, G.: Acceptance and perceived usefulness of robots to assist with activities of daily living and healthcare tasks. Assist. Technol. 31(3), 133–140 (2017). https://doi.org/10.1080/10400435.2017.1396565
    Article Google Scholar
  58. Mitzner, T.L., Chen, T.L., Kemp, C.C., Rogers, W.A.: Identifying the potential for robotics to assist older adults in different living environments. Int. J. Soc. Robot. 6(2), 213–227 (2014). https://doi.org/10.1007/s12369-013-0218-7
    Article Google Scholar
  59. Rantanen, T., Lehto, P., Vuorinen, P., Coco, K.: The adoption of care robots in home care—a survey on the attitudes of Finnish home care personnel. J. Clin. Nurs. 27(9–10), 1846–1859 (2018)
    Article Google Scholar
  60. Dinet, J., Vivian, R.: Perception and attitudes towards anthropomorphic robots in France: validation of an assessment scale. Psychol. Fr. 60(2), 173–189 (2015). https://doi.org/10.1016/j.psfr.2015.05.002
    Article Google Scholar
  61. Tay, B., Jung, Y.B., Park, T.: When stereotypes meet robots: the double-edge sword of robot gender and personality in human–robot interaction. Comput. Hum. Behav. 38, 75–84 (2014). https://doi.org/10.1016/j.chb.2014.05.014
    Article Google Scholar
  62. Paperno, N., Rupp, M.A., Parkhurst, E.L., Maboudou-Tchao, E.M., Smither, J.A., Bricout, J., Behal, A.: Age and gender differences in performance for operating a robotic manipulator. IEEE Trans. Hum. Mach. Syst. 49(2), 137–149 (2019). https://doi.org/10.1109/thms.2019.2890855
    Article Google Scholar
  63. Lee, W.H., Lin, C.W., Shih, K.H.: A technology acceptance model for the perception of restaurant service robots for trust, interactivity, and output quality. Int. J. Mob. Commun. 16(4), 361–376 (2018). https://doi.org/10.1504/ijmc.2018.092666
    Article Google Scholar
  64. Beer, J.M., Prakash, A., Smarr, C.-A., Mitzner, T.L., Kemp, C.C., Rogers, W.A.: Commanding your robot older adults’ preferences for methods of robot control. In: Proceedings of the Human Factors and Ergonomics Society Annual Meeting, vol. 1, pp. 1263–1267. SAGE Publications Sage CA, Los Angeles (2012)

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