Abstract
Under the dual background of the aging population and the rapid development of intelligent technology, the need for the elderly to integrate into the digital life is becoming more urgent. With the age increasing, the physical and psychological functions of the elderly gradually degrade, their ability to adapt to the surrounding environment has also declined, and at the same time their emotional needs have increased. This article starts with the emotional needs of the elderly, then the influencing factors of the elderly in the intelligent age has been analyzed. An active emotional interaction design strategy based on the theory of emotion recognition has been proposed, which can realize the multi-dimensional interaction of human–machine-environment and enhance the application experience of intelligent products for the elderly from the aspects of acquiring emotional needs, integrating multi-channel interaction methods and real-time multi-dimensional interactive feedback.
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References
Mauss, I.B., Levenson, R.W., Mccarter, L., et al.: The tie that binds coherence among emotion experience, behavior, and physiology. Emotion 5(2), 175–190 (2005)
Blanchette, I., Richards, A.: The influence of affect on higher level cognition: a review of research on interpretation, judgement, decision making and reasoning. Cognit. Emot. 24(4), 561–595 (2010)
Picard, R.W., Picard, R.: Affective Computing, vol. 252. MIT press, Cambridge (1997)
Susan, W.W., Lynn Abbott, A., Wieckowski, A.T., et al.: Feasibility of automated training for facial emotion expression and recognition in autism. Behav. Therapy 49(6), 881–888 (2018)
Yang, D., Alsadoon, A., Prasad, P.W.C.: An emotion recognition model based on facial recognition in virtual learning environment. Procedia Comput. Sci. 125, 2–10 (2018)
Sun, P., Mi, T.L.: Analysis of the probability characteristics of sentiment data in PAD sentiment space. In: Joint Academic Conference on Harmonious Human-Machine Environment (2008)
Qin, L.: Event-Oriented Dynamic Correlation Emotion Computing Model. Zhejiang University, Zhejiang (2003)
Cowie, R., Douglas-Cowie, E., Tsapatsoulis, N., et al.: Emotion recognition in human computer interaction. IEEE Signal Process. Mag. 18(1), 32–80 (2001)
Ledoux, J.E.: Emotion circuits in the brain. Annu. Rev. Neurosci. 23(2), 155–184 (2000)
Anderson: Heartbeat: A Guide to Emotional Interaction Design. People’s Posts and Telecommunications Press, Bei**g (2012)
Bao, Z.: User Experience Design Based on Emotion [Sense Computing]. East China University of Science and Technology (2018)
Li, M.: The emotional interaction between people and products. Hunan Agric. Mach. 11, 88–89 (2008)
Liu, L.: Classroom acoustic design and comprehensive evaluation of acoustic environment. Guangxi University, Nanning (2007)
Langer, S.K.: Philosophy in a New Key: A Study in the Symbolism of Reason, Rite, and Ritual, pp. 227, 238. Harvard University Press, Cambridge, MA, 1942
Liu, S.: Exploration of the poetic features and aesthetic value of Changzhou gardens. Art Educ. 40(17), 193–194 (2018)
Qian, Y., Liu, G., Liu, K., et al.: The influence of architectural lighting on thermal perception in the transitional season in cold regions. Illuminating Eng. J. 30(1), 104–111 (2019)
Li, X.: The Two-Way Effect of Temperature Perception and Trust: Based on the View of Embodied Cognition. Southwest University, Chongqing (2015)
Ji, X., Li, G., Dai, Z.: Research progress on influencing factors and predictive evaluation of indoor thermal environment comfort. Hygiene Res. 32(3), 295–298 (2003)
Humphreys, M.A., McCartney, K.J., Nicol, J.F., Raja, I.A.: An analysis of some observations of the finger temperature and thermal comfort of office workers. In: Proceedings of Indoor Air, pp. 602–607 (1999)
Liu, W., Lian, Z., Deng, Q.: Objective evaluation index of human thermal comfort. J. Central South Univ. 42(2), 521–526 (2011)
Bulcao, C.F., Frank, S.M., Raja, S.N., et al.: Relative contribution temperatures to thermal comfort in humans. J. Therm. Biol. 25, 147–150 (2000)
Patron, E., Messerotti-Benvenuti, S., Favretto, G., et al.: Depression and reduced heart rate variability after cardiac surgery: the mediating role of emotion regulation. Auton. Neurosci. 180, 53–58 (2014)
Wang, L., Li, J., Li, L.: Experimental research on the influence of four emotions on finger temperature, breathing and blood pressure. Chin. Behav. Med. Sci. 13(5), 499–500 (2004)
Acknowledgements
This work was supported by the Natural Science Foundation of Education Department of Shaanxi Province of China, (Grants No.19JK0584),Social Science Foundation of Shannxi Province, (Grants No.2020J040), and MOE (Ministry of Education in China) Project of Humanities and Social Sciences (17YJAZH100).
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Ge, C., Xu, B., Xue, Y., Yu, S. (2022). Research on Active Affective Interaction Interaction Design Strategies for the Elderly. In: Tan, J. (eds) Advances in Mechanical Design. ICMD 2021. Mechanisms and Machine Science, vol 111. Springer, Singapore. https://doi.org/10.1007/978-981-16-7381-8_104
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DOI: https://doi.org/10.1007/978-981-16-7381-8_104
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