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Exploring Low-Cost Mobile Manipulation for Elder Care Within a Community Based Setting

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Abstract

This paper identifies tasks an affordable mobile manipulator service robot could do to benefit older adults’ independence in a supportive apartment living facility, and a series of tests validating the highest ranked tasks. Previous deployments considered a mobile only robotic base, performing exercises through walking encouragement and hydration by water delivery, both followed by pain assessment and are briefly described. Current tests investigated the efficacy of mobile manipulation tasks by adapting a novel, low-cost telescopic robotic arm to the same mobile base, with aspects of human-robot interaction investigated through a physical interactive game with the older adults. All deployments took place at a Program of All-inclusive Care (PACE) center and interactions were evaluated by two observers, along with post-interaction surveys with the older adults. Previous work on elder care robotics is discussed. Results of the mobile manipulation deployments, along with design guidelines are presented. Future work includes the development of a new mobile manipulator capable of performing the investigated tasks with a greater level of autonomy and efficiency.

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References

  1. Spijker, J., MacInnes, J.: Population ageing: the timebomb that isn’t?. Bmj 347, f6598 (2013)

    Article  Google Scholar 

  2. Robinson, H., MacDonald, B., Kerse, N., Broadbent, E.: The psychosocial effects of a companion robot: a randomized controlled trial. J. Am. Med. Dir. Assoc. 14(9), 661–667 (2013)

    Article  Google Scholar 

  3. Banks, M.R., Willoughby, L.M., Banks, W.A.: Animal-assisted therapy and loneliness in nursing homes: use of robotic versus living dogs. J. Am. Med. Dir. Assoc. 9(3), 173–177 (2008)

    Article  Google Scholar 

  4. King, C. -H., Chen, T.L., Jain, A., Kemp, C.C.: Towards an assistive robot that autonomously performs bed baths for patient hygiene. In: 2010 IEEE/RSJ international conference on intelligent robots and systems (IROS), pp. 319–324. IEEE (2010)

  5. Pineau, J., Montemerlo, M., Pollack, M., Roy, N., Thrun, S.: Towards robotic assistants in nursing homes: Challenges and results. Robot. Auton. Syst. 42(3-4), 271–281 (2003)

    Article  Google Scholar 

  6. 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)

    Article  Google Scholar 

  7. McColl, D., Nejat, G.: Meal-time with a socially assistive robot and older adults at a long-term care facility. Journal of Human-Robot Interaction 2(1), 152–171 (2013)

    Article  Google Scholar 

  8. Broekens, J., Heerink, M., Rosendal, H., et al.: Assistive social robots in elderly care: a review. Gerontechnology 8(2), 94–103 (2009)

    Article  Google Scholar 

  9. Feil-Seifer, D., Mataric, M.J.: Defining socially assistive robotics. In: 9th international conference on rehabilitation robotics ICORR 2005, pp. 465–468. IEEE (2005)

  10. Johnson, M.J., Johnson, M.A., Sefcik, J.S., Cacchione, P.Z., Mucchiani, C., Lau, T., Yim, M.: Task and design requirements for an affordable mobile service robot for elder care in an all-inclusive care for elders assisted-living setting. Int. J. Soc. Robot. 2017, 1–20 (2017)

    Google Scholar 

  11. Sefcik, J.S., Johnson, M.J., Yim, M., Lau, T., Vivio, N., Mucchiani, C., Cacchione, P.Z.: Stakeholders’ perceptions sought to inform the development of a low-cost mobile robot for older adults: A qualitative descriptive study. Clin. Nurs. Res. 27(1), 61–80 (2018)

    Article  Google Scholar 

  12. Mucchiani, C., Sharma, S., Johnson, M., Sefcik, J., Vivio, N., Huang, J., Cacchione, P., Johnson, M., Rai, R., Canoso, A., et al.: Evaluating older adults’ interaction with a mobile assistive robot. In: IEEE/RSJ international conference on intelligent robots and systems IROS (2017)

  13. Louie, W.-Y. G., Li, J., Vaquero, T., Nejat, G.: A focus group study on the design considerations and impressions of a socially assistive robot for long-term care. In: 2014 RO-MAN: The 23rd IEEE international symposium on robot and human interactive communication, pp. 237–242. IEEE (2014)

  14. Sabanovic, S., Bennett, C.C., Chang, W.-L., Huber, L.: Paro robot affects diverse interaction modalities in group sensory therapy for older adults with dementia. In: 2013 IEEE international conference on rehabilitation robotics (ICORR), pp. 1–6. IEEE (2013)

  15. Libin, A., Cohen-Mansfield, J.: Therapeutic robocat for nursing home residents with dementia: preliminary inquiry. American Journal of Alzheimer’s Disease & Other Dementias\(^{{\circledR }}\)19(2), 111–116 (2004)

    Article  Google Scholar 

  16. Tapus, A., Tapus, C., Mataric, M.J.: The use of socially assistive robots in the design of intelligent cognitive therapies for people with dementia. In: ICORR IEEE international conference on rehabilitation robotics, 2009, pp. 924–929. IEEE (2009)

  17. Tapus, A., Tapus, C., Mataric, M.: Music therapist robot for people suffering from dementia: Longitudinal study. Alzheimer’s & Dementia:, The Journal of the Alzheimer’s Association 5(4), P338 (2009)

    Article  Google Scholar 

  18. Chan, J., Nejat, G.: Promoting engagement in cognitively stimulating activities using an intelligent socially assistive robot. In: IEEE/ASME international conference on advanced intelligent mechatronics (AIM), pp. 533–538. IEEE (2010)

  19. Begum, M., Wang, R., Huq, R., Mihailidis, A.: Performance of daily activities by older adults with dementia: The role of an assistive robot. In: 2013 IEEE international conference on rehabilitation robotics (ICORR), pp. 1–8 IEEE (2013)

  20. Takagi, M., Takahashi, Y., Komeda, T.: A universal mobile robot for assistive tasks. In: ICORR IEEE international conference on rehabilitation robotics, 2009, pp. 524–528. IEEE (2009)

  21. Solis, J., Teshome, T.D., De la Rosa, J.P.: Towards developing a multipurpose assistive vehicle robot capable of providing assistance to caregivers and support to elderly people. In: IEEE international conference on automation science and engineering (CASE), pp. 1145–1150. IEEE (2015)

  22. Jayawardena, C., Kuo, I. -H., Broadbent, E., MacDonald, B.A.: Socially assistive robot healthbot: Design, implementation, and field trials. IEEE Syst. J. 10(3), 1056–1067 (2016)

    Article  Google Scholar 

  23. Jayawardena, C., Kuo, I., Datta, C., Stafford, R., Broadbent, E., MacDonald, B.: Design, implementation and field tests of a socially assistive robot for the elderly: Healthbot version 2. In: 2012 4th IEEE RAS & EMBS international conference on biomedical robotics and biomechatronics (BioRob), pp. 1837–1842. IEEE (2012)

  24. Gross, H. -M., Schroeter, C., Mueller, S., Volkhardt, M., Einhorn, E., Bley, A., Martin, C., Langner, T., Merten, M.: Progress in developing a socially assistive mobile home robot companion for the elderly with mild cognitive impairment. In: IEEE/RSJ international conference on intelligent robots and systems (IROS), pp. 2430–2437. IEEE (2011)

  25. Canal, G., Alenya, G., Torras, C.: A taxonomy of preferences for physically assistive robots

  26. Remazeilles, A., Leroux, C., Chalubert, G.: Sam: a robotic butler for handicapped people. In: The 17th IEEE international symposium on robot and human interactive communication, RO- MAN 2008, pp. 315–321. IEEE (2008)

  27. Van der Loos, H.M., Wagner, J.J., Smaby, N., Chang, K., Madrigal, O., Leifer, L.J., Khatib, O.: Provar assistive robot system architecture. In: 1999 Proceedings IEEE international conference on robotics and automation, vol. 1, pp. 741–746. IEEE (1999)

  28. Taipalus, T., Kosuge, K.: Development of service robot for fetching objects in home environment. In: 2005 Proceedings IEEE international symposium on computational intelligence in robotics and automation, CIRA 2005, pp. 451–456. IEEE (2005)

  29. Ciocarlie, M., Hsiao, K., Leeper, A., Gossow, D.: Mobile manipulation through an assistive home robot. In: 2012 IEEE/RSJ international conference on intelligent robots and systems (IROS), pp. 5313–5320. IEEE (2012)

  30. Reiser, U., Connette, C., Fischer, J., Kubacki, J., Bubeck, A., Weisshardt, F., Jacobs, T., Parlitz, C., Hagelë, M., Verl, A.: Care-o-bot3 - creating a product vision for service robot applications by integrating design and technology. In: 2009 IEEE/RSJ international conference on intelligent robots and systems, pp. 1992–1998 (2009)

  31. Bethell, H.: The health benefits of exercise for older people, GM: Midlife & Beyond (2010)

  32. Kaneshige, Y., Nihei, M., Fujie, M.G.: Development of new mobility assistive robot for elderly people with body functional control. In: The 1st IEEE/RAS-EMBS international conference on biomedical robotics and biomechatronics, 2006. BioRob 2006, pp. 118–123 IEEE (2006)

  33. Fasola, J., Mataric, M.J.: Robot exercise instructor: A socially assistive robot system to monitor and encourage physical exercise for the elderly. In: RO-MAN, 2010 IEEE, pp. 416–421. IEEE (2010)

  34. Sheu, F. -R., Lee, Y. -L., Hsu, H. -T., Chen, N. -S.: Effects of gesture-based fitness games on functional fitness of the elders. In: IEEE 15th international conference on advanced learning technologies (ICALT), pp. 158–160. IEEE (2015)

  35. Jimison, H., Pavel, M.: Embedded assessment algorithms within home-based cognitive computer game exercises for elders. In: 28th annual international conference of the IEEE engineering in medicine and biology society, 2006 EMBS’06, pp. 6101–6104. IEEE (2006)

  36. Lunardini, F., Basilico, N., Ambrosini, E., Essenziale, J., Mainetti, R., Pedrocchi, A., Daniele, K., Marcucci, M., Mari, D., Ferrante, S., et al.: Exergaming for balance training, transparent monitoring, and social inclusion of community-dwelling elderly. In: 2017 IEEE 3rd international forum on research and technologies for society and industry (RTSI), pp. 1–5. IEEE (2017)

  37. Lim, J.H., Zhan, A., Ko, J., Terzis, A., Szanton, S., Gitlin, L.: A closed-loop approach for improving the wellness of low-income elders at home using game consoles. IEEE Commun. Mag. 50(1), 44–51 (2012)

    Article  Google Scholar 

  38. Heerink, M., Kröse, 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)

    Article  Google Scholar 

  39. Collins, F., Yim, M.: Design of a spherical robot arm with the spiral zipper prismatic joint. In: 2016 IEEE international conference on robotics and automation (ICRA), pp. 2137–2143. IEEE (2016)

  40. Folstein, M.F., Folstein, S.E., McHugh, P.R.: Mini-mental state: a practical method for grading the cognitive state of patients for the clinician. J. Psychiatr. Res. 12(3), 189–198 (1975)

    Article  Google Scholar 

  41. Taggart, W., Turkle, S., Kidd, C.D.: An interactive robot in a nursing home: Preliminary remarks. Towards Social Mechanisms of Android Science 2005, 56–61 (2005)

    Google Scholar 

  42. Abdollahi, H., Mollahosseini, A., Lane, J.T., Mahoor, M.H.: A pilot study on using an intelligent life-like robot as a companion for elderly individuals with dementia and depression. In: 2017 IEEE-RAS 17th international conference on humanoid robotics (Humanoids), pp. 541–546. IEEE (2017)

  43. Shiomi, M., Iio, T., Kamei, K., Sharma, C., Hagita, N.: Effectiveness of social behaviors for autonomous wheelchair robot to support elderly people in japan. PLOS ONE 05, 1–15 (2015)

    Google Scholar 

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Authors and Affiliations

  1. Philadelphia, USA

    Caio Mucchiani, Pamela Cacchione, Wilson Torres, Michelle J. Johnson & Mark Yim

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  1. Caio Mucchiani
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  2. Pamela Cacchione
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  4. Michelle J. Johnson
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Mucchiani, C., Cacchione, P., Torres, W. et al. Exploring Low-Cost Mobile Manipulation for Elder Care Within a Community Based Setting. J Intell Robot Syst 98, 59–70 (2020). https://doi.org/10.1007/s10846-019-01041-x

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  • DOI: https://doi.org/10.1007/s10846-019-01041-x

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