《中国康复理论与实践》 ›› 2025, Vol. 31 ›› Issue (2): 158-164.doi: 10.3969/j.issn.1006-9771.2025.02.005
收稿日期:
2024-08-26
修回日期:
2024-11-05
出版日期:
2025-02-25
发布日期:
2025-02-25
通讯作者:
王崇高(1989-),男,汉族,河南南阳市人,博士,讲师,主要研究方向:特殊儿童认知与心理发展,E-mail: wchonggao@ccnu.edu.cn。
作者简介:
向松柏(1989-),男,汉族,四川巴中市人,博士,副教授,主要研究方向:孤独症儿童社会性发展。
基金资助:
XIANG Songbai1,2, ZHOU Wenhui3, WANG Chonggao3()
Received:
2024-08-26
Revised:
2024-11-05
Published:
2025-02-25
Online:
2025-02-25
Contact:
WANG Chonggao, E-mail: wchonggao@ccnu.edu.cn
Supported by:
摘要:
目的 分析机器人应用于孤独症谱系障碍(ASD)儿童康复领域的研究现状、热点和演化趋势。
方法 检索2004年至2024年Web of Science核心合集数据库中机器人应用于ASD儿童康复领域相关文献,采用CiteSpace 6.3.R1进行分析。
结果 共纳入902篇文献。发文量呈波动上升态势,发文量最多的国家是美国,中心性最高的国家是英国。发文最多的作者是Ichiro Yoshikawa,发文量最多的机构是赫特福德大学。康复机器人、模仿能力、人机交互、共同注意和人形机器人是领域内的高频关键词和突现词。
结论 机器人在ASD儿童康复领域的研究呈上升趋势。机器人智能化程度不断提升,应用场景不断丰富,实施多模态数据的采集和分析,结合脑科学技术揭示ASD儿童与机器人交互过程中的神经机制,根据ASD儿童的特定需求开发个性化的康复方案,将成为未来研究的重点。
向松柏, 周雯慧, 王崇高. 2004年至2024年机器人在孤独症谱系障碍儿童康复中应用的文献计量分析[J]. 《中国康复理论与实践》, 2025, 31(2): 158-164.
XIANG Songbai, ZHOU Wenhui, WANG Chonggao. Application of robots in rehabilitation of children with autism spectrum disorder from 2004 to 2024: a bibliometrics analysis[J]. Chinese Journal of Rehabilitation Theory and Practice, 2025, 31(2): 158-164.
[1] | PANCERI J A C, FREITAS É, DE SOUZA J C, et al. A new socially assistive robot with integrated serious games for therapies with children with autism spectrum disorder and down syndrome: a pilot study[J]. Sensors, 2021, 21(24): 1-19. |
[2] | SCASSELLATI B. How social robots will help us to diagnose, treat, and understand autism[M]. Berlin:Springer, 2007. |
[3] | ISLAM M A, HASAN M M, DEOWAN S A. Robot-assisted training for children with autism spectrum disorder: a review[J]. J Intelligent Robot Syst, 2023, 108: 1-36. |
[4] | SARA B S, YASAR A. Robot assisted therapy for children with autism spectrum disorder: a survey[J]. Robot Autom Eng J, 2018, 2(3): 555-589. |
[5] | 陈东帆, 李睿强, 韩琨. 人形机器人技术在孤独症儿童干预中的应用[J]. 中国康复理论与实践, 2015, 21(11): 1325-1328. |
CHEN D F, LI R Q, HAN K. Application of humanoid robot in intervention for autistic children[J]. Chin J Rehabil Theory Pract, 2015, 21(11): 1325-1328. | |
[6] | KUMAZAKI H, MURAMATSU T, YOSHIKAWA Y, et al. Android robot promotes disclosure of negative narratives by individuals with autism spectrum disorders[J]. Front Psychiatry, 2022, 13: 899664. |
[7] | TAHERI A, MEGHDARI A, ALEMI M, et al. Clinical interventions of social humanoid robots in the treatment of a set of high and low functioning autistic Iranian twins[J]. Sci Iran, 2018, 25(3): 1197-1214. |
[8] | CHUNG E Y H. Robot-mediated social skill intervention programme for children with autism spectrum disorder: an ABA time-series study[J]. Int J Soc Robot, 2021, 13(5): 1095-1107. |
[9] | KOUROUPA A, LAWS K R, IRVINE K, et al. The use of social robots with children and young people on the autism spectrum: a systematic review and meta analysis[J]. PLoS One, 2022, 17(6): e0269800. |
[10] | 代美娜, 孙玉梅. 机器人应用于自闭症谱系障碍儿童干预的研究[J]. 中国特殊教育, 2019(4): 40-46. |
DAI M N, SUN Y M. The application of robots in the interventions for children with autism spectrum disorders[J]. Chin J Spec Educ, 2019(4): 40-46. | |
[11] |
高丽梅, 汪凯, 李丹丹. 社交机器人在孤独症谱系障碍儿童中的应用[J]. 心理科学进展, 2024, 32(5): 834-844.
doi: 10.3724/SP.J.1042.2024.00834 |
GAO L M, WANG K, LI D D. The application of social robots in intervention for children with autism spectrum disorders[J]. Adv Psychol Sci, 2024, 32(5): 834-844.
doi: 10.3724/SP.J.1042.2024.00834 |
|
[12] | 何文凤, 鲜国炜, 马勇. 基于文献计量分析的我国突发公共卫生事件应急治理研究现状[J]. 中国医院, 2024, 28(2): 24-28. |
HE W F, XIAN G W, MA Y. Current research status of emergency governance for public health emergencies in China based on bibliometric analysis[J]. Chin Hospit, 2024, 28(2): 24-28. | |
[13] | ROBINS B, DAUTENHAHN K, DUBOWSKI J. Does appearance matter in the interaction of children with autism with a humanoid robot?[J]. Interaction Stud, 2006, 7(3): 479-512. |
[14] | ROBINS B, DAUTENHAHN K. The role of the experimenter in HRI research: a case study evaluation of children with autism interacting with a robotic toy[C]. Roman:The 15th IEEE International Symposium on Robot and Human Interactive Communication, 2006. |
[15] | KOZIMA H, NAKAGAWA C, YASUDA Y. Interactive robots for communication-care: a case-study in autism therapy[C]. Roman: IEEE International Workshop on Robot and Human Interactive Communication, 2005. |
[16] | ROBINS B, DAUTENHAHN K, BOEKHORST R T, et al. Robotic assistants in therapy and education of children with autism: can a small humanoid robot help encourage social interaction skills?[J]. Univ Access Inform Soc, 2005, 4(2): 105-120. |
[17] | RAVINDRA P, SILVA D S, TADANO K, et al. Therapeutic-assisted robot for children with autism[C]. IEEE/RSJ International Conference on Intelligent Robots and Systems, 2009. |
[18] | ROBINS B, DICKERSON P, STRIBLING P, et al. Robot-mediated joint attention in children with autism: a case study in robot-human interaction[J]. Interact Stud, 2004, 5(2): 161-198. |
[19] | DUQUETTE A, MICHAUD F, MERCIER H. Exploring the use of a mobile robot as an imitation agent with children with low-functioning autism[J]. Auton Robot, 2008, 24: 147-157. |
[20] | FUJIMOTO I, MATSUMOTO T, DE SILVA P R S, et al. Study on an assistive robot for improving imitation skill of children with autism[M]. Singapore: Springer, 2010. |
[21] | SRINIVASAN S M, EIGSTI I M, GIFFORD T, et al. The effects of embodied rhythm and robotic interventions on the spontaneous and responsive social attention patterns of children with autism spectrum disorder: a pilot randomized controlled trial[J]. Res Autism Spectr Disord, 2016, 27: 73-87. |
[22] | PECA A, SIMUT R, PINTEA S, et al. How do typically developing children and children with autism perceive different social robots?[J]. Comput Human Behav, 2014, 41: 268-277. |
[23] | COSTA S, LEHMANN H, DAUTENHAHN K, et al. Using a humanoid robot to elicit body awareness and appropriate physical interaction in children with autism[J]. Int J Soc Robot, 2015(7): 265-278. |
[24] | PUYON M, GIANNOPULU I. Emergent emotional and verbal strategies in autism are based on multimodal interactions with toy robots in free spontaneous game play[C]. Roman:2013 IEEE, 2013. |
[25] | OZCAN B, CALIGIORE D, SPERATI V, et al. Transitional wearable companions: a novel concept of soft interactive social robots to improve social skills in children with autism spectrum disorder[J]. Int J Soc Robot, 2016, 8(4): 471-481. |
[26] | DAMM O, MALCHUS K, JAECKS P, et al. Different gaze behavior in human-robot interaction in Asperger's syndrome: an eye-tracking study[C]. IEEE International Workshop on Robot and Human Communication, 2013. |
[27] | KIM E S, BERKOVITS L D, BERNIER E P, et al. Social robots as embedded reinforcers of social behavior in children with autism[J]. J Autism Develop Disord, 2013, 43(5): 1038-1049. |
[28] | 韩保祯. 基于多模态信息融合的脑网络研究及其应用[D]. 成都: 电子科技大学, 2018. |
[29] | YUN S S, CHOI J, PARK S K, et al. Social skills training for children with autism spectrum disorder using a robotic behavioral intervention system[J]. Autism Res, 2017, 10(7): 1306-1323. |
[30] | TAKATA K, YOSHIKAWA Y, MURAMATSU T, et al. Social skills training using multiple humanoid robots for individuals with autism spectrum conditions[J]. Front Psychiatry, 2023, 14: 1168837. |
[31] | KUMAZAKI H, MURAMATSU T, YOSHIKAWA Y, et al. Enhancing communication skills of individuals with autism spectrum disorders while maintaining social distancing using two tele-operated robots[J]. Front Psychiatry, 2021, 11: 598688. |
[32] | SCASSELLATI B, BOCCANFUSO L, HUANG C M, et al. Improving social skills in children with ASD using a long-term, in-home social robot[J]. Sci Robot, 2018, 3(21): eaat7544. |
[33] | MOJTABA S, ALIREZA T, MOHAMMAD M, et al. Utilizing social virtual reality robot (V2R) for music education to children with high-functioning autism[J]. Educ Inform Technol, 2022, 27: 819-843. |
[34] |
FORBES P A G, PAN X, HAMILTON A F C. Reduced mimicry to virtual reality avatars in autism spectrum disorder[J]. J Autism Dev Disord, 2016, 46(12): 3788-3797.
pmid: 27696183 |
[35] | TARYADI B R, KURNIAWAN I. The improvement of autism spectrum disorders on children communication ability with PECS method Multimedia Augmented Reality-Based[J]. J Phys: Conf Ser, 2017, 947: 012009. |
[36] | MANJU T, PADMAVATHI S, TAMILSELVI D A. Rehabilitation therapy for autism spectrum disorder using virtual reality[C]. International Conference on Intelligent Information Technologies, 2017. |
[37] | ROSENFIELD N S, LAMKIN K, RE J, et al. A virtual reality system for practicing conversation skills for children with autism[J]. Multimodal Technol Interact, 2019, 3(2): 28. |
[38] | OSAMA H, SAMIR E S, JIHAD A, et al. Design of immersive virtual reality system to improve communication skills in individuals with autism[J]. Int J Emerg Technol Learn, 2017, 12: 50-64. |
[39] | MOGHADAS M, MORADI H. Analyzing human-robot interaction using machine vision for autism screening[C]. RSI International Conference on Robotics and Mechatronics, 2018. |
[40] | 何成刚, 朱岚涤, 汪晓鑫, 等. 机器人磨抛力主动柔顺控制研究进展[J]. 机器人技术与应用, 2024(3): 14-19. |
[41] | SCHADENBERG B R, REIDSMA D, EVERS V, et al. Predictable robots for autistic children-variance in robot behaviour, idiosyncrasies in autistic children's characteristics, and child-robot engagement[J]. ACM Transact Computer-Human Interact, 2012, 28(5): 36. |
[42] | PLIASA S, FACHANTIDIS N. Using daisy robot as a motive for children with ASD to participate in triadic activities[J]. Themes eLearning, 2019, 12(12): 35-50. |
[43] |
SALIMI Z, JENABI E, BASHIRIAN S. Are social robots ready yet to be used in care and therapy of autism spectrum disorder: a systematic review of randomized controlled trials[J]. Neurosci Biobehav Rev, 2021, 129: 1-16.
doi: 10.1016/j.neubiorev.2021.04.009 pmid: 33862066 |
[44] |
MATSUDA S, NUNEZ E, HIROKAWA M, et al. Facilitating social play for children with PDDs: effects of paired robotic devices[J]. Front Psychol, 2017, 8: 1029.
doi: 10.3389/fpsyg.2017.01029 pmid: 28701971 |
[45] |
SIMUT R E, VANDERFAEILLIE J, PECA A, et al. Children with autism spectrum disorders make a fruit salad with Probo, the social robot: an interaction study[J]. J Autism Dev Disord, 2016, 46: 113-126.
doi: 10.1007/s10803-015-2556-9 pmid: 26304031 |
[46] | SALEH M A, HANAPIAH F A, HASHIM H. Robot applications for autism: a comprehensive review[J]. Disabil Rehabil Assist Tech, 2021, 16(6): 580-602. |
[47] | SYRIOPOULOU-DELLI C K, GKIOLNTA E. Review of assistive technology in the training of children with autism spectrum disorders[J]. Int J Develop Disabil, 2022, 68(2): 73-85. |
[48] | FACHANTIDIS N, SYRIOPOULOU-DELLI C K, ZYGOPOULOU M. The effectiveness of socially assistive robotics in children with autism spectrum disorder[J]. Int J Develop Disabil, 2020, 66(2): 113-121. |
[49] | POPESCU A L, POPESCU N, DOBRE C, et al. IoT and AI-based application for automatic interpretation of the affective state of children diagnosed with autism[J]. Sensors, 2022, 22(7): 25-28. |
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