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For:	Giang C, Pirondini E, Kinany N, Pierella C, Panarese A, Coscia M, Miehlbradt J, Magnin C, Nicolo P, Guggisberg A, Micera S. Motor improvement estimation and task adaptation for personalized robot-aided therapy: a feasibility study. Biomed Eng Online 2020;19:33. [PMID: 32410617 DOI: 10.1186/s12938-020-00779-y] [Cited by in Crossref: 6] [Cited by in F6Publishing: 6] [Article Influence: 2.0] [Reference Citation Analysis]

For:

Giang C, Pirondini E, Kinany N, Pierella C, Panarese A, Coscia M, Miehlbradt J, Magnin C, Nicolo P, Guggisberg A, Micera S. Motor improvement estimation and task adaptation for personalized robot-aided therapy: a feasibility study. Biomed Eng Online 2020;19:33. [PMID: 32410617 DOI: 10.1186/s12938-020-00779-y] [Cited by in Crossref: 6] [Cited by in F6Publishing: 6] [Article Influence: 2.0] [Reference Citation Analysis]

Number	Citing Articles
1	Zruya O, Nisky I. Orientation control strategies and adaptation to a visuomotor perturbation in rotational hand movements. PLoS Comput Biol 2022;18:e1010248. [DOI: 10.1371/journal.pcbi.1010248] [Reference Citation Analysis]
2	Devittori G, Ranzani R, Dinacci D, Romiti D, Califfi A, Petrillo C, Rossi P, Gassert R, Lambercy O. Automatic and Personalized Adaptation of Therapy Parameters for Unsupervised Robot-Assisted Rehabilitation: a Pilot Evaluation. 2022 International Conference on Rehabilitation Robotics (ICORR) 2022. [DOI: 10.1109/icorr55369.2022.9896527] [Reference Citation Analysis]
3	Zruya O, Nisky I. Orientation control strategies and adaptation to a visuomotor perturbation in rotational hand movements.. [DOI: 10.1101/2022.05.26.493565] [Reference Citation Analysis]
4	Amiri Z, Sekhavat YA, Goljaryan S, Roohi S. KeepStep: Accommodating user diversity through individualized, projection-mapping based exergames for rehabilitation in people with multiple sclerosis. Multimed Tools Appl. [DOI: 10.1007/s11042-022-12771-w] [Reference Citation Analysis]
5	Beckers N, Marchal-crespo L. The Role of Haptic Interactions with Robots for Promoting Motor Learning. Neurorehabilitation Technology 2022. [DOI: 10.1007/978-3-031-08995-4_12] [Reference Citation Analysis]
6	Lambercy O, Lehner R, Chua K, Wee SK, Rajeswaran DK, Kuah CWK, Ang WT, Liang P, Campolo D, Hussain A, Aguirre-Ollinger G, Guan C, Kanzler CM, Wenderoth N, Gassert R. Neurorehabilitation From a Distance: Can Intelligent Technology Support Decentralized Access to Quality Therapy? Front Robot AI 2021;8:612415. [PMID: 34026855 DOI: 10.3389/frobt.2021.612415] [Cited by in Crossref: 8] [Cited by in F6Publishing: 10] [Article Influence: 4.0] [Reference Citation Analysis]
7	Guo S, Cai H, Guo J. A Novel Fuzzy Neural Network-based Rehabilitation Stage Classifying Method for the Upper Limb Rehabilitation Robotic System. 2020 IEEE International Conference on Mechatronics and Automation (ICMA) 2020. [DOI: 10.1109/icma49215.2020.9233519] [Cited by in Crossref: 1] [Cited by in F6Publishing: 1] [Article Influence: 0.3] [Reference Citation Analysis]
8	Pierella C, Pirondini E, Kinany N, Coscia M, Giang C, Miehlbradt J, Magnin C, Nicolo P, Dalise S, Sgherri G, Chisari C, Van De Ville D, Guggisberg A, Micera S. A multimodal approach to capture post-stroke temporal dynamics of recovery. J Neural Eng 2020;17:045002. [DOI: 10.1088/1741-2552/ab9ada] [Cited by in Crossref: 12] [Cited by in F6Publishing: 13] [Article Influence: 4.0] [Reference Citation Analysis]