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Journal of Medical Engineering & Technology Volume 40, 2016 - Issue 3
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Innovation

Parkinson’s disease hand tremor detection system for mobile application

Luay FraiwanBiomedical Engineering Department, Jordan University of Science & Technology, Irbid, Jordan; ;Electrical and Computer Engineering Department, Abu Dhabi University, United Arab EmiratesCorrespondence[email protected]
,
Ruba KhnoufBiomedical Engineering Department, Jordan University of Science & Technology, Irbid, Jordan;
&
Abdel Razaq MashagbehBiomedical Engineering Department, Jordan University of Science & Technology, Irbid, Jordan;
Pages 127-134 | Received 15 Nov 2015, Accepted 19 Jan 2016, Published online: 15 Mar 2016

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Aristide Merola, Andrea Sturchio, Stephanie Hacker, Santiago Serna, Joaquin A. Vizcarra, Luca Marsili, Alfonso Fasano & Alberto J. Espay. (2018) Technology-based assessment of motor and nonmotor phenomena in Parkinson disease. Expert Review of Neurotherapeutics 18:11, pages 825-845.
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Articles from other publishers (36)

Shawki Saleh, Bouchaib Cherradi, Oussama El Gannour, Soufiane Hamida & Omar Bouattane. (2023) Predicting patients with Parkinson's disease using Machine Learning and ensemble voting technique. Multimedia Tools and Applications.
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Vasileios Skaramagkas, Iro Boura, Cleanthi Spanaki, Emilia Michou, Georgios Karamanis, Zinovia Kefalopoulou & Manolis Tsiknakis. (2023) Detecting Minor Symptoms of Parkinson’s Disease in the Wild Using Bi-LSTM with Attention Mechanism. Sensors 23:18, pages 7850.
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Nazia Gillani, Tughrul Arslan & Gillian Mead. (2023) An Unobtrusive Method for Remote Quantification of Parkinson’s and Essential Tremor Using mm-Wave Sensing. IEEE Sensors Journal 23:9, pages 10118-10131.
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Tommi Gröhn, Sammeli Liikkanen, Teppo Huttunen, Mika Mäkinen, Pasi Liljeberg & Pekka Marttinen. (2023) Quantifying Movement Behavior of Chronic Low Back Pain Patients in Virtual Reality. ACM Transactions on Computing for Healthcare 4:2, pages 1-24.
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Agni Rajinikanth, Davis Kevin Clark & Marianna Evangelia Kapsetaki. (2023) A Novel System to Monitor Tic Attacks for Tourette Syndrome Using Machine Learning and Wearable Technology: Preliminary Survey Study and Proposal for a New Sensing Device. JMIR Neurotechnology 2, pages e43351.
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Minja Belić, Zaharije Radivojević, Vladislava Bobić, Vladimir Kostić & Milica Đurić-Jovičić. (2023) Quick computer aided differential diagnostics based on repetitive finger tapping in Parkinson’s disease and atypical parkinsonisms. Heliyon 9:4, pages e14824.
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Paloma Moreta-de-Esteban, Patricia Martín-Casas, Rosa María Ortiz-Gutiérrez, Sofía Straudi & Roberto Cano-de-la-Cuerda. (2023) Mobile Applications for Resting Tremor Assessment in Parkinson’s Disease: A Systematic Review. Journal of Clinical Medicine 12:6, pages 2334.
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Meijiao Wang, Chen Xu, Xiaoqiang Ji, Xiaoting Kan & Sun Qi. (2023) Design of system for parkinson's hand tremor evaluating based on machine learning. Design of system for parkinson's hand tremor evaluating based on machine learning.
Mine BOZ & Yeliz DURGUN. (2022) Parkinson hastalarının aktivitelerinin tanınmasında TinyML tabanlı uç bilişim sistemi. Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi.
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Patrícia Seixas Alves Santos, Enzo Gabriel Rocha Santos, Luis Carlos Pereira Monteiro, Bruno Lopes Santos-Lobato, Gustavo Henrique Lima Pinto, Anderson Belgamo, André Santos Cabral, Anselmo de Athayde Costa e Silva, Bianca Callegari & Givago Silva Souza. (2022) The hand tremor spectrum is modified by the inertial sensor mass during lightweight wearable and smartphone-based assessment in healthy young subjects. Scientific Reports 12:1.
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Zhiheng Xu, Bo Shen, Yilin Tang, Jianjun Wu & Jian Wang. (2022) Deep Clinical Phenotyping of Parkinson’s Disease: Towards a New Era of Research and Clinical Care. Phenomics 2:5, pages 349-361.
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Roozbeh Atri, Kevin Urban, Barbara Marebwa, Tanya Simuni, Caroline Tanner, Andrew Siderowf, Mark Frasier, Magali Haas & Lee Lancashire. (2022) Deep Learning for Daily Monitoring of Parkinson’s Disease Outside the Clinic Using Wearable Sensors. Sensors 22:18, pages 6831.
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Abdullah F. Al-Aboosi & Rainer Fink. (2022) Novel Device Used to Monitor Hand Tremors during Nocturnal Hypoglycemic Events. Inventions 7:2, pages 32.
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Susmit Tripathi, Ashwin Malhotra, Murtaza Qazi, Jingyuan Chou, Fei Wang, Samantha Barkan, Natalie Hellmers, Claire Henchcliffe & Harini Sarva. (2022) Clinical Review of Smartphone Applications in Parkinson’s Disease. The Neurologist 27:4, pages 183-193.
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A. Brindha, K.A. Sunitha & S. Robert Wilson. (2022) TREMOR CLASSIFICATION USING WEARABLE IOT BASED SENSORS. IOP Conference Series: Materials Science and Engineering 1219:1, pages 012024.
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Joseph Davids & Hutan Ashrafian. 2022. Artificial Intelligence in Medicine. Artificial Intelligence in Medicine 1675 1689 .
Minglong Sun, Amanda Watson, Gina Blackwell, Woosub Jung, Shuangquan Wang, Kenneth Koltermann, Noah Helm, Gang Zhou, Leslie Cloud & Ingrid Pretzer-Aboff. (2021) TremorSense: Tremor Detection for Parkinson's Disease Using Convolutional Neural Network. TremorSense: Tremor Detection for Parkinson's Disease Using Convolutional Neural Network.
Xinyi Wang, Saurabh Garg, Son N. Tran, Quan Bai & Jane Alty. (2021) Hand tremor detection in videos with cluttered background using neural network based approaches. Health Information Science and Systems 9:1.
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Jiao Meng, Qingran Niu, Xin Huo, Hui Zhao, Liming Zhang, Xun Wang & Yang Wang. (2021) A Detection Method for Parkinson’s Hand Tremor Based on Machine Learning. A Detection Method for Parkinson’s Hand Tremor Based on Machine Learning.
Oleg S. Levin, Olga V. Iakovleva, Irina I. Coloman & Anastasia V. Kuzmina. (2021) Could New Generations of Sensors Reshape the Management of Parkinson’s Disease?. Clinical and Translational Neuroscience 5:2, pages 18.
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Ananya Singha, Rini Smita Thakur & Tushar Patel. 2021. Biomedical Data Mining for Information Retrieval. Biomedical Data Mining for Information Retrieval 293 350 .
Farnoosh Heidarivincheh, Ryan McConville, Catherine Morgan, Roisin McNaney, Alessandro Masullo, Majid Mirmehdi, Alan L. Whone & Ian Craddock. (2021) Multimodal Classification of Parkinson’s Disease in Home Environments with Resiliency to Missing Modalities. Sensors 21:12, pages 4133.
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Jingchao Wu, Ningbo Yu, Yang Yu, Haitao Li, Fan Wu, Yuchen Yang, Jianeng Lin, Jianda Han & Siquan Liang. (2021) Intraoperative Quantitative Measurements for Bradykinesia Evaluation during Deep Brain Stimulation Surgery Using Leap Motion Controller: A Pilot Study. Parkinson's Disease 2021, pages 1-7.
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Md. Tanvir Ehsan, Md. Sakibur Rahman Sajal & Khondaker A Mamun. (2021) An automated cloud-based tool for Screening of Parkinson’s disease in Bangladesh. An automated cloud-based tool for Screening of Parkinson’s disease in Bangladesh.
Joseph Davids & Hutan Ashrafian. 2020. Artificial Intelligence in Medicine. Artificial Intelligence in Medicine 1 15 .
José Antonio Ortín, Elisabeth Bravo-Esteban, Jaime Ibáñez, Pablo Herrero, Julio Gómez-Soriano & Yolanda Marcén-Román. (2020) Effects of Deep Dry Needling on Tremor Severity and Functionality in Stroke: A Case Report. Healthcare 9:1, pages 5.
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Emilie M. J. van Brummelen, Dimitrios Ziagkos, Wadim M. I. de Boon, Ellen P. Hart, Robert J. Doll, Teppo Huttunen, Petteri Kolehmainen & Geert Jan Groeneveld. (2020) Quantification of tremor using consumer product accelerometry is feasible in patients with essential tremor and Parkinson’s disease: a comparative study. Journal of Clinical Movement Disorders 7:1.
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Yor J. Castano-Pino, Maria C. Gonzalez, Valentina Quintana-Pena, Jaime Valderrama, Beatriz Munoz, Jorge Orozco & Andres Navarro. (2020) Automatic Gait Phases Detection in Parkinson Disease: A Comparative Study. Automatic Gait Phases Detection in Parkinson Disease: A Comparative Study.
Ayse Betul Oktay & Abdulkadir Kocer. (2020) Differential diagnosis of Parkinson and essential tremor with convolutional LSTM networks. Biomedical Signal Processing and Control 56, pages 101683.
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Daniel Palacios-Alonso, Guillermo Melendez-Morales, Agustin Lopez-Arribas, Carlos Lazaro-Carrascosa, Andres Gomez-Rodellar & Pedro Gomez-Vilda. (2020) MonParLoc: A Speech-Based System for Parkinson’s Disease Analysis and Monitoring. IEEE Access 8, pages 188243-188255.
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Minja Belić, Vladislava Bobić, Milica Badža, Nikola Šolaja, Milica Đurić-Jovičić & Vladimir S. Kostić. (2019) Artificial intelligence for assisting diagnostics and assessment of Parkinson’s disease—A review. Clinical Neurology and Neurosurgery 184, pages 105442.
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Maha Alafeef & Mohammad Fraiwan. (2018) On the diagnosis of idiopathic Parkinson’s disease using continuous wavelet transform complex plot. Journal of Ambient Intelligence and Humanized Computing 10:7, pages 2805-2815.
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Guillermina Vivar, Dora-Luz Almanza-Ojeda, Irene Cheng, Juan Carlos Gomez, J. A. Andrade-Lucio & Mario-Alberto Ibarra-Manzano. (2019) Contrast and Homogeneity Feature Analysis for Classifying Tremor Levels in Parkinson’s Disease Patients. Sensors 19:9, pages 2072.
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M. Linares-del Rey, L. Vela-Desojo & R. Cano-de la Cuerda. (2019) Mobile phone applications in Parkinson's disease: a systematic review. Neurología (English Edition) 34:1, pages 38-54.
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M. Linares-del Rey, L. Vela-Desojo & R. Cano-de la Cuerda. (2019) Aplicaciones móviles en la enfermedad de Parkinson: una revisión sistemática. Neurología 34:1, pages 38-54.
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Pascal Geldsetzer, Sergio Flores, Grace Wang, Blanca Flores, Abu Bakarr Rogers, Aditi Bunker, Andrew Young Chang & Rebecca Tisdale. (2021) A Systematic Review of Healthcare Provider-Targeted Mobile Applications to Screen for, Diagnose, or Monitor Non-Communicable Diseases in Low- and Middle-Income Countries. SSRN Electronic Journal.
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