Fields of interest
• Myoelectric Control Applications
• Functional Electrical Stimulations
• Wearable Devices and Sensor Integrated Systems
• Medical Software Developments
• Human-Robot interactions
• Robotic Technologies
An EMG acquisition system
An EMG-based prosthesis control system
[1] W. Aramphianlert, O.C. Aszmann, W. Mayr, “Surface EMG based muscle fatigue level estimation model towards adaptive myoelectric control of mechanical upper-limb prosthesis or neuroprostheses.”, 13th Vienna International Workshop on Functional Electrical Stimulation, Vienna, Austria, 2019.
[2] M. Baumgartner, W. Aramphianlert, W. Mayr, “Effects of muscle fatigue on classification accuracy of Pattern recognition in a myoelectric control system”, 13th Vienna International Workshop on Functional Electrical Stimulation, Vienna, Austria, 2019.
[3] W. Aramphianlert, C. Kast, C. Hofer, O. C. Aszmann, W.Mayr, “An investigation of changes in myoelectric features during muscle fatigue based on surface electromyography signal.”, World Congress on Medical Physics & Biomedical Engineering, Prague, Czech Republic, 2018.
[4] C. Kast, B. Rosenauer, H. Meisner, W. Aramphianlert, M. Krenn, C. Hofer, O. C. Aszmann, W. Mayr, “Development of a modular bionic prototype arm prosthesis integrating a closed-loop control system.”, World Congress on Medical Physics & Biomedical Engineering, Prague, Czech Republic, 2018.
[5] W. Aramphianlert, C. Kast, B. Rosenauer, H. Meisner, M. Krenn, C. Hofer, O. C. Aszmann, W. Mayr, “Development of the modularly designed myoelectric control bionic upper limb prosthesis.”, Thai Student Academic Conference (TSAC2018), Brussels, Belgium, 2018.
[6] W. Aramphianlert, C. Kast, M. Krenn, W. Mayr, “An adaptive learning agent to improve myoelectric-controlled prosthesis: concept and ideas.”, “Dreiländertagung” Swiss, Austria, and German Societies for Biomedical Engineering (BMT2016), Basel, Switzerland, 2016.
[7] C. Kast, W. Aramphianlert, M. Krenn, C. Hofer, O. C. Aszmann, W. Mayr, “Development of a closed-loop control system for upper limb prosthesis integrating electromyographic inputs and position feedback.”, “Dreiländertagung” Swiss, Austria, and German Societies for Biomedical Engineering (BMT2016), Basel, Switzerland, 2016.
[8] W. Aramphianlert, O. Kumdee, P.Ritthipravat, “Vision-based Gesture Imitation System for Robot-assisted Autism Spectrum Disorder Therapy: Chang-Tam Robo.t” in Proc. TRS Conference on Robotics and Industrial Technology (CRIT 2012), Nakhon Pathom, Thailand, 2012.
[9] W. Aramphianlert, O. Kumdee, P.Ritthipravat, “Vision-based Gesture Imitation System for Robot-assisted Autism Spectrum Disorder Therapy: Chang-Tam Robo.t” in Proc. TRS Conference on Robotics and Industrial Technology (CRIT 2012), Nakhon Pathom, Thailand, 2012.
[10] W. Aramphianlert, O. Kumdee, P. Ritthipravat, “Markerless Tracking Framework for Real-time Robot Imitation.” in Proc. The 7th Asian Conference on Computer Aided Surgery (ACCAS 2011), Bangkok, Thailand, 2011.
[11] W. Aramphianlert, P. Ritthipravat, “Real-time Hand Gesture Recognition for Control Signal Generation.” in Proc. Towards Autonomous Robotics System 2010 (TAROS 2010), University of Plymouth, United Kingdom, 2010.
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