تفاصيل الأصول
هل ترغب في حجز الكتاب؟
Adapting myoelectric control in real-time using a virtual environment
لقد وضعنا الحجز لك!
بالمناسبة ، لماذا لا تستكشف الفعاليات التي يمكنك حضورها عند زيارتك للمكتبة لإستلام كتبك
هل أنت متأكد أنك تريد إزالة الكتاب من الرف؟
Adapting myoelectric control in real-time using a virtual environment
هل تريد طلب الكتاب؟
Adapting myoelectric control in real-time using a virtual environment
يرجى العلم أن الكتاب الذي طلبته لا يمكن استعارته. إذا كنت ترغب في إستعارة هذا الكتاب ، يمكنك حجز نسخة أخرى
Journal Article
Adapting myoelectric control in real-time using a virtual environment
2019
نظرة عامة
Pattern recognition technology allows for more intuitive control of myoelectric prostheses. However, the need to collect electromyographic data to initially train the pattern recognition system, and to re-train it during prosthesis use, adds complexity that can make using such a system difficult. Although experienced clinicians may be able to guide users to ensure successful data collection methods, they may not always be available when a user needs to (re)train their device.
Here we present an engaging and interactive virtual reality environment for optimal training of a myoelectric controller. Using this tool, we evaluated the importance of training a classifier actively (i.e., moving the residual limb during data collection) compared to passively (i.e., maintaining the limb in a single, neutral orientation), and whether computational adaptation through serious gaming can improve performance.
We found that actively trained classifiers performed significantly better than passively trained classifiers for non-amputees (P < 0.05). Furthermore, collecting data passively with minimal instruction, paired with computational adaptation in a virtual environment, significantly improved real-time performance of myoelectric controllers.
These results further support previous work which suggested active movements during data collection can improve pattern recognition systems. Furthermore, adaptation within a virtual guided serious game environment can improve real-time performance of myoelectric controllers.
