Comparative Study of Digital Filters for a Smart Glove Functionalized with Nanocomposite Strain Sensor

Nowadays, the demand for flexible and wearable measurement systems is significantly increasing. Thereby, sensors based on carbon nanotubes (CNT) materials are gaining importance due to their high flexibility, sensitivity and medical compatibility. Nanocomposite based strain sensors present an interesting potential of movements detection that helps to build the basis for body attached sensor networks, which have the capability for tracking finger movements, gestures and grasping. However, the output of the sensor is noisy and having outliers due to the random deformation of the CNT conductive paths during applied strain, which needs to be filtered. This paper presents S-TPU/C-TPU strain sensors attached to a glove for hand gesture recognition. A filtering study has been conducted of four digital filters for real-time processing of the recorded data (Moving average, Moving median, Savitzky-Golay, and Gaussian), which is required to improve the quality of the data for better gesture identification and classification. The filters are evaluated based on their real-time response and smoothing performance. The Savitzky-Golay filter was found to be the most suitable filter to remove the inherent noises and smooth the baseline and curves of the signal with a fast real-time response equal to 0.072s.

[1]  Olfa Kanoun,et al.  Simultaneous Pressure Sensors Monitoring System for Hand Gestures Recognition , 2020, 2020 IEEE Sensors.

[2]  B. Watanapa,et al.  Human gesture recognition using Kinect camera , 2012, 2012 Ninth International Conference on Computer Science and Software Engineering (JCSSE).

[3]  Olfa Kanoun,et al.  Electronic Motion Capture Glove based on Highly Sensitive Nanocomposite Sensors , 2019, 2019 16th International Multi-Conference on Systems, Signals & Devices (SSD).

[4]  O. Kanoun,et al.  Flexible strain sensing filaments based on styrene-butadiene-styrene co-polymer mixed with carbon particle filled thermoplastic polyurethane , 2018, International Conference Nanotechnology for Instrumentation and Measurement.

[5]  V. Correia,et al.  Polymer Nanocomposite-Based Strain Sensors with Tailored Processability and Improved Device Integration , 2018 .

[6]  O. Kanoun,et al.  Surface Electrical Impedance Myography Measurements for Recognition of Numbers in American Sign Language , 2020, 2020 IEEE International Conference on Computational Intelligence and Virtual Environments for Measurement Systems and Applications (CIVEMSA).

[7]  T. Chou,et al.  Advances in the science and technology of carbon nanotubes and their composites: a review , 2001 .

[8]  K. P. Soman,et al.  Speech Enhancement based on Savitzky Golay Smoothing Filter , 2012 .

[9]  H. Azami,et al.  An Improved Signal Segmentation Using Moving Average and Savitzky-Golay Filter , 2012 .

[10]  Olfa Kanoun,et al.  Highly Sensitive Polymer/Multiwalled Carbon Nanotubes Based Pressure and Strain Sensors for Robotic Applications , 2020, New Trends in Robot Control.

[11]  A. Savitzky,et al.  Smoothing and Differentiation of Data by Simplified Least Squares Procedures. , 1964 .

[12]  Aqsa Ali,et al.  Hand Gesture Interpretation Using Sensing Glove Integrated with Machine Learning Algorithms , 2016 .

[13]  Olfa Kanoun,et al.  Review on Conductive Polymer/CNTs Nanocomposites Based Flexible and Stretchable Strain and Pressure Sensors , 2021, Sensors.

[14]  G. Deng,et al.  An adaptive Gaussian filter for noise reduction and edge detection , 1993, 1993 IEEE Conference Record Nuclear Science Symposium and Medical Imaging Conference.

[15]  Olfa Kanoun,et al.  Muscle Movement Tracking Using Nanocomposite Based Pressure Sensor , 2019, 2019 16th International Multi-Conference on Systems, Signals & Devices (SSD).

[16]  S. Hargittai Savitzky-Golay least-squares polynomial filters in ECG signal processing , 2005, Computers in Cardiology, 2005.

[17]  Anil K. Roy,et al.  Sensor Based Hand Gesture Recognition System for English Alphabets Used in Sign Language of Deaf-Mute People , 2018, 2018 IEEE SENSORS.

[18]  Piezo-Resistive Pressure and Strain Sensors for Biomedical and Tele-Manipulation Applications , 2021 .