@article{discovery10163691,
            note = {This version is the author accepted manuscript. For information on re-use, please refer to the publisher's terms and conditions.},
           title = {Knitted ECG electrodes in relaxed fitting garments},
            year = {2023},
       publisher = {Institute of Electrical and Electronics Engineers (IEEE)},
           pages = {1--1},
         journal = {IEEE Sensors Journal},
             url = {https://doi.org/10.1109/JSEN.2023.3236723},
        abstract = {A wide range of signal quality indices (SQIs) related to statistical methods, are used to guide the optimisation process of knitted textile electrodes for ECG recordings. The electrode structure and composition as well as their integration into a garment are evaluated in view of a fully knitted garment. The dry electrodes with the best SQIs are obtained by using conductive yarn only with a compact knit structure and a medium level of roughness. The best SQIs for the e-garment were obtained by sewing electrodes at their edges only, into the knitted garment. This implementation outperforms the intarsia and double-knit method as it allows the garment some independent movement from the electrodes, reducing motion artifacts. Tests done on a healthy volunteer demonstrate excellent system performance under gentle ambulation. The advantage of using SQIs in the optimisation process of dry textile ECG electrodes is that they offer a quantitative benchmark against which to compare other approaches. The fully knitted clothing allows for more relaxed e-garments when gentle ambulation is considered.},
          author = {Fobelets, Kristel and Hammour, Ghena and Thielemans, Kris},
        keywords = {Electrodes,
Electrocardiography,
Yarn,
Recording,
Clothing,
Signal to noise ratio,
Heart}
}