Some key requirements for a sensor to qualify as a wearable sensor include biocompatibility, aesthetics, comfort, reliable sensing, and signal reliability. The last three are essential factors for acquiring continuous and stable data from a human body. [5] Textile-based sensors are often developed through techniques [6,7] with certain limitations in creating free-form sensor designs because of their complex manufacturing processes. Machine stitching has recently been studied as a potentially scalable method to fabricate textile-based sensors. [8] Different stitch classes have been investigated to study the impact of loop-based stitch structures on the performance of sensors. [9] Also, the effect of stitching parameters on the sensing performance of piezoresistive sensors has been studied. [10] Developing a high-performance textile-based pressure sensor requires an electrically conductive textile medium (fibers, yarn, or fabric) with durability against external forces. [11] Conventional textiles are nonconductive materials and require some practical