Designed By: Shanel Wu; Warps: 230; Shuttles: 6
This Multi-Component Weave design shows how a woven smart textile can be a complete embedded system, handling real-time inputs and outputs to achieve a specific function. The weaving integrates a sensor input (pressure) and an output (color change) into the fabric structure, while creating a pocket for an external PCB (e.g. an Arduino microprocessor) to integrate processing. This mixture of techniques and materials demonstrates how the weaving process can be used to develop complex, multi-functional smart textiles. The color-changing region has been documented in other projects, but I describe the pressure sensor and pocket in more detail below.
The pressure sensor was created with a woven structure (stitch) called waffle weave. Waffle weave is a textured structure often used in towels because its airiness makes it highly absorbent. When woven using a conductive yarn along with a non-conductive yarn (I used stainless steel with 10/2 Pearl cotton yarn), the structure is highly resistive when uncompressed, and then decreases significantly in resistance when compressed. This pressure-sensing fabric references the work on this Kobakant page.
The pocket was created using double weave. Double weaving is a class of woven structure that allows two layers of fabric to be woven simultaneously, making pockets, tunnels, and other topologies possible. During weaving, the pocket was also separated into two shuttles to create a slit for easy access to the microcontroller’s power switch.
Currently, there is no large, “master” draft for this piece. Because I was using a non-digital loom, I found it more helpful to use small unit drafts to represent certain sections as instructions for myself. The files are bitmaps of these unit drafts.