With the advent of the Internet of Everything, people can easily interact with their
environments immersively. The idea of pervasive computing is becoming a reality, but due to …

The expansion of touch-sensitive technologies, ranging from smartwatches to wall screens,
triggered a wider use of gesture-based user interfaces and encouraged researchers to …

Since the launch of Google Glass in 2014, smart glasses have mainly been designed to
support micro-interactions. The ultimate goal for them to become an augmented reality …

With the recent interest in wearable electronics and smart garments, digital fabrication of
sensing and interactive textiles is in increasing demand. Recently, advances in digital …

Over the last decades, there have been numerous efforts in wearable computing research to
enable interactive textiles. Most work focus, however, on integrating sensors for planar touch …

Past research regarding on-body interaction typically requires custom sensors, limiting their
scalability and generalizability. We propose EarBuddy, a real-time system that leverages the …

We present a method for enabling arbitrary textiles to sense pressure and deformation: In-
situ polymerization supports integration of piezoresistive properties at the material level …

We present a novel method for augmenting arbitrary fabrics with textile-based pressure
sensors using an off-the-shelf embroidery machine. We apply resistive textiles and …

Input is a significant problem for wearable systems, particularly for head mounted virtual and
augmented reality displays. Existing input techniques either lack expressive power or may …

We present RESi (Resistive tExtile Sensor Interfaces), a novel sensing approach enabling a
new kind of yarn-based, resistive pressure sensing. The core of RESi builds on a newly …